Package evaluation of LaMEM on Julia 1.10.8 (92f03a4775*) started at 2025-02-25T17:10:25.339 ################################################################################ # Set-up # Installing PkgEval dependencies (TestEnv)... Set-up completed after 4.91s ################################################################################ # Installation # Installing LaMEM... Resolving package versions... Updating `~/.julia/environments/v1.10/Project.toml` [2e889f3d] + LaMEM v0.4.5 Updating `~/.julia/environments/v1.10/Manifest.toml` [7d9f7c33] + Accessors v0.1.41 [79e6a3ab] + Adapt v4.2.0 [66dad0bd] + AliasTables v1.1.3 [13072b0f] + AxisAlgorithms v1.1.0 [39de3d68] + AxisArrays v0.4.7 [7b0aa2c9] + BibTeX v0.1.0 [fa961155] + CEnum v0.5.0 [d360d2e6] + ChainRulesCore v1.25.1 [944b1d66] + CodecZlib v0.7.8 ⌅ [3da002f7] + ColorTypes v0.11.5 ⌃ [c3611d14] + ColorVectorSpace v0.10.0 ⌅ [5ae59095] + Colors v0.12.11 [38540f10] + CommonSolve v0.2.4 [bbf7d656] + CommonSubexpressions v0.3.1 [34da2185] + Compat v4.16.0 [a33af91c] + CompositionsBase v0.1.2 [187b0558] + ConstructionBase v1.5.8 [150eb455] + CoordinateTransformations v0.6.4 [9a962f9c] + DataAPI v1.16.0 [864edb3b] + DataStructures v0.18.20 [e2d170a0] + DataValueInterfaces v1.0.0 [8bb1440f] + DelimitedFiles v1.9.1 [163ba53b] + DiffResults v1.1.0 [b552c78f] + DiffRules v1.15.1 [b4f34e82] + Distances v0.10.12 [ffbed154] + DocStringExtensions v0.9.3 [411431e0] + Extents v0.1.5 [c87230d0] + FFMPEG v0.4.2 [5789e2e9] + FileIO v1.16.6 [1a297f60] + FillArrays v1.13.0 [53c48c17] + FixedPointNumbers v0.8.5 [f6369f11] + ForwardDiff v0.10.38 [68eda718] + GeoFormatTypes v0.4.4 [cf35fbd7] + GeoInterface v1.4.1 ⌅ [e018b62d] + GeoParams v0.6.8 [0ef565a4] + Geodesy v1.1.0 ⌅ [5c1252a2] + GeometryBasics v0.4.11 ⌃ [3700c31b] + GeophysicalModelGenerator v0.7.4 [c27321d9] + Glob v1.3.1 [615f187c] + IfElse v0.1.1 [2803e5a7] + ImageAxes v0.6.12 [c817782e] + ImageBase v0.1.7 [a09fc81d] + ImageCore v0.10.5 [82e4d734] + ImageIO v0.6.9 [bc367c6b] + ImageMetadata v0.9.10 [9b13fd28] + IndirectArrays v1.0.0 [d25df0c9] + Inflate v0.1.5 [7d512f48] + InternedStrings v0.7.0 [a98d9a8b] + Interpolations v0.15.1 [8197267c] + IntervalSets v0.7.10 [3587e190] + InverseFunctions v0.1.17 [92d709cd] + IrrationalConstants v0.2.4 [c8e1da08] + IterTools v1.10.0 [82899510] + IteratorInterfaceExtensions v1.0.0 ⌅ [033835bb] + JLD2 v0.4.54 [692b3bcd] + JLLWrappers v1.7.0 [b835a17e] + JpegTurbo v0.1.5 [49dc5b4e] + KernelDensitySJ v0.2.1 [2e889f3d] + LaMEM v0.4.5 [b964fa9f] + LaTeXStrings v1.4.0 [8cdb02fc] + LazyModules v0.3.1 [9c8b4983] + LightXML v0.9.1 [4345ca2d] + Loess v0.6.4 [2ab3a3ac] + LogExpFunctions v0.3.29 [da04e1cc] + MPI v0.20.22 [3da0fdf6] + MPIPreferences v0.1.11 [1914dd2f] + MacroTools v0.5.15 [dbb5928d] + MappedArrays v0.4.2 ⌅ [7269a6da] + MeshIO v0.4.13 [e1d29d7a] + Missings v1.2.0 [e94cdb99] + MosaicViews v0.3.4 [46d2c3a1] + MuladdMacro v0.2.4 [77ba4419] + NaNMath v1.1.2 [b8a86587] + NearestNeighbors v0.4.21 [f09324ee] + Netpbm v1.1.1 [6fe1bfb0] + OffsetArrays v1.15.0 [52e1d378] + OpenEXR v0.3.3 [bac558e1] + OrderedCollections v1.8.0 [f57f5aa1] + PNGFiles v0.4.4 [5432bcbf] + PaddedViews v0.5.12 [d96e819e] + Parameters v0.12.3 [eebad327] + PkgVersion v0.3.3 [aea7be01] + PrecompileTools v1.2.1 [21216c6a] + Preferences v1.4.3 [92933f4c] + ProgressMeter v1.10.2 [43287f4e] + PtrArrays v1.3.0 [4b34888f] + QOI v1.0.1 [b3c3ace0] + RangeArrays v0.3.2 [c84ed2f1] + Ratios v0.4.5 [dc215faf] + ReadVTK v0.2.4 [189a3867] + Reexport v1.2.2 [ae029012] + Requires v1.3.0 [f2b01f46] + Roots v2.2.5 [fdea26ae] + SIMD v3.7.1 [efcf1570] + Setfield v1.1.1 [699a6c99] + SimpleTraits v0.9.4 [45858cf5] + Sixel v0.1.3 [a2af1166] + SortingAlgorithms v1.2.1 [276daf66] + SpecialFunctions v2.5.0 [cae243ae] + StackViews v0.1.1 ⌅ [aedffcd0] + Static v0.8.10 [90137ffa] + StaticArrays v1.9.12 [1e83bf80] + StaticArraysCore v1.4.3 [82ae8749] + StatsAPI v1.7.0 [2913bbd2] + StatsBase v0.34.4 ⌅ [09ab397b] + StructArrays v0.6.21 [3783bdb8] + TableTraits v1.0.1 [bd369af6] + Tables v1.12.0 [62fd8b95] + TensorCore v0.1.1 [731e570b] + TiffImages v0.11.3 [3bb67fe8] + TranscodingStreams v0.11.3 [3a884ed6] + UnPack v1.0.2 [967fb449] + Unidecode v1.1.0 [1986cc42] + Unitful v1.22.0 [4004b06d] + VTKBase v1.0.1 [e3aaa7dc] + WebP v0.1.3 [efce3f68] + WoodburyMatrices v1.0.0 [64499a7a] + WriteVTK v1.21.1 [6e34b625] + Bzip2_jll v1.0.9+0 [83423d85] + Cairo_jll v1.18.2+1 [5ae413db] + EarCut_jll v2.2.4+0 [2e619515] + Expat_jll v2.6.5+0 ⌅ [b22a6f82] + FFMPEG_jll v4.4.4+1 [a3f928ae] + Fontconfig_jll v2.15.0+0 [d7e528f0] + FreeType2_jll v2.13.3+1 [559328eb] + FriBidi_jll v1.0.16+0 [78b55507] + Gettext_jll v0.21.0+0 [59f7168a] + Giflib_jll v5.2.3+0 [7746bdde] + Glib_jll v2.82.4+0 [3b182d85] + Graphite2_jll v1.3.14+1 [2e76f6c2] + HarfBuzz_jll v8.5.0+0 [e33a78d0] + Hwloc_jll v2.12.0+0 [905a6f67] + Imath_jll v3.1.11+0 [aacddb02] + JpegTurbo_jll v3.1.1+0 [c1c5ebd0] + LAME_jll v3.100.2+0 [88015f11] + LERC_jll v4.0.1+0 [1d63c593] + LLVMOpenMP_jll v18.1.7+0 [dd4b983a] + LZO_jll v2.10.3+0 [15d6fa20] + LaMEM_jll v2.1.4+0 ⌅ [e9f186c6] + Libffi_jll v3.2.2+2 [d4300ac3] + Libgcrypt_jll v1.11.0+0 [7e76a0d4] + Libglvnd_jll v1.7.0+0 [7add5ba3] + Libgpg_error_jll v1.51.1+0 [94ce4f54] + Libiconv_jll v1.18.0+0 [4b2f31a3] + Libmount_jll v2.40.3+0 [89763e89] + Libtiff_jll v4.7.1+0 [38a345b3] + Libuuid_jll v2.40.3+0 ⌅ [7cb0a576] + MPICH_jll v4.1.2+1 [f1f71cc9] + MPItrampoline_jll v5.5.2+0 [9237b28f] + MicrosoftMPI_jll v10.1.4+3 [e7412a2a] + Ogg_jll v1.3.5+1 ⌅ [656ef2d0] + OpenBLAS32_jll v0.3.24+0 [18a262bb] + OpenEXR_jll v3.2.4+0 [fe0851c0] + OpenMPI_jll v5.0.7+0 [458c3c95] + OpenSSL_jll v3.0.16+0 [efe28fd5] + OpenSpecFun_jll v0.5.6+0 [91d4177d] + Opus_jll v1.3.3+0 ⌅ [8fa3689e] + PETSc_jll v3.19.6+0 ⌅ [30392449] + Pixman_jll v0.43.4+0 [aabda75e] + SCALAPACK32_jll v2.2.1+1 [02c8fc9c] + XML2_jll v2.13.6+1 [aed1982a] + XSLT_jll v1.1.42+0 [ffd25f8a] + XZ_jll v5.6.4+1 [4f6342f7] + Xorg_libX11_jll v1.8.6+3 [0c0b7dd1] + Xorg_libXau_jll v1.0.12+0 [a3789734] + Xorg_libXdmcp_jll v1.1.5+0 [1082639a] + Xorg_libXext_jll v1.3.6+3 [ea2f1a96] + Xorg_libXrender_jll v0.9.11+1 [14d82f49] + Xorg_libpthread_stubs_jll v0.1.2+0 [c7cfdc94] + Xorg_libxcb_jll v1.17.0+3 [c5fb5394] + Xorg_xtrans_jll v1.5.1+0 [3161d3a3] + Zstd_jll v1.5.7+1 [a4ae2306] + libaom_jll v3.11.0+0 [0ac62f75] + libass_jll v0.15.2+0 [f638f0a6] + libfdk_aac_jll v2.0.3+0 [b53b4c65] + libpng_jll v1.6.46+0 [075b6546] + libsixel_jll v1.10.5+0 [f27f6e37] + libvorbis_jll v1.3.7+2 [c5f90fcd] + libwebp_jll v1.5.0+0 ⌅ [1270edf5] + x264_jll v2021.5.5+0 ⌅ [dfaa095f] + x265_jll v3.5.0+0 [0dad84c5] + ArgTools v1.1.1 [56f22d72] + Artifacts [2a0f44e3] + Base64 [ade2ca70] + Dates [8ba89e20] + Distributed [f43a241f] + Downloads v1.6.0 [7b1f6079] + FileWatching [9fa8497b] + Future [b77e0a4c] + InteractiveUtils [4af54fe1] + LazyArtifacts [b27032c2] + LibCURL v0.6.4 [76f85450] + LibGit2 [8f399da3] + Libdl [37e2e46d] + LinearAlgebra [56ddb016] + Logging [d6f4376e] + Markdown [a63ad114] + Mmap [ca575930] + NetworkOptions v1.2.0 [44cfe95a] + Pkg v1.10.0 [de0858da] + Printf [3fa0cd96] + REPL [9a3f8284] + Random [ea8e919c] + SHA v0.7.0 [9e88b42a] + Serialization [1a1011a3] + SharedArrays [6462fe0b] + Sockets [2f01184e] + SparseArrays v1.10.0 [10745b16] + Statistics v1.10.0 [fa267f1f] + TOML v1.0.3 [a4e569a6] + Tar v1.10.0 [8dfed614] + Test [cf7118a7] + UUIDs [4ec0a83e] + Unicode [e66e0078] + CompilerSupportLibraries_jll v1.1.1+0 [deac9b47] + LibCURL_jll v8.4.0+0 [e37daf67] + LibGit2_jll v1.6.4+0 [29816b5a] + LibSSH2_jll v1.11.0+1 [c8ffd9c3] + MbedTLS_jll v2.28.2+1 [14a3606d] + MozillaCACerts_jll v2023.1.10 [4536629a] + OpenBLAS_jll v0.3.23+4 [05823500] + OpenLibm_jll v0.8.1+4 [efcefdf7] + PCRE2_jll v10.42.0+1 [bea87d4a] + SuiteSparse_jll v7.2.1+1 [83775a58] + Zlib_jll v1.2.13+1 [8e850b90] + libblastrampoline_jll v5.11.0+0 [8e850ede] + nghttp2_jll v1.52.0+1 [3f19e933] + p7zip_jll v17.4.0+2 Info Packages marked with ⌃ and ⌅ have new versions available. Those with ⌃ may be upgradable, but those with ⌅ are restricted by compatibility constraints from upgrading. To see why use `status --outdated -m` Installation completed after 15.73s ################################################################################ # Precompilation # Precompiling PkgEval dependencies... Precompiling package dependencies... ERROR: LoadError: The following 1 direct dependency failed to precompile: CairoMakie Failed to precompile CairoMakie [13f3f980-e62b-5c42-98c6-ff1f3baf88f0] to "/home/pkgeval/.julia/compiled/v1.10/CairoMakie/jl_eWsYK1". julia: /source/src/subtype.c:4717: sub_msp: Assertion `obvious_sub == 3 || obvious_sub == subtype || ijl_has_free_typevars(x) || ijl_has_free_typevars(y)' failed. [186] signal (6.-6): Aborted in expression starting at /home/pkgeval/.julia/packages/Makie/Y3ABD/precompile/shared-precompile.jl:90 unknown function (ip: 0x7650ae59cebc) gsignal at /lib/x86_64-linux-gnu/libc.so.6 (unknown line) abort at /lib/x86_64-linux-gnu/libc.so.6 (unknown line) unknown function (ip: 0x7650ae538394) __assert_fail at /lib/x86_64-linux-gnu/libc.so.6 (unknown line) sub_msp at /source/src/subtype.c:4717 type_morespecific_ at /source/src/subtype.c:4975 type_morespecific_ at /source/src/subtype.c:5140 type_morespecific_ at /source/src/subtype.c:5140 type_morespecific_ at /source/src/subtype.c:5085 type_morespecific_ at /source/src/subtype.c:5043 type_morespecific_ at /source/src/subtype.c:5140 type_morespecific_ at /source/src/subtype.c:5137 tuple_morespecific at /source/src/subtype.c:4779 [inlined] type_morespecific_ at /source/src/subtype.c:4961 ml_matches at /source/src/gf.c:3700 ml_matches at /source/src/gf.c:3587 [inlined] _gf_invoke_lookup at /source/src/gf.c:3091 [inlined] jl_mt_assoc_by_type at /source/src/gf.c:1461 jl_lookup_generic_ at /source/src/gf.c:3048 [inlined] ijl_apply_generic at /source/src/gf.c:3073 conversion_pipeline at /home/pkgeval/.julia/packages/Makie/Y3ABD/src/interfaces.jl:227 conversion_pipeline at /home/pkgeval/.julia/packages/Makie/Y3ABD/src/interfaces.jl:218 unknown function (ip: 0x76508c99581c) _jl_invoke at /source/src/gf.c:2876 [inlined] ijl_apply_generic at /source/src/gf.c:3077 Plot at /home/pkgeval/.julia/packages/Makie/Y3ABD/src/interfaces.jl:278 unknown function (ip: 0x76508c994a2c) _jl_invoke at /source/src/gf.c:2876 [inlined] ijl_apply_generic at /source/src/gf.c:3077 _create_plot! at /home/pkgeval/.julia/packages/Makie/Y3ABD/src/figureplotting.jl:390 _jl_invoke at /source/src/gf.c:2876 [inlined] ijl_apply_generic at /source/src/gf.c:3077 jl_apply at /source/src/julia.h:1982 [inlined] do_apply at /source/src/builtins.c:768 #poly!#65 at /home/pkgeval/.julia/packages/MakieCore/EU17Y/src/recipes.jl:514 poly! at /home/pkgeval/.julia/packages/MakieCore/EU17Y/src/recipes.jl:512 [inlined] initialize_block! at /home/pkgeval/.julia/packages/Makie/Y3ABD/src/makielayout/blocks/toggle.jl:38 unknown function (ip: 0x76508c987f85) _jl_invoke at /source/src/gf.c:2876 [inlined] ijl_apply_generic at /source/src/gf.c:3077 jl_apply at /source/src/julia.h:1982 [inlined] do_apply at /source/src/builtins.c:768 #_block#1443 at /home/pkgeval/.julia/packages/Makie/Y3ABD/src/makielayout/blocks.jl:398 _block at /home/pkgeval/.julia/packages/Makie/Y3ABD/src/makielayout/blocks.jl:317 [inlined] #_block#1442 at /home/pkgeval/.julia/packages/Makie/Y3ABD/src/makielayout/blocks.jl:262 [inlined] _block at /home/pkgeval/.julia/packages/Makie/Y3ABD/src/makielayout/blocks.jl:261 [inlined] #_#1440 at /home/pkgeval/.julia/packages/Makie/Y3ABD/src/makielayout/blocks.jl:240 [inlined] Block at /home/pkgeval/.julia/packages/Makie/Y3ABD/src/makielayout/blocks.jl:239 unknown function (ip: 0x76508c982635) _jl_invoke at /source/src/gf.c:2876 [inlined] ijl_apply_generic at /source/src/gf.c:3077 jl_apply at /source/src/julia.h:1982 [inlined] do_call at /source/src/interpreter.c:126 eval_value at /source/src/interpreter.c:223 eval_stmt_value at /source/src/interpreter.c:174 [inlined] eval_body at /source/src/interpreter.c:635 jl_interpret_toplevel_thunk at /source/src/interpreter.c:775 jl_toplevel_eval_flex at /source/src/toplevel.c:934 jl_toplevel_eval_flex at /source/src/toplevel.c:877 ijl_toplevel_eval_in at /source/src/toplevel.c:985 eval at ./boot.jl:385 [inlined] include_string at ./loading.jl:2146 _jl_invoke at /source/src/gf.c:2876 [inlined] ijl_apply_generic at /source/src/gf.c:3077 _include at ./loading.jl:2206 include at ./Base.jl:495 jfptr_include_46609.1 at /opt/julia/lib/julia/sys.so (unknown line) _jl_invoke at /source/src/gf.c:2876 [inlined] ijl_apply_generic at /source/src/gf.c:3077 jl_apply at /source/src/julia.h:1982 [inlined] jl_f__call_latest at /source/src/builtins.c:812 include at /home/pkgeval/.julia/packages/Makie/Y3ABD/src/Makie.jl:1 [inlined] macro expansion at /home/pkgeval/.julia/packages/Makie/Y3ABD/src/precompiles.jl:33 [inlined] macro expansion at /home/pkgeval/.julia/packages/PrecompileTools/L8A3n/src/workloads.jl:78 [inlined] top-level scope at /home/pkgeval/.julia/packages/Makie/Y3ABD/src/precompiles.jl:27 _jl_invoke at /source/src/gf.c:2876 [inlined] ijl_invoke at /source/src/gf.c:2902 jl_toplevel_eval_flex at /source/src/toplevel.c:925 jl_toplevel_eval_flex at /source/src/toplevel.c:877 ijl_toplevel_eval_in at /source/src/toplevel.c:985 eval at ./boot.jl:385 [inlined] include_string at ./loading.jl:2146 _jl_invoke at /source/src/gf.c:2876 [inlined] ijl_apply_generic at /source/src/gf.c:3077 _include at ./loading.jl:2206 include at ./Base.jl:495 jfptr_include_46609.1 at /opt/julia/lib/julia/sys.so (unknown line) _jl_invoke at /source/src/gf.c:2876 [inlined] ijl_apply_generic at /source/src/gf.c:3077 jl_apply at /source/src/julia.h:1982 [inlined] jl_f__call_latest at /source/src/builtins.c:812 include at /home/pkgeval/.julia/packages/Makie/Y3ABD/src/Makie.jl:1 unknown function (ip: 0x7650ad695fa5) _jl_invoke at /source/src/gf.c:2876 [inlined] ijl_apply_generic at /source/src/gf.c:3077 jl_apply at /source/src/julia.h:1982 [inlined] do_call at /source/src/interpreter.c:126 eval_value at /source/src/interpreter.c:223 eval_stmt_value at /source/src/interpreter.c:174 [inlined] eval_body at /source/src/interpreter.c:635 jl_interpret_toplevel_thunk at /source/src/interpreter.c:775 jl_toplevel_eval_flex at /source/src/toplevel.c:934 jl_eval_module_expr at /source/src/toplevel.c:215 [inlined] jl_toplevel_eval_flex at /source/src/toplevel.c:736 jl_toplevel_eval_flex at /source/src/toplevel.c:877 ijl_toplevel_eval_in at /source/src/toplevel.c:985 eval at ./boot.jl:385 [inlined] include_string at ./loading.jl:2146 _jl_invoke at /source/src/gf.c:2876 [inlined] ijl_apply_generic at /source/src/gf.c:3077 _include at ./loading.jl:2206 include at ./Base.jl:495 [inlined] include_package_for_output at ./loading.jl:2292 jfptr_include_package_for_output_81302.1 at /opt/julia/lib/julia/sys.so (unknown line) _jl_invoke at /source/src/gf.c:2876 [inlined] ijl_apply_generic at /source/src/gf.c:3077 jl_apply at /source/src/julia.h:1982 [inlined] do_call at /source/src/interpreter.c:126 eval_value at /source/src/interpreter.c:223 eval_stmt_value at /source/src/interpreter.c:174 [inlined] eval_body at /source/src/interpreter.c:635 jl_interpret_toplevel_thunk at /source/src/interpreter.c:775 jl_toplevel_eval_flex at /source/src/toplevel.c:934 jl_toplevel_eval_flex at /source/src/toplevel.c:877 ijl_toplevel_eval_in at /source/src/toplevel.c:985 eval at ./boot.jl:385 [inlined] include_string at ./loading.jl:2146 include_string at ./loading.jl:2156 [inlined] exec_options at ./client.jl:321 _start at ./client.jl:557 jfptr__start_82985.1 at /opt/julia/lib/julia/sys.so (unknown line) _jl_invoke at /source/src/gf.c:2876 [inlined] ijl_apply_generic at /source/src/gf.c:3077 jl_apply at /source/src/julia.h:1982 [inlined] true_main at /source/src/jlapi.c:582 jl_repl_entrypoint at /source/src/jlapi.c:731 main at /source/cli/loader_exe.c:58 unknown function (ip: 0x7650ae539249) __libc_start_main at /lib/x86_64-linux-gnu/libc.so.6 (unknown line) unknown function (ip: 0x4010b8) Allocations: 98722769 (Pool: 98649233; Big: 73536); GC: 93 ERROR: LoadError: Failed to precompile Makie [ee78f7c6-11fb-53f2-987a-cfe4a2b5a57a] to "/home/pkgeval/.julia/compiled/v1.10/Makie/jl_55TgD7". Stacktrace: [1] error(s::String) @ Base ./error.jl:35 [2] compilecache(pkg::Base.PkgId, path::String, internal_stderr::IO, internal_stdout::IO, keep_loaded_modules::Bool) @ Base ./loading.jl:2539 [3] compilecache @ ./loading.jl:2411 [inlined] [4] (::Base.var"#969#970"{Base.PkgId})() @ Base ./loading.jl:2044 [5] mkpidlock(f::Base.var"#969#970"{Base.PkgId}, at::String, pid::Int32; kwopts::@Kwargs{stale_age::Int64, wait::Bool}) @ FileWatching.Pidfile /opt/julia/share/julia/stdlib/v1.10/FileWatching/src/pidfile.jl:93 [6] #mkpidlock#6 @ /opt/julia/share/julia/stdlib/v1.10/FileWatching/src/pidfile.jl:88 [inlined] [7] trymkpidlock(::Function, ::Vararg{Any}; kwargs::@Kwargs{stale_age::Int64}) @ FileWatching.Pidfile /opt/julia/share/julia/stdlib/v1.10/FileWatching/src/pidfile.jl:111 [8] #invokelatest#2 @ ./essentials.jl:894 [inlined] [9] invokelatest @ ./essentials.jl:889 [inlined] [10] maybe_cachefile_lock(f::Base.var"#969#970"{Base.PkgId}, pkg::Base.PkgId, srcpath::String; stale_age::Int64) @ Base ./loading.jl:3054 [11] maybe_cachefile_lock @ ./loading.jl:3051 [inlined] [12] _require(pkg::Base.PkgId, env::String) @ Base ./loading.jl:2040 [13] __require_prelocked(uuidkey::Base.PkgId, env::String) @ Base ./loading.jl:1882 [14] #invoke_in_world#3 @ ./essentials.jl:926 [inlined] [15] invoke_in_world @ ./essentials.jl:923 [inlined] [16] _require_prelocked(uuidkey::Base.PkgId, env::String) @ Base ./loading.jl:1873 [17] macro expansion @ ./loading.jl:1860 [inlined] [18] macro expansion @ ./lock.jl:267 [inlined] [19] __require(into::Module, mod::Symbol) @ Base ./loading.jl:1823 [20] #invoke_in_world#3 @ ./essentials.jl:926 [inlined] [21] invoke_in_world @ ./essentials.jl:923 [inlined] [22] require(into::Module, mod::Symbol) @ Base ./loading.jl:1816 [23] include @ ./Base.jl:495 [inlined] [24] include_package_for_output(pkg::Base.PkgId, input::String, depot_path::Vector{String}, dl_load_path::Vector{String}, load_path::Vector{String}, concrete_deps::Vector{Pair{Base.PkgId, UInt128}}, source::Nothing) @ Base ./loading.jl:2292 [25] top-level scope @ stdin:4 in expression starting at /home/pkgeval/.julia/packages/CairoMakie/JchUZ/src/CairoMakie.jl:1 in expression starting at stdin: in expression starting at /PkgEval.jl/scripts/precompile.jl:37 Precompilation failed after 562.56s ################################################################################ # Testing # Testing LaMEM Status `/tmp/jl_2HJh89/Project.toml` ⌃ [13f3f980] CairoMakie v0.12.18 [8bb1440f] DelimitedFiles v1.9.1 [ffbed154] DocStringExtensions v0.9.3 ⌅ [e018b62d] GeoParams v0.6.8 ⌃ [3700c31b] GeophysicalModelGenerator v0.7.4 [c27321d9] Glob v1.3.1 [a98d9a8b] Interpolations v0.15.1 [2e889f3d] LaMEM v0.4.5 [9c8b4983] LightXML v0.9.1 [da04e1cc] MPI v0.20.22 [3da0fdf6] MPIPreferences v0.1.11 [91a5bcdd] Plots v1.40.9 [dc215faf] ReadVTK v0.2.4 [64499a7a] WriteVTK v1.21.1 [15d6fa20] LaMEM_jll v2.1.4+0 ⌅ [7cb0a576] MPICH_jll v4.1.2+1 [10745b16] Statistics v1.10.0 [8dfed614] Test Status `/tmp/jl_2HJh89/Manifest.toml` [621f4979] AbstractFFTs v1.5.0 [1520ce14] AbstractTrees v0.4.5 [7d9f7c33] Accessors v0.1.41 [79e6a3ab] Adapt v4.2.0 [35492f91] AdaptivePredicates v1.2.0 [66dad0bd] AliasTables v1.1.3 [27a7e980] Animations v0.4.2 [67c07d97] Automa v1.1.0 [13072b0f] AxisAlgorithms v1.1.0 [39de3d68] AxisArrays v0.4.7 [7b0aa2c9] BibTeX v0.1.0 [d1d4a3ce] BitFlags v0.1.9 [fa961155] CEnum v0.5.0 [159f3aea] Cairo v1.1.1 ⌃ [13f3f980] CairoMakie v0.12.18 [d360d2e6] ChainRulesCore v1.25.1 [944b1d66] CodecZlib v0.7.8 [a2cac450] ColorBrewer v0.4.1 [35d6a980] ColorSchemes v3.29.0 ⌅ [3da002f7] ColorTypes v0.11.5 ⌃ [c3611d14] ColorVectorSpace v0.10.0 ⌅ [5ae59095] Colors v0.12.11 [38540f10] CommonSolve v0.2.4 [bbf7d656] CommonSubexpressions v0.3.1 [34da2185] Compat v4.16.0 [a33af91c] CompositionsBase v0.1.2 [f0e56b4a] ConcurrentUtilities v2.5.0 [187b0558] ConstructionBase v1.5.8 [d38c429a] Contour v0.6.3 [150eb455] CoordinateTransformations v0.6.4 [9a962f9c] DataAPI v1.16.0 [864edb3b] DataStructures v0.18.20 [e2d170a0] DataValueInterfaces v1.0.0 [927a84f5] DelaunayTriangulation v1.6.4 [8bb1440f] DelimitedFiles v1.9.1 [163ba53b] DiffResults v1.1.0 [b552c78f] DiffRules v1.15.1 [b4f34e82] Distances v0.10.12 [31c24e10] Distributions v0.25.117 [ffbed154] DocStringExtensions v0.9.3 [4e289a0a] EnumX v1.0.4 [429591f6] ExactPredicates v2.2.8 [460bff9d] ExceptionUnwrapping v0.1.11 [411431e0] Extents v0.1.5 [c87230d0] FFMPEG v0.4.2 [7a1cc6ca] FFTW v1.8.1 [5789e2e9] FileIO v1.16.6 [8fc22ac5] FilePaths v0.8.3 [48062228] FilePathsBase v0.9.23 [1a297f60] FillArrays v1.13.0 [53c48c17] FixedPointNumbers v0.8.5 [1fa38f19] Format v1.3.7 [f6369f11] ForwardDiff v0.10.38 [b38be410] FreeType v4.1.1 [663a7486] FreeTypeAbstraction v0.10.6 [28b8d3ca] GR v0.73.13 [68eda718] GeoFormatTypes v0.4.4 [cf35fbd7] GeoInterface v1.4.1 ⌅ [e018b62d] GeoParams v0.6.8 [0ef565a4] Geodesy v1.1.0 ⌅ [5c1252a2] GeometryBasics v0.4.11 ⌃ [3700c31b] GeophysicalModelGenerator v0.7.4 [c27321d9] Glob v1.3.1 [a2bd30eb] Graphics v1.1.3 [3955a311] GridLayoutBase v0.11.1 [42e2da0e] Grisu v1.0.2 [cd3eb016] HTTP v1.10.15 [34004b35] HypergeometricFunctions v0.3.27 [615f187c] IfElse v0.1.1 [2803e5a7] ImageAxes v0.6.12 [c817782e] ImageBase v0.1.7 [a09fc81d] ImageCore v0.10.5 [82e4d734] ImageIO v0.6.9 [bc367c6b] ImageMetadata v0.9.10 [9b13fd28] IndirectArrays v1.0.0 [d25df0c9] Inflate v0.1.5 [7d512f48] InternedStrings v0.7.0 [a98d9a8b] Interpolations v0.15.1 [d1acc4aa] IntervalArithmetic v0.22.23 [8197267c] IntervalSets v0.7.10 [3587e190] InverseFunctions v0.1.17 [92d709cd] IrrationalConstants v0.2.4 [f1662d9f] Isoband v0.1.1 [c8e1da08] IterTools v1.10.0 [82899510] IteratorInterfaceExtensions v1.0.0 ⌅ [033835bb] JLD2 v0.4.54 [1019f520] JLFzf v0.1.9 [692b3bcd] JLLWrappers v1.7.0 [682c06a0] JSON v0.21.4 [b835a17e] JpegTurbo v0.1.5 [5ab0869b] KernelDensity v0.6.9 [49dc5b4e] KernelDensitySJ v0.2.1 [2e889f3d] LaMEM v0.4.5 [b964fa9f] LaTeXStrings v1.4.0 [23fbe1c1] Latexify v0.16.6 [8cdb02fc] LazyModules v0.3.1 [9c8b4983] LightXML v0.9.1 [4345ca2d] Loess v0.6.4 [2ab3a3ac] LogExpFunctions v0.3.29 [e6f89c97] LoggingExtras v1.1.0 [da04e1cc] MPI v0.20.22 [3da0fdf6] MPIPreferences v0.1.11 [1914dd2f] MacroTools v0.5.15 ⌅ [ee78f7c6] Makie v0.21.18 ⌅ [20f20a25] MakieCore v0.8.12 [dbb5928d] MappedArrays v0.4.2 [0a4f8689] MathTeXEngine v0.6.2 [739be429] MbedTLS v1.1.9 [442fdcdd] Measures v0.3.2 ⌅ [7269a6da] MeshIO v0.4.13 [e1d29d7a] Missings v1.2.0 [e94cdb99] MosaicViews v0.3.4 [46d2c3a1] MuladdMacro v0.2.4 [77ba4419] NaNMath v1.1.2 [b8a86587] NearestNeighbors v0.4.21 [f09324ee] Netpbm v1.1.1 [510215fc] Observables v0.5.5 [6fe1bfb0] OffsetArrays v1.15.0 [52e1d378] OpenEXR v0.3.3 [4d8831e6] OpenSSL v1.4.3 [bac558e1] OrderedCollections v1.8.0 [90014a1f] PDMats v0.11.32 [f57f5aa1] PNGFiles v0.4.4 [19eb6ba3] Packing v0.5.1 [5432bcbf] PaddedViews v0.5.12 [d96e819e] Parameters v0.12.3 [69de0a69] Parsers v2.8.1 [b98c9c47] Pipe v1.3.0 [eebad327] PkgVersion v0.3.3 [ccf2f8ad] PlotThemes v3.3.0 [995b91a9] PlotUtils v1.4.3 [91a5bcdd] Plots v1.40.9 [647866c9] PolygonOps v0.1.2 [aea7be01] PrecompileTools v1.2.1 [21216c6a] Preferences v1.4.3 [92933f4c] ProgressMeter v1.10.2 [43287f4e] PtrArrays v1.3.0 [4b34888f] QOI v1.0.1 [1fd47b50] QuadGK v2.11.2 [b3c3ace0] RangeArrays v0.3.2 [c84ed2f1] Ratios v0.4.5 [dc215faf] ReadVTK v0.2.4 [3cdcf5f2] RecipesBase v1.3.4 [01d81517] RecipesPipeline v0.6.12 [189a3867] Reexport v1.2.2 [05181044] RelocatableFolders v1.0.1 [ae029012] Requires v1.3.0 [79098fc4] Rmath v0.8.0 [f2b01f46] Roots v2.2.5 [5eaf0fd0] RoundingEmulator v0.2.1 [fdea26ae] SIMD v3.7.1 [6c6a2e73] Scratch v1.2.1 [efcf1570] Setfield v1.1.1 ⌅ [65257c39] ShaderAbstractions v0.4.1 [992d4aef] Showoff v1.0.3 [73760f76] SignedDistanceFields v0.4.0 [777ac1f9] SimpleBufferStream v1.2.0 [699a6c99] SimpleTraits v0.9.4 [45858cf5] Sixel v0.1.3 [a2af1166] SortingAlgorithms v1.2.1 [276daf66] SpecialFunctions v2.5.0 [860ef19b] StableRNGs v1.0.2 [cae243ae] StackViews v0.1.1 ⌅ [aedffcd0] Static v0.8.10 [90137ffa] StaticArrays v1.9.12 [1e83bf80] StaticArraysCore v1.4.3 [82ae8749] StatsAPI v1.7.0 [2913bbd2] StatsBase v0.34.4 [4c63d2b9] StatsFuns v1.3.2 ⌅ [09ab397b] StructArrays v0.6.21 [3783bdb8] TableTraits v1.0.1 [bd369af6] Tables v1.12.0 [62fd8b95] TensorCore v0.1.1 [731e570b] TiffImages v0.11.3 [3bb67fe8] TranscodingStreams v0.11.3 [981d1d27] TriplotBase v0.1.0 [5c2747f8] URIs v1.5.1 [3a884ed6] UnPack v1.0.2 [1cfade01] UnicodeFun v0.4.1 [967fb449] Unidecode v1.1.0 [1986cc42] Unitful v1.22.0 [45397f5d] UnitfulLatexify v1.6.4 [41fe7b60] Unzip v0.2.0 [4004b06d] VTKBase v1.0.1 [e3aaa7dc] WebP v0.1.3 [efce3f68] WoodburyMatrices v1.0.0 [64499a7a] WriteVTK v1.21.1 [6e34b625] Bzip2_jll v1.0.9+0 [4e9b3aee] CRlibm_jll v1.0.1+0 [83423d85] Cairo_jll v1.18.2+1 [ee1fde0b] Dbus_jll v1.14.10+0 [5ae413db] EarCut_jll v2.2.4+0 [2702e6a9] EpollShim_jll v0.0.20230411+1 [2e619515] Expat_jll v2.6.5+0 ⌅ [b22a6f82] FFMPEG_jll v4.4.4+1 [f5851436] FFTW_jll v3.3.10+3 [a3f928ae] Fontconfig_jll v2.15.0+0 [d7e528f0] FreeType2_jll v2.13.3+1 [559328eb] FriBidi_jll v1.0.16+0 [0656b61e] GLFW_jll v3.4.0+2 [d2c73de3] GR_jll v0.73.13+0 [78b55507] Gettext_jll v0.21.0+0 [59f7168a] Giflib_jll v5.2.3+0 [7746bdde] Glib_jll v2.82.4+0 [3b182d85] Graphite2_jll v1.3.14+1 [2e76f6c2] HarfBuzz_jll v8.5.0+0 [e33a78d0] Hwloc_jll v2.12.0+0 [905a6f67] Imath_jll v3.1.11+0 [1d5cc7b8] IntelOpenMP_jll v2025.0.4+0 [aacddb02] JpegTurbo_jll v3.1.1+0 [c1c5ebd0] LAME_jll v3.100.2+0 [88015f11] LERC_jll v4.0.1+0 [1d63c593] LLVMOpenMP_jll v18.1.7+0 [dd4b983a] LZO_jll v2.10.3+0 [15d6fa20] LaMEM_jll v2.1.4+0 ⌅ [e9f186c6] Libffi_jll v3.2.2+2 [d4300ac3] Libgcrypt_jll v1.11.0+0 [7e76a0d4] Libglvnd_jll v1.7.0+0 [7add5ba3] Libgpg_error_jll v1.51.1+0 [94ce4f54] Libiconv_jll v1.18.0+0 [4b2f31a3] Libmount_jll v2.40.3+0 [89763e89] Libtiff_jll v4.7.1+0 [38a345b3] Libuuid_jll v2.40.3+0 [856f044c] MKL_jll v2025.0.1+1 ⌅ [7cb0a576] MPICH_jll v4.1.2+1 [f1f71cc9] MPItrampoline_jll v5.5.2+0 [9237b28f] MicrosoftMPI_jll v10.1.4+3 [e7412a2a] Ogg_jll v1.3.5+1 ⌅ [656ef2d0] OpenBLAS32_jll v0.3.24+0 [18a262bb] OpenEXR_jll v3.2.4+0 [fe0851c0] OpenMPI_jll v5.0.7+0 [458c3c95] OpenSSL_jll v3.0.16+0 [efe28fd5] OpenSpecFun_jll v0.5.6+0 [91d4177d] Opus_jll v1.3.3+0 ⌅ [8fa3689e] PETSc_jll v3.19.6+0 [36c8627f] Pango_jll v1.56.1+0 ⌅ [30392449] Pixman_jll v0.43.4+0 ⌅ [c0090381] Qt6Base_jll v6.7.1+1 ⌅ [629bc702] Qt6Declarative_jll v6.7.1+2 ⌅ [ce943373] Qt6ShaderTools_jll v6.7.1+1 ⌃ [e99dba38] Qt6Wayland_jll v6.7.1+1 [f50d1b31] Rmath_jll v0.5.1+0 [aabda75e] SCALAPACK32_jll v2.2.1+1 [a44049a8] Vulkan_Loader_jll v1.3.243+0 [a2964d1f] Wayland_jll v1.21.0+2 [2381bf8a] Wayland_protocols_jll v1.36.0+0 [02c8fc9c] XML2_jll v2.13.6+1 [aed1982a] XSLT_jll v1.1.42+0 [ffd25f8a] XZ_jll v5.6.4+1 [f67eecfb] Xorg_libICE_jll v1.1.1+0 [c834827a] Xorg_libSM_jll v1.2.4+0 [4f6342f7] Xorg_libX11_jll v1.8.6+3 [0c0b7dd1] Xorg_libXau_jll v1.0.12+0 [935fb764] Xorg_libXcursor_jll v1.2.3+0 [a3789734] Xorg_libXdmcp_jll v1.1.5+0 [1082639a] Xorg_libXext_jll v1.3.6+3 [d091e8ba] Xorg_libXfixes_jll v6.0.0+0 [a51aa0fd] Xorg_libXi_jll v1.8.2+0 [d1454406] Xorg_libXinerama_jll v1.1.5+0 [ec84b674] Xorg_libXrandr_jll v1.5.4+0 [ea2f1a96] Xorg_libXrender_jll v0.9.11+1 [14d82f49] Xorg_libpthread_stubs_jll v0.1.2+0 [c7cfdc94] Xorg_libxcb_jll v1.17.0+3 [cc61e674] Xorg_libxkbfile_jll v1.1.2+1 [e920d4aa] Xorg_xcb_util_cursor_jll v0.1.4+0 [12413925] Xorg_xcb_util_image_jll v0.4.0+1 [2def613f] Xorg_xcb_util_jll v0.4.0+1 [975044d2] Xorg_xcb_util_keysyms_jll v0.4.0+1 [0d47668e] Xorg_xcb_util_renderutil_jll v0.3.9+1 [c22f9ab0] Xorg_xcb_util_wm_jll v0.4.1+1 [35661453] Xorg_xkbcomp_jll v1.4.6+1 [33bec58e] Xorg_xkeyboard_config_jll v2.39.0+0 [c5fb5394] Xorg_xtrans_jll v1.5.1+0 [3161d3a3] Zstd_jll v1.5.7+1 [35ca27e7] eudev_jll v3.2.9+0 [214eeab7] fzf_jll v0.56.3+0 [1a1c6b14] gperf_jll v3.1.1+1 [9a68df92] isoband_jll v0.2.3+0 [a4ae2306] libaom_jll v3.11.0+0 [0ac62f75] libass_jll v0.15.2+0 [1183f4f0] libdecor_jll v0.2.2+0 [2db6ffa8] libevdev_jll v1.11.0+0 [f638f0a6] libfdk_aac_jll v2.0.3+0 [36db933b] libinput_jll v1.18.0+0 [b53b4c65] libpng_jll v1.6.46+0 [075b6546] libsixel_jll v1.10.5+0 [f27f6e37] libvorbis_jll v1.3.7+2 [c5f90fcd] libwebp_jll v1.5.0+0 [009596ad] mtdev_jll v1.1.6+0 [1317d2d5] oneTBB_jll v2022.0.0+0 ⌅ [1270edf5] x264_jll v2021.5.5+0 ⌅ [dfaa095f] x265_jll v3.5.0+0 [d8fb68d0] xkbcommon_jll v1.4.1+2 [0dad84c5] ArgTools v1.1.1 [56f22d72] Artifacts [2a0f44e3] Base64 [8bf52ea8] CRC32c [ade2ca70] Dates [8ba89e20] Distributed [f43a241f] Downloads v1.6.0 [7b1f6079] FileWatching [9fa8497b] Future [b77e0a4c] InteractiveUtils [4af54fe1] LazyArtifacts [b27032c2] LibCURL v0.6.4 [76f85450] LibGit2 [8f399da3] Libdl [37e2e46d] LinearAlgebra [56ddb016] Logging [d6f4376e] Markdown [a63ad114] Mmap [ca575930] NetworkOptions v1.2.0 [44cfe95a] Pkg v1.10.0 [de0858da] Printf [3fa0cd96] REPL [9a3f8284] Random [ea8e919c] SHA v0.7.0 [9e88b42a] Serialization [1a1011a3] SharedArrays [6462fe0b] Sockets [2f01184e] SparseArrays v1.10.0 [10745b16] Statistics v1.10.0 [4607b0f0] SuiteSparse [fa267f1f] TOML v1.0.3 [a4e569a6] Tar v1.10.0 [8dfed614] Test [cf7118a7] UUIDs [4ec0a83e] Unicode [e66e0078] CompilerSupportLibraries_jll v1.1.1+0 [deac9b47] LibCURL_jll v8.4.0+0 [e37daf67] LibGit2_jll v1.6.4+0 [29816b5a] LibSSH2_jll v1.11.0+1 [c8ffd9c3] MbedTLS_jll v2.28.2+1 [14a3606d] MozillaCACerts_jll v2023.1.10 [4536629a] OpenBLAS_jll v0.3.23+4 [05823500] OpenLibm_jll v0.8.1+4 [efcefdf7] PCRE2_jll v10.42.0+1 [bea87d4a] SuiteSparse_jll v7.2.1+1 [83775a58] Zlib_jll v1.2.13+1 [8e850b90] libblastrampoline_jll v5.11.0+0 [8e850ede] nghttp2_jll v1.52.0+1 [3f19e933] p7zip_jll v17.4.0+2 Info Packages marked with ⌃ and ⌅ have new versions available. Those with ⌃ may be upgradable, but those with ⌅ are restricted by compatibility constraints from upgrading. Testing Running tests... Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 1. [Myr] Maximum number of steps : 2 Time step : 1. [Myr] Minimum time step : 0.2 [Myr] Maximum time step : 10. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [16, 16, 16] Number of cells : 4096 Number of faces : 13056 Maximum cell aspect ratio : 2.00000 Lower coordinate bounds [bx, by, bz] : [-2., -1., -1.] Upper coordinate bounds [ex, ey, ez] : [2., 1., 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 1 -- sphere (dens) : rho = 3200. [kg/m^3] (diff) : eta = 1e+23 [Pa*s] Bd = 5e-24 [1/Pa/s] Phase ID : 0 -- matrix (dens) : rho = 3000. [kg/m^3] (diff) : eta = 1e+20 [Pa*s] Bd = 5e-21 [1/Pa/s] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.031246 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress tensor @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Preconditioner type : coupled Galerkin geometric multigrid Global coarse grid [nx,ny,nz] : [8, 8, 8] Local coarse grid [nx,ny,nz] : [8, 8, 8] Number of multigrid levels : 2 -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : multigrid Multigrid smoother levels KSP : chebyshev Multigrid smoother levels PC : sor Number of smoothening steps : 10 Coarse level KSP : preonly Coarse level PC : lu Coarse level solver package : (null) -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 3.656395025301e+02 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 5 1 SNES Function norm 9.765816215863e-03 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.623461 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.291310889682e-05 |Div|_2 = 2.886140529488e-04 Momentum: |mRes|_2 = 9.761550506474e-03 -------------------------------------------------------------------------- Saving output ... done (0.00427622 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 1.00000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 2.685113961409e+03 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 15 1 SNES Function norm 4.489500644001e-03 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.7221 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.406409583179e-06 |Div|_2 = 5.437966746000e-06 Momentum: |mRes|_2 = 4.489497350596e-03 -------------------------------------------------------------------------- Actual time step : 1.10000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.1623e-02 s -------------------------------------------------------------------------- Saving output ... done (0.00352372 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 1.57409 (sec) -------------------------------------------------------------------------- Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 1. [Myr] Maximum number of steps : 3 Time step : 1. [Myr] Minimum time step : 1e-05 [Myr] Maximum time step : 10. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [16, 16, 16] Number of cells : 4096 Number of faces : 13056 Maximum cell aspect ratio : 2.00000 Lower coordinate bounds [bx, by, bz] : [-2., -1., -1.] Upper coordinate bounds [ex, ey, ez] : [2., 1., 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 1 -- sphere (dens) : rho = 3000. [kg/m^3] (diff) : eta = 1e+20 [Pa*s] Bd = 5e-21 [1/Pa/s] Phase ID : 0 -- matrix (dens) : rho = 3000. [kg/m^3] (diff) : eta = 1e+20 [Pa*s] Bd = 5e-21 [1/Pa/s] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of velocity boxes : 1 Velocity box # : 0 Box center : 0., 0., 0. [km] Box width : 1., 1., 1. [km] X-velocity : 1. [cm/yr] Top boundary temperature : 0. [C] Bottom boundary temperature : 20. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.0266531 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Preconditioner type : coupled Galerkin geometric multigrid Global coarse grid [nx,ny,nz] : [8, 8, 8] Local coarse grid [nx,ny,nz] : [8, 8, 8] Number of multigrid levels : 2 -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : multigrid Multigrid smoother levels KSP : chebyshev Multigrid smoother levels PC : sor Number of smoothening steps : 10 Coarse level KSP : preonly Coarse level PC : lu Coarse level solver package : (null) -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 3.647420796124e+02 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 4 1 SNES Function norm 7.297937424597e-03 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.536817 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 9.461331555372e-06 |Div|_2 = 2.127815511859e-04 Momentum: |mRes|_2 = 7.294834793524e-03 -------------------------------------------------------------------------- Saving output ... done (0.00326428 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 1.00000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 5.382901817483e+03 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 10 1 SNES Function norm 3.188552971360e-02 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.471479 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 8.448585401899e-05 |Div|_2 = 1.340409029960e-03 Momentum: |mRes|_2 = 3.185734308993e-02 -------------------------------------------------------------------------- Actual time step : 0.01250 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 4692 markers and merged 24 markers in 1.1718e-02 s -------------------------------------------------------------------------- Saving output ... done (0.00205917 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.01250000 [Myr] Tentative time step : 0.01250000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 3.188552971358e-02 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 11 1 SNES Function norm 1.891353888714e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.515224 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.163910967605e-09 |Div|_2 = 1.007415909660e-08 Momentum: |mRes|_2 = 1.888669019231e-07 -------------------------------------------------------------------------- Actual time step : 0.01250 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 8386 markers and merged 136 markers in 2.1432e-02 s -------------------------------------------------------------------------- Saving output ... done (0.0503729 sec) -------------------------------------------------------------------------- ================================= STEP 3 ================================= -------------------------------------------------------------------------- Current time : 0.02500000 [Myr] Tentative time step : 0.01250000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.891353882404e-07 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 13 1 SNES Function norm 3.806690487543e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.479791 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 9.732544348338e-15 |Div|_2 = 6.229370514023e-14 Momentum: |mRes|_2 = 3.806180757958e-12 -------------------------------------------------------------------------- Actual time step : 0.01250 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 9921 markers and merged 252 markers in 2.1523e-02 s -------------------------------------------------------------------------- Saving output ... done (0.00464473 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 2.46112 (sec) -------------------------------------------------------------------------- Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 100000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 1. [Myr] Maximum number of steps : 30 Time step : 0.01 [Myr] Minimum time step : 1e-05 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 5 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [64, 1, 64] Number of cells : 4096 Number of faces : 16512 Maximum cell aspect ratio : 1.28000 Lower coordinate bounds [bx, by, bz] : [-500., -10., -1000.] Upper coordinate bounds [ex, ey, ez] : [500., 10., 50.