Package evaluation to test Tenkai on Julia 1.14.0-DEV.1589 (2d9a3f8a61*) started at 2026-01-21T18:35:28.084 ################################################################################ # Set-up # Installing PkgEval dependencies (TestEnv)... Activating project at `~/.julia/environments/v1.14` Set-up completed after 10.17s ################################################################################ # Installation # Installing Tenkai... Resolving package versions... Updating `~/.julia/environments/v1.14/Project.toml` [a4f5eaf3] + Tenkai v0.1.0 Updating `~/.julia/environments/v1.14/Manifest.toml` [47edcb42] + ADTypes v1.21.0 [621f4979] + AbstractFFTs v1.5.0 [7d9f7c33] + Accessors v0.1.43 [79e6a3ab] + Adapt v4.4.0 [66dad0bd] + AliasTables v1.1.3 [dce04be8] + ArgCheck v2.5.0 [4fba245c] + ArrayInterface v7.22.0 [a9b6321e] + Atomix v1.1.2 [15f4f7f2] + AutoHashEquals v2.2.0 [198e06fe] + BangBang v0.4.6 [9718e550] + Baselet v0.1.1 [d1d4a3ce] + BitFlags v0.1.9 [62783981] + BitTwiddlingConvenienceFunctions v0.1.6 [70df07ce] + BracketingNonlinearSolve v1.6.2 [fa961155] + CEnum v0.5.0 [2a0fbf3d] + CPUSummary v0.2.7 [ab320bfc] + CaratheodoryPruning v0.1.1 [3cb15238] + ChangePrecision v1.1.1 [fb6a15b2] + CloseOpenIntervals v0.1.13 [da1fd8a2] + CodeTracking v3.0.0 [944b1d66] + CodecZlib v0.7.8 [35d6a980] + ColorSchemes v3.31.0 [3da002f7] + ColorTypes v0.12.1 [c3611d14] + ColorVectorSpace v0.11.0 [5ae59095] + Colors v0.13.1 [38540f10] + CommonSolve v0.2.6 [bbf7d656] + CommonSubexpressions v0.3.1 [f70d9fcc] + CommonWorldInvalidations v1.0.0 [34da2185] + Compat v4.18.1 [a33af91c] + CompositionsBase v0.1.2 [2569d6c7] + ConcreteStructs v0.2.3 [f0e56b4a] + ConcurrentUtilities v2.5.0 [187b0558] + ConstructionBase v1.6.0 [6add18c4] + ContextVariablesX v0.1.3 [d38c429a] + Contour v0.6.3 [adafc99b] + CpuId v0.3.1 [9a962f9c] + DataAPI v1.16.0 [864edb3b] + DataStructures v0.19.3 [e2d170a0] + DataValueInterfaces v1.0.0 [244e2a9f] + DefineSingletons v0.1.2 [8bb1440f] + DelimitedFiles v1.9.1 [2b5f629d] + DiffEqBase v6.199.0 [459566f4] + DiffEqCallbacks v4.12.0 [163ba53b] + DiffResults v1.1.0 [b552c78f] + DiffRules v1.15.1 [a0c0ee7d] + DifferentiationInterface v0.7.14 [ffbed154] + DocStringExtensions v0.9.5 [fdbdab4c] + ElasticArrays v1.2.12 [da5c29d0] + EllipsisNotation v1.9.0 [4e289a0a] + EnumX v1.0.5 [7da242da] + Enzyme v0.13.118 [f151be2c] + EnzymeCore v0.8.18 [460bff9d] + ExceptionUnwrapping v0.1.11 [e2ba6199] + ExprTools v0.1.10 [55351af7] + ExproniconLite v0.10.14 [c87230d0] + FFMPEG v0.4.5 [7a1cc6ca] + FFTW v1.10.0 [cc61a311] + FLoops v0.2.2 [b9860ae5] + FLoopsBase v0.1.1 [7034ab61] + FastBroadcast v0.3.5 [9aa1b823] + FastClosures v0.3.2 [442a2c76] + FastGaussQuadrature v1.1.0 [a4df4552] + FastPower v1.3.0 [5789e2e9] + FileIO v1.17.1 [1a297f60] + FillArrays v1.16.0 [6a86dc24] + FiniteDiff v2.29.0 [53c48c17] + FixedPointNumbers v0.8.5 [1fa38f19] + Format v1.3.7 [f6369f11] + ForwardDiff v1.3.1 [069b7b12] + FunctionWrappers v1.1.3 [77dc65aa] + FunctionWrappersWrappers v0.1.3 [46192b85] + GPUArraysCore v0.2.0 [61eb1bfa] + GPUCompiler v1.8.1 [28b8d3ca] + GR v0.73.20 [92fee26a] + GZip v0.6.2 [d54b0c1a] + GaussQuadrature v0.5.8 [42e2da0e] + Grisu v1.0.2 [f67ccb44] + HDF5 v0.17.2 [cd3eb016] + HTTP v1.10.19 [3e5b6fbb] + HostCPUFeatures v0.1.18 [615f187c] + IfElse v0.1.1 [22cec73e] + InitialValues v0.3.1 [3587e190] + InverseFunctions v0.1.17 [92d709cd] + IrrationalConstants v0.2.6 [c8e1da08] + IterTools v1.10.0 [82899510] + IteratorInterfaceExtensions v1.0.0 [1019f520] + JLFzf v0.1.11 [692b3bcd] + JLLWrappers v1.7.1 [682c06a0] + JSON v1.4.0 [0f8b85d8] + JSON3 v1.14.3 [ae98c720] + Jieko v0.2.1 [b14d175d] + JuliaVariables v0.2.4 [63c18a36] + KernelAbstractions v0.9.39 [2c470bb0] + Kronecker v0.5.5 [929cbde3] + LLVM v9.4.4 [b964fa9f] + LaTeXStrings v1.4.0 [23fbe1c1] + Latexify v0.16.10 [10f19ff3] + LayoutPointers v0.1.17 [9c8b4983] + LightXML v0.9.3 [87fe0de2] + LineSearch v0.1.6 [7a12625a] + LinearMaps v3.11.4 [2ab3a3ac] + LogExpFunctions v0.3.29 [e6f89c97] + LoggingExtras v1.2.0 [bdcacae8] + LoopVectorization v0.12.173 [d8e11817] + MLStyle v0.4.17 [da04e1cc] + MPI v0.20.23 [3da0fdf6] + MPIPreferences v0.1.11 [1914dd2f] + MacroTools v0.5.16 [d125e4d3] + ManualMemory v0.1.8 [bb5d69b7] + MaybeInplace v0.1.4 [739be429] + MbedTLS v1.1.9 [442fdcdd] + Measures v0.3.3 [128add7d] + MicroCollections v0.2.0 [e1d29d7a] + Missings v1.2.0 [2e0e35c7] + Moshi v0.3.7 [46d2c3a1] + MuladdMacro v0.2.4 [77ba4419] + NaNMath v1.1.3 [71a1bf82] + NameResolution v0.1.5 [356022a1] + NamedDims v1.2.3 [7aca2e03] + NodesAndModes v1.1.0 [be0214bd] + NonlinearSolveBase v2.9.2 [d8793406] + ObjectFile v0.5.0 [6fd5a793] + Octavian v0.3.29 [6fe1bfb0] + OffsetArrays v1.17.0 [4d8831e6] + OpenSSL v1.6.1 [bac558e1] + OrderedCollections v1.8.1 [bbf590c4] + OrdinaryDiffEqCore v3.2.0 [669c94d9] + OrdinaryDiffEqSSPRK v1.11.0 [b1df2697] + OrdinaryDiffEqTsit5 v1.9.0 [7d669430] + P4est v0.4.13 [69de0a69] + Parsers v2.8.3 [4c1a95c7] + PathIntersections v0.3.0 [eebad327] + PkgVersion v0.3.3 [ccf2f8ad] + PlotThemes v3.3.0 [995b91a9] + PlotUtils v1.4.4 [91a5bcdd] + Plots v1.41.4 [f517fe37] + Polyester v0.7.18 [1d0040c9] + PolyesterWeave v0.2.2 [c74db56a] + PolynomialBases v0.4.25 [d236fae5] + PreallocationTools v1.0.0 [aea7be01] + PrecompileTools v1.3.3 [21216c6a] + Preferences v1.5.1 [8162dcfd] + PrettyPrint v0.2.0 [49802e3a] + ProgressBars v1.5.1 [43287f4e] + PtrArrays v1.3.0 [3cdcf5f2] + RecipesBase v1.3.4 [01d81517] + RecipesPipeline v0.6.12 [731186ca] + RecursiveArrayTools v3.44.0 [189a3867] + Reexport v1.2.2 [05181044] + RelocatableFolders v1.0.1 [ae029012] + Requires v1.3.1 [f2b01f46] + Roots v2.2.10 [7e49a35a] + RuntimeGeneratedFunctions v0.5.16 [94e857df] + SIMDTypes v0.1.0 [476501e8] + SLEEFPirates v0.6.43 [0bca4576] + SciMLBase v2.134.0 [19f34311] + SciMLJacobianOperators v0.1.12 [a6db7da4] + SciMLLogging v1.8.0 [c0aeaf25] + SciMLOperators v1.14.1 [431bcebd] + SciMLPublic v1.0.1 [53ae85a6] + SciMLStructures v1.10.0 [6c6a2e73] + Scratch v1.3.0 [efcf1570] + Setfield v1.1.2 [992d4aef] + Showoff v1.0.3 [777ac1f9] + SimpleBufferStream v1.2.0 [727e6d20] + SimpleNonlinearSolve v2.10.0 [ce78b400] + SimpleUnPack v1.1.0 [a2af1166] + SortingAlgorithms v1.2.2 [276daf66] + SpecialFunctions v2.6.1 [171d559e] + SplittablesBase v0.1.15 [860ef19b] + StableRNGs v1.0.4 [472ebc20] + StartUpDG v1.3.3 [aedffcd0] + Static v1.3.1 [0d7ed370] + StaticArrayInterface v1.8.0 [90137ffa] + StaticArrays v1.9.16 [1e83bf80] + StaticArraysCore v1.4.4 [10745b16] + Statistics v1.11.1 [82ae8749] + StatsAPI v1.8.0 [2913bbd2] + StatsBase v0.34.10 [d1fa6d79] + StrideArrays v0.1.29 [7792a7ef] + StrideArraysCore v0.5.8 [09ab397b] + StructArrays v0.7.2 [53d494c1] + StructIO v0.3.1 [856f2bd8] + StructTypes v1.11.0 [ec057cc2] + StructUtils v2.6.2 [9f78cca6] + SummationByPartsOperators v0.5.89 [2efcf032] + SymbolicIndexingInterface v0.3.46 [d0cc0030] + T8code v0.7.4 [3783bdb8] + TableTraits v1.0.1 [bd369af6] + Tables v1.12.1 [a4f5eaf3] + Tenkai v0.1.0 [62fd8b95] + TensorCore v0.1.1 [8290d209] + ThreadingUtilities v0.5.5 [a759f4b9] + TimerOutputs v0.5.29 [42b7b2d3] + TowerOfEnzyme v0.1.0 [e689c965] + Tracy v0.1.6 [3bb67fe8] + TranscodingStreams v0.11.3 [28d57a85] + Transducers v0.4.85 [f7e6ffb2] + Triangulate v3.0.1 [981d1d27] + TriplotBase v0.1.0 [808ab39a] + TriplotRecipes v0.1.2 [a7f1ee26] + Trixi v0.14.0 [9a0f1c46] + TrixiBase v0.1.8 [781d530d] + TruncatedStacktraces v1.4.0 [5c2747f8] + URIs v1.6.1 [3a884ed6] + UnPack v1.0.2 [1cfade01] + UnicodeFun v0.4.1 [9602ed7d] + Unrolled v0.1.5 [013be700] + UnsafeAtomics v0.3.0 [41fe7b60] + Unzip v0.2.0 [4004b06d] + VTKBase v1.0.1 [3d5dd08c] + VectorizationBase v0.21.72 [33b4df10] + VectorizedRNG v0.2.25 [3b853605] + VectorizedStatistics v0.5.11 [64499a7a] + WriteVTK v1.21.2 [6e34b625] + Bzip2_jll v1.0.9+0 [83423d85] + Cairo_jll v1.18.5+0 [ee1fde0b] + Dbus_jll v1.16.2+0 ⌅ [7cc45869] + Enzyme_jll v0.0.238+0 [2702e6a9] + EpollShim_jll v0.0.20230411+1 [2e619515] + Expat_jll v2.7.3+0 [b22a6f82] + FFMPEG_jll v8.0.1+0 [f5851436] + FFTW_jll v3.3.11+0 [a3f928ae] + Fontconfig_jll v2.17.1+0 [d7e528f0] + FreeType2_jll v2.13.4+0 [559328eb] + FriBidi_jll v1.0.17+0 [0656b61e] + GLFW_jll v3.4.1+0 [d2c73de3] + GR_jll v0.73.20+0 [b0724c58] + GettextRuntime_jll v0.22.4+0 [61579ee1] + Ghostscript_jll v9.55.1+0 [7746bdde] + Glib_jll v2.86.2+0 [3b182d85] + Graphite2_jll v1.3.15+0 ⌅ [0234f1f7] + HDF5_jll v1.14.6+0 [2e76f6c2] + HarfBuzz_jll v8.5.1+0 [e33a78d0] + Hwloc_jll v2.12.2+0 [1d5cc7b8] + IntelOpenMP_jll v2025.2.0+0 [aacddb02] + JpegTurbo_jll v3.1.4+0 [c1c5ebd0] + LAME_jll v3.100.3+0 [88015f11] + LERC_jll v4.0.1+0 [dad2f222] + LLVMExtra_jll v0.0.38+0 [1d63c593] + LLVMOpenMP_jll v18.1.8+0 [dd4b983a] + LZO_jll v2.10.3+0 [ad6e5548] + LibTracyClient_jll v0.13.1+0 ⌅ [e9f186c6] + Libffi_jll v3.4.7+0 [7e76a0d4] + Libglvnd_jll v1.7.1+1 [94ce4f54] + Libiconv_jll v1.18.0+0 [4b2f31a3] + Libmount_jll v2.41.2+0 [89763e89] + Libtiff_jll v4.7.2+0 [38a345b3] + Libuuid_jll v2.41.2+0 [856f044c] + MKL_jll v2025.2.0+0 [7cb0a576] + MPICH_jll v4.3.2+0 [f1f71cc9] + MPItrampoline_jll v5.5.4+0 [c8ffd9c3] + MbedTLS_jll v2.28.1010+0 [9237b28f] + MicrosoftMPI_jll v10.1.4+3 [e7412a2a] + Ogg_jll v1.3.6+0 [fe0851c0] + OpenMPI_jll v5.0.9+0 [efe28fd5] + OpenSpecFun_jll v0.5.6+0 [91d4177d] + Opus_jll v1.6.0+0 ⌅ [6b5a15aa] + P4est_jll v2.8.1+2 [36c8627f] + Pango_jll v1.57.0+0 ⌅ [30392449] + Pixman_jll v0.44.2+0 [c0090381] + Qt6Base_jll v6.8.2+2 [629bc702] + Qt6Declarative_jll v6.8.2+1 [ce943373] + Qt6ShaderTools_jll v6.8.2+1 [e99dba38] + Qt6Wayland_jll v6.8.2+2 [5639c1d2] + Triangle_jll v1.6.2+0 [a44049a8] + Vulkan_Loader_jll v1.3.243+0 [a2964d1f] + Wayland_jll v1.24.0+0 ⌅ [02c8fc9c] + XML2_jll v2.13.9+0 [ffd25f8a] + XZ_jll v5.8.2+0 [f67eecfb] + Xorg_libICE_jll v1.1.2+0 [c834827a] + Xorg_libSM_jll v1.2.6+0 [4f6342f7] + Xorg_libX11_jll v1.8.12+0 [0c0b7dd1] + Xorg_libXau_jll v1.0.13+0 [935fb764] + Xorg_libXcursor_jll v1.2.4+0 [a3789734] + Xorg_libXdmcp_jll v1.1.6+0 [1082639a] + Xorg_libXext_jll v1.3.7+0 [d091e8ba] + Xorg_libXfixes_jll v6.0.2+0 [a51aa0fd] + Xorg_libXi_jll v1.8.3+0 [d1454406] + Xorg_libXinerama_jll v1.1.6+0 [ec84b674] + Xorg_libXrandr_jll v1.5.5+0 [ea2f1a96] + Xorg_libXrender_jll v0.9.12+0 [a65dc6b1] + Xorg_libpciaccess_jll v0.18.1+0 [c7cfdc94] + Xorg_libxcb_jll v1.17.1+0 [cc61e674] + Xorg_libxkbfile_jll v1.1.3+0 [e920d4aa] + Xorg_xcb_util_cursor_jll v0.1.6+0 [12413925] + Xorg_xcb_util_image_jll v0.4.1+0 [2def613f] + Xorg_xcb_util_jll v0.4.1+0 [975044d2] + Xorg_xcb_util_keysyms_jll v0.4.1+0 [0d47668e] + Xorg_xcb_util_renderutil_jll v0.3.10+0 [c22f9ab0] + Xorg_xcb_util_wm_jll v0.4.2+0 [35661453] + Xorg_xkbcomp_jll v1.4.7+0 [33bec58e] + Xorg_xkeyboard_config_jll v2.44.0+0 [c5fb5394] + Xorg_xtrans_jll v1.6.0+0 [35ca27e7] + eudev_jll v3.2.14+0 [214eeab7] + fzf_jll v0.61.1+0 [477f73a3] + libaec_jll v1.1.4+0 [a4ae2306] + libaom_jll v3.13.1+0 [0ac62f75] + libass_jll v0.17.4+0 [1183f4f0] + libdecor_jll v0.2.2+0 [2db6ffa8] + libevdev_jll v1.13.4+0 [f638f0a6] + libfdk_aac_jll v2.0.4+0 [36db933b] + libinput_jll v1.28.1+0 [b53b4c65] + libpng_jll v1.6.54+0 [f27f6e37] + libvorbis_jll v1.3.8+0 [009596ad] + mtdev_jll v1.1.7+0 [1317d2d5] + oneTBB_jll v2022.0.0+1 ⌅ [4ee9bed8] + t8code_jll v3.0.1+0 ⌅ [1270edf5] + x264_jll v10164.0.1+0 [dfaa095f] + x265_jll v4.1.0+0 [d8fb68d0] + xkbcommon_jll v1.13.0+0 [0dad84c5] + ArgTools v1.1.2 [56f22d72] + Artifacts v1.11.0 [2a0f44e3] + Base64 v1.11.0 [ade2ca70] + Dates v1.11.0 [8ba89e20] + Distributed v1.11.0 [f43a241f] + Downloads v1.7.0 [7b1f6079] + FileWatching v1.11.0 [9fa8497b] + Future v1.11.0 [b77e0a4c] + InteractiveUtils v1.11.0 [ac6e5ff7] + JuliaSyntaxHighlighting v1.13.0 [4af54fe1] + LazyArtifacts v1.11.0 [b27032c2] + LibCURL v1.0.0 [76f85450] + LibGit2 v1.11.0 [8f399da3] + Libdl v1.11.0 [37e2e46d] + LinearAlgebra v1.13.0 [56ddb016] + Logging v1.11.0 [d6f4376e] + Markdown v1.11.0 [a63ad114] + Mmap v1.11.0 [ca575930] + NetworkOptions v1.3.0 [44cfe95a] + Pkg v1.14.0 [de0858da] + Printf v1.11.0 [3fa0cd96] + REPL v1.11.0 [9a3f8284] + Random v1.11.0 [ea8e919c] + SHA v1.0.0 [9e88b42a] + Serialization v1.11.0 [6462fe0b] + Sockets v1.11.0 [2f01184e] + SparseArrays