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- Air (dens) : rho = 3300. [kg/m^3] (diff) : eta = 1e+22 [Pa*s] Bd = 5e-23 [1/Pa/s] (temp) : alpha = 3e-05 [1/K] Cp = 1e+06 [J/kg/K] k = 100. [W/m/k] Phase ID : 1 -- OCrust (dens) : rho = 3300. [kg/m^3] (diff) : eta = 1e+24 [Pa*s] Bd = 5e-25 [1/Pa/s] (temp) : alpha = 3e-05 [1/K] Cp = 1050. [J/kg/K] k = 3. [W/m/k] Phase ID : 2 -- Omantle (dens) : rho = 3300. [kg/m^3] (diff) : eta = 1e+23 [Pa*s] Bd = 5e-24 [1/Pa/s] (temp) : alpha = 3e-05 [1/K] Cp = 1050. [J/kg/K] k = 3. [W/m/k] Phase ID : 3 -- Umantle (dens) : rho = 3300. [kg/m^3] (diff) : eta = 1e+20 [Pa*s] Bd = 5e-21 [1/Pa/s] (temp) : alpha = 3e-05 [1/K] Cp = 1050. [J/kg/K] k = 3. [W/m/k] Phase ID : 4 -- Plume (dens) : rho = 3300. [kg/m^3] (diff) : eta = 1e+20 [Pa*s] Bd = 5e-21 [1/Pa/s] (temp) : alpha = 3e-05 [1/K] Cp = 1050. [J/kg/K] k = 3. [W/m/k] Phase ID : 5 -- Lmantle (dens) : rho = 3300. [kg/m^3] (diff) : eta = 1e+21 [Pa*s] Bd = 5e-22 [1/Pa/s] (temp) : alpha = 3e-05 [1/K] Cp = 1050. [J/kg/K] k = 3. [W/m/k] Phase ID : 6 -- Plume2 (dens) : rho = 3300. [kg/m^3] (diff) : eta = 1e+20 [Pa*s] Bd = 5e-21 [1/Pa/s] (temp) : alpha = 3e-05 [1/K] Cp = 1050. [J/kg/K] k = 3. [W/m/k] Phase ID : 7 -- Umantle2 (dens) : rho = 3300. [kg/m^3] (diff) : eta = 1e+20 [Pa*s] Bd = 5e-21 [1/Pa/s] (temp) : alpha = 3e-05 [1/K] Cp = 1050. [J/kg/K] k = 3. [W/m/k] -------------------------------------------------------------------------- Phase Transition laws: -------------------------------------------------------------------------- Phase Transition [0] : Constant Parameter : T Transition Value : 1200.000 Phase Above : 3 Phase Below : 2 Direction : BothWays Phase Transition [1] : Constant Parameter : Depth Transition Value : -400.000 Phase Above : 6 Phase Below : 4 Direction : BelowToAbove Reset Parameter : APS Phase Transition [2] : Clapeyron Transition law : Mantle_Transition_660km # Equations : 1 [ P = P0 + gamma*(T-T0) ] eq[0] : gamma = -2.50e+00 [MPa/C], P0 = 2.30e+10 [Pa], T0 = 1667.0 [deg C] Phase Above : 5 Phase Below : 3 Direction : BothWays Phase Transition [3] : Box Box Bounds : [200.0; 400.0; -100.0; 100.0; -1000.0; -500.0] [km] Box Vicinity : Use all particles to check inside/outside Linear Temp; bot T : 1300.0 [C] Linear Temp; top T : 20.0 [C] Phase Outside : 3 Phase Inside : 7 Direction : BothWays Reset Parameter : APS Adjusting density values due to phase transitions: -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 1 0 Open top boundary @ Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.039828 sec) -------------------------------------------------------------------------- Output parameters: Output file name : Plume_PhaseTransitions_new Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- Initializing pressure with lithostatic pressure ... done (0.00183693 sec) -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 1.985087139977e+04 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 6.594719909526e-02 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.189765 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.736320446684e-03 |Div|_2 = 6.379041312826e-02 Momentum: |mRes|_2 = 1.672770938997e-02 -------------------------------------------------------------------------- Saving output ... done (0.003755 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.01000000 [Myr] -------------------------------------------------------------------------- Phase_Transition ... done (0.0199552 sec) -------------------------------------------------------------------------- 0 SNES Function norm 8.903947944260e+03 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 6.024649811614e-03 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.113526 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 6.935922950757e-06 |Div|_2 = 6.296964037381e-05 Momentum: |mRes|_2 = 6.024320723283e-03 -------------------------------------------------------------------------- Actual time step : 0.01100 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 441 markers and merged 0 markers in 8.8794e-03 s -------------------------------------------------------------------------- Saving output ... done (0.0755265 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.01100000 [Myr] Tentative time step : 0.01100000 [Myr] -------------------------------------------------------------------------- Phase_Transition ... done (0.0231362 sec) -------------------------------------------------------------------------- 0 SNES Function norm 8.034506122548e+03 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.042794808280e-03 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.119274 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 6.100791055896e-06 |Div|_2 = 2.663022244943e-05 Momentum: |mRes|_2 = 3.042678273585e-03 -------------------------------------------------------------------------- Actual time step : 0.01210 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 1089 markers and merged 0 markers in 1.0172e-02 s -------------------------------------------------------------------------- ================================= STEP 3 ================================= -------------------------------------------------------------------------- Current time : 0.02310000 [Myr] Tentative time step : 0.01210000 [Myr] -------------------------------------------------------------------------- Phase_Transition ... done (0.021183 sec) -------------------------------------------------------------------------- 0 SNES Function norm 5.318612913611e+03 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 4.512638742054e-03 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.113044 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.382602357380e-06 |Div|_2 = 8.871198692501e-06 Momentum: |mRes|_2 = 4.512630022295e-03 -------------------------------------------------------------------------- Actual time step : 0.01271 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 1648 markers and merged 0 markers in 1.0503e-02 s -------------------------------------------------------------------------- ================================= STEP 4 ================================= -------------------------------------------------------------------------- Current time : 0.03580813 [Myr] Tentative time step : 0.01270813 [Myr] -------------------------------------------------------------------------- Phase_Transition ... done (0.0228262 sec) -------------------------------------------------------------------------- 0 SNES Function norm 1.935573222169e+04 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 2.347072227143e-02 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.132164 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 2.247047888856e-06 |Div|_2 = 7.447201618764e-06 Momentum: |mRes|_2 = 2.347072108994e-02 -------------------------------------------------------------------------- Actual time step : 0.01317 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 2283 markers and merged 0 markers in 1.6904e-02 s -------------------------------------------------------------------------- ================================= STEP 5 ================================= -------------------------------------------------------------------------- Current time : 0.04898011 [Myr] Tentative time step : 0.01317198 [Myr] -------------------------------------------------------------------------- Phase_Transition ... done (0.0273106 sec) -------------------------------------------------------------------------- 0 SNES Function norm 1.589238590905e+04 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.013070382147e-02 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.13537 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.805947853928e-06 |Div|_2 = 3.560205426322e-06 Momentum: |mRes|_2 = 1.013070319589e-02 -------------------------------------------------------------------------- Actual time step : 0.01348 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 2457 markers and merged 3 markers in 1.8553e-02 s -------------------------------------------------------------------------- Saving output ... done (0.0038803 sec) -------------------------------------------------------------------------- ================================= STEP 6 ================================= -------------------------------------------------------------------------- Current time : 0.06246502 [Myr] Tentative time step : 0.01348490 [Myr] -------------------------------------------------------------------------- Phase_Transition ... done (0.0292427 sec) -------------------------------------------------------------------------- 0 SNES Function norm 7.105193382543e+03 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.154888385840e-02 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.139156 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.625893629040e-06 |Div|_2 = 7.876091187835e-06 Momentum: |mRes|_2 = 1.154888117274e-02 -------------------------------------------------------------------------- Actual time step : 0.01377 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 2718 markers and merged 21 markers in 3.5419e-02 s -------------------------------------------------------------------------- ================================= STEP 7 ================================= -------------------------------------------------------------------------- Current time : 0.07623411 [Myr] Tentative time step : 0.01376910 [Myr] -------------------------------------------------------------------------- Phase_Transition ... done (0.0264854 sec) -------------------------------------------------------------------------- 0 SNES Function norm 1.042373659728e+04 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.510094877904e-02 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.133501 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 2.794971457089e-06 |Div|_2 = 6.312594508142e-06 Momentum: |mRes|_2 = 1.510094745962e-02 -------------------------------------------------------------------------- Actual time step : 0.01399 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 3179 markers and merged 33 markers in 1.4201e-02 s -------------------------------------------------------------------------- ================================= STEP 8 ================================= -------------------------------------------------------------------------- Current time : 0.09022767 [Myr] Tentative time step : 0.01399356 [Myr] -------------------------------------------------------------------------- Phase_Transition ... done (0.0267365 sec) -------------------------------------------------------------------------- 0 SNES Function norm 2.871444769587e+03 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.658430341970e-03 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.154785 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 3.403254490275e-06 |Div|_2 = 5.498127413823e-06 Momentum: |mRes|_2 = 1.658421228085e-03 -------------------------------------------------------------------------- Actual time step : 0.01398 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 3119 markers and merged 57 markers in 1.5766e-02 s -------------------------------------------------------------------------- ================================= STEP 9 ================================= -------------------------------------------------------------------------- Current time : 0.10421032 [Myr] Tentative time step : 0.01398265 [Myr] -------------------------------------------------------------------------- Phase_Transition ... done (0.0225335 sec) -------------------------------------------------------------------------- 0 SNES Function norm 4.449583974129e+03 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 5.322063249770e-03 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.130374 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 3.449661887811e-06 |Div|_2 = 5.875773877495e-06 Momentum: |mRes|_2 = 5.322060006223e-03 -------------------------------------------------------------------------- Actual time step : 0.01428 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 3466 markers and merged 90 markers in 1.4862e-02 s -------------------------------------------------------------------------- ================================ STEP 10 ================================= -------------------------------------------------------------------------- Current time : 0.11849403 [Myr] Tentative time step : 0.01428371 [Myr] -------------------------------------------------------------------------- Phase_Transition ... done (0.0242716 sec) -------------------------------------------------------------------------- 0 SNES Function norm 4.706865316454e+03 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 2.788517436845e-03 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.13757 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.971033394610e-06 |Div|_2 = 3.839433186097e-06 Momentum: |mRes|_2 = 2.788514793639e-03 -------------------------------------------------------------------------- Actual time step : 0.01439 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 3661 markers and merged 117 markers in 1.7469e-02 s -------------------------------------------------------------------------- Saving output ... done (0.00296572 sec) -------------------------------------------------------------------------- ================================ STEP 11 ================================= -------------------------------------------------------------------------- Current time : 0.13288211 [Myr] Tentative time step : 0.01438807 [Myr] -------------------------------------------------------------------------- Phase_Transition ... done (0.0230872 sec) -------------------------------------------------------------------------- 0 SNES Function norm 8.991485040991e+03 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 8.694136165734e-03 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.120364 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 3.383957079883e-06 |Div|_2 = 5.825431414762e-06 Momentum: |mRes|_2 = 8.694134214094e-03 -------------------------------------------------------------------------- Actual time step : 0.01458 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 3219 markers and merged 150 markers in 1.6484e-02 s -------------------------------------------------------------------------- ================================ STEP 12 ================================= -------------------------------------------------------------------------- Current time : 0.14746103 [Myr] Tentative time step : 0.01457892 [Myr] -------------------------------------------------------------------------- Phase_Transition ... done (0.0238906 sec) -------------------------------------------------------------------------- 0 SNES Function norm 5.473879258981e+03 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.560793671473e-03 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.143424 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.258375541324e-06 |Div|_2 = 2.992576486504e-06 Momentum: |mRes|_2 = 3.560792413957e-03 -------------------------------------------------------------------------- Actual time step : 0.01463 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 3311 markers and merged 161 markers in 2.2409e-02 s -------------------------------------------------------------------------- ================================ STEP 13 ================================= -------------------------------------------------------------------------- Current time : 0.16209081 [Myr] Tentative time step : 0.01462979 [Myr] -------------------------------------------------------------------------- Phase_Transition ... done (0.0324596 sec) -------------------------------------------------------------------------- 0 SNES Function norm 4.275685042272e+03 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 5.103768241593e-03 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.145811 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.613569589706e-06 |Div|_2 = 3.362504229368e-06 Momentum: |mRes|_2 = 5.103767133937e-03 -------------------------------------------------------------------------- Actual time step : 0.01468 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 3513 markers and merged 249 markers in 2.7319e-02 s -------------------------------------------------------------------------- ================================ STEP 14 ================================= -------------------------------------------------------------------------- Current time : 0.17677097 [Myr] Tentative time step : 0.01468015 [Myr] -------------------------------------------------------------------------- Phase_Transition ... done (0.0242885 sec) -------------------------------------------------------------------------- 0 SNES Function norm 1.350290833178e+03 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.726032134112e-03 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.109257 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 2.747924524954e-06 |Div|_2 = 6.606745373525e-06 Momentum: |mRes|_2 = 1.726019489723e-03 -------------------------------------------------------------------------- Actual time step : 0.01480 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 3237 markers and merged 241 markers in 1.8233e-02 s -------------------------------------------------------------------------- ================================ STEP 15 ================================= -------------------------------------------------------------------------- Current time : 0.19157476 [Myr] Tentative time step : 0.01480379 [Myr] -------------------------------------------------------------------------- Phase_Transition ... done (0.0247 sec) -------------------------------------------------------------------------- 0 SNES Function norm 2.674533097998e+03 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.036490753468e-03 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.106606 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 2.276829055403e-06 |Div|_2 = 5.026127715309e-06 Momentum: |mRes|_2 = 3.036486593736e-03 -------------------------------------------------------------------------- Actual time step : 0.01474 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 3166 markers and merged 301 markers in 2.3990e-02 s -------------------------------------------------------------------------- Saving output ... done (0.00389889 sec) -------------------------------------------------------------------------- ================================ STEP 16 ================================= -------------------------------------------------------------------------- Current time : 0.20631027 [Myr] Tentative time step : 0.01473551 [Myr] -------------------------------------------------------------------------- Phase_Transition ... done (0.0310651 sec) -------------------------------------------------------------------------- 0 SNES Function norm 3.214195749760e+03 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.255579919968e-03 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.133702 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 7.215428179386e-07 |Div|_2 = 1.542132189085e-06 Momentum: |mRes|_2 = 1.255578972927e-03 -------------------------------------------------------------------------- Actual time step : 0.01494 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 2829 markers and merged 348 markers in 3.0231e-02 s -------------------------------------------------------------------------- ================================ STEP 17 ================================= -------------------------------------------------------------------------- Current time : 0.22125036 [Myr] Tentative time step : 0.01494009 [Myr] -------------------------------------------------------------------------- Phase_Transition ... done (0.0399446 sec) -------------------------------------------------------------------------- 0 SNES Function norm 1.415360965464e+03 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.397087471237e-03 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.146631 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.282432859018e-06 |Div|_2 = 2.980539196763e-06 Momentum: |mRes|_2 = 1.397084291900e-03 -------------------------------------------------------------------------- Actual time step : 0.01505 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 3076 markers and merged 366 markers in 2.8856e-02 s -------------------------------------------------------------------------- ================================ STEP 18 ================================= -------------------------------------------------------------------------- Current time : 0.23629778 [Myr] Tentative time step : 0.01504742 [Myr] -------------------------------------------------------------------------- Phase_Transition ... done (0.042084 sec) -------------------------------------------------------------------------- 0 SNES Function norm 3.271567359873e+03 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.069485309642e-03 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.141117 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.690801147980e-06 |Div|_2 = 4.153467007522e-06 Momentum: |mRes|_2 = 3.069482499514e-03 -------------------------------------------------------------------------- Actual time step : 0.01518 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 2831 markers and merged 351 markers in 3.0225e-02 s -------------------------------------------------------------------------- ================================ STEP 19 ================================= -------------------------------------------------------------------------- Current time : 0.25147556 [Myr] Tentative time step : 0.01517778 [Myr] -------------------------------------------------------------------------- Phase_Transition ... done (0.0378338 sec) -------------------------------------------------------------------------- 0 SNES Function norm 8.407677792888e+02 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.478870555625e-04 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.146055 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.034064185168e-06 |Div|_2 = 1.427767384948e-06 Momentum: |mRes|_2 = 3.478841256917e-04 -------------------------------------------------------------------------- Actual time step : 0.01517 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 2958 markers and merged 373 markers in 3.3477e-02 s -------------------------------------------------------------------------- ================================ STEP 20 ================================= -------------------------------------------------------------------------- Current time : 0.26665036 [Myr] Tentative time step : 0.01517480 [Myr] -------------------------------------------------------------------------- Phase_Transition ... done (0.0404225 sec) -------------------------------------------------------------------------- 0 SNES Function norm 3.454633636616e+03 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 4.597346615330e-03 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.159983 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 2.757287793226e-06 |Div|_2 = 4.633531387496e-06 Momentum: |mRes|_2 = 4.597344280328e-03 -------------------------------------------------------------------------- Actual time step : 0.01529 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 2615 markers and merged 348 markers in 3.0721e-02 s -------------------------------------------------------------------------- Saving output ... done (0.010808 sec) -------------------------------------------------------------------------- ================================ STEP 21 ================================= -------------------------------------------------------------------------- Current time : 0.28194393 [Myr] Tentative time step : 0.01529357 [Myr] -------------------------------------------------------------------------- Phase_Transition ... done (0.0427508 sec) -------------------------------------------------------------------------- 0 SNES Function norm 1.662243615071e+03 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.457572792318e-03 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.143823 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.549740517276e-06 |Div|_2 = 2.356606806332e-06 Momentum: |mRes|_2 = 1.457570887233e-03 -------------------------------------------------------------------------- Actual time step : 0.01530 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 2223 markers and merged 464 markers in 3.3076e-02 s -------------------------------------------------------------------------- ================================ STEP 22 ================================= -------------------------------------------------------------------------- Current time : 0.29723979 [Myr] Tentative time step : 0.01529587 [Myr] -------------------------------------------------------------------------- Phase_Transition ... done (0.03784 sec) -------------------------------------------------------------------------- 0 SNES Function norm 1.666098628745e+03 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 2.181579776420e-04 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.142238 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 2.105071822966e-07 |Div|_2 = 4.345251602430e-07 Momentum: |mRes|_2 = 2.181575448998e-04 -------------------------------------------------------------------------- Actual time step : 0.01536 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 2358 markers and merged 388 markers in 3.1350e-02 s -------------------------------------------------------------------------- ================================ STEP 23 ================================= -------------------------------------------------------------------------- Current time : 0.31259987 [Myr] Tentative time step : 0.01536008 [Myr] -------------------------------------------------------------------------- Phase_Transition ... done (0.0369277 sec) -------------------------------------------------------------------------- 0 SNES Function norm 6.520633752479e+02 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.585323132561e-04 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.136464 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 6.074607750498e-07 |Div|_2 = 1.241583485338e-06 Momentum: |mRes|_2 = 3.585301634720e-04 -------------------------------------------------------------------------- Actual time step : 0.01533 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 2052 markers and merged 489 markers in 2.9116e-02 s -------------------------------------------------------------------------- ================================ STEP 24 ================================= -------------------------------------------------------------------------- Current time : 0.32792814 [Myr] Tentative time step : 0.01532827 [Myr] -------------------------------------------------------------------------- Phase_Transition ... done (0.0384349 sec) -------------------------------------------------------------------------- 0 SNES Function norm 7.544791942376e+02 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 6.645518857154e-04 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.116649 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.963381580539e-06 |Div|_2 = 3.578799441957e-06 Momentum: |mRes|_2 = 6.645422492230e-04 -------------------------------------------------------------------------- Actual time step : 0.01533 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 1961 markers and merged 581 markers in 2.9141e-02 s -------------------------------------------------------------------------- ================================ STEP 25 ================================= -------------------------------------------------------------------------- Current time : 0.34326050 [Myr] Tentative time step : 0.01533236 [Myr] -------------------------------------------------------------------------- Phase_Transition ... done (0.0355925 sec) -------------------------------------------------------------------------- 0 SNES Function norm 2.428135768392e+03 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.940813617477e-03 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.135864 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.323266839596e-06 |Div|_2 = 2.195414288975e-06 Momentum: |mRes|_2 = 1.940812375769e-03 -------------------------------------------------------------------------- Actual time step : 0.01535 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 2019 markers and merged 548 markers in 3.1612e-02 s -------------------------------------------------------------------------- Saving output ... done (0.135389 sec) -------------------------------------------------------------------------- ================================ STEP 26 ================================= -------------------------------------------------------------------------- Current time : 0.35861463 [Myr] Tentative time step : 0.01535414 [Myr] -------------------------------------------------------------------------- Phase_Transition ... done (0.0396808 sec) -------------------------------------------------------------------------- 0 SNES Function norm 1.789866730496e+03 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.615523047067e-03 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.136859 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.855295772624e-06 |Div|_2 = 3.281914795005e-06 Momentum: |mRes|_2 = 1.615519713479e-03 -------------------------------------------------------------------------- Actual time step : 0.01538 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 1918 markers and merged 626 markers in 2.1562e-02 s -------------------------------------------------------------------------- ================================ STEP 27 ================================= -------------------------------------------------------------------------- Current time : 0.37399938 [Myr] Tentative time step : 0.01538475 [Myr] -------------------------------------------------------------------------- Phase_Transition ... done (0.0274981 sec) -------------------------------------------------------------------------- 0 SNES Function norm 5.889560968213e+03 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.610205639529e-03 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.11969 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.735301883940e-07 |Div|_2 = 1.052907877585e-06 Momentum: |mRes|_2 = 1.610205295283e-03 -------------------------------------------------------------------------- Actual time step : 0.01541 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 1756 markers and merged 594 markers in 2.2404e-02 s -------------------------------------------------------------------------- ================================ STEP 28 ================================= -------------------------------------------------------------------------- Current time : 0.38940579 [Myr] Tentative time step : 0.01540641 [Myr] -------------------------------------------------------------------------- Phase_Transition ... done (0.0300353 sec) -------------------------------------------------------------------------- 0 SNES Function norm 6.172228468350e+02 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 5.191147607294e-04 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.125525 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 3.224928623258e-06 |Div|_2 = 5.311699400284e-06 Momentum: |mRes|_2 = 5.190875847645e-04 -------------------------------------------------------------------------- Actual time step : 0.01550 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 1699 markers and merged 628 markers in 2.2239e-02 s -------------------------------------------------------------------------- ================================ STEP 29 ================================= -------------------------------------------------------------------------- Current time : 0.40491046 [Myr] Tentative time step : 0.01550467 [Myr] -------------------------------------------------------------------------- Phase_Transition ... done (0.0327296 sec) -------------------------------------------------------------------------- 0 SNES Function norm 2.295216675739e+03 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.561757840034e-03 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.135218 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 2.107123301842e-06 |Div|_2 = 4.128857669323e-06 Momentum: |mRes|_2 = 1.561752382243e-03 -------------------------------------------------------------------------- Actual time step : 0.01561 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 1661 markers and merged 673 markers in 3.1373e-02 s -------------------------------------------------------------------------- ================================ STEP 30 ================================= -------------------------------------------------------------------------- Current time : 0.42052352 [Myr] Tentative time step : 0.01561306 [Myr] -------------------------------------------------------------------------- Phase_Transition ... done (0.0387845 sec) -------------------------------------------------------------------------- 0 SNES Function norm 1.803452452713e+03 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.966698890739e-03 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.13129 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.558964615428e-06 |Div|_2 = 3.788307440217e-06 Momentum: |mRes|_2 = 1.966695242167e-03 -------------------------------------------------------------------------- Actual time step : 0.01574 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 1519 markers and merged 607 markers in 3.2226e-02 s -------------------------------------------------------------------------- Saving output ... done (0.178057 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 10.2106 (sec) -------------------------------------------------------------------------- pwd() = "/home/pkgeval/.julia/packages/LaMEM/gnosH/test" readdir() = ["CreateMarkers_Subduction_Linear_FreeSlip_parallel.jl", "Rhyolite.in", "input_files", "markers", "mesh_refinement_test.jl", "read_logfile.jl", "read_timestep.jl", "runLaMEM.jl", "run_lamem_save_grid_test.jl", "runtests.jl", "test_GeoParams_integration.jl", "test_compression.jl", "test_erosion.jl", "test_examples.jl", "test_julia_setup_phase_diagrams.jl", "test_julia_setups.jl"] Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 100000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 1. [Myr] Maximum number of steps : 4 Time step : 0.04 [Myr] Minimum time step : 0.004 [Myr] Maximum time step : 0.2 [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [16, 1, 16] Number of cells : 256 Number of faces : 1056 Maximum cell aspect ratio : 6.25000 Lower coordinate bounds [bx, by, bz] : [-100., -1., -100.] Upper coordinate bounds [ex, ey, ez] : [100., 1., 0.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 1 -- heter - Employing phase diagram: /home/pkgeval/.julia/packages/LaMEM/gnosH/test/Rhyolite (diff) : eta = 1e+23 [Pa*s] Bd = 5e-24 [1/Pa/s] Phase ID : 0 -- matrix - Employing phase diagram: /home/pkgeval/.julia/packages/LaMEM/gnosH/test/Rhyolite (diff) : eta = 1e+23 [Pa*s] Bd = 5e-24 [1/Pa/s] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Top boundary temperature : 0. [C] Bottom boundary temperature : 989.583 [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.00199898 sec) -------------------------------------------------------------------------- Phase Diagrams: Diagrams employed for phases : 0: P range=[0.2-20.2] kbar, T range = [386.4-2086.4] K 1: -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ Melt fraction @ Fluid density @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 3.934530286730e+03 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.581262562749e+02 1 PICARD ||F||/||F0||=4.018936e-02 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 2 SNES Function norm 1.117627025004e+01 2 MMFD ||F||/||F0||=2.840560e-03 Linear js_ solve converged due to CONVERGED_RTOL iterations 3 3 SNES Function norm 1.432330149671e-01 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 3 SNES solution time : 0.0141252 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 6.002321873040e-09 |Div|_2 = 5.644441176775e-08 Momentum: |mRes|_2 = 1.432330149671e-01 -------------------------------------------------------------------------- Saving output ... done (0.00352731 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.04000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 3.050235816760e+02 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.039676666126e-03 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.00545645 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 6.069414583551e-18 |Div|_2 = 3.162302608719e-17 Momentum: |mRes|_2 = 3.039676666126e-03 -------------------------------------------------------------------------- Actual time step : 0.04400 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 5.6186e-04 s -------------------------------------------------------------------------- Saving output ... done (0.0110913 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.04400000 [Myr] Tentative time step : 0.04400000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 3.040264438959e-03 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 6.434728602950e-05 1 PICARD ||F||/||F0||=2.116503e-02 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 2 SNES Function norm 1.391731242115e-06 2 MMFD ||F||/||F0||=4.577665e-04 Linear js_ solve converged due to CONVERGED_RTOL iterations 3 3 SNES Function norm 3.775960634440e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 3 SNES solution time : 0.0160731 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 7.030373462211e-20 |Div|_2 = 2.243793518119e-19 Momentum: |mRes|_2 = 3.775960634440e-12 -------------------------------------------------------------------------- Actual time step : 0.04840 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 5.5812e-04 s -------------------------------------------------------------------------- Saving output ... done (0.0070961 sec) -------------------------------------------------------------------------- ================================= STEP 3 ================================= -------------------------------------------------------------------------- Current time : 0.09240000 [Myr] Tentative time step : 0.04840000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 2.883181848925e-05 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 7.210941128243e-07 1 PICARD ||F||/||F0||=2.501036e-02 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 2 SNES Function norm 1.472232176353e-08 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.00901182 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.343431206158e-15 |Div|_2 = 7.266627062028e-15 Momentum: |mRes|_2 = 1.472232176353e-08 -------------------------------------------------------------------------- Actual time step : 0.05324 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 5.6500e-04 s -------------------------------------------------------------------------- Saving output ... done (0.00458607 sec) -------------------------------------------------------------------------- ================================= STEP 4 ================================= -------------------------------------------------------------------------- Current time : 0.14564000 [Myr] Tentative time step : 0.05324000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 3.170864950966e-05 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 7.927997956283e-07 1 PICARD ||F||/||F0||=2.500264e-02 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 2 SNES Function norm 1.618712375651e-08 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.00898984 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.477117569190e-15 |Div|_2 = 7.988983672080e-15 Momentum: |mRes|_2 = 1.618712375651e-08 -------------------------------------------------------------------------- Actual time step : 0.05856 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 5.7631e-04 s -------------------------------------------------------------------------- Saving output ... done (0.00209376 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.132728 (sec) -------------------------------------------------------------------------- Saved file: Model3D.vts cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 1. [Myr] Maximum number of steps : 2 Time step : 1. [Myr] Minimum time step : 0.2 [Myr] Maximum time step : 10. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [16, 1, 16] Number of cells : 256 Number of faces : 1056 Maximum cell aspect ratio : 2.00000 Lower coordinate bounds [bx, by, bz] : [-2., -0.09375, -1.] Upper coordinate bounds [ex, ey, ez] : [2., 0.09375, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 1 -- sphere (dens) : rho = 3200. [kg/m^3] (diff) : eta = 1e+23 [Pa*s] Bd = 5e-24 [1/Pa/s] Phase ID : 0 -- matrix (dens) : rho = 3000. [kg/m^3] (diff) : eta = 1e+20 [Pa*s] Bd = 5e-21 [1/Pa/s] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : geometric primitives Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise Background phase ID : 0 -------------------------------------------------------------------------- Reading geometric primitives ... done (0.000168928 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 9.118551990311e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.116028797339e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00897495 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.174184490476e-18 |Div|_2 = 5.984135402956e-18 Momentum: |mRes|_2 = 1.116028797323e-12 -------------------------------------------------------------------------- Saving output ... done (0.0898502 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 1.00000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.116028797339e-12 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 4.979851535660e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00434551 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 6.877881017396e-30 |Div|_2 = 3.192494526470e-29 Momentum: |mRes|_2 = 4.979851535660e-14 -------------------------------------------------------------------------- Actual time step : 1.10000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 5.3751e-04 s -------------------------------------------------------------------------- Saving output ... done (0.00094971 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.125041 (sec) -------------------------------------------------------------------------- Saved file: Model3D.vts cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 1. [Myr] Maximum number of steps : 2 Time step : 1. [Myr] Minimum time step : 0.2 [Myr] Maximum time step : 10. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [16, 1, 16] Number of cells : 256 Number of faces : 1056 Maximum cell aspect ratio : 2.00000 Lower coordinate bounds [bx, by, bz] : [-2., -0.09375, -1.] Upper coordinate bounds [ex, ey, ez] : [2., 0.09375, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 1 -- sphere (dens) : rho = 3200. [kg/m^3] (diff) : eta = 1e+23 [Pa*s] Bd = 5e-24 [1/Pa/s] Phase ID : 0 -- matrix (dens) : rho = 3000. [kg/m^3] (diff) : eta = 1e+20 [Pa*s] Bd = 5e-21 [1/Pa/s] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : geometric primitives Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise Background phase ID : 0 -------------------------------------------------------------------------- Reading geometric primitives ... done (0.000368036 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 9.118551990311e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.116028797339e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00532794 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.174184490476e-18 |Div|_2 = 5.984135402956e-18 Momentum: |mRes|_2 = 1.116028797323e-12 -------------------------------------------------------------------------- Saving output ... done (0.0553561 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 1.00000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.116028797339e-12 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 4.979851535660e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00408328 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 6.877881017396e-30 |Div|_2 = 3.192494526470e-29 Momentum: |mRes|_2 = 4.979851535660e-14 -------------------------------------------------------------------------- Actual time step : 1.10000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 5.2853e-04 s -------------------------------------------------------------------------- Saving output ... done (0.0132507 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0949481 (sec) -------------------------------------------------------------------------- cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : /home/pkgeval/.julia/packages/LaMEM/gnosH/test/input_files/FallingBlock_Multigrid.dat Adding PETSc option: -snes_type ksponly Adding PETSc option: -js_ksp_monitor Adding PETSc option: -crs_pc_type bjacobi Finished parsing input file -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [ ] Maximum number of steps : 1 Time step : 10. [ ] Minimum time step : 1e-05 [ ] Maximum time step : 100. [ ] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.5 Output time step : 0.2 [ ] Output every [n] steps : 1 Output [n] initial steps : 1 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [32, 32, 32] Number of cells : 32768 Number of faces : 101376 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [0., 0., 0.] Upper coordinate bounds [ex, ey, ez] : [1., 1., 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 (dens) : rho = 1. [ ] (diff) : eta = 1. [ ] Bd = 0.5 [ ] Phase ID : 1 (dens) : rho = 2. [ ] (diff) : eta = 100. [ ] Bd = 0.005 [ ] Phase ID : 2 (dens) : rho = 2. [ ] (diff) : eta = 1000. [ ] Bd = 0.0005 [ ] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -1.] [ ] Surface stabilization (FSSA) : 1. Use lithostatic pressure for creep @ Minimum viscosity : 0.001 [ ] Maximum viscosity : 1e+12 [ ] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : geometric primitives Velocity interpolation scheme : empirical STAGP (STAG + pressure points) Marker control type : pure AVD for all control volumes Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise Background phase ID : 0 Interpolation constant : 0.7 -------------------------------------------------------------------------- Reading geometric primitives ... done (0.0137527 sec) -------------------------------------------------------------------------- Output parameters: Output file name : FB_multigrid Write .pvd file : yes Phase @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Deviatoric stress second invariant @ Deviatoric strain rate tensor @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- AVD output parameters: Write .pvd file : yes AVD refinement factor : 3 -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Preconditioner type : coupled Galerkin geometric multigrid Global coarse grid [nx,ny,nz] : [4, 4, 4] Local coarse grid [nx,ny,nz] : [4, 4, 4] Number of multigrid levels : 4 -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : multigrid Multigrid smoother levels KSP : chebyshev Multigrid smoother levels PC : sor Number of smoothening steps : 10 Coarse level KSP : preonly Coarse level PC : bjacobi -------------------------------------------------------------------------- Saving output ... done (0.86363 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [ ] Tentative time step : 10.00000000 [ ] -------------------------------------------------------------------------- 0 SNES Function norm 1.832203177398e+02 0 PICARD ||F||/||F0||=1.000000e+00 Residual norms for js_ solve. 0 KSP Residual norm 2.121468833494e+01 1 KSP Residual norm 2.007312746141e+01 2 KSP Residual norm 1.436721786209e+01 3 KSP Residual norm 7.031413261028e+00 4 KSP Residual norm 2.361866279194e+00 5 KSP Residual norm 1.011785314253e+00 6 KSP Residual norm 4.700182839567e-01 7 KSP Residual norm 3.431392417306e-01 8 KSP Residual norm 1.759675422301e-01 9 KSP Residual norm 1.053716068647e-01 10 KSP Residual norm 9.342460424411e-02 11 KSP Residual norm 7.749792924243e-02 12 KSP Residual norm 5.192767141878e-02 13 KSP Residual norm 3.842800827033e-02 14 KSP Residual norm 1.589386132911e-02 15 KSP Residual norm 8.851034636242e-03 16 KSP Residual norm 4.554700539865e-03 17 KSP Residual norm 2.632601842348e-03 18 KSP Residual norm 1.311043982030e-03 19 KSP Residual norm 6.462411319589e-04 20 KSP Residual norm 3.583024905386e-04 21 KSP Residual norm 1.510300556884e-04 Linear js_ solve converged due to CONVERGED_RTOL iterations 21 1 SNES Function norm 1.371165827605e-02 -------------------------------------------------------------------------- SNES Convergence Reason : maximum iterations reached Number of iterations : 1 SNES solution time : 6.26288 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 2.351162529297e-05 |Div|_2 = 1.404433474462e-04 Momentum: |mRes|_2 = 1.371093900305e-02 -------------------------------------------------------------------------- Actual time step : 6.73129 [ ] -------------------------------------------------------------------------- Marker control [0]: (AVD YZED) injected 5 markers and deleted 0 markers in 1.3260e-03 s Marker control [0]: (AVD XZED) injected 7 markers and deleted 0 markers in 1.4863e-03 s Marker control [0]: (AVD XYED) injected 10 markers and deleted 0 markers in 2.0582e-03 s -------------------------------------------------------------------------- Saving output ... done (1.31664 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 10.3005 (sec) -------------------------------------------------------------------------- cores_compute = 4 Fatal error in internal_Init_thread: Other MPI error, error stack: internal_Init_thread(67)...........: MPI_Init_thread(argc=0x7ffd377f485c, argv=0x7ffd377f4850, required=1, provided=0x7ffd377f441c) failed MPII_Init_thread(234)..............: MPID_Init(67)......................: init_world(171)....................: channel initialization failed MPIDI_CH3_Init(84).................: MPID_nem_init(314).................: MPID_nem_tcp_init(175).............: MPID_nem_tcp_get_business_card(397): GetSockInterfaceAddr(370)..........: gethostbyname failed, LaMEM-primary-9lyt3n8V (errno 2) Falling Block test on 4 cores failed cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : /home/pkgeval/.julia/packages/LaMEM/gnosH/test/input_files/FallingBlock_DirectSolver.dat Adding PETSc option: -snes_type ksponly Adding PETSc option: -js_ksp_monitor Finished parsing input file -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [ ] Maximum number of steps : 2 Time step : 10. [ ] Minimum time step : 1e-05 [ ] Maximum time step : 100. [ ] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.5 Output time step : 0.2 [ ] Output every [n] steps : 1000 Output [n] initial steps : 1 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [16, 16, 16] Number of cells : 4096 Number of faces : 13056 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [0., 0., 0.] Upper coordinate bounds [ex, ey, ez] : [1., 1., 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 (dens) : rho = 1. [ ] (diff) : eta = 1. [ ] Bd = 0.5 [ ] Phase ID : 1 (dens) : rho = 2. [ ] (diff) : eta = 100. [ ] Bd = 0.005 [ ] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -1.] [ ] Surface stabilization (FSSA) : 1. Use lithostatic pressure for creep @ Minimum viscosity : 0.001 [ ] Maximum viscosity : 1e+12 [ ] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : geometric primitives Velocity interpolation scheme : empirical STAGP (STAG + pressure points) Marker control type : pure AVD for all control volumes Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise Background phase ID : 0 Interpolation constant : 0.7 -------------------------------------------------------------------------- Reading geometric primitives ... done (0.00321362 sec) -------------------------------------------------------------------------- Output parameters: Output file name : FB_direct Write .pvd file : yes Phase @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ -------------------------------------------------------------------------- AVD output parameters: Write .pvd file : yes AVD refinement factor : 3 -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+03 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- Saving output ... done (0.104301 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [ ] Tentative time step : 10.00000000 [ ] -------------------------------------------------------------------------- 0 SNES Function norm 7.310266752999e+01 0 PICARD ||F||/||F0||=1.000000e+00 Residual norms for js_ solve. 0 KSP Residual norm 2.133540043787e+01 1 KSP Residual norm 1.859427686320e-02 2 KSP Residual norm 2.899733401244e-05 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.649877042896e-04 -------------------------------------------------------------------------- SNES Convergence Reason : maximum iterations reached Number of iterations : 1 SNES solution time : 2.57468 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.056315829386e-06 |Div|_2 = 3.650679845667e-05 Momentum: |mRes|_2 = 1.608980926960e-04 -------------------------------------------------------------------------- Actual time step : 7.69851 [ ] -------------------------------------------------------------------------- Marker control [0]: (AVD CELL) injected 1 markers and deleted 0 markers in 2.2490e-04 s Marker control [0]: (AVD YZED) injected 6 markers and deleted 0 markers in 7.9403e-04 s Marker control [0]: (AVD XZED) injected 8 markers and deleted 0 markers in 1.3976e-03 s Marker control [0]: (AVD XYED) injected 2 markers and deleted 0 markers in 3.9449e-04 s -------------------------------------------------------------------------- Saving output ... done (0.161655 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 7.69851107 [ ] Tentative time step : 7.69851107 [ ] -------------------------------------------------------------------------- 0 SNES Function norm 1.307661178463e+02 0 PICARD ||F||/||F0||=1.000000e+00 Residual norms for js_ solve. 0 KSP Residual norm 1.189285812726e+00 1 KSP Residual norm 1.071718651319e-03 2 KSP Residual norm 2.121756434235e-06 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 5.789132168326e-04 -------------------------------------------------------------------------- SNES Convergence Reason : maximum iterations reached Number of iterations : 1 SNES solution time : 2.21506 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 8.594135843254e-08 |Div|_2 = 7.340971818893e-07 Momentum: |mRes|_2 = 5.789127513924e-04 -------------------------------------------------------------------------- Actual time step : 8.25319 [ ] -------------------------------------------------------------------------- Marker control [0]: (AVD YZED) injected 5 markers and deleted 0 markers in 6.7298e-04 s Marker control [0]: (AVD XZED) injected 4 markers and deleted 0 markers in 5.3769e-04 s Marker control [0]: (AVD XYED) injected 7 markers and deleted 0 markers in 1.0096e-03 s -------------------------------------------------------------------------- Saving output ... done (0.155148 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 5.59399 (sec) -------------------------------------------------------------------------- cores_compute = 2 Fatal error in internal_Init_thread: Other MPI error, error stack: internal_Init_thread(67)...........: MPI_Init_thread(argc=0x7ffcd1e6e7fc, argv=0x7ffcd1e6e7f0, required=1, provided=0x7ffcd1e6e3bc) failed MPII_Init_thread(234)..............: MPID_Init(67)......................: init_world(171)....................: channel initialization failed MPIDI_CH3_Init(84).................: MPID_nem_init(314).................: MPID_nem_tcp_init(175).............: MPID_nem_tcp_get_business_card(397): GetSockInterfaceAddr(370)..........: gethostbyname failed, LaMEM-primary-9lyt3n8V (errno 2) run LaMEM: Error During Test at /home/pkgeval/.julia/packages/LaMEM/gnosH/test/runLaMEM.jl:4 Got exception outside of a @test failed process: Process(setenv(`/home/pkgeval/.julia/artifacts/0ed4137b58af5c5e3797cb0c400e60ed7c308bae/bin/mpiexec -n 2 /home/pkgeval/.julia/artifacts/cd461744844630cc33fbd2e7a8e795b56651d039/bin/LaMEM -ParamFile /home/pkgeval/.julia/packages/LaMEM/gnosH/test/input_files/FallingBlock_DirectSolver.dat '-nstep_max 5'`,["PYTHON=", "PATH=/home/pkgeval/.julia/artifacts/0ed4137b58af5c5e3797cb0c400e60ed7c308bae/bin:/usr/local/bin:/usr/local/sbin:/usr/bin:/usr/sbin:/bin:/sbin", "ZES_ENABLE_SYSMAN=1", "DISPLAY=:1", "LD_LIBRARY_PATH=/opt/julia/bin/../lib/julia:/home/pkgeval/.julia/artifacts/93ddb84060b49f38ec59d4b04a3109fedc4577d2/lib:/home/pkgeval/.julia/artifacts/0ed4137b58af5c5e3797cb0c400e60ed7c308bae/lib:/home/pkgeval/.julia/artifacts/0a6a41be79ef85f32aa7d8529d4aebf9ef8ab030/lib:/home/pkgeval/.julia/artifacts/3f1a00f1080275e347bfbcf5d11aac546fc87017/lib/petsc/double_real_Int64/lib:/home/pkgeval/.julia/artifacts/3f1a00f1080275e347bfbcf5d11aac546fc87017/lib/petsc/single_complex_Int32/lib:/home/pkgeval/.julia/artifacts/3f1a00f1080275e347bfbcf5d11aac546fc87017/lib/petsc/single_complex_Int64/lib:/home/pkgeval/.julia/artifacts/3f1a00f1080275e347bfbcf5d11aac546fc87017/lib/petsc/single_real_Int32/lib:/home/pkgeval/.julia/artifacts/3f1a00f1080275e347bfbcf5d11aac546fc87017/lib/petsc/single_real_Int64/lib:/home/pkgeval/.julia/artifacts/3f1a00f1080275e347bfbcf5d11aac546fc87017/lib/petsc/double_complex_Int32/lib:/home/pkgeval/.julia/artifacts/3f1a00f1080275e347bfbcf5d11aac546fc87017/lib/petsc/double_complex_Int64/lib:/home/pkgeval/.julia/artifacts/3f1a00f1080275e347bfbcf5d11aac546fc87017/lib/petsc/double_real_Int32/lib:/home/pkgeval/.julia/artifacts/3f1a00f1080275e347bfbcf5d11aac546fc87017/lib/petsc/double_real_Int64_deb/lib:/home/pkgeval/.julia/artifacts/cd461744844630cc33fbd2e7a8e795b56651d039/lib:/opt/julia/bin/../lib/julia:/opt/julia/bin/../lib:/opt/julia/bin/../lib/julia:/home/pkgeval/.julia/artifacts/0ed4137b58af5c5e3797cb0c400e60ed7c308bae/lib:/opt/julia/bin/../lib/julia:/opt/julia/bin/../lib", "OPENBLAS_NUM_THREADS=1", "OMP_NUM_THREADS=1", "CI=true", "R_HOME=*", "FONTCONFIG_PATH=/home/pkgeval/.julia/artifacts/bd752d7807f5f10e2dce3d2b2b683589fa03d31a/etc/fonts", "LANG=C.UTF-8", "VECLIB_MAXIMUM_THREADS=1", "JULIA_CPU_THREADS=1", "JULIA_NUM_PRECOMPILE_TASKS=1", "FONTCONFIG_FILE=/home/pkgeval/.julia/artifacts/bd752d7807f5f10e2dce3d2b2b683589fa03d31a/etc/fonts/fonts.conf", "JULIA_LOAD_PATH=/tmp/jl_2HJh89/Project.toml", "UCX_MEMTYPE_CACHE=no", "PKGEVAL=true", "UCX_ERROR_SIGNALS=SIGILL,SIGBUS,SIGFPE", "JULIA_PKG_PRECOMPILE_AUTO=0", "HOME=/home/pkgeval", "JULIA_PKGEVAL=true", "OPENBLAS_MAIN_FREE=1", "JULIA_DEPOT_PATH=/home/pkgeval/.julia:/usr/local/share/julia:", "JULIA_NUM_THREADS=1"]), ProcessExited(15)) [15] Stacktrace: [1] pipeline_error @ ./process.jl:565 [inlined] [2] run(::Cmd; wait::Bool) @ Base ./process.jl:480 [3] run @ ./process.jl:477 [inlined] [4] run_lamem(ParamFile::String, cores::Int64, args::String; wait::Bool, deactivate_multithreads::Bool) @ LaMEM.Run ~/.julia/packages/LaMEM/gnosH/src/run_lamem.jl:79 [5] run_lamem(ParamFile::String, cores::Int64, args::String) @ LaMEM.Run ~/.julia/packages/LaMEM/gnosH/src/run_lamem.jl:50 [6] macro expansion @ ~/.julia/packages/LaMEM/gnosH/test/runLaMEM.jl:36 [inlined] [7] macro expansion @ /opt/julia/share/julia/stdlib/v1.10/Test/src/Test.jl:1577 [inlined] [8] top-level scope @ ~/.julia/packages/LaMEM/gnosH/test/runLaMEM.jl:7 [9] include(fname::String) @ Base.MainInclude ./client.jl:494 [10] macro expansion @ ~/.julia/packages/LaMEM/gnosH/test/runtests.jl:7 [inlined] [11] macro expansion @ /opt/julia/share/julia/stdlib/v1.10/Test/src/Test.jl:1577 [inlined] [12] top-level scope @ ~/.julia/packages/LaMEM/gnosH/test/runtests.jl:6 [13] include(fname::String) @ Base.MainInclude ./client.jl:494 [14] top-level scope @ none:6 [15] eval @ ./boot.jl:385 [inlined] [16] exec_options(opts::Base.JLOptions) @ Base ./client.jl:296 [17] _start() @ Base ./client.jl:557 read LaMEM output: Error During Test at /home/pkgeval/.julia/packages/LaMEM/gnosH/test/read_timestep.jl:5 Got exception outside of a @test SystemError: opening file "/home/pkgeval/.julia/packages/LaMEM/gnosH/test/PlumeLithosphereInteraction_passive_tracers.pvd": No such file or directory Stacktrace: [1] systemerror(p::String, errno::Int32; extrainfo::Nothing) @ Base ./error.jl:176 [2] systemerror @ ./error.jl:175 [inlined] [3] open(fname::String; lock::Bool, read::Nothing, write::Nothing, create::Nothing, truncate::Nothing, append::Nothing) @ Base ./iostream.jl:293 [4] open @ ./iostream.jl:275 [inlined] [5] open(f::Base.var"#445#446"{@Kwargs{}}, args::String; kwargs::@Kwargs{}) @ Base ./io.jl:394 [6] open @ ./io.jl:393 [inlined] [7] #readlines#444 @ ./io.jl:599 [inlined] [8] readlines @ ./io.jl:598 [inlined] [9] readPVD(FileName::String) @ LaMEM.IO_functions ~/.julia/packages/LaMEM/gnosH/src/read_timestep.jl:257 [10] read_LaMEM_simulation(FileName::String, DirName::String; phase::Bool, surf::Bool, passive_tracers::Bool) @ LaMEM.IO_functions ~/.julia/packages/LaMEM/gnosH/src/read_timestep.jl:451 [11] read_LaMEM_simulation @ ~/.julia/packages/LaMEM/gnosH/src/read_timestep.jl:439 [inlined] [12] read_LaMEM_timestep(FileName::String, TimeStep::Int64, DirName::String; fields::Nothing, phase::Bool, surf::Bool, passive_tracers::Bool, last::Bool) @ LaMEM.IO_functions ~/.julia/packages/LaMEM/gnosH/src/read_timestep.jl:414 [13] read_LaMEM_timestep @ ~/.julia/packages/LaMEM/gnosH/src/read_timestep.jl:412 [inlined] [14] macro expansion @ ~/.julia/packages/LaMEM/gnosH/test/read_timestep.jl:38 [inlined] [15] macro expansion @ /opt/julia/share/julia/stdlib/v1.10/Test/src/Test.jl:1577 [inlined] [16] top-level scope @ ~/.julia/packages/LaMEM/gnosH/test/read_timestep.jl:8 [17] include(fname::String) @ Base.MainInclude ./client.jl:494 [18] macro expansion @ ~/.julia/packages/LaMEM/gnosH/test/runtests.jl:8 [inlined] [19] macro expansion @ /opt/julia/share/julia/stdlib/v1.10/Test/src/Test.jl:1577 [inlined] [20] top-level scope @ ~/.julia/packages/LaMEM/gnosH/test/runtests.jl:6 [21] include(fname::String) @ Base.MainInclude ./client.jl:494 [22] top-level scope @ none:6 [23] eval @ ./boot.jl:385 [inlined] [24] exec_options(opts::Base.JLOptions) @ Base ./client.jl:296 [25] _start() @ Base ./client.jl:557 No partitioning file required for 1 core model setup run lamem mode save grid test: Error During Test at /home/pkgeval/.julia/packages/LaMEM/gnosH/test/run_lamem_save_grid_test.jl:3 Got exception outside of a @test MethodError: no method matching length(::Nothing) Closest candidates are: length(!Matched::CompositeException) @ Base task.jl:51 length(!Matched::MPI.Info) @ MPI ~/.julia/packages/MPI/TKXAj/src/info.jl:116 length(!Matched::TranscodingStreams.Memory) @ TranscodingStreams ~/.julia/packages/TranscodingStreams/O3BYF/src/memory.jl:14 ... Stacktrace: [1] run_lamem_save_grid(ParamFile::String, cores::Int64; verbose::Bool, directory::String) @ LaMEM.Run ~/.julia/packages/LaMEM/gnosH/src/run_lamem_save_grid.jl:92 [2] macro expansion @ ~/.julia/packages/LaMEM/gnosH/test/run_lamem_save_grid_test.jl:11 [inlined] [3] macro expansion @ /opt/julia/share/julia/stdlib/v1.10/Test/src/Test.jl:1577 [inlined] [4] top-level scope @ ~/.julia/packages/LaMEM/gnosH/test/run_lamem_save_grid_test.jl:5 [5] include(fname::String) @ Base.MainInclude ./client.jl:494 [6] macro expansion @ ~/.julia/packages/LaMEM/gnosH/test/runtests.jl:9 [inlined] [7] macro expansion @ /opt/julia/share/julia/stdlib/v1.10/Test/src/Test.jl:1577 [inlined] [8] top-level scope @ ~/.julia/packages/LaMEM/gnosH/test/runtests.jl:6 [9] include(fname::String) @ Base.MainInclude ./client.jl:494 [10] top-level scope @ none:6 [11] eval @ ./boot.jl:385 [inlined] [12] exec_options(opts::Base.JLOptions) @ Base ./client.jl:296 [13] _start() @ Base ./client.jl:557 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 1000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 1. [Myr] Maximum number of steps : 2 Time step : 1. [Myr] Minimum time step : 0.2 [Myr] Maximum time step : 10. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [24, 24, 24] Number of cells : 13824 Number of faces : 43200 Maximum cell aspect ratio : 2.00000 Lower coordinate bounds [bx, by, bz] : [-1., -1., -1.] Upper coordinate bounds [ex, ey, ez] : [1., 1., 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 1 -- sphere (dens) : rho = 3200. [kg/m^3] (diff) : eta = 1e+23 [Pa*s] Bd = 5e-24 [1/Pa/s] Phase ID : 0 -- matrix (dens) : rho = 3000. [kg/m^3] (diff) : eta = 1e+20 [Pa*s] Bd = 5e-21 [1/Pa/s] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.108701 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Preconditioner type : coupled Galerkin geometric multigrid Global coarse grid [nx,ny,nz] : [12, 12, 12] Local coarse grid [nx,ny,nz] : [12, 12, 12] Number of multigrid levels : 2 -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : multigrid Multigrid smoother levels KSP : chebyshev Multigrid smoother levels PC : sor Number of smoothening steps : 10 Coarse level KSP : preonly Coarse level PC : lu Coarse level solver package : (null) -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 3.403291317974e+02 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 6 1 SNES Function norm 1.464986509563e-03 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 21.7531 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 3.270115706137e-06 |Div|_2 = 6.060118300339e-05 Momentum: |mRes|_2 = 1.463732547230e-03 -------------------------------------------------------------------------- Saving output ... done (0.00815959 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 1.00000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.788630241324e+03 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 16 1 SNES Function norm 3.498272686734e-03 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 21.0947 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 3.403141994493e-05 |Div|_2 = 9.116365292802e-05 Momentum: |mRes|_2 = 3.497084639973e-03 -------------------------------------------------------------------------- Actual time step : 1.10000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 6.2904e-02 s -------------------------------------------------------------------------- Saving output ... done (0.00716275 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 43.7028 (sec) -------------------------------------------------------------------------- | FineGrid | Cores | Nodes | CoarseGrid | CoaCores | Levels | SNES | KSP | TotalTime | CoarseTime | MemNode_Gb | Filename | | --------------- | ----- | ----- | ------------ | -------- | ------ | ---- | --- | --------- | ---------- | ---------- | -------------------------------- | | [512, 256, 256] | 512 | - | [32, 16, 16] | 512 | 5 | 1 | 72 | 26.26 | 9.9174 | - | input_files/128_cores_104812.txt | Saved file: Model3D.vts Fatal error in internal_Init_thread: Other MPI error, error stack: internal_Init_thread(67)...........: MPI_Init_thread(argc=0x7ffdace2b5dc, argv=0x7ffdace2b5d0, required=1, provided=0x7ffdace2b19c) failed MPII_Init_thread(234)..............: MPID_Init(67)......................: init_world(171)....................: channel initialization failed MPIDI_CH3_Init(84).................: MPID_nem_init(314).................: MPID_nem_tcp_init(175).............: MPID_nem_tcp_get_business_card(397): GetSockInterfaceAddr(370)..........: gethostbyname failed, LaMEM-primary-9lyt3n8V (errno 2) filesize compression: Error During Test at /home/pkgeval/.julia/packages/LaMEM/gnosH/test/test_compression.jl:6 Got exception outside of a @test MethodError: no method matching length(::Nothing) Closest candidates are: length(!Matched::CompositeException) @ Base task.jl:51 length(!Matched::MPI.Info) @ MPI ~/.julia/packages/MPI/TKXAj/src/info.jl:116 length(!Matched::TranscodingStreams.Memory) @ TranscodingStreams ~/.julia/packages/TranscodingStreams/O3BYF/src/memory.jl:14 ... Stacktrace: [1] run_lamem_save_grid(ParamFile::String, cores::Int64; verbose::Bool, directory::String) @ LaMEM.Run ~/.julia/packages/LaMEM/gnosH/src/run_lamem_save_grid.jl:92 [2] run_lamem_save_grid @ ~/.julia/packages/LaMEM/gnosH/src/run_lamem_save_grid.jl:76 [inlined] [3] create_initialsetup(model::Model, cores::Int64, args::String; verbose::Bool) @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/Model.jl:296 [4] create_initialsetup @ ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/Model.jl:273 [inlined] [5] run_lamem(model::Model, cores::Int64, args::String; wait::Bool) @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/Model.jl:200 [6] run_lamem @ ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/Model.jl:195 [inlined] [7] run_lamem(model::Model, cores::Int64) @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/Model.jl:195 [8] macro expansion @ ~/.julia/packages/LaMEM/gnosH/test/test_compression.jl:23 [inlined] [9] macro expansion @ /opt/julia/share/julia/stdlib/v1.10/Test/src/Test.jl:1577 [inlined] [10] top-level scope @ ~/.julia/packages/LaMEM/gnosH/test/test_compression.jl:7 [11] include(fname::String) @ Base.MainInclude ./client.jl:494 [12] macro expansion @ ~/.julia/packages/LaMEM/gnosH/test/runtests.jl:12 [inlined] [13] macro expansion @ /opt/julia/share/julia/stdlib/v1.10/Test/src/Test.jl:1577 [inlined] [14] top-level scope @ ~/.julia/packages/LaMEM/gnosH/test/runtests.jl:6 [15] include(fname::String) @ Base.MainInclude ./client.jl:494 [16] top-level scope @ none:6 [17] eval @ ./boot.jl:385 [inlined] [18] exec_options(opts::Base.JLOptions) @ Base ./client.jl:296 [19] _start() @ Base ./client.jl:557 rheology = Phase 0 (matrix): rho = 3000.0 eta = 1.0e20 ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- matrix (dens) : rho = 3000. [kg/m^3] (diff) : eta = 1e+20 [Pa*s] Bd = 5e-21 [1/Pa/s] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.00491821 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 4.404679741346e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.855164213029e-13 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00190657 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.219727444046e-18 |Div|_2 = 4.351986372410e-18 Momentum: |mRes|_2 = 1.855164212518e-13 -------------------------------------------------------------------------- Saving output ... done (0.000745562 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.855164213029e-13 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.268605661839e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00099774 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 5.421010862428e-20 |Div|_2 = 1.368738149400e-19 Momentum: |mRes|_2 = 1.268605661765e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.7574e-04 s -------------------------------------------------------------------------- Saving output ... done (0.134915 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.529012823718e-08 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.590416869505e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00104438 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 5.421010862428e-20 |Div|_2 = 1.533293416683e-19 Momentum: |mRes|_2 = 1.590416869431e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.3764e-04 s -------------------------------------------------------------------------- Saving output ... done (0.199566 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.356555 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (0.002f0, 0.002f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- matrix (dens) : rho = 3000. [kg/m^3] (diff) : eta = 1e+20 [Pa*s] Bd = 5e-21 [1/Pa/s] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000877922 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 4.404745638765e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 8.192074820223e-13 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.0017437 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 9.107298248878e-18 |Div|_2 = 3.680670766906e-17 Momentum: |mRes|_2 = 8.192074811954e-13 -------------------------------------------------------------------------- Saving output ... done (0.0224035 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 8.192074820223e-13 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve did not converge due to DIVERGED_BREAKDOWN iterations 30 1 SNES Function norm 1.996269872508e-13 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00241631 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 2.385244779468e-17 |Div|_2 = 6.076331735643e-17 Momentum: |mRes|_2 = 1.996269780031e-13 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.7614e-04 s -------------------------------------------------------------------------- Saving output ... done (0.0188288 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.529035026473e-07 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 2.131007585929e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00112176 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.336808689942e-19 |Div|_2 = 1.533293416683e-18 Momentum: |mRes|_2 = 2.131007580413e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.7868e-04 s -------------------------------------------------------------------------- Saving output ... done (0.0111385 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0710156 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (0.02f0, 0.02f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- matrix (dens) : rho = 3000. [kg/m^3] (diff) : eta = 1e+20 [Pa*s] Bd = 5e-21 [1/Pa/s] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.00292151 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 4.411330409550e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 