v1.13.0 [f489334b] + StyledStrings v1.13.0 [fa267f1f] + TOML v1.0.3 [a4e569a6] + Tar v1.10.0 [8dfed614] + Test v1.11.0 [cf7118a7] + UUIDs v1.11.0 [4ec0a83e] + Unicode v1.11.0 [e66e0078] + CompilerSupportLibraries_jll v1.3.0+1 [deac9b47] + LibCURL_jll v8.18.0+0 [e37daf67] + LibGit2_jll v1.9.2+0 [29816b5a] + LibSSH2_jll v1.11.3+1 [14a3606d] + MozillaCACerts_jll v2025.12.2 [4536629a] + OpenBLAS_jll v0.3.29+0 [05823500] + OpenLibm_jll v0.8.7+0 [458c3c95] + OpenSSL_jll v3.5.4+0 [efcefdf7] + PCRE2_jll v10.47.0+0 [bea87d4a] + SuiteSparse_jll v7.10.1+0 [83775a58] + Zlib_jll v1.3.1+2 [3161d3a3] + Zstd_jll v1.5.7+1 [8e850b90] + libblastrampoline_jll v5.15.0+0 [8e850ede] + nghttp2_jll v1.68.0+1 [3f19e933] + p7zip_jll v17.7.0+0 Info Packages marked with ⌅ have new versions available but compatibility constraints restrict them from upgrading. To see why use `status --outdated -m` Installation completed after 15.12s ################################################################################ # Precompilation # Precompiling PkgEval dependencies... Precompiling package dependencies... Precompiling packages... ┌ Warning: Enzyme.jl support for Julia 1.12 is presently in progress. │ For the time being we recommend using 1.11 or LTS (1.10). │ │ For latest updates, check the status of support for Julia 1.12+ at │ https://github.com/EnzymeAD/Enzyme.jl/issues/2699. │ └ @ Enzyme ~/.julia/packages/Enzyme/2lHFw/src/Enzyme.jl:1580 28331.0 ms ✓ TowerOfEnzyme 75584.6 ms ✓ Trixi 26410.8 ms ✓ StartUpDG → TriangulatePlotsExt ┌ Warning: Enzyme.jl support for Julia 1.12 is presently in progress. │ For the time being we recommend using 1.11 or LTS (1.10). │ │ For latest updates, check the status of support for Julia 1.12+ at │ https://github.com/EnzymeAD/Enzyme.jl/issues/2699. │ └ @ Enzyme ~/.julia/packages/Enzyme/2lHFw/src/Enzyme.jl:1580 WARNING: import of Tenkai.get_blended_flux_x into TenkaicRK conflicts with an existing identifier; ignored. WARNING: import of Tenkai.get_blended_flux_y into TenkaicRK conflicts with an existing identifier; ignored. 140142.6 ms ✓ Tenkai 4 dependencies successfully precompiled in 276 seconds. 445 already precompiled. 2 dependencies had output during precompilation: ┌ Tenkai │ ┌ Warning: Enzyme.jl support for Julia 1.12 is presently in progress. │ │ For the time being we recommend using 1.11 or LTS (1.10). │ │ │ │ For latest updates, check the status of support for Julia 1.12+ at │ │ https://github.com/EnzymeAD/Enzyme.jl/issues/2699. │ │ │ └ @ Enzyme ~/.julia/packages/Enzyme/2lHFw/src/Enzyme.jl:1580 │ WARNING: import of Tenkai.get_blended_flux_x into TenkaicRK conflicts with an existing identifier; ignored. │ WARNING: import of Tenkai.get_blended_flux_y into TenkaicRK conflicts with an existing identifier; ignored. └ ┌ TowerOfEnzyme │ ┌ Warning: Enzyme.jl support for Julia 1.12 is presently in progress. │ │ For the time being we recommend using 1.11 or LTS (1.10). │ │ │ │ For latest updates, check the status of support for Julia 1.12+ at │ │ https://github.com/EnzymeAD/Enzyme.jl/issues/2699. │ │ │ └ @ Enzyme ~/.julia/packages/Enzyme/2lHFw/src/Enzyme.jl:1580 └ Precompilation completed after 302.04s ################################################################################ # Testing # Testing Tenkai Status `/tmp/jl_3FEc6A/Project.toml` [8bb1440f] DelimitedFiles v1.9.1 [f2b01f46] Roots v2.2.10 [90137ffa] StaticArrays v1.9.16 [a4f5eaf3] Tenkai v0.1.0 [9a0f1c46] TrixiBase v0.1.8 [37e2e46d] LinearAlgebra v1.13.0 [8dfed614] Test v1.11.0 Status `/tmp/jl_3FEc6A/Manifest.toml` [47edcb42] ADTypes v1.21.0 [621f4979] AbstractFFTs v1.5.0 [7d9f7c33] Accessors v0.1.43 [79e6a3ab] Adapt v4.4.0 [66dad0bd] AliasTables v1.1.3 [dce04be8] ArgCheck v2.5.0 [4fba245c] ArrayInterface v7.22.0 [a9b6321e] Atomix v1.1.2 [15f4f7f2] AutoHashEquals v2.2.0 [198e06fe] BangBang v0.4.6 [9718e550] Baselet v0.1.1 [d1d4a3ce] BitFlags v0.1.9 [62783981] BitTwiddlingConvenienceFunctions v0.1.6 [70df07ce] BracketingNonlinearSolve v1.6.2 [fa961155] CEnum v0.5.0 [2a0fbf3d] CPUSummary v0.2.7 [ab320bfc] CaratheodoryPruning v0.1.1 [3cb15238] ChangePrecision v1.1.1 [fb6a15b2] CloseOpenIntervals v0.1.13 [da1fd8a2] CodeTracking v3.0.0 [944b1d66] CodecZlib v0.7.8 [35d6a980] ColorSchemes v3.31.0 [3da002f7] ColorTypes v0.12.1 [c3611d14] ColorVectorSpace v0.11.0 [5ae59095] Colors v0.13.1 [38540f10] CommonSolve v0.2.6 [bbf7d656] CommonSubexpressions v0.3.1 [f70d9fcc] CommonWorldInvalidations v1.0.0 [34da2185] Compat v4.18.1 [a33af91c] CompositionsBase v0.1.2 [2569d6c7] ConcreteStructs v0.2.3 [f0e56b4a] ConcurrentUtilities v2.5.0 [187b0558] ConstructionBase v1.6.0 [6add18c4] ContextVariablesX v0.1.3 [d38c429a] Contour v0.6.3 [adafc99b] CpuId v0.3.1 [9a962f9c] DataAPI v1.16.0 [864edb3b] DataStructures v0.19.3 [e2d170a0] DataValueInterfaces v1.0.0 [244e2a9f] DefineSingletons v0.1.2 [8bb1440f] DelimitedFiles v1.9.1 [2b5f629d] DiffEqBase v6.199.0 [459566f4] DiffEqCallbacks v4.12.0 [163ba53b] DiffResults v1.1.0 [b552c78f] DiffRules v1.15.1 [a0c0ee7d] DifferentiationInterface v0.7.14 [ffbed154] DocStringExtensions v0.9.5 [fdbdab4c] ElasticArrays v1.2.12 [da5c29d0] EllipsisNotation v1.9.0 [4e289a0a] EnumX v1.0.5 [7da242da] Enzyme v0.13.118 [f151be2c] EnzymeCore v0.8.18 [460bff9d] ExceptionUnwrapping v0.1.11 [e2ba6199] ExprTools v0.1.10 [55351af7] ExproniconLite v0.10.14 [c87230d0] FFMPEG v0.4.5 [7a1cc6ca] FFTW v1.10.0 [cc61a311] FLoops v0.2.2 [b9860ae5] FLoopsBase v0.1.1 [7034ab61] FastBroadcast v0.3.5 [9aa1b823] FastClosures v0.3.2 [442a2c76] FastGaussQuadrature v1.1.0 [a4df4552] FastPower v1.3.0 [5789e2e9] FileIO v1.17.1 [1a297f60] FillArrays v1.16.0 [6a86dc24] FiniteDiff v2.29.0 [53c48c17] FixedPointNumbers v0.8.5 [1fa38f19] Format v1.3.7 [f6369f11] ForwardDiff v1.3.1 [069b7b12] FunctionWrappers v1.1.3 [77dc65aa] FunctionWrappersWrappers v0.1.3 [46192b85] GPUArraysCore v0.2.0 [61eb1bfa] GPUCompiler v1.8.1 [28b8d3ca] GR v0.73.20 [92fee26a] GZip v0.6.2 [d54b0c1a] GaussQuadrature v0.5.8 [42e2da0e] Grisu v1.0.2 [f67ccb44] HDF5 v0.17.2 [cd3eb016] HTTP v1.10.19 [3e5b6fbb] HostCPUFeatures v0.1.18 [615f187c] IfElse v0.1.1 [22cec73e] InitialValues v0.3.1 [3587e190] InverseFunctions v0.1.17 [92d709cd] IrrationalConstants v0.2.6 [c8e1da08] IterTools v1.10.0 [82899510] IteratorInterfaceExtensions v1.0.0 [1019f520] JLFzf v0.1.11 [692b3bcd] JLLWrappers v1.7.1 [682c06a0] JSON v1.4.0 [0f8b85d8] JSON3 v1.14.3 [ae98c720] Jieko v0.2.1 [b14d175d] JuliaVariables v0.2.4 [63c18a36] KernelAbstractions v0.9.39 [2c470bb0] Kronecker v0.5.5 [929cbde3] LLVM v9.4.4 [b964fa9f] LaTeXStrings v1.4.0 [23fbe1c1] Latexify v0.16.10 [10f19ff3] LayoutPointers v0.1.17 [9c8b4983] LightXML v0.9.3 [87fe0de2] LineSearch v0.1.6 [7a12625a] LinearMaps v3.11.4 [2ab3a3ac] LogExpFunctions v0.3.29 [e6f89c97] LoggingExtras v1.2.0 [bdcacae8] LoopVectorization v0.12.173 [d8e11817] MLStyle v0.4.17 [da04e1cc] MPI v0.20.23 [3da0fdf6] MPIPreferences v0.1.11 [1914dd2f] MacroTools v0.5.16 [d125e4d3] ManualMemory v0.1.8 [bb5d69b7] MaybeInplace v0.1.4 [739be429] MbedTLS v1.1.9 [442fdcdd] Measures v0.3.3 [128add7d] MicroCollections v0.2.0 [e1d29d7a] Missings v1.2.0 [2e0e35c7] Moshi v0.3.7 [46d2c3a1] MuladdMacro v0.2.4 [77ba4419] NaNMath v1.1.3 [71a1bf82] NameResolution v0.1.5 [356022a1] NamedDims v1.2.3 [7aca2e03] NodesAndModes v1.1.0 [be0214bd] NonlinearSolveBase v2.9.2 [d8793406] ObjectFile v0.5.0 [6fd5a793] Octavian v0.3.29 [6fe1bfb0] OffsetArrays v1.17.0 [4d8831e6] OpenSSL v1.6.1 [bac558e1] OrderedCollections v1.8.1 [bbf590c4] OrdinaryDiffEqCore v3.2.0 [669c94d9] OrdinaryDiffEqSSPRK v1.11.0 [b1df2697] OrdinaryDiffEqTsit5 v1.9.0 [7d669430] P4est v0.4.13 [69de0a69] Parsers v2.8.3 [4c1a95c7] PathIntersections v0.3.0 [eebad327] PkgVersion v0.3.3 [ccf2f8ad] PlotThemes v3.3.0 [995b91a9] PlotUtils v1.4.4 [91a5bcdd] Plots v1.41.4 [f517fe37] Polyester v0.7.18 [1d0040c9] PolyesterWeave v0.2.2 [c74db56a] PolynomialBases v0.4.25 [d236fae5] PreallocationTools v1.0.0 [aea7be01] PrecompileTools v1.3.3 [21216c6a] Preferences v1.5.1 [8162dcfd] PrettyPrint v0.2.0 [49802e3a] ProgressBars v1.5.1 [43287f4e] PtrArrays v1.3.0 [3cdcf5f2] RecipesBase v1.3.4 [01d81517] RecipesPipeline v0.6.12 [731186ca] RecursiveArrayTools v3.44.0 [189a3867] Reexport v1.2.2 [05181044] RelocatableFolders v1.0.1 [ae029012] Requires v1.3.1 [f2b01f46] Roots v2.2.10 [7e49a35a] RuntimeGeneratedFunctions v0.5.16 [94e857df] SIMDTypes v0.1.0 [476501e8] SLEEFPirates v0.6.43 [0bca4576] SciMLBase v2.134.0 [19f34311] SciMLJacobianOperators v0.1.12 [a6db7da4] SciMLLogging v1.8.0 [c0aeaf25] SciMLOperators v1.14.1 [431bcebd] SciMLPublic v1.0.1 [53ae85a6] SciMLStructures v1.10.0 [6c6a2e73] Scratch v1.3.0 [efcf1570] Setfield v1.1.2 [992d4aef] Showoff v1.0.3 [777ac1f9] SimpleBufferStream v1.2.0 [727e6d20] SimpleNonlinearSolve v2.10.0 [ce78b400] SimpleUnPack v1.1.0 [a2af1166] SortingAlgorithms v1.2.2 [276daf66] SpecialFunctions v2.6.1 [171d559e] SplittablesBase v0.1.15 [860ef19b] StableRNGs v1.0.4 [472ebc20] StartUpDG v1.3.3 [aedffcd0] Static v1.3.1 [0d7ed370] StaticArrayInterface v1.8.0 [90137ffa] StaticArrays v1.9.16 [1e83bf80] StaticArraysCore v1.4.4 [10745b16] Statistics v1.11.1 [82ae8749] StatsAPI v1.8.0 [2913bbd2] StatsBase v0.34.10 [d1fa6d79] StrideArrays v0.1.29 [7792a7ef] StrideArraysCore v0.5.8 [09ab397b] StructArrays v0.7.2 [53d494c1] StructIO v0.3.1 [856f2bd8] StructTypes v1.11.0 [ec057cc2] StructUtils v2.6.2 [9f78cca6] SummationByPartsOperators v0.5.89 [2efcf032] SymbolicIndexingInterface v0.3.46 [d0cc0030] T8code v0.7.4 [3783bdb8] TableTraits v1.0.1 [bd369af6] Tables v1.12.1 [a4f5eaf3] Tenkai v0.1.0 [62fd8b95] TensorCore v0.1.1 [8290d209] ThreadingUtilities v0.5.5 [a759f4b9] TimerOutputs v0.5.29 [42b7b2d3] TowerOfEnzyme v0.1.0 [e689c965] Tracy v0.1.6 [3bb67fe8] TranscodingStreams v0.11.3 [28d57a85] Transducers v0.4.85 [f7e6ffb2] Triangulate v3.0.1 [981d1d27] TriplotBase v0.1.0 [808ab39a] TriplotRecipes v0.1.2 [a7f1ee26] Trixi v0.14.0 [9a0f1c46] TrixiBase v0.1.8 [781d530d] TruncatedStacktraces v1.4.0 [5c2747f8] URIs v1.6.1 [3a884ed6] UnPack v1.0.2 [1cfade01] UnicodeFun v0.4.1 [9602ed7d] Unrolled v0.1.5 [013be700] UnsafeAtomics v0.3.0 [41fe7b60] Unzip v0.2.0 [4004b06d] VTKBase v1.0.1 [3d5dd08c] VectorizationBase v0.21.72 [33b4df10] VectorizedRNG v0.2.25 [3b853605] VectorizedStatistics v0.5.11 [64499a7a] WriteVTK v1.21.2 [6e34b625] Bzip2_jll v1.0.9+0 [83423d85] Cairo_jll v1.18.5+0 [ee1fde0b] Dbus_jll v1.16.2+0 ⌅ [7cc45869] Enzyme_jll v0.0.238+0 [2702e6a9] EpollShim_jll v0.0.20230411+1 [2e619515] Expat_jll v2.7.3+0 [b22a6f82] FFMPEG_jll v8.0.1+0 [f5851436] FFTW_jll v3.3.11+0 [a3f928ae] Fontconfig_jll v2.17.1+0 [d7e528f0] FreeType2_jll v2.13.4+0 [559328eb] FriBidi_jll v1.0.17+0 [0656b61e] GLFW_jll v3.4.1+0 [d2c73de3] GR_jll v0.73.20+0 [b0724c58] GettextRuntime_jll v0.22.4+0 [61579ee1] Ghostscript_jll v9.55.1+0 [7746bdde] Glib_jll v2.86.2+0 [3b182d85] Graphite2_jll v1.3.15+0 ⌅ [0234f1f7] HDF5_jll v1.14.6+0 [2e76f6c2] HarfBuzz_jll v8.5.1+0 [e33a78d0] Hwloc_jll v2.12.2+0 [1d5cc7b8] IntelOpenMP_jll v2025.2.0+0 [aacddb02] JpegTurbo_jll v3.1.4+0 [c1c5ebd0] LAME_jll v3.100.3+0 [88015f11] LERC_jll v4.0.1+0 [dad2f222] LLVMExtra_jll v0.0.38+0 [1d63c593] LLVMOpenMP_jll v18.1.8+0 [dd4b983a] LZO_jll v2.10.3+0 [ad6e5548] LibTracyClient_jll v0.13.1+0 ⌅ [e9f186c6] Libffi_jll v3.4.7+0 [7e76a0d4] Libglvnd_jll v1.7.1+1 [94ce4f54] Libiconv_jll v1.18.0+0 [4b2f31a3] Libmount_jll v2.41.2+0 [89763e89] Libtiff_jll v4.7.2+0 [38a345b3] Libuuid_jll v2.41.2+0 [856f044c] MKL_jll v2025.2.0+0 [7cb0a576] MPICH_jll v4.3.2+0 [f1f71cc9] MPItrampoline_jll v5.5.4+0 [c8ffd9c3] MbedTLS_jll v2.28.1010+0 [9237b28f] MicrosoftMPI_jll v10.1.4+3 [e7412a2a] Ogg_jll v1.3.6+0 [fe0851c0] OpenMPI_jll v5.0.9+0 [efe28fd5] OpenSpecFun_jll v0.5.6+0 [91d4177d] Opus_jll v1.6.0+0 ⌅ [6b5a15aa] P4est_jll v2.8.1+2 [36c8627f] Pango_jll v1.57.0+0 ⌅ [30392449] Pixman_jll v0.44.2+0 [c0090381] Qt6Base_jll v6.8.2+2 [629bc702] Qt6Declarative_jll v6.8.2+1 [ce943373] Qt6ShaderTools_jll v6.8.2+1 [e99dba38] Qt6Wayland_jll v6.8.2+2 [5639c1d2] Triangle_jll v1.6.2+0 [a44049a8] Vulkan_Loader_jll v1.3.243+0 [a2964d1f] Wayland_jll v1.24.0+0 ⌅ [02c8fc9c] XML2_jll v2.13.9+0 [ffd25f8a] XZ_jll v5.8.2+0 [f67eecfb] Xorg_libICE_jll v1.1.2+0 [c834827a] Xorg_libSM_jll v1.2.6+0 [4f6342f7] Xorg_libX11_jll v1.8.12+0 [0c0b7dd1] Xorg_libXau_jll v1.0.13+0 [935fb764] Xorg_libXcursor_jll v1.2.4+0 [a3789734] Xorg_libXdmcp_jll v1.1.6+0 [1082639a] Xorg_libXext_jll v1.3.7+0 [d091e8ba] Xorg_libXfixes_jll v6.0.2+0 [a51aa0fd] Xorg_libXi_jll v1.8.3+0 [d1454406] Xorg_libXinerama_jll v1.1.6+0 [ec84b674] Xorg_libXrandr_jll v1.5.5+0 [ea2f1a96] Xorg_libXrender_jll v0.9.12+0 [a65dc6b1] Xorg_libpciaccess_jll v0.18.1+0 [c7cfdc94] Xorg_libxcb_jll v1.17.1+0 [cc61e674] Xorg_libxkbfile_jll v1.1.3+0 [e920d4aa] Xorg_xcb_util_cursor_jll v0.1.6+0 [12413925] Xorg_xcb_util_image_jll v0.4.1+0 [2def613f] Xorg_xcb_util_jll v0.4.1+0 [975044d2] Xorg_xcb_util_keysyms_jll v0.4.1+0 [0d47668e] Xorg_xcb_util_renderutil_jll v0.3.10+0 [c22f9ab0] Xorg_xcb_util_wm_jll v0.4.2+0 [35661453] Xorg_xkbcomp_jll v1.4.7+0 [33bec58e] Xorg_xkeyboard_config_jll v2.44.0+0 [c5fb5394] Xorg_xtrans_jll v1.6.0+0 [35ca27e7] eudev_jll v3.2.14+0 [214eeab7] fzf_jll v0.61.1+0 [477f73a3] libaec_jll v1.1.4+0 [a4ae2306] libaom_jll v3.13.1+0 [0ac62f75] libass_jll v0.17.4+0 [1183f4f0] libdecor_jll v0.2.2+0 [2db6ffa8] libevdev_jll v1.13.4+0 [f638f0a6] libfdk_aac_jll v2.0.4+0 [36db933b] libinput_jll v1.28.1+0 [b53b4c65] libpng_jll v1.6.54+0 [f27f6e37] libvorbis_jll v1.3.8+0 [009596ad] mtdev_jll v1.1.7+0 [1317d2d5] oneTBB_jll v2022.0.0+1 ⌅ [4ee9bed8] t8code_jll v3.0.1+0 ⌅ [1270edf5] x264_jll v10164.0.1+0 [dfaa095f] x265_jll v4.1.0+0 [d8fb68d0] xkbcommon_jll v1.13.0+0 [0dad84c5] ArgTools v1.1.2 [56f22d72] Artifacts v1.11.0 [2a0f44e3] Base64 v1.11.0 [ade2ca70] Dates v1.11.0 [8ba89e20] Distributed v1.11.0 [f43a241f] Downloads v1.7.0 [7b1f6079] FileWatching v1.11.0 [9fa8497b] Future v1.11.0 [b77e0a4c] InteractiveUtils v1.11.0 [ac6e5ff7] JuliaSyntaxHighlighting v1.13.0 [4af54fe1] LazyArtifacts v1.11.0 [b27032c2] LibCURL v1.0.0 [76f85450] LibGit2 v1.11.0 [8f399da3] Libdl v1.11.0 [37e2e46d] LinearAlgebra v1.13.0 [56ddb016] Logging v1.11.0 [d6f4376e] Markdown v1.11.0 [a63ad114] Mmap v1.11.0 [ca575930] NetworkOptions v1.3.0 [44cfe95a] Pkg v1.14.0 [de0858da] Printf v1.11.0 [3fa0cd96] REPL v1.11.0 [9a3f8284] Random v1.11.0 [ea8e919c] SHA v1.0.0 [9e88b42a] Serialization v1.11.0 [6462fe0b] Sockets v1.11.0 [2f01184e] SparseArrays v1.13.0 [f489334b] StyledStrings v1.13.0 [fa267f1f] TOML v1.0.3 [a4e569a6] Tar v1.10.0 [8dfed614] Test v1.11.0 [cf7118a7] UUIDs v1.11.0 [4ec0a83e] Unicode v1.11.0 [e66e0078] CompilerSupportLibraries_jll v1.3.0+1 [deac9b47] LibCURL_jll v8.18.0+0 [e37daf67] LibGit2_jll v1.9.2+0 [29816b5a] LibSSH2_jll v1.11.3+1 [14a3606d] MozillaCACerts_jll v2025.12.2 [4536629a] OpenBLAS_jll v0.3.29+0 [05823500] OpenLibm_jll v0.8.7+0 [458c3c95] OpenSSL_jll v3.5.4+0 [efcefdf7] PCRE2_jll v10.47.0+0 [bea87d4a] SuiteSparse_jll v7.10.1+0 [83775a58] Zlib_jll v1.3.1+2 [3161d3a3] Zstd_jll v1.5.7+1 [8e850b90] libblastrampoline_jll v5.15.0+0 [8e850ede] nghttp2_jll v1.68.0+1 [3f19e933] p7zip_jll v17.7.0+0 Info Packages marked with ⌅ have new versions available but compatibility constraints restrict them from upgrading. Testing Running tests... Running tests for TENKAI_TEST = all [ Info: You just called `trixi_include`. Julia may now compile the code, please be patient. Making 1D uniform Cartesian grid Grid size = 5 xmin,xmax = -1.000000e+00, 1.000000e+00 dx = 4.000000e-01 Setting up differentiation operators Degree = 3 Sol points = gl Cor fun = radau ┌ Warning: Keyword argument markerstrokestyle not supported with Plots.GRBackend(). Choose from: annotationcolor, annotationfontfamily, annotationfontsize, annotationhalign, annotationrotation, annotations, annotationvalign, arrow, aspect_ratio, axis, background_color, background_color_inside, background_color_outside, background_color_subplot, bar_width, bins, bottom_margin, camera, clims, color_palette, colorbar, colorbar_entry, colorbar_scale, colorbar_title, colorbar_titlefont, colorbar_titlefontcolor, colorbar_titlefontrotation, colorbar_titlefontsize, connections, contour_labels, discrete_values, fill, fill_z, fillalpha, fillcolor, fillrange, fillstyle, flip, fontfamily, fontfamily_subplot, foreground_color, foreground_color_axis, foreground_color_border, foreground_color_grid, foreground_color_subplot, foreground_color_text, formatter, framestyle, grid, gridalpha, gridlinewidth, gridstyle, group, guide, guidefont, guidefontcolor, guidefontfamily, guidefonthalign, guidefontrotation, guidefontsize, guidefontvalign, html_output_format, inset_subplots, label, layout, left_margin, legend_background_color, legend_column, legend_font, legend_font_color, legend_font_family, legend_font_halign, legend_font_pointsize, legend_font_rotation, legend_font_valign, legend_foreground_color, legend_position, legend_title, legend_title_font_color, legend_title_font_family, legend_title_font_pointsize, legend_title_font_rotation, legend_title_font_valigm, levels, lims, line, line_z, linealpha, linecolor, linestyle, linewidth, link, margin, marker_z, markeralpha, markercolor, markershape, markersize, markerstrokealpha, markerstrokecolor, markerstrokewidth, minorgrid, minorgridalpha, minorgridlinewidth, minorgridstyle, minorticks, mirror, normalize, orientation, overwrite_figure, permute, plot_title, plot_titlefontcolor, plot_titlefontfamily, plot_titlefontrotation, plot_titlefontsize, plot_titlelocation, plot_titlevspan, polar, primary, projection, quiver, ribbon, right_margin, rotation, scale, series_annotations, seriesalpha, seriescolor, seriestype, show, show_empty_bins, showaxis, size, smooth, subplot, subplot_index, thickness_scaling, tick_direction, tickfontcolor, tickfontfamily, tickfonthalign, tickfontrotation, tickfontsize, tickfontvalign, ticks, title, titlefontcolor, titlefontfamily, titlefonthalign, titlefontrotation, titlefontsize, titlefontvalign, top_margin, unitformat, weights, widen, window_title, x, xdiscrete_values, xerror, xflip, xforeground_color_axis, xforeground_color_border, xforeground_color_grid, xforeground_color_text, xformatter, xgrid, xgridalpha, xgridlinewidth, xgridstyle, xguide, xguidefontcolor, xguidefontfamily, xguidefonthalign, xguidefontrotation, xguidefontsize, xguidefontvalign, xlims, xlink, xminorgrid, xminorgridalpha, xminorgridlinewidth, xminorgridstyle, xminorticks, xmirror, xrotation, xscale, xshowaxis, xtick_direction, xtickfontcolor, xtickfontfamily, xtickfonthalign, xtickfontrotation, xtickfontsize, xtickfontvalign, xticks, xunitformat, xwiden, y, ydiscrete_values, yerror, yflip, yforeground_color_axis, yforeground_color_border, yforeground_color_grid, yforeground_color_text, yformatter, ygrid, ygridalpha, ygridlinewidth, ygridstyle, yguide, yguidefontcolor, yguidefontfamily, yguidefonthalign, yguidefontrotation, yguidefontsize, yguidefontvalign, ylims, ylink, yminorgrid, yminorgridalpha, yminorgridlinewidth, yminorgridstyle, yminorticks, ymirror, yrotation, yscale, yshowaxis, ytick_direction, ytickfontcolor, ytickfontfamily, ytickfonthalign, ytickfontrotation, ytickfontsize, ytickfontvalign, yticks, yunitformat, ywiden, z, z_order, zdiscrete_values, zerror, zflip, zforeground_color_axis, zforeground_color_border, zforeground_color_grid, zforeground_color_text, zformatter, zgrid, zgridalpha, zgridlinewidth, zgridstyle, zguide, zguidefontcolor, zguidefontfamily, zguidefonthalign, zguidefontrotation, zguidefontsize, zguidefontvalign, zlims, zlink, zminorgrid, zminorgridalpha, zminorgridlinewidth, zminorgridstyle, zminorticks, zmirror, zrotation, zscale, zshowaxis, ztick_direction, ztickfontcolor, ztickfontfamily, ztickfonthalign, ztickfontrotation, ztickfontsize, ztickfontvalign, zticks, zunitformat, zwiden └ @ Plots ~/.julia/packages/Plots/xC48f/src/args.jl:1563 Number of julia threads = 1 Solving 1d Burger's equation using LWFR Setting initial condition Wrote output/avg000.txt output/sol000.txt. Using LW-D2 CFL with LW-D2 CFL: based on stability = 0.100940 Starting time stepping iter,dt,t = 1 1.0000e-02 1.0000e-02 Wrote output/avg001.txt output/sol001.txt. Wrote final solution to avg.txt, sol.txt. Post processing solution Wrote avg, sol in gif,html,png format to output directory. ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 64.8s / 56.3% 1.14GiB / 59.0% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Write solution 4 36.4s 99.8% 9.11s 689MiB 100.0% 172MiB Cell averaging 2 2.38μs 0.0% 1.19μs 0.00B 0.0% 0.00B Limiter 3 8.71μs 0.0% 2.90μs 672B 0.0% 224B Pre process limiter 1 540ns 0.0% 540ns 0.00B 0.0% 0.00B Error computation 2 81.1ms 0.2% 40.6ms 150KiB 0.0% 74.8KiB Time step computation 2 860ns 0.0% 430ns 0.00B 0.0% 0.00B Cell Residual 1 23.6μs 0.0% 23.6μs 320B 0.0% 320B Update ghost values 1 2.23μs 0.0% 2.23μs 768B 0.0% 768B Face residual 1 2.06μs 0.0% 2.06μs 0.00B 0.0% 0.00B Update solution 1 430ns 0.0% 430ns 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 64.8s / 56.3% 1.14GiB / 59.0% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Write solution 4 36.4s 99.8% 9.11s 689MiB 100.0% 172MiB Error computation 2 81.1ms 0.2% 40.6ms 150KiB 0.0% 74.8KiB Cell Residual 1 23.6μs 0.0% 23.6μs 320B 0.0% 320B Limiter 3 8.71μs 0.0% 2.90μs 672B 0.0% 224B Pre process limiter 1 540ns 0.0% 540ns 0.00B 0.0% 0.00B Cell averaging 2 2.38μs 0.0% 1.19μs 0.00B 0.0% 0.00B Update ghost values 1 2.23μs 0.0% 2.23μs 768B 0.0% 768B Face residual 1 2.06μs 0.0% 2.06μs 0.00B 0.0% 0.00B Time step computation 2 860ns 0.0% 430ns 0.00B 0.0% 0.00B Update solution 1 430ns 0.0% 430ns 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── Dict("l2_error" => 0.005717202714983491, "linf_error" => 0.02293216454477609, "energy" => 0.49994713300007104, "l1_error" => 0.004428591036837047) Test Summary: | Pass Total Time Burgers' equation 1D | 3 3 3m22.9s [ Info: You just called `trixi_include`. Julia may now compile the code, please be patient. Making 1D uniform Cartesian grid Grid size = 5 xmin,xmax = 0.000000e+00, 1.000000e+00 dx = 2.000000e-01 Setting up differentiation operators Degree = 4 Sol points = gl Cor fun = radau Setting up blending limiter... QPaintDevice: Cannot destroy paint device that is being painted Segmentation fault (core dumped) Number of julia threads = 1 Solving 1d Euler Equations using LWFR Setting initial condition Wrote output/sol000.txt, output/avg000.txt Using LW-D2 CFL with LW-D2 CFL: based on stability = 0.065550 Starting time stepping iter,dt,t = 1 4.3721e-04 4.3721e-04 iter,dt,t = 2 4.3552e-04 8.7273e-04 iter,dt,t = 3 4.2768e-04 1.3004e-03 iter,dt,t = 4 4.1773e-04 1.7181e-03 iter,dt,t = 5 4.0837e-04 2.1265e-03 iter,dt,t = 6 4.0095e-04 2.5275e-03 iter,dt,t = 7 3.9686e-04 2.9243e-03 iter,dt,t = 8 3.9471e-04 3.3190e-03 iter,dt,t = 9 3.9656e-04 3.7156e-03 iter,dt,t = 10 3.9625e-04 4.1118e-03 iter,dt,t = 11 4.0761e-04 4.5194e-03 iter,dt,t = 12 4.2144e-04 4.9409e-03 iter,dt,t = 13 4.3665e-04 5.3775e-03 iter,dt,t = 14 4.5182e-04 5.8294e-03 iter,dt,t = 15 4.6392e-04 6.2933e-03 iter,dt,t = 16 4.7982e-04 6.7731e-03 iter,dt,t = 17 4.9260e-04 7.2657e-03 iter,dt,t = 18 5.0281e-04 7.7685e-03 iter,dt,t = 19 5.1390e-04 8.2824e-03 iter,dt,t = 20 5.1741e-04 8.7998e-03 iter,dt,t = 21 5.2741e-04 9.3272e-03 iter,dt,t = 22 5.2568e-04 9.8529e-03 iter,dt,t = 23 1.4712e-04 1.0000e-02 Wrote output/sol001.txt, output/avg001.txt Wrote final solution to avg.txt, sol.txt. Post processing solution Segmentation fault (core dumped) Wrote avg, sol in gif,html,png format to output directory. ──────────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 265s / 3.2% 1.87GiB / 11.5% Section ncalls time %tot avg alloc %tot avg ──────────────────────────────────────────────────────────────────────────────────────── Write solution 4 8.52s 99.0% 2.13s 221MiB 99.8% 55.3MiB Initialize write solution 1 3.46s 40.2% 3.46s 55.9MiB 25.2% 55.9MiB Cell averaging 24 21.1μs 0.0% 877ns 0.00B 0.0% 0.00B Limiter 47 969μs 0.0% 20.6μs 196KiB 0.1% 4.18KiB Positivity limiter 24 133μs 0.0% 5.56μs 0.00B 0.0% 0.00B Pre process limiter 23 801μs 0.0% 34.8μs 195KiB 0.1% 8.50KiB Blending limiter 23 724μs 0.0% 31.5μs 173KiB 0.1% 7.53KiB Error computation 2 84.6ms 1.0% 42.3ms 152KiB 0.1% 76.1KiB Time step computation 23 1.55μs 0.0% 67.4ns 0.00B 0.0% 