7.900625156863e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00184619 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 9.367506770275e-17 |Div|_2 = 3.652489012102e-16 Momentum: |mRes|_2 = 7.900625148420e-12 -------------------------------------------------------------------------- Saving output ... done (0.00676511 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 7.900625156863e-12 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.193054234538e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00107316 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 3.469446951954e-18 |Div|_2 = 9.501471788263e-18 Momentum: |mRes|_2 = 1.193053856190e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.6505e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000512735 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.531321061608e-06 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.505745134977e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00102366 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 3.469446951954e-18 |Div|_2 = 1.201851678990e-17 Momentum: |mRes|_2 = 1.505744655332e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.4871e-04 s -------------------------------------------------------------------------- Saving output ... done (0.00482462 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0314412 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (0.2f0, 0.2f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- matrix (dens) : rho = 3000. [kg/m^3] (diff) : eta = 1e+20 [Pa*s] Bd = 5e-21 [1/Pa/s] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000656044 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 5.026432132460e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 7.408582653022e-11 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00191377 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 9.992007221626e-16 |Div|_2 = 4.055212130474e-15 Momentum: |mRes|_2 = 7.408582641923e-11 -------------------------------------------------------------------------- Saving output ... done (0.000669104 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 7.408582653022e-11 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 2.331272599822e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00102665 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 5.551115123126e-17 |Div|_2 = 1.468687011488e-16 Momentum: |mRes|_2 = 2.331226336186e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.7717e-04 s -------------------------------------------------------------------------- Saving output ... done (0.00098993 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.744843946556e-05 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.645921959749e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00111793 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 5.551115123126e-17 |Div|_2 = 1.642041997679e-16 Momentum: |mRes|_2 = 1.645840049152e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.8368e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000525875 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0197329 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (2.0f0, 2.0f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- matrix (dens) : rho = 3000. [kg/m^3] (diff) : eta = 1e+20 [Pa*s] Bd = 5e-21 [1/Pa/s] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000804082 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 2.461266787616e+02 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.007037800205e-09 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00194413 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.043609643148e-14 |Div|_2 = 3.386489617389e-14 Momentum: |mRes|_2 = 1.007037799635e-09 -------------------------------------------------------------------------- Saving output ... done (0.000680453 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.007037800205e-09 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve did not converge due to DIVERGED_BREAKDOWN iterations 60 1 SNES Function norm 1.382743448093e-10 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00320858 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 7.771561172376e-15 |Div|_2 = 1.956356625210e-14 Momentum: |mRes|_2 = 1.382743434253e-10 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.7177e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000665064 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 8.543884777184e-04 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.658946166339e-13 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00114993 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.440892098501e-16 |Div|_2 = 1.285176065878e-15 Momentum: |mRes|_2 = 1.658896384666e-13 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.3363e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000560435 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0220801 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (20.0f0, 20.0f0) τ_linear = [0.0020000000949949026, 0.019999999552965164, 0.20000000298023224, 2.0, 20.0] τ_anal = [0.002, 0.02, 0.20000000000000004, 2.0, 20.0] ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- matrix dislocation creep profile: Tumut_Pond_Serpentinite-Raleigh_Paterson_1965 (dens) : rho = 3000. [kg/m^3] (disl) : Bn = 4.0257e-23 [1/Pa^n/s] En = 66000. [J/mol] n = 2.8 [ ] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000752683 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 4.404679741346e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.855164213029e-13 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00192165 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.219727444046e-18 |Div|_2 = 4.351986372410e-18 Momentum: |mRes|_2 = 1.855164212518e-13 -------------------------------------------------------------------------- Saving output ... done (0.000711693 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.732070997253e-13 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.676863757548e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00108251 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.065758146821e-20 |Div|_2 = 1.355252715607e-19 Momentum: |mRes|_2 = 1.676863757493e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.6106e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000621894 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.529012298712e-08 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.344047801612e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00121449 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 5.421010862428e-20 |Div|_2 = 1.714274154578e-19 Momentum: |mRes|_2 = 1.344047801612e-12 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.6343e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000580954 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0198163 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (0.00066601264f0, 0.00066601264f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- matrix dislocation creep profile: Tumut_Pond_Serpentinite-Raleigh_Paterson_1965 (dens) : rho = 3000. [kg/m^3] (disl) : Bn = 4.0257e-23 [1/Pa^n/s] En = 66000. [J/mol] n = 2.8 [ ] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000850872 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 4.404745638765e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 8.192074820223e-13 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00190408 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 9.107298248878e-18 |Div|_2 = 3.680670766906e-17 Momentum: |mRes|_2 = 8.192074811954e-13 -------------------------------------------------------------------------- Saving output ... done (0.000761563 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 7.538538587820e-13 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 4 1 SNES Function norm 1.914610129611e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00114061 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 8.673617379884e-19 |Div|_2 = 2.395080882144e-18 Momentum: |mRes|_2 = 1.914610114630e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.5711e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000546195 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.529012236651e-07 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.060973992895e-11 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00109515 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.336808689942e-19 |Div|_2 = 1.761620017532e-18 Momentum: |mRes|_2 = 3.060973992895e-11 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.5747e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000518645 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0192393 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (0.001515742f0, 0.001515742f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- matrix dislocation creep profile: Tumut_Pond_Serpentinite-Raleigh_Paterson_1965 (dens) : rho = 3000. [kg/m^3] (disl) : Bn = 4.0257e-23 [1/Pa^n/s] En = 66000. [J/mol] n = 2.8 [ ] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000756512 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 4.411330409550e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 7.900625156863e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00188436 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 9.367506770275e-17 |Div|_2 = 3.652489012102e-16 Momentum: |mRes|_2 = 7.900625148420e-12 -------------------------------------------------------------------------- Saving output ... done (0.000695353 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 7.574877395261e-12 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.864620915674e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00108735 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 3.469446951954e-18 |Div|_2 = 1.201851678990e-17 Momentum: |mRes|_2 = 1.864620528344e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.7296e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000628504 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.529027476038e-06 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 6.967399903915e-10 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00113251 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 3.469446951954e-18 |Div|_2 = 1.321126039445e-17 Momentum: |mRes|_2 = 6.967399903915e-10 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.4129e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000611094 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0193478 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (0.0034495955f0, 0.0034495955f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- matrix dislocation creep profile: Tumut_Pond_Serpentinite-Raleigh_Paterson_1965 (dens) : rho = 3000. [kg/m^3] (disl) : Bn = 4.0257e-23 [1/Pa^n/s] En = 66000. [J/mol] n = 2.8 [ ] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000756253 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 5.026432132460e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 7.408582653022e-11 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00187157 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 9.992007221626e-16 |Div|_2 = 4.055212130474e-15 Momentum: |mRes|_2 = 7.408582641923e-11 -------------------------------------------------------------------------- Saving output ... done (0.000796982 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 6.757947606630e-11 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.193302093907e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00107876 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.163336342344e-17 |Div|_2 = 1.455514664586e-16 Momentum: |mRes|_2 = 3.193268922383e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.5377e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000739583 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.530525989706e-05 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.585686169509e-08 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00107769 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.163336342344e-17 |Div|_2 = 1.594436429147e-16 Momentum: |mRes|_2 = 1.585686169509e-08 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.5844e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000667573 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0194368 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (0.007850748f0, 0.007850748f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- matrix dislocation creep profile: Tumut_Pond_Serpentinite-Raleigh_Paterson_1965 (dens) : rho = 3000. [kg/m^3] (disl) : Bn = 4.0257e-23 [1/Pa^n/s] En = 66000. [J/mol] n = 2.8 [ ] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000747782 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 2.461266787616e+02 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.007037800205e-09 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00186738 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.043609643148e-14 |Div|_2 = 3.386489617389e-14 Momentum: |mRes|_2 = 1.007037799635e-09 -------------------------------------------------------------------------- Saving output ... done (0.000834752 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 9.721068317499e-10 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 6.327026433622e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00109286 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.440892098501e-16 |Div|_2 = 1.514142333402e-15 Momentum: |mRes|_2 = 6.325214401243e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.5610e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000593684 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.673510065039e-04 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.608776481627e-07 1 MMFD ||F||/||F0||=2.156412e-03 Linear js_ solve converged due to CONVERGED_RTOL iterations 3 2 SNES Function norm 7.337506294466e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.00280849 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 8.881784197001e-16 |Div|_2 = 2.717212732710e-15 Momentum: |mRes|_2 = 7.332473400632e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.4149e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000593684 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0211136 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (0.017867092f0, 0.017867092f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- rheology (dens) : rho = 3000. [kg/m^3] (disl) : Bn = 4.0257e-23 [1/Pa^n/s] En = 66000. [J/mol] n = 2.8 [ ] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000712103 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 4.404679741346e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.855164213029e-13 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00179738 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.219727444046e-18 |Div|_2 = 4.351986372410e-18 Momentum: |mRes|_2 = 1.855164212518e-13 -------------------------------------------------------------------------- Saving output ... done (0.000756932 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.732070997253e-13 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.676863757548e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00101431 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.065758146821e-20 |Div|_2 = 1.355252715607e-19 Momentum: |mRes|_2 = 1.676863757493e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.5130e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000535855 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.529012298712e-08 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.344047801612e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00115532 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 5.421010862428e-20 |Div|_2 = 1.714274154578e-19 Momentum: |mRes|_2 = 1.344047801612e-12 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.4491e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000607434 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0188784 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (0.00066601264f0, 0.00066601264f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- rheology (dens) : rho = 3000. [kg/m^3] (disl) : Bn = 4.0257e-23 [1/Pa^n/s] En = 66000. [J/mol] n = 2.8 [ ] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000806602 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 4.404745638765e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 8.192074820223e-13 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00194471 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 9.107298248878e-18 |Div|_2 = 3.680670766906e-17 Momentum: |mRes|_2 = 8.192074811954e-13 -------------------------------------------------------------------------- Saving output ... done (0.000831342 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 7.536173268120e-13 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve did not converge due to DIVERGED_BREAKDOWN iterations 60 1 SNES Function norm 1.558141012496e-13 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00338665 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.531965080989e-17 |Div|_2 = 1.438840450765e-16 Momentum: |mRes|_2 = 1.558140348159e-13 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.6542e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000679913 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.529012312017e-07 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.061084525594e-11 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00109367 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 6.505213034913e-19 |Div|_2 = 1.707403288634e-18 Momentum: |mRes|_2 = 3.061084525594e-11 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.3507e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000596154 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0222271 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (0.001515742f0, 0.001515742f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- rheology (dens) : rho = 3000. [kg/m^3] (disl) : Bn = 4.0257e-23 [1/Pa^n/s] En = 66000. [J/mol] n = 2.8 [ ] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000768483 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 4.411330409550e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 7.900625156863e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00214307 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 9.367506770275e-17 |Div|_2 = 3.652489012102e-16 Momentum: |mRes|_2 = 7.900625148420e-12 -------------------------------------------------------------------------- Saving output ... done (0.000813362 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 7.575177734083e-12 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.883753867839e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00103366 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 3.469446951954e-18 |Div|_2 = 1.250926888277e-17 Momentum: |mRes|_2 = 1.883753452494e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.6015e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000621913 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.529027475860e-06 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 6.967410109455e-10 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00122559 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 3.469446951954e-18 |Div|_2 = 1.409296014026e-17 Momentum: |mRes|_2 = 6.967410109455e-10 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.6483e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000704344 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0200326 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (0.0034495955f0, 0.0034495955f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- rheology (dens) : rho = 3000. [kg/m^3] (disl) : Bn = 4.0257e-23 [1/Pa^n/s] En = 66000. [J/mol] n = 2.8 [ ] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000846742 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 5.026432132460e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 7.408582653022e-11 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00234312 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 9.992007221626e-16 |Div|_2 = 4.055212130474e-15 Momentum: |mRes|_2 = 7.408582641923e-11 -------------------------------------------------------------------------- Saving output ... done (0.000722653 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 6.757910772242e-11 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.290919515336e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00119258 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.163336342344e-17 |Div|_2 = 1.455514664586e-16 Momentum: |mRes|_2 = 3.290887327778e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.5194e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000626623 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.530525989717e-05 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.585686263715e-08 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00121091 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 5.551115123126e-17 |Div|_2 = 1.594436429147e-16 Momentum: |mRes|_2 = 1.585686263715e-08 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.3831e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000702333 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0207315 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (0.007850748f0, 0.007850748f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- rheology (dens) : rho = 3000. [kg/m^3] (disl) : Bn = 4.0257e-23 [1/Pa^n/s] En = 66000. [J/mol] n = 2.8 [ ] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000822042 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 2.461266787616e+02 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.007037800205e-09 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00189988 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.043609643148e-14 |Div|_2 = 3.386489617389e-14 Momentum: |mRes|_2 = 1.007037799635e-09 -------------------------------------------------------------------------- Saving output ... done (0.000757492 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 9.721073818982e-10 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 6.206221377386e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00104428 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.440892098501e-16 |Div|_2 = 1.489520491948e-15 Momentum: |mRes|_2 = 6.204433662484e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.5299e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000606945 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.673510065031e-04 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.608776465926e-07 1 MMFD ||F||/||F0||=2.156412e-03 Linear js_ solve converged due to CONVERGED_RTOL iterations 3 2 SNES Function norm 7.323744093763e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.00275058 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 8.881784197001e-16 |Div|_2 = 2.717212732710e-15 Momentum: |mRes|_2 = 7.318701736004e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.4457e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000632854 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0215642 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (0.017867092f0, 0.017867092f0) τ_num1 = [0.0006660126382485032, 0.0015157420421019197, 0.003449595533311367, 0.007850747555494308, 0.017867092043161392] τ_num2 = [0.0006660126382485032, 0.0015157420421019197, 0.003449595533311367, 0.007850747555494308, 0.017867092043161392] ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- matrix dislocation creep profile: Dry_Olivine-Ranalli_1995 (dens) : rho = 3000. [kg/m^3] (disl) : Bn = 1.48058e-16 [1/Pa^n/s] En = 532000. [J/mol] n = 3.5 [ ] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000762543 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 4.404679741346e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.855164213029e-13 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00187113 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.219727444046e-18 |Div|_2 = 4.351986372410e-18 Momentum: |mRes|_2 = 1.855164212518e-13 -------------------------------------------------------------------------- Saving output ... done (0.000775173 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.999601326924e-12 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 2.245639208773e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00106906 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 5.421010862428e-20 |Div|_2 = 2.019281067463e-19 Momentum: |mRes|_2 = 2.245639208773e-12 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.5705e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000634944 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.529983614622e-08 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 4 1 SNES Function norm 6.355036424707e-10 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00131419 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.151964808266e-18 |Div|_2 = 3.319788279835e-18 Momentum: |mRes|_2 = 6.355036424707e-10 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.4496e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000655624 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0194397 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (0.28025904f0, 0.28025904f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- matrix dislocation creep profile: Dry_Olivine-Ranalli_1995 (dens) : rho = 3000. [kg/m^3] (disl) : Bn = 1.48058e-16 [1/Pa^n/s] En = 532000. [J/mol] n = 3.5 [ ] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000800602 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 4.404745638765e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 8.192074820223e-13 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00187234 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 9.107298248878e-18 |Div|_2 = 3.680670766906e-17 Momentum: |mRes|_2 = 8.192074811954e-13 -------------------------------------------------------------------------- Saving output ... done (0.000775142 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 5.166485402623e-12 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve did not converge due to DIVERGED_BREAKDOWN iterations 30 1 SNES Function norm 2.672158256062e-11 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00229618 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 3.035766082959e-18 |Div|_2 = 7.132699033577e-18 Momentum: |mRes|_2 = 2.672158256062e-11 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.6334e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000736883 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.532640059961e-07 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 1.214267533388e-08 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00115535 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 3.433061127045e-14 |Div|_2 = 1.730949475871e-13 Momentum: |mRes|_2 = 1.214267533264e-08 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.4514e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000588225 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.020794 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (0.5410955f0, 0.5410955f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- matrix dislocation creep profile: Dry_Olivine-Ranalli_1995 (dens) : rho = 3000. [kg/m^3] (disl) : Bn = 1.48058e-16 [1/Pa^n/s] En = 532000. [J/mol] n = 3.5 [ ] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000870061 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 4.411330409550e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 7.900625156863e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00189331 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 9.367506770275e-17 |Div|_2 = 3.652489012102e-16 Momentum: |mRes|_2 = 7.900625148420e-12 -------------------------------------------------------------------------- Saving output ... done (0.000789782 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.042474277838e-11 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 3.155075594917e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00103196 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 3.469446951954e-18 |Div|_2 = 1.717288626685e-17 Momentum: |mRes|_2 = 3.155075594871e-12 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.5467e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000658273 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.542469102073e-06 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 2.344382818817e-07 1 PICARD ||F||/||F0||=1.519890e-01 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 2 SNES Function norm 1.130031258622e-10 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.0019427 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.488670298144e-13 |Div|_2 = 4.858601896386e-13 Momentum: |mRes|_2 = 1.130020813724e-10 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.4878e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000794353 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0215817 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (1.0446918f0, 1.0446918f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- matrix dislocation creep profile: Dry_Olivine-Ranalli_1995 (dens) : rho = 3000. [kg/m^3] (disl) : Bn = 1.48058e-16 [1/Pa^n/s] En = 532000. [J/mol] n = 3.5 [ ] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000789133 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 5.026432132460e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 7.408582653022e-11 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00231548 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 9.992007221626e-16 |Div|_2 = 4.055212130474e-15 Momentum: |mRes|_2 = 7.408582641923e-11 -------------------------------------------------------------------------- Saving output ... done (0.000740383 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 6.784431980867e-11 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 7.724013332527e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00115727 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.163336342344e-17 |Div|_2 = 1.481742263891e-16 Momentum: |mRes|_2 = 7.724013331105e-12 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.6313e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000639104 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.580001929353e-05 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 4.526537046699e-06 1 PICARD ||F||/||F0||=2.864893e-01 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 2 SNES Function norm 2.764898326264e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.00198085 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.163336342344e-17 |Div|_2 = 1.594436429147e-16 Momentum: |mRes|_2 = 2.764898321667e-12 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.4463e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000585954 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0209268 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (2.0169842f0, 2.0169842f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- matrix dislocation creep profile: Dry_Olivine-Ranalli_1995 (dens) : rho = 3000. [kg/m^3] (disl) : Bn = 1.48058e-16 [1/Pa^n/s] En = 532000. [J/mol] n = 3.5 [ ] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000891111 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 2.461266787616e+02 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.007037800205e-09 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00196145 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.043609643148e-14 |Div|_2 = 3.386489617389e-14 Momentum: |mRes|_2 = 1.007037799635e-09 -------------------------------------------------------------------------- Saving output ... done (0.00117064 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 9.729160028127e-10 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 4 1 SNES Function norm 1.853669481181e-11 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00120013 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.440892098501e-16 |Div|_2 = 1.534358746845e-15 Momentum: |mRes|_2 = 1.853669474831e-11 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.6340e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000594935 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.836925303655e-04 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 8.739374791909e-05 1 PICARD ||F||/||F0||=4.757610e-01 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 2 SNES Function norm 1.216630214054e-10 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.00195518 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.440892098501e-16 |Div|_2 = 1.294731409828e-15 Momentum: |mRes|_2 = 1.216630213985e-10 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.4269e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000643653 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0215178 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (3.8941867f0, 3.8941867f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- matrix (dens) : rho = 3000. [kg/m^3] (disl) : Bn = 1.48058e-16 [1/Pa^n/s] En = 532000. [J/mol] n = 3.5 [ ] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000801742 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 4.404679741346e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.855164213029e-13 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00193529 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.219727444046e-18 |Div|_2 = 4.351986372410e-18 Momentum: |mRes|_2 = 1.855164212518e-13 -------------------------------------------------------------------------- Saving output ... done (0.000737803 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.999796133868e-12 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 2.245866084546e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00101961 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 8.131516293641e-20 |Div|_2 = 2.235140038341e-19 Momentum: |mRes|_2 = 2.245866084546e-12 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.5899e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000613534 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.529983701625e-08 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 4 1 SNES Function norm 6.293315848640e-10 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00126158 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.065758146821e-19 |Div|_2 = 1.078767540907e-18 Momentum: |mRes|_2 = 6.293315848640e-10 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.4509e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000573934 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0199479 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (0.28025904f0, 0.28025904f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- matrix (dens) : rho = 3000. [kg/m^3] (disl) : Bn = 1.48058e-16 [1/Pa^n/s] En = 532000. [J/mol] n = 3.5 [ ] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000749173 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 4.404745638765e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 8.192074820223e-13 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00186497 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 9.107298248878e-18 |Div|_2 = 3.680670766906e-17 Momentum: |mRes|_2 = 8.192074811954e-13 -------------------------------------------------------------------------- Saving output ... done (0.000759643 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 5.166894085041e-12 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve did not converge due to DIVERGED_BREAKDOWN iterations 30 1 SNES Function norm 2.774742659001e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00224788 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 3.100818213309e-17 |Div|_2 = 7.866915976262e-17 Momentum: |mRes|_2 = 2.774742657886e-12 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.7361e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000630294 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.532629675324e-07 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 1.214267305153e-08 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00114244 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 3.433017758958e-14 |Div|_2 = 1.730935003775e-13 Momentum: |mRes|_2 = 1.214267305030e-08 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.3806e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000638444 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0202967 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (0.5410955f0, 0.5410955f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- matrix (dens) : rho = 3000. [kg/m^3] (disl) : Bn = 1.48058e-16 [1/Pa^n/s] En = 532000. [J/mol] n = 3.5 [ ] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000772653 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 4.411330409550e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 7.900625156863e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00175314 