0.00B Cell Residual 23 704μs 0.0% 30.6μs 39.8KiB 0.0% 1.73KiB Blending limiter 115 360μs 0.0% 3.13μs 39.2KiB 0.0% 349B Update ghost values 23 31.1μs 0.0% 1.35μs 3.59KiB 0.0% 160B Face residual 23 234μs 0.0% 10.2μs 672B 0.0% 29.2B Blending limiter 138 142μs 0.0% 1.03μs 0.00B 0.0% 0.00B Update solution 23 14.8μs 0.0% 643ns 0.00B 0.0% 0.00B ──────────────────────────────────────────────────────────────────────────────────────── ──────────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 265s / 3.2% 1.87GiB / 11.5% Section ncalls time %tot avg alloc %tot avg ──────────────────────────────────────────────────────────────────────────────────────── Write solution 4 8.52s 99.0% 2.13s 221MiB 99.8% 55.3MiB Initialize write solution 1 3.46s 40.2% 3.46s 55.9MiB 25.2% 55.9MiB Error computation 2 84.6ms 1.0% 42.3ms 152KiB 0.1% 76.1KiB Limiter 47 969μs 0.0% 20.6μs 196KiB 0.1% 4.18KiB Pre process limiter 23 801μs 0.0% 34.8μs 195KiB 0.1% 8.50KiB Blending limiter 23 724μs 0.0% 31.5μs 173KiB 0.1% 7.53KiB Positivity limiter 24 133μs 0.0% 5.56μs 0.00B 0.0% 0.00B Cell Residual 23 704μs 0.0% 30.6μs 39.8KiB 0.0% 1.73KiB Blending limiter 115 360μs 0.0% 3.13μs 39.2KiB 0.0% 349B Face residual 23 234μs 0.0% 10.2μs 672B 0.0% 29.2B Blending limiter 138 142μs 0.0% 1.03μs 0.00B 0.0% 0.00B Update ghost values 23 31.1μs 0.0% 1.35μs 3.59KiB 0.0% 160B Cell averaging 24 21.1μs 0.0% 877ns 0.00B 0.0% 0.00B Update solution 23 14.8μs 0.0% 643ns 0.00B 0.0% 0.00B Time step computation 23 1.55μs 0.0% 67.4ns 0.00B 0.0% 0.00B ──────────────────────────────────────────────────────────────────────────────────────── Time outside write_soln = 0.086608375s ───────────────────────────────────────────────────────────────────────────────────────── Test Summary: | Pass Total Time Blast 1-D | 3 3 4m40.6s [ Info: You just called `trixi_include`. Julia may now compile the code, please be patient. Making 1D uniform Cartesian grid Grid size = 5 xmin,xmax = -1.000000e+00, 1.000000e+00 dx = 4.000000e-01 Setting up differentiation operators Degree = 3 Sol points = gl Cor fun = radau Number of julia threads = 1 Solving Buckley-Leverett equation using LWFR Setting initial condition Wrote output/avg000.txt output/sol000.txt. CFL: specified value = 0.079000 Starting time stepping iter,dt,t = 1 1.0000e-02 1.0000e-02 Wrote output/avg001.txt output/sol001.txt. Wrote final solution to avg.txt, sol.txt. Post processing solution Segmentation fault (core dumped) Wrote avg, sol in gif,html,png format to output directory. ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 20.9s / 3.2% 556MiB / 0.7% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Write solution 4 613ms 92.1% 153ms 3.43MiB 83.1% 878KiB Cell averaging 2 4.47μs 0.0% 2.23μs 0.00B 0.0% 0.00B Limiter 3 60.7μs 0.0% 20.2μs 3.16KiB 0.1% 1.05KiB TVB limiter 2 3.40μs 0.0% 1.70μs 0.00B 0.0% 0.00B Bounds limiter 2 42.5μs 0.0% 21.2μs 1.31KiB 0.0% 672B Pre process limiter 1 3.44μs 0.0% 3.44μs 608B 0.0% 608B Error computation 2 273μs 0.0% 136μs 19.2KiB 0.5% 9.59KiB Time step computation 2 52.2ms 7.8% 26.1ms 692KiB 16.4% 346KiB Cell Residual 1 22.0μs 0.0% 22.0μs 992B 0.0% 992B Blending limiter 5 2.30μs 0.0% 460ns 0.00B 0.0% 0.00B Update ghost values 1 14.6μs 0.0% 14.6μs 768B 0.0% 768B Face residual 1 4.07μs 0.0% 4.07μs 0.00B 0.0% 0.00B Update solution 1 10.0μs 0.0% 10.0μs 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 20.9s / 3.2% 556MiB / 0.7% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Write solution 4 613ms 92.1% 153ms 3.43MiB 83.1% 878KiB Time step computation 2 52.2ms 7.8% 26.1ms 692KiB 16.4% 346KiB Error computation 2 273μs 0.0% 136μs 19.2KiB 0.5% 9.59KiB Limiter 3 60.7μs 0.0% 20.2μs 3.16KiB 0.1% 1.05KiB Bounds limiter 2 42.5μs 0.0% 21.2μs 1.31KiB 0.0% 672B Pre process limiter 1 3.44μs 0.0% 3.44μs 608B 0.0% 608B TVB limiter 2 3.40μs 0.0% 1.70μs 0.00B 0.0% 0.00B Cell Residual 1 22.0μs 0.0% 22.0μs 992B 0.0% 992B Blending limiter 5 2.30μs 0.0% 460ns 0.00B 0.0% 0.00B Update ghost values 1 14.6μs 0.0% 14.6μs 768B 0.0% 768B Update solution 1 10.0μs 0.0% 10.0μs 0.00B 0.0% 0.00B Cell averaging 2 4.47μs 0.0% 2.23μs 0.00B 0.0% 0.00B Face residual 1 4.07μs 0.0% 4.07μs 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── Test Summary: | Pass Total Time Bucklev | 3 3 25.9s [ Info: You just called `trixi_include`. Julia may now compile the code, please be patient. Making 1D uniform Cartesian grid Grid size = 5 xmin,xmax = -2.000000e+00, 2.000000e+00 dx = 8.000000e-01 Setting up differentiation operators Degree = 4 Sol points = gll Cor fun = radau Number of julia threads = 1 Solving 1d Burger's equation using LWFR Setting initial condition Wrote output/avg000.txt output/sol000.txt. Using LW-D2 CFL with LW-D2 CFL: based on stability = 0.067620 Starting time stepping iter,dt,t = 1 1.0000e-02 1.0000e-02 Wrote output/avg001.txt output/sol001.txt. Wrote final solution to avg.txt, sol.txt. Post processing solution Segmentation fault (core dumped) Wrote avg, sol in gif,html,png format to output directory. ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 25.9s / 8.8% 321MiB / 11.7% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Write solution 4 2.27s 100.0% 567ms 37.6MiB 99.9% 9.39MiB Cell averaging 2 1.89μs 0.0% 945ns 0.00B 0.0% 0.00B Limiter 3 11.4μs 0.0% 3.79μs 976B 0.0% 325B TVB limiter 2 3.95μs 0.0% 1.98μs 0.00B 0.0% 0.00B Pre process limiter 1 1.78μs 0.0% 1.78μs 0.00B 0.0% 0.00B Error computation 2 209μs 0.0% 105μs 20.0KiB 0.1% 10.0KiB Time step computation 2 730ns 0.0% 365ns 0.00B 0.0% 0.00B Cell Residual 1 13.5μs 0.0% 13.5μs 672B 0.0% 672B Blending limiter 5 1.74μs 0.0% 348ns 0.00B 0.0% 0.00B Update ghost values 1 1.81μs 0.0% 1.81μs 96.0B 0.0% 96.0B Face residual 1 3.19μs 0.0% 3.19μs 0.00B 0.0% 0.00B Update solution 1 590ns 0.0% 590ns 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 25.9s / 8.8% 321MiB / 11.7% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Write solution 4 2.27s 100.0% 567ms 37.6MiB 99.9% 9.39MiB Error computation 2 209μs 0.0% 105μs 20.0KiB 0.1% 10.0KiB Cell Residual 1 13.5μs 0.0% 13.5μs 672B 0.0% 672B