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 9.367506770275e-17 |Div|_2 = 3.652489012102e-16 Momentum: |mRes|_2 = 7.900625148420e-12 -------------------------------------------------------------------------- Saving output ... done (0.000763102 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.042468515420e-11 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 3.155420570896e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00099015 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 6.938893903907e-18 |Div|_2 = 1.734723475977e-17 Momentum: |mRes|_2 = 3.155420570848e-12 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.6653e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000583994 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.542469101177e-06 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 2.344382790545e-07 1 PICARD ||F||/||F0||=1.519890e-01 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 2 SNES Function norm 1.130046859846e-10 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.00175984 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.488670298144e-13 |Div|_2 = 4.858573569975e-13 Momentum: |mRes|_2 = 1.130036415214e-10 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.7435e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000593234 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0196344 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (1.0446918f0, 1.0446918f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- matrix (dens) : rho = 3000. [kg/m^3] (disl) : Bn = 1.48058e-16 [1/Pa^n/s] En = 532000. [J/mol] n = 3.5 [ ] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000926161 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 5.026432132460e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 7.408582653022e-11 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00192167 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 9.992007221626e-16 |Div|_2 = 4.055212130474e-15 Momentum: |mRes|_2 = 7.408582641923e-11 -------------------------------------------------------------------------- Saving output ... done (0.000805342 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 6.784306707115e-11 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 7.724377954918e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00107913 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 5.551115123126e-17 |Div|_2 = 1.653729276826e-16 Momentum: |mRes|_2 = 7.724377953147e-12 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.5571e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000613134 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.580001929359e-05 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 4.526537050781e-06 1 PICARD ||F||/||F0||=2.864893e-01 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 2 SNES Function norm 2.765021558113e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.00194633 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 5.551115123126e-17 |Div|_2 = 1.766354016019e-16 Momentum: |mRes|_2 = 2.765021552471e-12 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.7294e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000624424 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0222363 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (2.0169842f0, 2.0169842f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- matrix (dens) : rho = 3000. [kg/m^3] (disl) : Bn = 1.48058e-16 [1/Pa^n/s] En = 532000. [J/mol] n = 3.5 [ ] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000755533 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 2.461266787616e+02 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.007037800205e-09 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00211798 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.043609643148e-14 |Div|_2 = 3.386489617389e-14 Momentum: |mRes|_2 = 1.007037799635e-09 -------------------------------------------------------------------------- Saving output ... done (0.000807642 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 9.729169044886e-10 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 6 1 SNES Function norm 3.928326031489e-11 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00122543 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.221245327088e-15 |Div|_2 = 3.265263874808e-15 Momentum: |mRes|_2 = 3.928326017919e-11 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.6780e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000648254 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.836925357109e-04 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 8.739374791572e-05 1 PICARD ||F||/||F0||=4.757610e-01 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 2 SNES Function norm 1.222911451447e-10 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.00227912 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.440892098501e-16 |Div|_2 = 1.701939668836e-15 Momentum: |mRes|_2 = 1.222911451328e-10 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.5517e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000650073 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0251798 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (3.8941867f0, 3.8941867f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- rheology dislocation creep profile: Wet_Quarzite-Ueda_et_al_2008 (dens) : rho = 3000. [kg/m^3] (disl) : Bn = 1.53539e-17 [1/Pa^n/s] En = 154000. [J/mol] n = 2.3 [ ] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000778352 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 4.404679741346e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.855164213029e-13 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00190834 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.219727444046e-18 |Div|_2 = 4.351986372410e-18 Momentum: |mRes|_2 = 1.855164212518e-13 -------------------------------------------------------------------------- Saving output ... done (0.000746592 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.733398697939e-13 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 8.470853950173e-15 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00110127 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 5.421010862428e-20 |Div|_2 = 1.196926789768e-19 Momentum: |mRes|_2 = 8.470853949328e-15 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.7109e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000647723 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.529012429987e-08 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 5.141630061900e-13 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00118633 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 5.421010862428e-20 |Div|_2 = 1.735570302230e-19 Momentum: |mRes|_2 = 5.141630061900e-13 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.4432e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000692153 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0221828 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (0.00029242327f0, 0.00029242327f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- rheology dislocation creep profile: Wet_Quarzite-Ueda_et_al_2008 (dens) : rho = 3000. [kg/m^3] (disl) : Bn = 1.53539e-17 [1/Pa^n/s] En = 154000. [J/mol] n = 2.3 [ ] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.00098223 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 4.404745638765e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 8.192074820223e-13 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00226433 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 9.107298248878e-18 |Div|_2 = 3.680670766906e-17 Momentum: |mRes|_2 = 8.192074811954e-13 -------------------------------------------------------------------------- Saving output ... done (0.000770353 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 7.537125835156e-13 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 4 1 SNES Function norm 1.773537767839e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.0012538 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.336808689942e-19 |Div|_2 = 1.915082863629e-18 Momentum: |mRes|_2 = 1.773537757500e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.6546e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000895951 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.529012259639e-07 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.412456206055e-11 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00132243 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.336808689942e-19 |Div|_2 = 1.622685226975e-18 Momentum: |mRes|_2 = 1.412456206055e-11 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.4643e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000864392 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0254547 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (0.00079578283f0, 0.00079578283f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- rheology dislocation creep profile: Wet_Quarzite-Ueda_et_al_2008 (dens) : rho = 3000. [kg/m^3] (disl) : Bn = 1.53539e-17 [1/Pa^n/s] En = 154000. [J/mol] n = 2.3 [ ] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000734463 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 4.411330409550e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 7.900625156863e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00181376 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 9.367506770275e-17 |Div|_2 = 3.652489012102e-16 Momentum: |mRes|_2 = 7.900625148420e-12 -------------------------------------------------------------------------- Saving output ... done (0.000838502 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 7.575355648999e-12 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.497363577973e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00109519 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 3.469446951954e-18 |Div|_2 = 1.365922630907e-17 Momentum: |mRes|_2 = 1.497362954963e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.5766e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000639034 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.529027377354e-06 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.845756209644e-10 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00110638 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 3.469446951954e-18 |Div|_2 = 1.226634733347e-17 Momentum: |mRes|_2 = 3.845756209644e-10 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.5107e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000560354 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.018981 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (0.0021655946f0, 0.0021655946f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- rheology dislocation creep profile: Wet_Quarzite-Ueda_et_al_2008 (dens) : rho = 3000. [kg/m^3] (disl) : Bn = 1.53539e-17 [1/Pa^n/s] En = 154000. [J/mol] n = 2.3 [ ] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000747903 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 5.026432132460e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 7.408582653022e-11 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00193424 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 9.992007221626e-16 |Div|_2 = 4.055212130474e-15 Momentum: |mRes|_2 = 7.408582641923e-11 -------------------------------------------------------------------------- Saving output ... done (0.000723913 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 6.758143280721e-11 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 2.557709372943e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00109749 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 2.775557561563e-17 |Div|_2 = 1.316562550716e-16 Momentum: |mRes|_2 = 2.557675488163e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.6418e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000701073 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.530525703377e-05 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.046566607204e-08 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00120794 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 5.551115123126e-17 |Div|_2 = 1.455514664586e-16 Momentum: |mRes|_2 = 1.046566607204e-08 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.4303e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000633854 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0196028 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (0.0058933166f0, 0.0058933166f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- rheology dislocation creep profile: Wet_Quarzite-Ueda_et_al_2008 (dens) : rho = 3000. [kg/m^3] (disl) : Bn = 1.53539e-17 [1/Pa^n/s] En = 154000. [J/mol] n = 2.3 [ ] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000861942 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 2.461266787616e+02 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.007037800205e-09 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00186084 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.043609643148e-14 |Div|_2 = 3.386489617389e-14 Momentum: |mRes|_2 = 1.007037799635e-09 -------------------------------------------------------------------------- Saving output ... done (0.000732393 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 9.721067804689e-10 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 5.655639651614e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00107754 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.440892098501e-16 |Div|_2 = 1.336885555458e-15 Momentum: |mRes|_2 = 5.654059359348e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.5485e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000628084 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.673510051971e-04 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 2.848062535603e-07 1 MMFD ||F||/||F0||=1.701850e-03 Linear js_ solve converged due to CONVERGED_RTOL iterations 3 2 SNES Function norm 4.525074343373e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.00276194 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 8.881784197001e-16 |Div|_2 = 2.383749925626e-15 Momentum: |mRes|_2 = 4.518791340168e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.4044e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000580134 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0212106 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (0.016037712f0, 0.016037712f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- rheology (dens) : rho = 3000. [kg/m^3] (disl) : Bn = 1.53539e-17 [1/Pa^n/s] En = 154000. [J/mol] n = 2.3 [ ] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000926421 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 4.404679741346e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.855164213029e-13 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00199658 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.219727444046e-18 |Div|_2 = 4.351986372410e-18 Momentum: |mRes|_2 = 1.855164212518e-13 -------------------------------------------------------------------------- Saving output ... done (0.000787272 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.733398697939e-13 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 8.470853950173e-15 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00113989 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 5.421010862428e-20 |Div|_2 = 1.196926789768e-19 Momentum: |mRes|_2 = 8.470853949328e-15 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.5618e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000704263 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.529012429987e-08 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 5.141630061900e-13 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00120587 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 5.421010862428e-20 |Div|_2 = 1.735570302230e-19 Momentum: |mRes|_2 = 5.141630061900e-13 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.4519e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000686813 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0201537 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (0.00029242327f0, 0.00029242327f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- rheology (dens) : rho = 3000. [kg/m^3] (disl) : Bn = 1.53539e-17 [1/Pa^n/s] En = 154000. [J/mol] n = 2.3 [ ] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000782072 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 4.404745638765e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 8.192074820223e-13 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00222167 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 9.107298248878e-18 |Div|_2 = 3.680670766906e-17 Momentum: |mRes|_2 = 8.192074811954e-13 -------------------------------------------------------------------------- Saving output ... done (0.004702 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 7.537750739444e-13 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 5 1 SNES Function norm 2.281739069316e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00135369 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.301042606983e-18 |Div|_2 = 4.215859886717e-18 Momentum: |mRes|_2 = 2.281739030369e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.6000e-04 s -------------------------------------------------------------------------- Saving output ... done (0.0036686 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.529012268549e-07 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.412613368437e-11 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00119083 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.336808689942e-19 |Div|_2 = 1.502314598737e-18 Momentum: |mRes|_2 = 1.412613368437e-11 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.4456e-04 s -------------------------------------------------------------------------- Saving output ... done (0.0041834 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0352046 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (0.00079578283f0, 0.00079578283f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- rheology (dens) : rho = 3000. [kg/m^3] (disl) : Bn = 1.53539e-17 [1/Pa^n/s] En = 154000. [J/mol] n = 2.3 [ ] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000762023 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 4.411330409550e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 7.900625156863e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00215424 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 9.367506770275e-17 |Div|_2 = 3.652489012102e-16 Momentum: |mRes|_2 = 7.900625148420e-12 -------------------------------------------------------------------------- Saving output ... done (0.000717743 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 7.575355648999e-12 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.497363577973e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00126599 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 3.469446951954e-18 |Div|_2 = 1.365922630907e-17 Momentum: |mRes|_2 = 1.497362954963e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.5176e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000601284 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.529027377354e-06 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.845756209644e-10 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00165144 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 3.469446951954e-18 |Div|_2 = 1.226634733347e-17 Momentum: |mRes|_2 = 3.845756209644e-10 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.5817e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000572765 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0224435 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (0.0021655946f0, 0.0021655946f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- rheology (dens) : rho = 3000. [kg/m^3] (disl) : Bn = 1.53539e-17 [1/Pa^n/s] En = 154000. [J/mol] n = 2.3 [ ] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000828042 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 5.026432132460e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 7.408582653022e-11 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00190695 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 9.992007221626e-16 |Div|_2 = 4.055212130474e-15 Momentum: |mRes|_2 = 7.408582641923e-11 -------------------------------------------------------------------------- Saving output ... done (0.00117113 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 6.758143280721e-11 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 2.557709372943e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00117569 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 2.775557561563e-17 |Div|_2 = 1.316562550716e-16 Momentum: |mRes|_2 = 2.557675488163e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.5882e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000637014 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.530525703371e-05 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.046566599353e-08 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00117877 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 5.551115123126e-17 |Div|_2 = 1.468687011488e-16 Momentum: |mRes|_2 = 1.046566599353e-08 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.7205e-04 s -------------------------------------------------------------------------- Saving output ... done (0.00104636 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0206204 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (0.0058933166f0, 0.0058933166f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- rheology (dens) : rho = 3000. [kg/m^3] (disl) : Bn = 1.53539e-17 [1/Pa^n/s] En = 154000. [J/mol] n = 2.3 [ ] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000781782 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 2.461266787616e+02 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.007037800205e-09 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00193803 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.043609643148e-14 |Div|_2 = 3.386489617389e-14 Momentum: |mRes|_2 = 1.007037799635e-09 -------------------------------------------------------------------------- Saving output ... done (0.00166425 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 9.721067804689e-10 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 5.613639044842e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00118015 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.440892098501e-16 |Div|_2 = 1.336885555458e-15 Momentum: |mRes|_2 = 5.612046925667e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.5957e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000656104 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.673510051970e-04 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 2.848062534818e-07 1 MMFD ||F||/||F0||=1.701850e-03 Linear js_ solve converged due to CONVERGED_RTOL iterations 3 2 SNES Function norm 4.645808098495e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.00324789 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.440892098501e-16 |Div|_2 = 1.790180836525e-15 Momentum: |mRes|_2 = 4.642357742975e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.4442e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000629294 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0229607 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (0.016037712f0, 0.016037712f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- rheology diffusion creep profile : Dry_Plagioclase_RybackiDresen_2000 (dens) : rho = 3000. [kg/m^3] (diff) : Bd = 1.88835 [1/Pa/s] Ed = 460000. [J/mol] Vd = 2.4e-05 [m^3/mol] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000795362 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 4.404679741346e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.855164213029e-13 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00192643 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.219727444046e-18 |Div|_2 = 4.351986372410e-18 Momentum: |mRes|_2 = 1.855164212518e-13 -------------------------------------------------------------------------- Saving output ... done (0.000752473 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.643776193159e-07 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.468632384106e-15 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00105973 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 5.421010862428e-20 |Div|_2 = 1.496925551340e-19 Momentum: |mRes|_2 = 1.468632376477e-15 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.6822e-04 s -------------------------------------------------------------------------- Saving output ... done (0.00104981 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.529012493598e-08 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.741239287980e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00115193 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 5.421010862428e-20 |Div|_2 = 1.509145554517e-19 Momentum: |mRes|_2 = 1.741239287915e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.4263e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000649674 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0205528 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (1.6801193f-6, 1.8722288f-6) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- rheology diffusion creep profile : Dry_Plagioclase_RybackiDresen_2000 (dens) : rho = 3000. [kg/m^3] (diff) : Bd = 1.88835 [1/Pa/s] Ed = 460000. [J/mol] Vd = 2.4e-05 [m^3/mol] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000780902 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 4.404745638765e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 8.192074820223e-13 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00237789 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 9.107298248878e-18 |Div|_2 = 3.680670766906e-17 Momentum: |mRes|_2 = 8.192074811954e-13 -------------------------------------------------------------------------- Saving output ... done (0.000799162 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.643775949684e-06 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 6.290700433835e-15 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00107345 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.336808689942e-19 |Div|_2 = 1.651407549307e-18 Momentum: |mRes|_2 = 6.290700217074e-15 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.6277e-04 s -------------------------------------------------------------------------- Saving output ... done (0.00112581 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.529012083211e-07 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 2.049795325108e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00146817 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.336808689942e-19 |Div|_2 = 1.707403288634e-18 Momentum: |mRes|_2 = 2.049795317997e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.4518e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000815902 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0237664 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (1.6801194f-5, 1.8722289f-5) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- rheology diffusion creep profile : Dry_Plagioclase_RybackiDresen_2000 (dens) : rho = 3000. [kg/m^3] (diff) : Bd = 1.88835 [1/Pa/s] Ed = 460000. [J/mol] Vd = 2.4e-05 [m^3/mol] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000741603 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 4.411330409550e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 7.900625156863e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00194055 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 9.367506770275e-17 |Div|_2 = 3.652489012102e-16 Momentum: |mRes|_2 = 7.900625148420e-12 -------------------------------------------------------------------------- Saving output ... done (0.000774312 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.643775888174e-05 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 4.509971681121e-15 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00105514 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 3.469446951954e-18 |Div|_2 = 1.387778780781e-17 Momentum: |mRes|_2 = 4.509950329163e-15 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.5831e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000651604 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.529025548536e-06 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.248139529364e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00117329 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 3.469446951954e-18 |Div|_2 = 1.250926888277e-17 Momentum: |mRes|_2 = 1.248138902504e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.4837e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000733323 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0196436 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (0.00016801193f0, 0.00018722289f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- rheology diffusion creep profile : Dry_Plagioclase_RybackiDresen_2000 (dens) : rho = 3000. [kg/m^3] (diff) : Bd = 1.88835 [1/Pa/s] Ed = 460000. [J/mol] Vd = 2.4e-05 [m^3/mol] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000960431 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 5.026432132460e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 7.408582653022e-11 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00229737 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 9.992007221626e-16 |Div|_2 = 4.055212130474e-15 Momentum: |mRes|_2 = 7.408582641923e-11 -------------------------------------------------------------------------- Saving output ... done (0.00106923 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.643775926557e-04 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.453753162213e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00159517 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 5.551115123126e-17 |Div|_2 = 1.241267076624e-16 Momentum: |mRes|_2 = 1.453700169309e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.5811e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000638634 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.530507771875e-05 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.935424250481e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00114033 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 5.551115123126e-17 |Div|_2 = 1.699674944388e-16 Momentum: |mRes|_2 = 1.935349616958e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.6450e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000779503 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0278968 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (0.0016801193f0, 0.0018722288f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- rheology diffusion creep profile : Dry_Plagioclase_RybackiDresen_2000 (dens) : rho = 3000. [kg/m^3] (diff) : Bd = 1.88835 [1/Pa/s] Ed = 460000. [J/mol] Vd = 2.4e-05 [m^3/mol] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.00092954 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 2.461266787616e+02 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.007037800205e-09 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00239525 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.043609643148e-14 |Div|_2 = 3.386489617389e-14 Momentum: |mRes|_2 = 1.007037799635e-09 -------------------------------------------------------------------------- Saving output ... done (0.00695982 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.643775934397e-03 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.487533228243e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00136675 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.440892098501e-16 |Div|_2 = 1.373270039557e-15 Momentum: |mRes|_2 = 1.481180744917e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.6880e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000609964 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.673362537378e-04 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 2.370876409381e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00113792 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.440892098501e-16 |Div|_2 = 1.505979781574e-15 Momentum: |mRes|_2 = 2.366088586156e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.6129e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000646183 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0276175 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (0.016801193f0, 0.01872228f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- rheology (dens) : rho = 3000. [kg/m^3] (diff) : Bd = 1.88839 [1/Pa/s] Ed = 460000. [J/mol] Vd = 2.4e-05 [m^3/mol] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000798423 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 4.404679741346e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.855164213029e-13 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00212867 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.219727444046e-18 |Div|_2 = 4.351986372410e-18 Momentum: |mRes|_2 = 1.855164212518e-13 -------------------------------------------------------------------------- Saving output ... done (0.00429724 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.643742963921e-07 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 4.318548988781e-15 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00114663 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 5.421010862428e-20 |Div|_2 = 1.580482678012e-19 Momentum: |mRes|_2 = 4.318548985889e-15 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.5083e-04 s -------------------------------------------------------------------------- Saving output ... done (0.00454941 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.529013223529e-08 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.854501415834e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.0014554 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.065758146821e-20 |Div|_2 = 1.484604966916e-19 Momentum: |mRes|_2 = 1.854501415775e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.4465e-04 s -------------------------------------------------------------------------- Saving output ... done (0.00424088 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0362689 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (1.6800853f-6, 1.8721911f-6) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- rheology (dens) : rho = 3000. [kg/m^3] (diff) : Bd = 1.88839 [1/Pa/s] Ed = 460000. [J/mol] Vd = 2.4e-05 [m^3/mol] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000741313 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 4.404745638765e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 8.192074820223e-13 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00226557 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 9.107298248878e-18 |Div|_2 = 3.680670766906e-17 Momentum: |mRes|_2 = 8.192074811954e-13 -------------------------------------------------------------------------- Saving output ... done (0.00313012 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.643742768540e-06 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 4.768238622152e-15 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.0011494 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 6.505213034913e-19 |Div|_2 = 1.761620017532e-18 Momentum: |mRes|_2 = 4.768238296738e-15 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.5799e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000610074 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.529012070155e-07 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.494164679288e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00106325 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.336808689942e-19 |Div|_2 = 1.707403288634e-18 Momentum: |mRes|_2 = 1.494164669533e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.6598e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000584584 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0252797 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (1.6800854f-5, 1.872191f-5) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- rheology (dens) : rho = 3000. [kg/m^3] (diff) : Bd = 1.88839 [1/Pa/s] Ed = 460000. [J/mol] Vd = 2.4e-05 [m^3/mol] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000788332 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 4.411330409550e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 7.900625156863e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00183981 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 9.367506770275e-17 |Div|_2 = 3.652489012102e-16 Momentum: |mRes|_2 = 7.900625148420e-12 -------------------------------------------------------------------------- Saving output ... done (0.000714863 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.643742707915e-05 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.303083294658e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00099855 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 3.469446951954e-18 |Div|_2 = 1.097135458930e-17 Momentum: |mRes|_2 = 1.303082832789e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.5221e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000632174 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.529025552216e-06 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.737093484513e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00108637 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 3.469446951954e-18 |Div|_2 = 1.430489624538e-17 Momentum: |mRes|_2 = 1.737092895512e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.4428e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000593434 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.0192718 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (0.00016800854f0, 0.0001872191f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- rheology (dens) : rho = 3000. [kg/m^3] (diff) : Bd = 1.88839 [1/Pa/s] Ed = 460000. [J/mol] Vd = 2.4e-05 [m^3/mol] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000762552 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 5.026432132460e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 7.408582653022e-11 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.0022798 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 9.992007221626e-16 |Div|_2 = 4.055212130474e-15 Momentum: |mRes|_2 = 7.408582641923e-11 -------------------------------------------------------------------------- Saving output ... done (0.000808932 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.643742746428e-04 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.276251701487e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00122778 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.163336342344e-17 |Div|_2 = 1.401587864986e-16 Momentum: |mRes|_2 = 1.276174737524e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.5675e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000726953 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.530507773124e-05 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.728004276619e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00154991 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.163336342344e-17 |Div|_2 = 1.455514664586e-16 Momentum: |mRes|_2 = 1.727942975830e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.4824e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000748423 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.027022 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (0.0016800853f0, 0.001872191f0) ┌ Warning: Your initial `Temp` grid is constant, as is your initial `Phases` grid. │ Is that intended? │ In most cases, you would want to set some variability in the initial conditions, │ for example with the `GeophysicalModelGenerator` function `add_sphere!(model,cen=(0.0,0.0,0.0), radius=(0.15, ))` └ @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/ErrorChecking.jl:22 Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 100. [Myr] Maximum number of steps : 2 Time step : 1e-06 [Myr] Minimum time step : 1e-10 [Myr] Maximum time step : 1. [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [8, 1, 8] Number of cells : 64 Number of faces : 272 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -0.125, -1.] Upper coordinate bounds [ex, ey, ez] : [1., 0.125, 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- rheology (dens) : rho = 3000. [kg/m^3] (diff) : Bd = 1.88839 [1/Pa/s] Ed = 460000. [J/mol] Vd = 2.4e-05 [m^3/mol] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Number of x-background strain rate periods : 1 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Universal gas constant : 8.31446 [J/mol/K] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.000915801 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 2.461266787616e+02 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.007037800205e-09 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00203024 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.043609643148e-14 |Div|_2 = 3.386489617389e-14 Momentum: |mRes|_2 = 1.007037799635e-09 -------------------------------------------------------------------------- Saving output ... done (0.000759023 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.00000100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.643742754277e-03 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.380948806640e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00104424 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.440892098501e-16 |Div|_2 = 1.368774871884e-15 Momentum: |mRes|_2 = 1.374148521835e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.5128e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000604604 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.00000110 [Myr] Tentative time step : 0.00000110 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.673362539976e-04 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 2.931460429801e-14 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.00111531 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.440892098501e-16 |Div|_2 = 1.382216518796e-15 Momentum: |mRes|_2 = 2.928199963534e-14 -------------------------------------------------------------------------- Actual time step : 0.00000 [Myr] -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.5506e-04 s -------------------------------------------------------------------------- Saving output ... done (0.000587714 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 0.020057 (sec) -------------------------------------------------------------------------- extrema(data.fields.j2_dev_stress) = (0.016800852f0, 0.018721903f0) Saved file: Model3D.vts Saved file: Model3D.vts Subduction3D: Error During Test at /home/pkgeval/.julia/packages/LaMEM/gnosH/test/test_examples.jl:13 Got exception outside of a @test LoadError: MethodError: no method matching length(::Nothing) Closest candidates are: length(!Matched::CompositeException) @ Base task.jl:51 length(!Matched::MPI.Info) @ MPI ~/.julia/packages/MPI/TKXAj/src/info.jl:116 length(!Matched::TranscodingStreams.Memory) @ TranscodingStreams ~/.julia/packages/TranscodingStreams/O3BYF/src/memory.jl:14 ... Stacktrace: [1] run_lamem_save_grid(ParamFile::String, cores::Int64; verbose::Bool, directory::String) @ LaMEM.Run ~/.julia/packages/LaMEM/gnosH/src/run_lamem_save_grid.jl:92 [2] run_lamem_save_grid @ ~/.julia/packages/LaMEM/gnosH/src/run_lamem_save_grid.jl:76 [inlined] [3] create_initialsetup(model::Model, cores::Int64, args::String; verbose::Bool) @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/Model.jl:296 [4] create_initialsetup @ ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/Model.jl:273 [inlined] [5] run_lamem(model::Model, cores::Int64, args::String; wait::Bool) @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/Model.jl:200 [6] run_lamem @ ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/Model.jl:195 [inlined] [7] run_lamem(model::Model, cores::Int64) @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/Model.jl:195 [8] top-level scope @ ~/.julia/packages/LaMEM/gnosH/example_scripts/Subduction3D.jl:99 [9] include(fname::String) @ Base.MainInclude ./client.jl:494 [10] macro expansion @ ~/.julia/packages/LaMEM/gnosH/test/test_examples.jl:15 [inlined] [11] macro expansion @ /opt/julia/share/julia/stdlib/v1.10/Test/src/Test.jl:1577 [inlined] [12] macro expansion @ ~/.julia/packages/LaMEM/gnosH/test/test_examples.jl:14 [inlined] [13] macro expansion @ /opt/julia/share/julia/stdlib/v1.10/Test/src/Test.jl:1577 [inlined] [14] top-level scope @ ~/.julia/packages/LaMEM/gnosH/test/test_examples.jl:6 [15] include(fname::String) @ Base.MainInclude ./client.jl:494 [16] macro expansion @ ~/.julia/packages/LaMEM/gnosH/test/runtests.jl:14 [inlined] [17] macro expansion @ /opt/julia/share/julia/stdlib/v1.10/Test/src/Test.jl:1577 [inlined] [18] top-level scope @ ~/.julia/packages/LaMEM/gnosH/test/runtests.jl:6 [19] include(fname::String) @ Base.MainInclude ./client.jl:494 [20] top-level scope @ none:6 [21] eval @ ./boot.jl:385 [inlined] [22] exec_options(opts::Base.JLOptions) @ Base ./client.jl:296 [23] _start() @ Base ./client.jl:557 in expression starting at /home/pkgeval/.julia/packages/LaMEM/gnosH/example_scripts/Subduction3D.jl:91 caused by: MethodError: no method matching length(::Nothing) Closest candidates are: length(!Matched::CompositeException) @ Base task.jl:51 length(!Matched::MPI.Info) @ MPI ~/.julia/packages/MPI/TKXAj/src/info.jl:116 length(!Matched::TranscodingStreams.Memory) @ TranscodingStreams ~/.julia/packages/TranscodingStreams/O3BYF/src/memory.jl:14 ... Stacktrace: [1] run_lamem_save_grid(ParamFile::String, cores::Int64; verbose::Bool, directory::String) @ LaMEM.Run ~/.julia/packages/LaMEM/gnosH/src/run_lamem_save_grid.jl:92 [2] run_lamem_save_grid @ ~/.julia/packages/LaMEM/gnosH/src/run_lamem_save_grid.jl:76 [inlined] [3] create_initialsetup(model::Model, cores::Int64, args::String; verbose::Bool) @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/Model.jl:296 [4] create_initialsetup @ ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/Model.jl:273 [inlined] [5] run_lamem(model::Model, cores::Int64, args::String; wait::Bool) @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/Model.jl:200 [6] run_lamem(model::Model, cores::Int64, args::String) @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/Model.jl:195 [7] top-level scope @ ~/.julia/packages/LaMEM/gnosH/example_scripts/Subduction3D.jl:94 [8] include(fname::String) @ Base.MainInclude ./client.jl:494 [9] macro expansion @ ~/.julia/packages/LaMEM/gnosH/test/test_examples.jl:15 [inlined] [10] macro expansion @ /opt/julia/share/julia/stdlib/v1.10/Test/src/Test.jl:1577 [inlined] [11] macro expansion @ ~/.julia/packages/LaMEM/gnosH/test/test_examples.jl:14 [inlined] [12] macro expansion @ /opt/julia/share/julia/stdlib/v1.10/Test/src/Test.jl:1577 [inlined] [13] top-level scope @ ~/.julia/packages/LaMEM/gnosH/test/test_examples.jl:6 [14] include(fname::String) @ Base.MainInclude ./client.jl:494 [15] macro expansion @ ~/.julia/packages/LaMEM/gnosH/test/runtests.jl:14 [inlined] [16] macro expansion @ /opt/julia/share/julia/stdlib/v1.10/Test/src/Test.jl:1577 [inlined] [17] top-level scope @ ~/.julia/packages/LaMEM/gnosH/test/runtests.jl:6 [18] include(fname::String) @ Base.MainInclude ./client.jl:494 [19] top-level scope @ none:6 [20] eval @ ./boot.jl:385 [inlined] [21] exec_options(opts::Base.JLOptions) @ Base ./client.jl:296 [22] _start() @ Base ./client.jl:557 julia: /source/src/subtype.c:4717: sub_msp: Assertion `obvious_sub == 3 || obvious_sub == subtype || ijl_has_free_typevars(x) || ijl_has_free_typevars(y)' failed. [431] signal (6.-6): Aborted in expression starting at /home/pkgeval/.julia/packages/Makie/Y3ABD/precompile/shared-precompile.jl:90 unknown function (ip: 0x77ff6cc89ebc) gsignal at /lib/x86_64-linux-gnu/libc.so.6 (unknown line) abort at /lib/x86_64-linux-gnu/libc.so.6 (unknown line) unknown function (ip: 0x77ff6cc25394) __assert_fail at /lib/x86_64-linux-gnu/libc.so.6 (unknown line) sub_msp at /source/src/subtype.c:4717 type_morespecific_ at /source/src/subtype.c:4975 type_morespecific_ at /source/src/subtype.c:5140 type_morespecific_ at /source/src/subtype.c:5140 type_morespecific_ at /source/src/subtype.c:5085 type_morespecific_ at /source/src/subtype.c:5043 type_morespecific_ at /source/src/subtype.c:5140 type_morespecific_ at /source/src/subtype.c:5137 tuple_morespecific at /source/src/subtype.c:4779 [inlined] type_morespecific_ at /source/src/subtype.c:4961 ml_matches at /source/src/gf.c:3700 ml_matches at /source/src/gf.c:3587 [inlined] _gf_invoke_lookup at /source/src/gf.c:3091 [inlined] jl_mt_assoc_by_type at /source/src/gf.c:1461 jl_lookup_generic_ at /source/src/gf.c:3048 [inlined] ijl_apply_generic at /source/src/gf.c:3073 conversion_pipeline at /home/pkgeval/.julia/packages/Makie/Y3ABD/src/interfaces.jl:227 conversion_pipeline at /home/pkgeval/.julia/packages/Makie/Y3ABD/src/interfaces.jl:218 unknown function (ip: 0x77ff4abc2b3c) _jl_invoke at /source/src/gf.c:2876 [inlined] ijl_apply_generic at /source/src/gf.c:3077 Plot at /home/pkgeval/.julia/packages/Makie/Y3ABD/src/interfaces.jl:278 unknown function (ip: 0x77ff4abc1d4c) _jl_invoke at /source/src/gf.c:2876 [inlined] ijl_apply_generic at /source/src/gf.c:3077 _create_plot! at /home/pkgeval/.julia/packages/Makie/Y3ABD/src/figureplotting.jl:390 _jl_invoke at /source/src/gf.c:2876 [inlined] ijl_apply_generic at /source/src/gf.c:3077 jl_apply at /source/src/julia.h:1982 [inlined] do_apply at /source/src/builtins.c:768 #poly!#65 at /home/pkgeval/.julia/packages/MakieCore/EU17Y/src/recipes.jl:514 poly! at /home/pkgeval/.julia/packages/MakieCore/EU17Y/src/recipes.jl:512 [inlined] initialize_block! at /home/pkgeval/.julia/packages/Makie/Y3ABD/src/makielayout/blocks/toggle.jl:38 unknown function (ip: 0x77ff4abb52a5) _jl_invoke at /source/src/gf.c:2876 [inlined] ijl_apply_generic at /source/src/gf.c:3077 jl_apply at /source/src/julia.h:1982 [inlined] do_apply at /source/src/builtins.c:768 #_block#1443 at /home/pkgeval/.julia/packages/Makie/Y3ABD/src/makielayout/blocks.jl:398 _block at /home/pkgeval/.julia/packages/Makie/Y3ABD/src/makielayout/blocks.jl:317 [inlined] #_block#1442 at /home/pkgeval/.julia/packages/Makie/Y3ABD/src/makielayout/blocks.jl:262 [inlined] _block at /home/pkgeval/.julia/packages/Makie/Y3ABD/src/makielayout/blocks.jl:261 [inlined] #_#1440 at /home/pkgeval/.julia/packages/Makie/Y3ABD/src/makielayout/blocks.jl:240 [inlined] Block at /home/pkgeval/.julia/packages/Makie/Y3ABD/src/makielayout/blocks.jl:239 unknown function (ip: 0x77ff4abaf955) _jl_invoke at /source/src/gf.c:2876 [inlined] ijl_apply_generic at /source/src/gf.c:3077 jl_apply at /source/src/julia.h:1982 [inlined] do_call at /source/src/interpreter.c:126 eval_value at /source/src/interpreter.c:223 eval_stmt_value at /source/src/interpreter.c:174 [inlined] eval_body at /source/src/interpreter.c:635 jl_interpret_toplevel_thunk at /source/src/interpreter.c:775 jl_toplevel_eval_flex at /source/src/toplevel.c:934 jl_toplevel_eval_flex at /source/src/toplevel.c:877 ijl_toplevel_eval_in at /source/src/toplevel.c:985 eval at ./boot.jl:385 [inlined] include_string at ./loading.jl:2146 _jl_invoke at /source/src/gf.c:2876 [inlined] ijl_apply_generic at /source/src/gf.c:3077 _include at ./loading.jl:2206 include at ./Base.jl:495 jfptr_include_46609.1 at /opt/julia/lib/julia/sys.so (unknown line) _jl_invoke at /source/src/gf.c:2876 [inlined] ijl_apply_generic at /source/src/gf.c:3077 jl_apply at /source/src/julia.h:1982 [inlined] jl_f__call_latest at /source/src/builtins.c:812 include at /home/pkgeval/.julia/packages/Makie/Y3ABD/src/Makie.jl:1 [inlined] macro expansion at /home/pkgeval/.julia/packages/Makie/Y3ABD/src/precompiles.jl:33 [inlined] macro expansion at /home/pkgeval/.julia/packages/PrecompileTools/L8A3n/src/workloads.jl:78 [inlined] top-level scope at /home/pkgeval/.julia/packages/Makie/Y3ABD/src/precompiles.jl:27 _jl_invoke at /source/src/gf.c:2876 [inlined] ijl_invoke at /source/src/gf.c:2902 jl_toplevel_eval_flex at /source/src/toplevel.c:925 jl_toplevel_eval_flex at /source/src/toplevel.c:877 ijl_toplevel_eval_in at /source/src/toplevel.c:985 eval at ./boot.jl:385 [inlined] include_string at ./loading.jl:2146 _jl_invoke at /source/src/gf.c:2876 [inlined] ijl_apply_generic at /source/src/gf.c:3077 _include at ./loading.jl:2206 include at ./Base.jl:495 jfptr_include_46609.1 at /opt/julia/lib/julia/sys.so (unknown line) _jl_invoke at /source/src/gf.c:2876 [inlined] ijl_apply_generic at /source/src/gf.c:3077 jl_apply at /source/src/julia.h:1982 [inlined] jl_f__call_latest at /source/src/builtins.c:812 include at /home/pkgeval/.julia/packages/Makie/Y3ABD/src/Makie.jl:1 unknown function (ip: 0x77ff6bdbd095) _jl_invoke at /source/src/gf.c:2876 [inlined] ijl_apply_generic at /source/src/gf.c:3077 jl_apply at /source/src/julia.h:1982 [inlined] do_call at /source/src/interpreter.c:126 eval_value at /source/src/interpreter.c:223 eval_stmt_value at /source/src/interpreter.c:174 [inlined] eval_body at /source/src/interpreter.c:635 jl_interpret_toplevel_thunk at /source/src/interpreter.c:775 jl_toplevel_eval_flex at /source/src/toplevel.c:934 jl_eval_module_expr at /source/src/toplevel.c:215 [inlined] jl_toplevel_eval_flex at /source/src/toplevel.c:736 jl_toplevel_eval_flex at /source/src/toplevel.c:877 ijl_toplevel_eval_in at /source/src/toplevel.c:985 eval at ./boot.jl:385 [inlined] include_string at ./loading.jl:2146 _jl_invoke at /source/src/gf.c:2876 [inlined] ijl_apply_generic at /source/src/gf.c:3077 _include at ./loading.jl:2206 include at ./Base.jl:495 [inlined] include_package_for_output at ./loading.jl:2292 jfptr_include_package_for_output_81302.1 at /opt/julia/lib/julia/sys.so (unknown line) _jl_invoke at /source/src/gf.c:2876 [inlined] ijl_apply_generic at /source/src/gf.c:3077 jl_apply at /source/src/julia.h:1982 [inlined] do_call at /source/src/interpreter.c:126 eval_value at /source/src/interpreter.c:223 eval_stmt_value at /source/src/interpreter.c:174 [inlined] eval_body at /source/src/interpreter.c:635 jl_interpret_toplevel_thunk at /source/src/interpreter.c:775 jl_toplevel_eval_flex at /source/src/toplevel.c:934 jl_toplevel_eval_flex at /source/src/toplevel.c:877 ijl_toplevel_eval_in at /source/src/toplevel.c:985 eval at ./boot.jl:385 [inlined] include_string at ./loading.jl:2146 include_string at ./loading.jl:2156 [inlined] exec_options at ./client.jl:321 _start at ./client.jl:557 jfptr__start_82985.1 at /opt/julia/lib/julia/sys.so (unknown line) _jl_invoke at /source/src/gf.c:2876 [inlined] ijl_apply_generic at /source/src/gf.c:3077 jl_apply at /source/src/julia.h:1982 [inlined] true_main at /source/src/jlapi.c:582 jl_repl_entrypoint at /source/src/jlapi.c:731 main at /source/cli/loader_exe.c:58 unknown function (ip: 0x77ff6cc26249) __libc_start_main at /lib/x86_64-linux-gnu/libc.so.6 (unknown line) unknown function (ip: 0x4010b8) Allocations: 101575450 (Pool: 101495339; Big: 80111); GC: 100 ERROR: LoadError: Failed to precompile Makie [ee78f7c6-11fb-53f2-987a-cfe4a2b5a57a] to "/home/pkgeval/.julia/compiled/v1.10/Makie/jl_8Rbqwe". Stacktrace: [1] error(s::String) @ Base ./error.jl:35 [2] compilecache(pkg::Base.PkgId, path::String, internal_stderr::IO, internal_stdout::IO, keep_loaded_modules::Bool) @ Base ./loading.jl:2539 [3] compilecache @ ./loading.jl:2411 [inlined] [4] (::Base.var"#969#970"{Base.PkgId})() @ Base ./loading.jl:2044 [5] mkpidlock(f::Base.var"#969#970"{Base.PkgId}, at::String, pid::Int32; kwopts::@Kwargs{stale_age::Int64, wait::Bool}) @ FileWatching.Pidfile /opt/julia/share/julia/stdlib/v1.10/FileWatching/src/pidfile.jl:93 [6] #mkpidlock#6 @ /opt/julia/share/julia/stdlib/v1.10/FileWatching/src/pidfile.jl:88 [inlined] [7] trymkpidlock(::Function, ::Vararg{Any}; kwargs::@Kwargs{stale_age::Int64}) @ FileWatching.Pidfile /opt/julia/share/julia/stdlib/v1.10/FileWatching/src/pidfile.jl:111 [8] #invokelatest#2 @ ./essentials.jl:894 [inlined] [9] invokelatest @ ./essentials.jl:889 [inlined] [10] maybe_cachefile_lock(f::Base.var"#969#970"{Base.PkgId}, pkg::Base.PkgId, srcpath::String; stale_age::Int64) @ Base ./loading.jl:3054 [11] maybe_cachefile_lock @ ./loading.jl:3051 [inlined] [12] _require(pkg::Base.PkgId, env::String) @ Base ./loading.jl:2040 [13] __require_prelocked(uuidkey::Base.PkgId, env::String) @ Base ./loading.jl:1882 [14] #invoke_in_world#3 @ ./essentials.jl:926 [inlined] [15] invoke_in_world @ ./essentials.jl:923 [inlined] [16] _require_prelocked(uuidkey::Base.PkgId, env::String) @ Base ./loading.jl:1873 [17] macro expansion @ ./loading.jl:1860 [inlined] [18] macro expansion @ ./lock.jl:267 [inlined] [19] __require(into::Module, mod::Symbol) @ Base ./loading.jl:1823 [20] #invoke_in_world#3 @ ./essentials.jl:926 [inlined] [21] invoke_in_world @ ./essentials.jl:923 [inlined] [22] require(into::Module, mod::Symbol) @ Base ./loading.jl:1816 [23] include @ ./Base.jl:495 [inlined] [24] include_package_for_output(pkg::Base.PkgId, input::String, depot_path::Vector{String}, dl_load_path::Vector{String}, load_path::Vector{String}, concrete_deps::Vector{Pair{Base.PkgId, UInt128}}, source::String) @ Base ./loading.jl:2292 [25] top-level scope @ stdin:4 in expression starting at /home/pkgeval/.julia/packages/CairoMakie/JchUZ/src/CairoMakie.jl:1 in expression starting at stdin:4 StrengthEnvelop: Error During Test at /home/pkgeval/.julia/packages/LaMEM/gnosH/test/test_examples.jl:23 Got exception outside of a @test LoadError: Failed to precompile CairoMakie [13f3f980-e62b-5c42-98c6-ff1f3baf88f0] to "/home/pkgeval/.julia/compiled/v1.10/CairoMakie/jl_dYqe2T". Stacktrace: [1] error(s::String) @ Base ./error.jl:35 [2] compilecache(pkg::Base.PkgId, path::String, internal_stderr::IO, internal_stdout::IO, keep_loaded_modules::Bool) @ Base ./loading.jl:2539 [3] compilecache @ ./loading.jl:2411 [inlined] [4] (::Base.var"#969#970"{Base.PkgId})() @ Base ./loading.jl:2044 [5] mkpidlock(f::Base.var"#969#970"{Base.PkgId}, at::String, pid::Int32; kwopts::@Kwargs{stale_age::Int64, wait::Bool}) @ FileWatching.Pidfile /opt/julia/share/julia/stdlib/v1.10/FileWatching/src/pidfile.jl:93 [6] #mkpidlock#6 @ /opt/julia/share/julia/stdlib/v1.10/FileWatching/src/pidfile.jl:88 [inlined] [7] trymkpidlock(::Function, ::Vararg{Any}; kwargs::@Kwargs{stale_age::Int64}) @ FileWatching.Pidfile /opt/julia/share/julia/stdlib/v1.10/FileWatching/src/pidfile.jl:111 [8] #invokelatest#2 @ ./essentials.jl:894 [inlined] [9] invokelatest @ ./essentials.jl:889 [inlined] [10] maybe_cachefile_lock(f::Base.var"#969#970"{Base.PkgId}, pkg::Base.PkgId, srcpath::String; stale_age::Int64) @ Base ./loading.jl:3054 [11] maybe_cachefile_lock @ ./loading.jl:3051 [inlined] [12] _require(pkg::Base.PkgId, env::String) @ Base ./loading.jl:2040 [13] __require_prelocked(uuidkey::Base.PkgId, env::String) @ Base ./loading.jl:1882 [14] #invoke_in_world#3 @ ./essentials.jl:926 [inlined] [15] invoke_in_world @ ./essentials.jl:923 [inlined] [16] _require_prelocked(uuidkey::Base.PkgId, env::String) @ Base ./loading.jl:1873 [17] macro expansion @ ./loading.jl:1860 [inlined] [18] macro expansion @ ./lock.jl:267 [inlined] [19] __require(into::Module, mod::Symbol) @ Base ./loading.jl:1823 [20] #invoke_in_world#3 @ ./essentials.jl:926 [inlined] [21] invoke_in_world @ ./essentials.jl:923 [inlined] [22] require(into::Module, mod::Symbol) @ Base ./loading.jl:1816 [23] include(fname::String) @ Base.MainInclude ./client.jl:494 [24] macro expansion @ ~/.julia/packages/LaMEM/gnosH/test/test_examples.jl:25 [inlined] [25] macro expansion @ /opt/julia/share/julia/stdlib/v1.10/Test/src/Test.jl:1577 [inlined] [26] macro expansion @ ~/.julia/packages/LaMEM/gnosH/test/test_examples.jl:24 [inlined] [27] macro expansion @ /opt/julia/share/julia/stdlib/v1.10/Test/src/Test.jl:1577 [inlined] [28] top-level scope @ ~/.julia/packages/LaMEM/gnosH/test/test_examples.jl:6 [29] include(fname::String) @ Base.MainInclude ./client.jl:494 [30] macro expansion @ ~/.julia/packages/LaMEM/gnosH/test/runtests.jl:14 [inlined] [31] macro expansion @ /opt/julia/share/julia/stdlib/v1.10/Test/src/Test.jl:1577 [inlined] [32] top-level scope @ ~/.julia/packages/LaMEM/gnosH/test/runtests.jl:6 [33] include(fname::String) @ Base.MainInclude ./client.jl:494 [34] top-level scope @ none:6 [35] eval @ ./boot.jl:385 [inlined] [36] exec_options(opts::Base.JLOptions) @ Base ./client.jl:296 [37] _start() @ Base ./client.jl:557 in expression starting at /home/pkgeval/.julia/packages/LaMEM/gnosH/example_scripts/StrengthEnvelop.jl:1 Saved file: Model3D.vts Saved file: Model3D.vts Fatal error in internal_Init_thread: Other MPI error, error stack: internal_Init_thread(67)...........: MPI_Init_thread(argc=0x7ffcd2a36aac, argv=0x7ffcd2a36aa0, required=1, provided=0x7ffcd2a3666c) failed MPII_Init_thread(234)..............: MPID_Init(67)......................: init_world(171)....................: channel initialization failed MPIDI_CH3_Init(84).................: MPID_nem_init(314).................: MPID_nem_tcp_init(175).............: MPID_nem_tcp_get_business_card(397): GetSockInterfaceAddr(370)..........: gethostbyname failed, LaMEM-primary-9lyt3n8V (errno 2) TM_Subduction_example: Error During Test at /home/pkgeval/.julia/packages/LaMEM/gnosH/test/test_examples.jl:33 Got exception outside of a @test LoadError: MethodError: no method matching length(::Nothing) Closest candidates are: length(!Matched::CompositeException) @ Base task.jl:51 length(!Matched::MPI.Info) @ MPI ~/.julia/packages/MPI/TKXAj/src/info.jl:116 length(!Matched::TranscodingStreams.Memory) @ TranscodingStreams ~/.julia/packages/TranscodingStreams/O3BYF/src/memory.jl:14 ... Stacktrace: [1] run_lamem_save_grid(ParamFile::String, cores::Int64; verbose::Bool, directory::String) @ LaMEM.Run ~/.julia/packages/LaMEM/gnosH/src/run_lamem_save_grid.jl:92 [2] run_lamem_save_grid @ ~/.julia/packages/LaMEM/gnosH/src/run_lamem_save_grid.jl:76 [inlined] [3] create_initialsetup(model::Model, cores::Int64, args::String; verbose::Bool) @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/Model.jl:296 [4] create_initialsetup @ ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/Model.jl:273 [inlined] [5] run_lamem(model::Model, cores::Int64, args::String; wait::Bool) @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/Model.jl:200 [6] run_lamem @ ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/Model.jl:195 [inlined] [7] run_lamem(model::Model, cores::Int64) @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/Model.jl:195 [8] top-level scope @ ~/.julia/packages/LaMEM/gnosH/example_scripts/TM_Subduction_example.jl:249 [9] include(fname::String) @ Base.MainInclude ./client.jl:494 [10] macro expansion @ ~/.julia/packages/LaMEM/gnosH/test/test_examples.jl:35 [inlined] [11] macro expansion @ /opt/julia/share/julia/stdlib/v1.10/Test/src/Test.jl:1577 [inlined] [12] macro expansion @ ~/.julia/packages/LaMEM/gnosH/test/test_examples.jl:34 [inlined] [13] macro expansion @ /opt/julia/share/julia/stdlib/v1.10/Test/src/Test.jl:1577 [inlined] [14] top-level scope @ ~/.julia/packages/LaMEM/gnosH/test/test_examples.jl:6 [15] include(fname::String) @ Base.MainInclude ./client.jl:494 [16] macro expansion @ ~/.julia/packages/LaMEM/gnosH/test/runtests.jl:14 [inlined] [17] macro expansion @ /opt/julia/share/julia/stdlib/v1.10/Test/src/Test.jl:1577 [inlined] [18] top-level scope @ ~/.julia/packages/LaMEM/gnosH/test/runtests.jl:6 [19] include(fname::String) @ Base.MainInclude ./client.jl:494 [20] top-level scope @ none:6 [21] eval @ ./boot.jl:385 [inlined] [22] exec_options(opts::Base.JLOptions) @ Base ./client.jl:296 [23] _start() @ Base ./client.jl:557 in expression starting at /home/pkgeval/.julia/packages/LaMEM/gnosH/example_scripts/TM_Subduction_example.jl:241 caused by: MethodError: no method matching length(::Nothing) Closest candidates are: length(!Matched::CompositeException) @ Base task.jl:51 length(!Matched::MPI.Info) @ MPI ~/.julia/packages/MPI/TKXAj/src/info.jl:116 length(!Matched::TranscodingStreams.Memory) @ TranscodingStreams ~/.julia/packages/TranscodingStreams/O3BYF/src/memory.jl:14 ... Stacktrace: [1] run_lamem_save_grid(ParamFile::String, cores::Int64; verbose::Bool, directory::String) @ LaMEM.Run ~/.julia/packages/LaMEM/gnosH/src/run_lamem_save_grid.jl:92 [2] run_lamem_save_grid @ ~/.julia/packages/LaMEM/gnosH/src/run_lamem_save_grid.jl:76 [inlined] [3] create_initialsetup(model::Model, cores::Int64, args::String; verbose::Bool) @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/Model.jl:296 [4] create_initialsetup @ ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/Model.jl:273 [inlined] [5] run_lamem(model::Model, cores::Int64, args::String; wait::Bool) @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/Model.jl:200 [6] run_lamem(model::Model, cores::Int64, args::String) @ LaMEM.LaMEM_Model ~/.julia/packages/LaMEM/gnosH/src/LaMEM_ModelGeneration/Model.jl:195 [7] top-level scope @ ~/.julia/packages/LaMEM/gnosH/example_scripts/TM_Subduction_example.jl:244 [8] include(fname::String) @ Base.MainInclude ./client.jl:494 [9] macro expansion @ ~/.julia/packages/LaMEM/gnosH/test/test_examples.jl:35 [inlined] [10] macro expansion @ /opt/julia/share/julia/stdlib/v1.10/Test/src/Test.jl:1577 [inlined] [11] macro expansion @ ~/.julia/packages/LaMEM/gnosH/test/test_examples.jl:34 [inlined] [12] macro expansion @ /opt/julia/share/julia/stdlib/v1.10/Test/src/Test.jl:1577 [inlined] [13] top-level scope @ ~/.julia/packages/LaMEM/gnosH/test/test_examples.jl:6 [14] include(fname::String) @ Base.MainInclude ./client.jl:494 [15] macro expansion @ ~/.julia/packages/LaMEM/gnosH/test/runtests.jl:14 [inlined] [16] macro expansion @ /opt/julia/share/julia/stdlib/v1.10/Test/src/Test.jl:1577 [inlined] [17] top-level scope @ ~/.julia/packages/LaMEM/gnosH/test/runtests.jl:6 [18] include(fname::String) @ Base.MainInclude ./client.jl:494 [19] top-level scope @ none:6 [20] eval @ ./boot.jl:385 [inlined] [21] exec_options(opts::Base.JLOptions) @ Base ./client.jl:296 [22] _start() @ Base ./client.jl:557 Adding Plots.jl plotting extensions for LaMEM Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 2000. [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+07 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 1. [Myr] Maximum number of steps : 50 Time step : 0.04 [Myr] Minimum time step : 0.004 [Myr] Maximum time step : 0.2 [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 1 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [16, 16, 16] Number of cells : 4096 Number of faces : 13056 Maximum cell aspect ratio : 1.00000 Lower coordinate bounds [bx, by, bz] : [-1., -1., -1.] Upper coordinate bounds [ex, ey, ez] : [1., 1., 1.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 1 -- sphere (dens) : rho = 3200. [kg/m^3] (diff) : eta = 1e+23 [Pa*s] Bd = 5e-24 [1/Pa/s] Phase ID : 0 -- matrix (dens) : rho = 3000. [kg/m^3] (diff) : eta = 1e+20 [Pa*s] Bd = 5e-21 [1/Pa/s] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Passive Tracers are active @ Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.0330589 sec) -------------------------------------------------------------------------- -------------------------------------------------------------------------- Passive Tracers: Initial coordinate Box x = [Left,Right] : -1.000000, 1.000000 Initial coordinate Box y = [Front,Back] : -1.000000, 1.000000 Initial coordinate Box z = [Bot, Top] : -1.000000, 1.000000 # of tracers in [x,y,z] direction : [100, 1, 100] Total # of tracers : 10000 Tracer advection activation type : Always active -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ -------------------------------------------------------------------------- Passive Tracers output parameters: Write Passive tracers pvd file -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 3.664918676663e+02 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 2.215613387327e-09 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 2.83737 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.300037785756e-10 |Div|_2 = 2.197695050567e-09 Momentum: |mRes|_2 = 2.812101470692e-10 -------------------------------------------------------------------------- Saving output ... done (0.00681218 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.04000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.082829273721e+03 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 9.002885850221e-05 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 2.35509 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 5.741679978688e-10 |Div|_2 = 4.173398077089e-09 Momentum: |mRes|_2 = 9.002885840548e-05 -------------------------------------------------------------------------- Actual time step : 0.04400 [Myr] -------------------------------------------------------------------------- Advection Passive tracers ... Currently active tracers : 10000 done (0.00155023 sec) -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.1840e-02 s -------------------------------------------------------------------------- Saving output ... done (0.00615009 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.04400000 [Myr] Tentative time step : 0.04400000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.324213934454e+02 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.462458915117e-06 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 2.31607 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 6.819866997521e-10 |Div|_2 = 2.940635640205e-09 Momentum: |mRes|_2 = 3.462457666389e-06 -------------------------------------------------------------------------- Actual time step : 0.04840 [Myr] -------------------------------------------------------------------------- Advection Passive tracers ... Currently active tracers : 10000 done (0.0016962 sec) -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.4533e-02 s -------------------------------------------------------------------------- Saving output ... done (0.00627183 sec) -------------------------------------------------------------------------- ================================= STEP 3 ================================= -------------------------------------------------------------------------- Current time : 0.09240000 [Myr] Tentative time step : 0.04840000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 5.165563003467e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 2.089079940882e-06 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 2.42168 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 8.574193490624e-10 |Div|_2 = 2.610060920587e-09 Momentum: |mRes|_2 = 2.089078310398e-06 -------------------------------------------------------------------------- Actual time step : 0.05324 [Myr] -------------------------------------------------------------------------- Advection Passive tracers ... Currently active tracers : 10000 done (0.00170834 sec) -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.4877e-02 s -------------------------------------------------------------------------- Saving output ... done (0.00683298 sec) -------------------------------------------------------------------------- ================================= STEP 4 ================================= -------------------------------------------------------------------------- Current time : 0.14564000 [Myr] Tentative time step : 0.05324000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 3.593494674489e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 7.251421534051e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 2.52964 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 8.308498975623e-10 |Div|_2 = 3.434028191940e-09 Momentum: |mRes|_2 = 7.251340221610e-07 -------------------------------------------------------------------------- Actual time step : 0.05856 [Myr] -------------------------------------------------------------------------- Advection Passive tracers ... Currently active tracers : 10000 done (0.00162873 sec) -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.4229e-02 s -------------------------------------------------------------------------- Saving output ... done (0.00713211 sec) -------------------------------------------------------------------------- ================================= STEP 5 ================================= -------------------------------------------------------------------------- Current time : 0.20420400 [Myr] Tentative time step : 0.05856400 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 8.629420757250e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 4.050131976791e-06 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 2.41917 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 8.256838745710e-10 |Div|_2 = 3.498013790468e-09 Momentum: |mRes|_2 = 4.050130466210e-06 -------------------------------------------------------------------------- Actual time step : 0.06442 [Myr] -------------------------------------------------------------------------- Advection Passive tracers ... Currently active tracers : 10000 done (0.00191518 sec) -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.2636e-02 s -------------------------------------------------------------------------- Saving output ... done (0.00640927 sec) -------------------------------------------------------------------------- ================================= STEP 6 ================================= -------------------------------------------------------------------------- Current time : 0.26862440 [Myr] Tentative time step : 0.06442040 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.907965097930e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 4.576690420797e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 2.40392 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 9.582154427562e-10 |Div|_2 = 2.601437557826e-09 Momentum: |mRes|_2 = 4.576616486016e-07 -------------------------------------------------------------------------- Actual time step : 0.07086 [Myr] -------------------------------------------------------------------------- Advection Passive tracers ... Currently active tracers : 10000 done (0.00159646 sec) -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.4791e-02 s -------------------------------------------------------------------------- Saving output ... done (0.00643226 sec) -------------------------------------------------------------------------- ================================= STEP 7 ================================= -------------------------------------------------------------------------- Current time : 0.33948684 [Myr] Tentative time step : 0.07086244 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 9.190965994971e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.397810426894e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 2.35431 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.782584496679e-10 |Div|_2 = 5.395537714107e-10 Momentum: |mRes|_2 = 1.397800013488e-07 -------------------------------------------------------------------------- Actual time step : 0.07795 [Myr] -------------------------------------------------------------------------- Advection Passive tracers ... Currently active tracers : 10000 done (0.0019118 sec) -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.2823e-02 s -------------------------------------------------------------------------- Saving output ... done (0.00615329 sec) -------------------------------------------------------------------------- ================================= STEP 8 ================================= -------------------------------------------------------------------------- Current time : 0.41743552 [Myr] Tentative time step : 0.07794868 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.389821845717e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 6.117285484745e-08 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 2.35333 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.277297465868e-10 |Div|_2 = 1.416385545135e-09 Momentum: |mRes|_2 = 6.115645527804e-08 -------------------------------------------------------------------------- Actual time step : 0.08574 [Myr] -------------------------------------------------------------------------- Advection Passive tracers ... Currently active tracers : 10000 done (0.00191591 sec) -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.2304e-02 s -------------------------------------------------------------------------- Saving output ... done (0.00640912 sec) -------------------------------------------------------------------------- ================================= STEP 9 ================================= -------------------------------------------------------------------------- Current time : 0.50317908 [Myr] Tentative time step : 0.08574355 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 3.734976103562e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.735393580882e-06 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 2.29321 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 5.824010405886e-10 |Div|_2 = 1.768443077894e-09 Momentum: |mRes|_2 = 1.735392679821e-06 -------------------------------------------------------------------------- Actual time step : 0.09432 [Myr] -------------------------------------------------------------------------- Advection Passive tracers ... Currently active tracers : 10000 done (0.00165632 sec) -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.1513e-02 s -------------------------------------------------------------------------- Saving output ... done (0.00658576 sec) -------------------------------------------------------------------------- ================================ STEP 10 ================================= -------------------------------------------------------------------------- Current time : 0.59749698 [Myr] Tentative time step : 0.09431791 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 3.541052347654e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.765103611401e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 2.32629 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.858312358161e-10 |Div|_2 = 4.181829320776e-10 Momentum: |mRes|_2 = 1.765098657663e-07 -------------------------------------------------------------------------- Actual time step : 0.10375 [Myr] -------------------------------------------------------------------------- Advection Passive tracers ... Currently active tracers : 10000 done (0.00150134 sec) -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.3598e-02 s -------------------------------------------------------------------------- Saving output ... done (0.0071853 sec) -------------------------------------------------------------------------- ================================ STEP 11 ================================= -------------------------------------------------------------------------- Current time : 0.70124668 [Myr] Tentative time step : 0.10374970 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 2.318442870748e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 2.392975683453e-08 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 2.29352 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 2.805268062116e-10 |Div|_2 = 6.040526611389e-10 Momentum: |mRes|_2 = 2.392213164712e-08 -------------------------------------------------------------------------- Actual time step : 0.11412 [Myr] -------------------------------------------------------------------------- Advection Passive tracers ... Currently active tracers : 10000 done (0.00169049 sec) -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.1127e-02 s -------------------------------------------------------------------------- Saving output ... done (0.00645491 sec) -------------------------------------------------------------------------- ================================ STEP 12 ================================= -------------------------------------------------------------------------- Current time : 0.81537135 [Myr] Tentative time step : 0.11412467 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.557663543994e-01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 5.365906079124e-09 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 2.37472 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 2.694067191555e-12 |Div|_2 = 1.182768370003e-11 Momentum: |mRes|_2 = 5.365893043649e-09 -------------------------------------------------------------------------- Actual time step : 0.12554 [Myr] -------------------------------------------------------------------------- Advection Passive tracers ... Currently active tracers : 10000 done (0.0016655 sec) -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.3114e-02 s -------------------------------------------------------------------------- Saving output ... done (0.00685872 sec) -------------------------------------------------------------------------- ================================ STEP 13 ================================= -------------------------------------------------------------------------- Current time : 0.94090849 [Myr] Tentative time step : 0.12553714 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 6.861612717370e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.834167056638e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 2.33851 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 2.909923239869e-10 |Div|_2 = 6.288988749242e-10 Momentum: |mRes|_2 = 1.834156274770e-07 -------------------------------------------------------------------------- Actual time step : 0.13809 [Myr] -------------------------------------------------------------------------- Advection Passive tracers ... Currently active tracers : 10000 done (0.00162985 sec) -------------------------------------------------------------------------- Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 1.3028e-02 s -------------------------------------------------------------------------- Saving output ... done (0.00964867 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 35.3509 (sec) -------------------------------------------------------------------------- Saved file: Model3D.vts Writing LaMEM marker file -> ./markers/mdb.00000000.dat cores_compute = 1 -------------------------------------------------------------------------- Lithosphere and Mantle Evolution Model Compiled: Date: Jan 1 1970 - Time: 00:00:00 Version : 2.1.4 -------------------------------------------------------------------------- STAGGERED-GRID FINITE DIFFERENCE CANONICAL IMPLEMENTATION -------------------------------------------------------------------------- Parsing input file : output.dat Finished parsing input file -------------------------------------------------------------------------- Scaling parameters: Temperature : 1000. [C/K] Length : 1e+06 [m] Viscosity : 1e+20 [Pa*s] Stress : 1e+09 [Pa] -------------------------------------------------------------------------- Time stepping parameters: Simulation end time : 5. [Myr] Maximum number of steps : 200 Time step : 0.01 [Myr] Minimum time step : 1e-05 [Myr] Maximum time step : 0.1 [Myr] Time step increase factor : 0.1 CFL criterion : 0.5 CFLMAX (fixed time steps) : 0.8 Output every [n] steps : 5 Output [n] initial steps : 1 Save restart every [n] steps : 100 -------------------------------------------------------------------------- Grid parameters: Total number of cpu : 1 Processor grid [nx, ny, nz] : [1, 1, 1] Fine grid cells [nx, ny, nz] : [32, 1, 32] Number of cells : 1024 Number of faces : 4160 Maximum cell aspect ratio : 1.56250 Lower coordinate bounds [bx, by, bz] : [-50., -1., -50.] Upper coordinate bounds [ex, ey, ez] : [50., 1., 20.] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Material parameters: -------------------------------------------------------------------------- Phase ID : 0 -- Air (dens) : rho = 50. [kg/m^3] (diff) : eta = 1e+19 [Pa*s] Bd = 5e-20 [1/Pa/s] (plast) : ch = 1e+07 [Pa] Phase ID : 1 -- crust (dens) : rho = 2700. [kg/m^3] (diff) : eta = 1e+21 [Pa*s] Bd = 5e-22 [1/Pa/s] (plast) : ch = 3e+07 [Pa] fr = 20. [deg] -------------------------------------------------------------------------- -------------------------------------------------------------------------- Free surface parameters: Sticky air phase ID : 0 Initial surface level : 10. [km] Erosion model : prescribed rate with given level Sedimentation model : none Correct marker phases @ Maximum surface slope : 40. [deg] -------------------------------------------------------------------------- Boundary condition parameters: No-slip boundary mask [lt rt ft bk bm tp] : 0 0 0 0 0 0 Top boundary temperature : 0. [C] Bottom boundary temperature : 1300. [C] -------------------------------------------------------------------------- Warning: True pressure-dependent rheology requires open top boundary (Vd, Vn, Vp, fr, Kb, beta, p_litho_visc, p_litho_plast, open_top_bound) Solution parameters & controls: Gravity [gx, gy, gz] : [0., 0., -9.81] [m/s^2] Surface stabilization (FSSA) : 1. Compute initial guess @ Use lithostatic pressure for creep @ Enforce zero average pressure on top @ Limit pressure at first iteration @ Reference viscosity (initial guess) : 1e+20 [Pa*s] Max. melt fraction (viscosity, density) : 1. Rheology iteration number : 25 Rheology iteration tolerance : 1e-06 Ground water level type : none -------------------------------------------------------------------------- Advection parameters: Advection scheme : Runge-Kutta 2-nd order Periodic marker advection : 0 0 0 Marker setup scheme : binary files (MATLAB) Velocity interpolation scheme : STAG (linear) Marker control type : subgrid Markers per cell [nx, ny, nz] : [3, 3, 3] Marker distribution type : random noise -------------------------------------------------------------------------- Loading markers in parallel from file(s) <./markers/mdb> ... done (0.00884328 sec) -------------------------------------------------------------------------- Output parameters: Output file name : output Write .pvd file : yes Phase @ Density @ Total effective viscosity @ Creep effective viscosity @ Velocity @ Pressure @ Temperature @ Deviatoric stress second invariant @ Deviatoric strain rate second invariant @ Accumulated Plastic Strain (APS) @ Plastic dissipation @ -------------------------------------------------------------------------- Preconditioner parameters: Matrix type : monolithic Penalty parameter (pgamma) : 1.000000e+04 Preconditioner type : user-defined -------------------------------------------------------------------------- Solver parameters specified: Outermost Krylov solver : gmres Solver type : serial direct/lu Solver package : petsc -------------------------------------------------------------------------- ============================== INITIAL GUESS ============================= -------------------------------------------------------------------------- 0 SNES Function norm 7.723483539004e+02 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 2.044419511759e-05 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.0471936 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.665657274183e-08 |Div|_2 = 2.922396668616e-07 Momentum: |mRes|_2 = 2.044210630007e-05 -------------------------------------------------------------------------- Saving output ... done (0.00187213 sec) -------------------------------------------------------------------------- ================================= STEP 1 ================================= -------------------------------------------------------------------------- Current time : 0.00000000 [Myr] Tentative time step : 0.01000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 3.809392698503e-04 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.209198080500e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.0286637 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.485380468909e-19 |Div|_2 = 2.610774057723e-18 Momentum: |mRes|_2 = 1.209198080497e-12 -------------------------------------------------------------------------- Actual time step : 0.01100 [Myr] -------------------------------------------------------------------------- Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Topography is (9.989000e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 2.4113e-03 s -------------------------------------------------------------------------- Saving output ... done (0.00206726 sec) -------------------------------------------------------------------------- ================================= STEP 2 ================================= -------------------------------------------------------------------------- Current time : 0.01100000 [Myr] Tentative time step : 0.01100000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 5.229010285717e-01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 9.618275184872e-05 1 MMFD ||F||/||F0||=1.839406e-04 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 2 SNES Function norm 9.977113317220e-13 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.0668877 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 2.106003428440e-18 |Div|_2 = 2.530575493835e-17 Momentum: |mRes|_2 = 9.977113314011e-13 -------------------------------------------------------------------------- Actual time step : 0.01210 [Myr] -------------------------------------------------------------------------- Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Topography is (9.976900e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 7.7976e-03 s -------------------------------------------------------------------------- ================================= STEP 3 ================================= -------------------------------------------------------------------------- Current time : 0.02310000 [Myr] Tentative time step : 0.01210000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 5.751911314281e-01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 1.087086476696e-04 1 MMFD ||F||/||F0||=1.889957e-04 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 2 SNES Function norm 1.174776370256e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.0906824 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 3.965874144306e-18 |Div|_2 = 4.774415117514e-17 Momentum: |mRes|_2 = 1.174776369285e-12 -------------------------------------------------------------------------- Actual time step : 0.01331 [Myr] -------------------------------------------------------------------------- Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Topography is (9.963590e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 2.8404e-03 s -------------------------------------------------------------------------- ================================= STEP 4 ================================= -------------------------------------------------------------------------- Current time : 0.03641000 [Myr] Tentative time step : 0.01331000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 6.327102445719e-01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 1.230969872585e-04 1 MMFD ||F||/||F0||=1.945551e-04 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 2 SNES Function norm 1.347004042197e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.0588717 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 7.671259518952e-18 |Div|_2 = 9.237541222720e-17 Momentum: |mRes|_2 = 1.347004039029e-12 -------------------------------------------------------------------------- Actual time step : 0.01464 [Myr] -------------------------------------------------------------------------- Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Topography is (9.948949e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 3.6443e-03 s -------------------------------------------------------------------------- ================================= STEP 5 ================================= -------------------------------------------------------------------------- Current time : 0.05105100 [Myr] Tentative time step : 0.01464100 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 6.959812690284e-01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 1.396618351418e-04 1 MMFD ||F||/||F0||=2.006690e-04 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 2 SNES Function norm 1.125681170034e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.0712219 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.504713014691e-17 |Div|_2 = 1.814743317160e-16 Momentum: |mRes|_2 = 1.125681155406e-12 -------------------------------------------------------------------------- Actual time step : 0.01611 [Myr] -------------------------------------------------------------------------- Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Topography is (9.932844e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 3.4497e-03 s -------------------------------------------------------------------------- Saving output ... done (0.00175744 sec) -------------------------------------------------------------------------- ================================= STEP 6 ================================= -------------------------------------------------------------------------- Current time : 0.06715610 [Myr] Tentative time step : 0.01610510 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 7.655793959319e-01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 1.587754245416e-04 1 MMFD ||F||/||F0||=2.073925e-04 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 2 SNES Function norm 1.307184343930e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.0653602 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 2.915926802349e-17 |Div|_2 = 3.520350671003e-16 Momentum: |mRes|_2 = 1.307184296528e-12 -------------------------------------------------------------------------- Actual time step : 0.01772 [Myr] -------------------------------------------------------------------------- Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Topography is (9.915128e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 3.8611e-03 s -------------------------------------------------------------------------- ================================= STEP 7 ================================= -------------------------------------------------------------------------- Current time : 0.08487171 [Myr] Tentative time step : 0.01771561 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 8.421373355243e-01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 1.808795627172e-04 1 MMFD ||F||/||F0||=2.147863e-04 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 2 SNES Function norm 1.681011930406e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.073655 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 5.540429922264e-17 |Div|_2 = 6.695337031823e-16 Momentum: |mRes|_2 = 1.681011797071e-12 -------------------------------------------------------------------------- Actual time step : 0.01949 [Myr] -------------------------------------------------------------------------- Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Topography is (9.895641e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 3.4049e-03 s -------------------------------------------------------------------------- ================================= STEP 8 ================================= -------------------------------------------------------------------------- Current time : 0.10435888 [Myr] Tentative time step : 0.01948717 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 9.263510690762e-01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 2.064993488760e-04 1 MMFD ||F||/||F0||=2.229169e-04 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 2 SNES Function norm 1.660761859668e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.0750496 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.041714638395e-16 |Div|_2 = 1.259538725506e-15 Momentum: |mRes|_2 = 1.660761382045e-12 -------------------------------------------------------------------------- Actual time step : 0.02144 [Myr] -------------------------------------------------------------------------- Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Topography is (9.874205e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 2.4118e-03 s -------------------------------------------------------------------------- ================================= STEP 9 ================================= -------------------------------------------------------------------------- Current time : 0.12579477 [Myr] Tentative time step : 0.02143589 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.018986175984e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 2.362596651556e-04 1 MMFD ||F||/||F0||=2.318576e-04 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 2 SNES Function norm 2.471588870227e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.0567624 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.899823167557e-16 |Div|_2 = 2.296727611458e-15 Momentum: |mRes|_2 = 2.471587803108e-12 -------------------------------------------------------------------------- Actual time step : 0.02358 [Myr] -------------------------------------------------------------------------- Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Topography is (9.850626e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 2.5371e-03 s -------------------------------------------------------------------------- ================================ STEP 10 ================================= -------------------------------------------------------------------------- Current time : 0.14937425 [Myr] Tentative time step : 0.02357948 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.120884793581e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 2.709050160747e-04 1 MMFD ||F||/||F0||=2.416885e-04 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 2 SNES Function norm 3.413636250060e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.0577579 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 3.426265766610e-16 |Div|_2 = 4.145093000790e-15 Momentum: |mRes|_2 = 3.413633733418e-12 -------------------------------------------------------------------------- Actual time step : 0.02594 [Myr] -------------------------------------------------------------------------- Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Topography is (9.824688e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 3.4442e-03 s -------------------------------------------------------------------------- Saving output ... done (0.00200064 sec) -------------------------------------------------------------------------- ================================ STEP 11 ================================= -------------------------------------------------------------------------- Current time : 0.17531167 [Myr] Tentative time step : 0.02593742 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.232973272938e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 3.113234044373e-04 1 MMFD ||F||/||F0||=2.524981e-04 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 2 SNES Function norm 5.208251607646e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.0570884 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 5.735618433125e-16 |Div|_2 = 6.941483390532e-15 Momentum: |mRes|_2 = 5.208246981889e-12 -------------------------------------------------------------------------- Actual time step : 0.02853 [Myr] -------------------------------------------------------------------------- Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Topography is (9.796157e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 2.5537e-03 s -------------------------------------------------------------------------- ================================ STEP 12 ================================= -------------------------------------------------------------------------- Current time : 0.20384284 [Myr] Tentative time step : 0.02853117 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.356270600229e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 3.585750619506e-04 1 MMFD ||F||/||F0||=2.643831e-04 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 2 SNES Function norm 6.382959387562e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.0568156 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 9.087307455303e-16 |Div|_2 = 1.100274615325e-14 Momentum: |mRes|_2 = 6.382949904460e-12 -------------------------------------------------------------------------- Actual time step : 0.03138 [Myr] -------------------------------------------------------------------------- Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Topography is (9.764773e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 2.4347e-03 s -------------------------------------------------------------------------- ================================ STEP 13 ================================= -------------------------------------------------------------------------- Current time : 0.23522712 [Myr] Tentative time step : 0.03138428 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.491897660250e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 4.139270279614e-04 1 MMFD ||F||/||F0||=2.774500e-04 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 2 SNES Function norm 1.038902931149e-11 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.0557924 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.321659345050e-15 |Div|_2 = 1.601180421862e-14 Momentum: |mRes|_2 = 1.038901697260e-11 -------------------------------------------------------------------------- Actual time step : 0.03452 [Myr] -------------------------------------------------------------------------- Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Topography is (9.730250e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 2.7726e-03 s -------------------------------------------------------------------------- ================================ STEP 14 ================================= -------------------------------------------------------------------------- Current time : 0.26974983 [Myr] Tentative time step : 0.03452271 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.641087426269e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 4.788947890598e-04 1 MMFD ||F||/||F0||=2.918155e-04 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 2 SNES Function norm 1.457299471065e-11 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.0596741 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.826932711242e-15 |Div|_2 = 2.215562796320e-14 Momentum: |mRes|_2 = 1.457297786881e-11 -------------------------------------------------------------------------- Actual time step : 0.03797 [Myr] -------------------------------------------------------------------------- Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Topography is (9.692275e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 2.4803e-03 s -------------------------------------------------------------------------- ================================ STEP 15 ================================= -------------------------------------------------------------------------- Current time : 0.30772482 [Myr] Tentative time step : 0.03797498 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.805196168890e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 5.552923876926e-04 1 MMFD ||F||/||F0||=3.076078e-04 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 2 SNES Function norm 2.089240770849e-11 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.0577143 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 2.391024199466e-15 |Div|_2 = 2.903913833897e-14 Momentum: |mRes|_2 = 2.089238752718e-11 -------------------------------------------------------------------------- Actual time step : 0.04177 [Myr] -------------------------------------------------------------------------- Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Topography is (9.650503e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 3.1995e-03 s -------------------------------------------------------------------------- Saving output ... done (0.00188918 sec) -------------------------------------------------------------------------- ================================ STEP 16 ================================= -------------------------------------------------------------------------- Current time : 0.34949730 [Myr] Tentative time step : 0.04177248 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.985715785771e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 6.452927474471e-04 1 MMFD ||F||/||F0||=3.249673e-04 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 2 SNES Function norm 2.646141355986e-11 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.0574498 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 3.027553307377e-15 |Div|_2 = 3.684464791845e-14 Momentum: |mRes|_2 = 2.646138790876e-11 -------------------------------------------------------------------------- Actual time step : 0.04595 [Myr] -------------------------------------------------------------------------- Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Topography is (9.604553e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 2.4192e-03 s -------------------------------------------------------------------------- ================================ STEP 17 ================================= -------------------------------------------------------------------------- Current time : 0.39544703 [Myr] Tentative time step : 0.04594973 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 2.184287364342e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.042008758968e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.0262434 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.159686802134e-11 |Div|_2 = 1.416861861430e-10 Momentum: |mRes|_2 = 1.042007795685e-07 -------------------------------------------------------------------------- Actual time step : 0.05054 [Myr] -------------------------------------------------------------------------- Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Topography is (9.554008e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 2.9848e-03 s -------------------------------------------------------------------------- ================================ STEP 18 ================================= -------------------------------------------------------------------------- Current time : 0.44599173 [Myr] Tentative time step : 0.05054470 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 2.402716281729e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.222841764006e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.0275062 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.307374084935e-11 |Div|_2 = 1.606482985943e-10 Momentum: |mRes|_2 = 1.222840708764e-07 -------------------------------------------------------------------------- Actual time step : 0.05560 [Myr] -------------------------------------------------------------------------- Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Topography is (9.498409e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 2.9445e-03 s -------------------------------------------------------------------------- ================================ STEP 19 ================================= -------------------------------------------------------------------------- Current time : 0.50159090 [Myr] Tentative time step : 0.05559917 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 2.642987926428e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.438762895191e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.0303857 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.485872710160e-11 |Div|_2 = 1.843391403960e-10 Momentum: |mRes|_2 = 1.438761714283e-07 -------------------------------------------------------------------------- Actual time step : 0.06116 [Myr] -------------------------------------------------------------------------- Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Topography is (9.437250e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 2.9710e-03 s -------------------------------------------------------------------------- ================================ STEP 20 ================================= -------------------------------------------------------------------------- Current time : 0.56274999 [Myr] Tentative time step : 0.06115909 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 2.907286739208e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.697200907176e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.0279648 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.710192460912e-11 |Div|_2 = 2.156977501078e-10 Momentum: |mRes|_2 = 1.697199536521e-07 -------------------------------------------------------------------------- Actual time step : 0.06727 [Myr] -------------------------------------------------------------------------- Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Topography is (9.369975e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 2.5348e-03 s -------------------------------------------------------------------------- Saving output ... done (0.00209818 sec) -------------------------------------------------------------------------- ================================ STEP 21 ================================= -------------------------------------------------------------------------- Current time : 0.63002499 [Myr] Tentative time step : 0.06727500 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.781428747096e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.050784625324e-06 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.0285105 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.664640152121e-09 |Div|_2 = 1.093781914946e-08 Momentum: |mRes|_2 = 1.050727696851e-06 -------------------------------------------------------------------------- Actual time step : 0.07400 [Myr] -------------------------------------------------------------------------- Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Topography is (9.295972e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 3.0122e-03 s -------------------------------------------------------------------------- ================================ STEP 22 ================================= -------------------------------------------------------------------------- Current time : 0.70402749 [Myr] Tentative time step : 0.07400250 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.118812267826e-06 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 1.146263029870e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.0277674 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 3.478746703889e-17 |Div|_2 = 2.548273633243e-16 Momentum: |mRes|_2 = 1.146263001544e-12 -------------------------------------------------------------------------- Actual time step : 0.08140 [Myr] -------------------------------------------------------------------------- Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Topography is (9.214570e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 3.2091e-03 s -------------------------------------------------------------------------- ================================ STEP 23 ================================= -------------------------------------------------------------------------- Current time : 0.78543024 [Myr] Tentative time step : 0.08140275 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.153144382778e-12 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 8.601044868401e-13 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.0285301 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 3.135796236018e-22 |Div|_2 = 1.978952008566e-21 Momentum: |mRes|_2 = 8.601044868401e-13 -------------------------------------------------------------------------- Actual time step : 0.08954 [Myr] -------------------------------------------------------------------------- Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Topography is (9.125027e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 2.7596e-03 s -------------------------------------------------------------------------- ================================ STEP 24 ================================= -------------------------------------------------------------------------- Current time : 0.87497327 [Myr] Tentative time step : 0.08954302 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 8.604242310196e-13 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 4.451661956456e-13 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.0287295 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 2.560947770423e-22 |Div|_2 = 1.695574618895e-21 Momentum: |mRes|_2 = 4.451661956456e-13 -------------------------------------------------------------------------- Actual time step : 0.09850 [Myr] -------------------------------------------------------------------------- Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Topography is (9.026529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 2.6657e-03 s -------------------------------------------------------------------------- ================================ STEP 25 ================================= -------------------------------------------------------------------------- Current time : 0.97347059 [Myr] Tentative time step : 0.09849733 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.709916298010e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.338396206144e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.0291345 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 6.277649275580e-12 |Div|_2 = 8.773360011349e-11 Momentum: |mRes|_2 = 1.338395918591e-07 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Topography is (8.926529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 2.8717e-03 s -------------------------------------------------------------------------- Saving output ... done (0.00390342 sec) -------------------------------------------------------------------------- ================================ STEP 26 ================================= -------------------------------------------------------------------------- Current time : 1.07347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.753645952931e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.781918574516e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.0325789 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.752367471857e-11 |Div|_2 = 2.446177696723e-10 Momentum: |mRes|_2 = 3.781917783411e-07 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Topography is (8.826529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 3.2828e-03 s -------------------------------------------------------------------------- ================================ STEP 27 ================================= -------------------------------------------------------------------------- Current time : 1.17347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.753646381147e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.799010254716e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.0294635 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.760199479003e-11 |Div|_2 = 2.453278199359e-10 Momentum: |mRes|_2 = 3.799009462592e-07 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Topography is (8.726529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 3.0427e-03 s -------------------------------------------------------------------------- ================================ STEP 28 ================================= -------------------------------------------------------------------------- Current time : 1.27347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.753646384492e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.816034505082e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.0281606 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.768853451477e-11 |Div|_2 = 2.461384966648e-10 Momentum: |mRes|_2 = 3.816033711272e-07 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Topography is (8.626529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 3.4905e-03 s -------------------------------------------------------------------------- ================================ STEP 29 ================================= -------------------------------------------------------------------------- Current time : 1.37347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.753646387818e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.832970080513e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.028484 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.778461137486e-11 |Div|_2 = 2.470702480035e-10 Momentum: |mRes|_2 = 3.832969284215e-07 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Topography is (8.526529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 3.1609e-03 s -------------------------------------------------------------------------- ================================ STEP 30 ================================= -------------------------------------------------------------------------- Current time : 1.47347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.753646391118e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.849760706200e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.0292682 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.789177811042e-11 |Div|_2 = 2.481483333904e-10 Momentum: |mRes|_2 = 3.849759906441e-07 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Topography is (8.426529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 3.3188e-03 s -------------------------------------------------------------------------- Saving output ... done (0.00214307 sec) -------------------------------------------------------------------------- ================================ STEP 31 ================================= -------------------------------------------------------------------------- Current time : 1.57347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.753646394381e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.866318488220e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.0281376 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.801181146024e-11 |Div|_2 = 2.494034676313e-10 Momentum: |mRes|_2 = 3.866317683810e-07 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Topography is (8.326529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 3.5348e-03 s -------------------------------------------------------------------------- ================================ STEP 32 ================================= -------------------------------------------------------------------------- Current time : 1.67347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.753646397590e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.882406034520e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.0284988 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.814644682539e-11 |Div|_2 = 2.508694167270e-10 Momentum: |mRes|_2 = 3.882405223998e-07 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Topography is (8.226529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 2.5580e-03 s -------------------------------------------------------------------------- ================================ STEP 33 ================================= -------------------------------------------------------------------------- Current time : 1.77347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.753646400699e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.897328079317e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.0276871 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.829601885453e-11 |Div|_2 = 2.525662374189e-10 Momentum: |mRes|_2 = 3.897327260939e-07 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Topography is (8.126529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 4.6238e-03 s -------------------------------------------------------------------------- ================================ STEP 34 ================================= -------------------------------------------------------------------------- Current time : 1.87347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.753646403581e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 2.779605390357e-03 1 MMFD ||F||/||F0||=5.847312e-04 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 2 SNES Function norm 2.229319231234e-10 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.0620333 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.052362225222e-14 |Div|_2 = 1.450711934548e-13 Momentum: |mRes|_2 = 2.229318759214e-10 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Topography is (8.026529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 2.4787e-03 s -------------------------------------------------------------------------- ================================ STEP 35 ================================= -------------------------------------------------------------------------- Current time : 1.97347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.753645713906e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 2.777742187518e-03 1 MMFD ||F||/||F0||=5.843393e-04 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 2 SNES Function norm 2.001542723060e-10 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.0617419 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 9.523258872170e-15 |Div|_2 = 1.311732683584e-13 Momentum: |mRes|_2 = 2.001542293231e-10 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Topography is (7.926529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 4.4356e-03 s -------------------------------------------------------------------------- Saving output ... done (0.00207624 sec) -------------------------------------------------------------------------- ================================ STEP 36 ================================= -------------------------------------------------------------------------- Current time : 2.07347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.753645713940e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 2.775872877187e-03 1 MMFD ||F||/||F0||=5.839461e-04 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 2 SNES Function norm 8.327003402355e-11 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.0633047 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 3.993300016091e-15 |Div|_2 = 5.498732934956e-14 Momentum: |mRes|_2 = 8.327001586812e-11 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Topography is (7.826529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 3.2802e-03 s -------------------------------------------------------------------------- ================================ STEP 37 ================================= -------------------------------------------------------------------------- Current time : 2.17347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.753645714142e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 2.773995158696e-03 1 MMFD ||F||/||F0||=5.835511e-04 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 2 SNES Function norm 2.184743676913e-10 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.0650348 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.060580968327e-14 |Div|_2 = 1.461303044317e-13 Momentum: |mRes|_2 = 2.184743188204e-10 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Topography is (7.726529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 3.7735e-03 s -------------------------------------------------------------------------- ================================ STEP 38 ================================= -------------------------------------------------------------------------- Current time : 2.27347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.753645713901e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 2.772106269743e-03 1 MMFD ||F||/||F0||=5.831537e-04 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 2 SNES Function norm 2.293125691195e-10 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.0632178 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.125213085394e-14 |Div|_2 = 1.553553835346e-13 Momentum: |mRes|_2 = 2.293125164942e-10 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Topography is (7.626529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 2.5745e-03 s -------------------------------------------------------------------------- ================================ STEP 39 ================================= -------------------------------------------------------------------------- Current time : 2.37347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.753645713881e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.996319201238e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.0287355 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 2.011135874350e-11 |Div|_2 = 2.789791632282e-10 Momentum: |mRes|_2 = 3.996318227475e-07 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Topography is (7.526529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 3.8487e-03 s -------------------------------------------------------------------------- ================================ STEP 40 ================================= -------------------------------------------------------------------------- Current time : 2.47347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.753646421677e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 4.012779424187e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.0287969 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 2.073117564038e-11 |Div|_2 = 2.900013525055e-10 Momentum: |mRes|_2 = 4.012778376275e-07 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Topography is (7.426529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 3.2897e-03 s -------------------------------------------------------------------------- Saving output ... done (0.00217404 sec) -------------------------------------------------------------------------- ================================ STEP 41 ================================= -------------------------------------------------------------------------- Current time : 2.57347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.753646424379e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 4.027752948412e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.0293895 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 2.156004347902e-11 |Div|_2 = 3.060754751755e-10 Momentum: |mRes|_2 = 4.027751785453e-07 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Topography is (7.326529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 4.0250e-03 s -------------------------------------------------------------------------- ================================ STEP 42 ================================= -------------------------------------------------------------------------- Current time : 2.67347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.753646426605e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 4.041129534540e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.0287669 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 2.287405394040e-11 |Div|_2 = 3.310230089513e-10 Momentum: |mRes|_2 = 4.041128178778e-07 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Topography is (7.226529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 4.7387e-03 s -------------------------------------------------------------------------- ================================ STEP 43 ================================= -------------------------------------------------------------------------- Current time : 2.77347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 2.146410356177e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.660951497075e-06 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.029588 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 2.779608991371e-09 |Div|_2 = 1.761752849615e-08 Momentum: |mRes|_2 = 1.660858060860e-06 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Topography is (7.126529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 2.6552e-03 s -------------------------------------------------------------------------- ================================ STEP 44 ================================= -------------------------------------------------------------------------- Current time : 2.87347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.660951497075e-06 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 1.154715729653e-12 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.0272709 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 3.020362617650e-17 |Div|_2 = 2.101221482559e-16 Momentum: |mRes|_2 = 1.154715710535e-12 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Topography is (7.026529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 4.5415e-03 s -------------------------------------------------------------------------- ================================ STEP 45 ================================= -------------------------------------------------------------------------- Current time : 2.97347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 1.154715729653e-12 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 8.191306532451e-13 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.0294583 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 2.091853943780e-22 |Div|_2 = 1.155808607186e-21 Momentum: |mRes|_2 = 8.191306532451e-13 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Topography is (6.926529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 4.7573e-03 s -------------------------------------------------------------------------- Saving output ... done (0.00219382 sec) -------------------------------------------------------------------------- ================================ STEP 46 ================================= -------------------------------------------------------------------------- Current time : 3.07347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 8.191306532451e-13 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 6.654227741969e-13 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 1 SNES solution time : 0.0295824 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 2.856487381537e-22 |Div|_2 = 8.159376455297e-22 Momentum: |mRes|_2 = 6.654227741969e-13 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Topography is (6.826529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 3.2182e-03 s -------------------------------------------------------------------------- ================================ STEP 47 ================================= -------------------------------------------------------------------------- Current time : 3.17347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 2.304128348389e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.787338954473e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.0293056 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 6.856300489121e-12 |Div|_2 = 1.072497280841e-10 Momentum: |mRes|_2 = 1.787338632696e-07 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Topography is (6.726529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 3.4568e-03 s -------------------------------------------------------------------------- ================================ STEP 48 ================================= -------------------------------------------------------------------------- Current time : 3.27347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.753646028400e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.704094833242e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.029019 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.420427538865e-11 |Div|_2 = 2.217972035582e-10 Momentum: |mRes|_2 = 3.704094169194e-07 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Topography is (6.626529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 5.0471e-03 s -------------------------------------------------------------------------- ================================ STEP 49 ================================= -------------------------------------------------------------------------- Current time : 3.37347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.753646365517e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.720684514644e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.0308519 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.426926909722e-11 |Div|_2 = 2.224044479942e-10 Momentum: |mRes|_2 = 3.720683849931e-07 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Topography is (6.526529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 3.9988e-03 s -------------------------------------------------------------------------- ================================ STEP 50 ================================= -------------------------------------------------------------------------- Current time : 3.47347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.753646368757e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.737208116143e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.0496073 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.434113192014e-11 |Div|_2 = 2.231042122100e-10 Momentum: |mRes|_2 = 3.737207450198e-07 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Topography is (6.426529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 2.7379e-03 s -------------------------------------------------------------------------- Saving output ... done (0.00387788 sec) -------------------------------------------------------------------------- ================================ STEP 51 ================================= -------------------------------------------------------------------------- Current time : 3.57347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.753646371980e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.753635155572e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.0297087 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.442096650568e-11 |Div|_2 = 2.239160826161e-10 Momentum: |mRes|_2 = 3.753634487707e-07 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Topography is (6.326529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 3.8416e-03 s -------------------------------------------------------------------------- ================================ STEP 52 ================================= -------------------------------------------------------------------------- Current time : 3.67347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.753646375179e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.769919376748e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.0310466 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.451007773577e-11 |Div|_2 = 2.248645248253e-10 Momentum: |mRes|_2 = 3.769918706123e-07 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Topography is (6.226529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 2.8740e-03 s -------------------------------------------------------------------------- ================================ STEP 53 ================================= -------------------------------------------------------------------------- Current time : 3.77347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.753646378343e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.785954056354e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.0288638 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.460993778788e-11 |Div|_2 = 2.259792377330e-10 Momentum: |mRes|_2 = 3.785953381932e-07 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Topography is (6.126529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 3.3231e-03 s -------------------------------------------------------------------------- ================================ STEP 54 ================================= -------------------------------------------------------------------------- Current time : 3.87347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.753646381461e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.801487307231e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.0289804 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.472195765881e-11 |Div|_2 = 2.272930607804e-10 Momentum: |mRes|_2 = 3.801486627732e-07 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Topography is (6.026529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 3.0155e-03 s -------------------------------------------------------------------------- ================================ STEP 55 ================================= -------------------------------------------------------------------------- Current time : 3.97347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.753646384469e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.815725808667e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.029312 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.484610738506e-11 |Div|_2 = 2.288229768708e-10 Momentum: |mRes|_2 = 3.815725122560e-07 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Topography is (5.926529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 3.1216e-03 s -------------------------------------------------------------------------- Saving output ... done (0.00217761 sec) -------------------------------------------------------------------------- ================================ STEP 56 ================================= -------------------------------------------------------------------------- Current time : 4.07347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.753646387226e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 2.719936983167e-03 1 MMFD ||F||/||F0||=5.721791e-04 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 2 SNES Function norm 2.142994758026e-10 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.0606377 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 8.317874901047e-15 |Div|_2 = 1.279986496914e-13 Momentum: |mRes|_2 = 2.142994375766e-10 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Topography is (5.826529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 2.6120e-03 s -------------------------------------------------------------------------- ================================ STEP 57 ================================= -------------------------------------------------------------------------- Current time : 4.17347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.753645713935e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 2.718042249778e-03 1 MMFD ||F||/||F0||=5.717806e-04 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 2 SNES Function norm 1.818328005585e-10 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.0735411 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 7.169963263737e-15 |Div|_2 = 1.102410135407e-13 Momentum: |mRes|_2 = 1.818327671402e-10 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Topography is (5.726529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 3.3222e-03 s -------------------------------------------------------------------------- ================================ STEP 58 ================================= -------------------------------------------------------------------------- Current time : 4.27347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.753645713988e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 2.716139023080e-03 1 MMFD ||F||/||F0||=5.713802e-04 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 2 SNES Function norm 1.221401147640e-10 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.0586365 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 4.873431897677e-15 |Div|_2 = 7.491440606076e-14 Momentum: |mRes|_2 = 1.221400917897e-10 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Topography is (5.626529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 2.5250e-03 s -------------------------------------------------------------------------- ================================ STEP 59 ================================= -------------------------------------------------------------------------- Current time : 4.37347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.753645714094e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 2.714224254207e-03 1 MMFD ||F||/||F0||=5.709774e-04 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 2 SNES Function norm 2.115709291257e-10 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.0574089 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 8.499438908467e-15 |Div|_2 = 1.307709304836e-13 Momentum: |mRes|_2 = 2.115708887112e-10 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Topography is (5.526529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 2.4352e-03 s -------------------------------------------------------------------------- ================================ STEP 60 ================================= -------------------------------------------------------------------------- Current time : 4.47347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.753645713938e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 1 1 SNES Function norm 2.712294046634e-03 1 MMFD ||F||/||F0||=5.705713e-04 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 2 SNES Function norm 2.179275419417e-10 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < atol Number of iterations : 2 SNES solution time : 0.0589673 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 8.965591925027e-15 |Div|_2 = 1.383193329735e-13 Momentum: |mRes|_2 = 2.179274980458e-10 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Topography is (5.426529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 2.8487e-03 s -------------------------------------------------------------------------- Saving output ... done (0.00229395 sec) -------------------------------------------------------------------------- ================================ STEP 61 ================================= -------------------------------------------------------------------------- Current time : 4.57347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.753645713929e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.912242449556e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.0287527 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.637546409289e-11 |Div|_2 = 2.541534955932e-10 Momentum: |mRes|_2 = 3.912241624019e-07 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Topography is (5.326529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 2.8661e-03 s -------------------------------------------------------------------------- ================================ STEP 62 ================================= -------------------------------------------------------------------------- Current time : 4.67347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.753646404883e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.928039517890e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.0278309 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.690148879384e-11 |Div|_2 = 2.651056760597e-10 Momentum: |mRes|_2 = 3.928038623283e-07 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Topography is (5.226529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 2.6097e-03 s -------------------------------------------------------------------------- ================================ STEP 63 ================================= -------------------------------------------------------------------------- Current time : 4.77347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.753646407464e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.942408222348e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.0283641 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 1.760976527127e-11 |Div|_2 = 2.813412810938e-10 Momentum: |mRes|_2 = 3.942407218483e-07 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Topography is (5.126529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 2.9594e-03 s -------------------------------------------------------------------------- ================================ STEP 64 ================================= -------------------------------------------------------------------------- Current time : 4.87347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 4.753646409577e+00 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 3.955151780512e-07 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.02769 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 2.351626185769e-11 |Div|_2 = 3.069681871490e-10 Momentum: |mRes|_2 = 3.955150589287e-07 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Topography is (5.026529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 2.4055e-03 s -------------------------------------------------------------------------- ================================ STEP 65 ================================= -------------------------------------------------------------------------- Current time : 4.97347059 [Myr] Tentative time step : 0.10000000 [Myr] -------------------------------------------------------------------------- 0 SNES Function norm 2.086989155971e+01 0 PICARD ||F||/||F0||=1.000000e+00 Linear js_ solve converged due to CONVERGED_RTOL iterations 2 1 SNES Function norm 1.575818368951e-06 -------------------------------------------------------------------------- SNES Convergence Reason : ||F|| < rtol*||F_initial|| Number of iterations : 1 SNES solution time : 0.0269544 (sec) -------------------------------------------------------------------------- Residual summary: Continuity: |Div|_inf = 2.722037044873e-09 |Div|_2 = 1.694959120056e-08 Momentum: |mRes|_2 = 1.575727210935e-06 -------------------------------------------------------------------------- Actual time step : 0.10000 [Myr] -------------------------------------------------------------------------- Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Topography is (4.926529e+00 [km]). Applying erosion at constant rate (0.100000 [cm/yr]) to internal free surface. Applying erosion at constant level (0.000000e+00 [km]) to internal free surface. Performing marker control (subgrid algorithm) Marker control [0]: (subgrid) cloned 0 markers and merged 0 markers in 2.6887e-03 s -------------------------------------------------------------------------- Saving output ... done (0.00181696 sec) -------------------------------------------------------------------------- =========================== SOLUTION IS DONE! ============================ -------------------------------------------------------------------------- Total solution time : 9.9526 (sec) -------------------------------------------------------------------------- Test Summary: | Pass Error Total Time LaMEM.jl | 22 7 29 11m07.2s Julia setup | 1 1 1m16.8s velocity box | 1 1 9.3s phase transitions | 1 1 22.7s phase diagrams | 1 1 18.6s build-in geometries | 2 2 1.9s run LaMEM | 2 1 3 19.3s read LaMEM output | 3 1 4 23.2s run lamem mode save grid test | 1 1 2 3.0s Test mesh refinement | 1 1 45.9s Read logfile | 1 1 1.4s filesize compression | 1 1 1.0s GeoParams 0D rheology | 5 5 16.5s examples in /scripts | 2 3 5 6m30.9s Subduction3D | 1 1 23.9s StrengthEnvelop | 1 1 3m50.4s TM_Subduction_example | 1 1 24.5s PassiveTracers | 2 2 1m52.0s surface erosion | 1 1 35.6s ERROR: LoadError: Some tests did not pass: 22 passed, 0 failed, 7 errored, 0 broken. in expression starting at /home/pkgeval/.julia/packages/LaMEM/gnosH/test/runtests.jl:4 Testing failed after 696.93s ERROR: LoadError: Package LaMEM errored during testing Stacktrace: [1] pkgerror(msg::String) @ Pkg.Types /opt/julia/share/julia/stdlib/v1.10/Pkg/src/Types.jl:70 [2] test(ctx::Pkg.Types.Context, pkgs::Vector{Pkg.Types.PackageSpec}; coverage::Bool, julia_args::Cmd, test_args::Cmd, test_fn::Nothing, force_latest_compatible_version::Bool, allow_earlier_backwards_compatible_versions::Bool, allow_reresolve::Bool) @ Pkg.Operations /opt/julia/share/julia/stdlib/v1.10/Pkg/src/Operations.jl:2034 [3] test @ /opt/julia/share/julia/stdlib/v1.10/Pkg/src/Operations.jl:1915 [inlined] [4] test(ctx::Pkg.Types.Context, pkgs::Vector{Pkg.Types.PackageSpec}; coverage::Bool, test_fn::Nothing, julia_args::Cmd, test_args::Cmd, force_latest_compatible_version::Bool, allow_earlier_backwards_compatible_versions::Bool, allow_reresolve::Bool, kwargs::@Kwargs{io::Base.PipeEndpoint}) @ Pkg.API /opt/julia/share/julia/stdlib/v1.10/Pkg/src/API.jl:444 [5] test(pkgs::Vector{Pkg.Types.PackageSpec}; io::Base.PipeEndpoint, kwargs::@Kwargs{julia_args::Cmd}) @ Pkg.API /opt/julia/share/julia/stdlib/v1.10/Pkg/src/API.jl:159 [6] test @ /opt/julia/share/julia/stdlib/v1.10/Pkg/src/API.jl:147 [inlined] [7] #test#74 @ /opt/julia/share/julia/stdlib/v1.10/Pkg/src/API.jl:146 [inlined] [8] top-level scope @ /PkgEval.jl/scripts/evaluate.jl:219 in expression starting at /PkgEval.jl/scripts/evaluate.jl:210 PkgEval crashed after 1345.83s: the process was aborted