Blending limiter 5 1.74μs 0.0% 348ns 0.00B 0.0% 0.00B Limiter 3 11.4μs 0.0% 3.79μs 976B 0.0% 325B TVB limiter 2 3.95μs 0.0% 1.98μs 0.00B 0.0% 0.00B Pre process limiter 1 1.78μs 0.0% 1.78μs 0.00B 0.0% 0.00B Face residual 1 3.19μs 0.0% 3.19μs 0.00B 0.0% 0.00B Cell averaging 2 1.89μs 0.0% 945ns 0.00B 0.0% 0.00B Update ghost values 1 1.81μs 0.0% 1.81μs 96.0B 0.0% 96.0B Time step computation 2 730ns 0.0% 365ns 0.00B 0.0% 0.00B Update solution 1 590ns 0.0% 590ns 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── Dict("l2_error" => 0.2652013018255959, "linf_error" => 0.9076756794106442, "energy" => 0.021296315773875984, "l1_error" => 0.12347985916055937) Test Summary: | Pass Total Time Burg 1D hat | 3 3 29.6s [ Info: You just called `trixi_include`. Julia may now compile the code, please be patient. Making 1D uniform Cartesian grid Grid size = 5 xmin,xmax = 0.000000e+00, 1.000000e+00 dx = 2.000000e-01 Setting up differentiation operators Degree = 3 Sol points = gl Cor fun = radau Number of julia threads = 1 About to use a solver written by user... Solving Ideal GLM MHD 1D using a cRK scheme Setting initial condition Wrote output/sol000.txt, output/avg000.txt CFL: based on stability = 0.097850 Starting time stepping iter,dt,t = 1 1.0000e-02 1.0000e-02 Wrote output/sol001.txt, output/avg001.txt Wrote final solution to avg.txt, sol.txt. Post processing solution Segmentation fault (core dumped) Wrote avg, sol in gif,html,png format to output directory. ──────────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 56.9s / 8.6% 578MiB / 9.5% Section ncalls time %tot avg alloc %tot avg ──────────────────────────────────────────────────────────────────────────────────────── Write solution 4 3.21s 65.5% 803ms 54.0MiB 98.8% 13.5MiB Initialize write solution 1 426ms 8.7% 426ms 9.40MiB 17.2% 9.40MiB Cell averaging 2 6.51μs 0.0% 3.25μs 0.00B 0.0% 0.00B Limiter 3 30.3μs 0.0% 10.1μs 672B 0.0% 224B Pre process limiter 1 540ns 0.0% 540ns 0.00B 0.0% 0.00B Error computation 2 299μs 0.0% 149μs 19.2KiB 0.0% 9.59KiB Time step computation 1 60.0ns 0.0% 60.0ns 0.00B 0.0% 0.00B Update ghost values 2 15.2μs 0.0% 7.60μs 8.19KiB 0.0% 4.09KiB Face residual 1 1.69s 34.5% 1.69s 658KiB 1.2% 658KiB Update solution 1 13.5μs 0.0% 13.5μs 672B 0.0% 672B Update solution 1 6.16μs 0.0% 6.16μs 0.00B 0.0% 0.00B ──────────────────────────────────────────────────────────────────────────────────────── ──────────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 57.0s / 8.6% 578MiB / 9.5% Section ncalls time %tot avg alloc %tot avg ──────────────────────────────────────────────────────────────────────────────────────── Write solution 4 3.21s 65.5% 803ms 54.0MiB 98.8% 13.5MiB Initialize write solution 1 426ms 8.7% 426ms 9.40MiB 17.2% 9.40MiB Face residual 1 1.69s 34.5% 1.69s 658KiB 1.2% 658KiB Error computation 2 299μs 0.0% 149μs 19.2KiB 0.0% 9.59KiB Limiter 3 30.3μs 0.0% 10.1μs 672B 0.0% 224B Pre process limiter 1 540ns 0.0% 540ns 0.00B 0.0% 0.00B Update ghost values 2 15.2μs 0.0% 7.60μs 8.19KiB 0.0% 4.09KiB Update solution 1 13.5μs 0.0% 13.5μs 672B 0.0% 672B Update solution 1 6.16μs 0.0% 6.16μs 0.00B 0.0% 0.00B Cell averaging 2 6.51μs 0.0% 3.25μs 0.00B 0.0% 0.00B Time step computation 1 60.0ns 0.0% 60.0ns 0.00B 0.0% 0.00B ──────────────────────────────────────────────────────────────────────────────────────── Time outside write_soln = 1.6890350310000002s ───────────────────────────────────────────────────────────────────────────────────────── Dict("l2_error" => 4.566079424886816e-8, "linf_error" => 9.076507789806953e-8, "energy" => 1.0000000000000022, "l1_error" => 4.034130520821038e-8) [ Info: You just called `trixi_include`. Julia may now compile the code, please be patient. WARNING: Method definition initial_value_alfven_wave(Any) in module Main at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/1d/run_mhd_alfven_wave.jl:17 overwritten at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/1d/run_mhd_alfven_wave_trixirk.jl:17. Making 1D uniform Cartesian grid Grid size = 8 xmin,xmax = 0.000000e+00, 1.000000e+00 dx = 1.250000e-01 Setting up differentiation operators Degree = 3 Sol points = gll Cor fun = g2 Number of julia threads = 1 Solving Ideal GLM MHD 1D using RKFR Setting initial condition CFL: based on stability = 0.273125 Using DifferentialEquations iter,dt,t = 0 3.3948e-02 0.0000e+00 iter,dt,t = 1 3.3948e-02 3.3948e-02 iter,dt,t = 2 3.3948e-02 6.7896e-02 iter,dt,t = 3 3.3948e-02 1.0184e-01 iter,dt,t = 4 3.3948e-02 1.3579e-01 iter,dt,t = 5 3.3948e-02 1.6974e-01 iter,dt,t = 6 3.3948e-02 2.0369e-01 iter,dt,t = 7 3.3948e-02 2.3764e-01 iter,dt,t = 8 3.3948e-02 2.7158e-01 iter,dt,t = 9 3.3948e-02 3.0553e-01 iter,dt,t = 10 3.3948e-02 3.3948e-01 iter,dt,t = 11 3.3948e-02 3.7343e-01 iter,dt,t = 12 3.3948e-02 4.0738e-01 iter,dt,t = 13 3.3948e-02 4.4132e-01 iter,dt,t = 14 3.3948e-02 4.7527e-01 iter,dt,t = 15 3.3948e-02 5.0922e-01 iter,dt,t = 16 3.3948e-02 5.4317e-01 iter,dt,t = 17 3.3948e-02 5.7712e-01 iter,dt,t = 18 3.3948e-02 6.1106e-01 iter,dt,t = 19 3.3948e-02 6.4501e-01 iter,dt,t = 20 3.3948e-02 6.7896e-01 iter,dt,t = 21 3.3948e-02 7.1291e-01 iter,dt,t = 22 3.3948e-02 7.4686e-01 iter,dt,t = 23 3.3948e-02 7.8081e-01 iter,dt,t = 24 3.3948e-02 8.1475e-01 iter,dt,t = 25 3.3948e-02 8.4870e-01 iter,dt,t = 26 3.3948e-02 8.8265e-01 iter,dt,t = 27 3.3948e-02 9.1660e-01 iter,dt,t = 28 3.3948e-02 9.5055e-01 iter,dt,t = 29 1.5507e-02 9.8449e-01 iter,dt,t = 30 0.0000e+00 1.0000e+00 Wrote output/sol000.txt, output/avg000.txt Wrote final solution to avg.txt, sol.txt. ┌ Warning: `Base.getindex(VA::AbstractDiffEqArray{T, N, A}, i::Int) where {T, N, A <: Union{AbstractArray, AbstractVectorOfArray}}` is deprecated, use `VA.u[i]` instead. │ caller = solve_rkfr(eq::Tenkai.EqMHD1D.MHD1D{Trixi.IdealGlmMhdEquations1D{Float64}}, problem::Problem{Float64, Nothing, Tuple{Tenkai.BCType, Tenkai.BCType}, typeof(initial_value_alfven_wave), typeof(Tenkai.EqEuler1D.dummy_zero_boundary_value), Tenkai.EqMHD1D.ExactSolutionAlfvenWave{Trixi.IdealGlmMhdEquations1D{Float64}}}, scheme::Scheme{TrixiRKSolver{VolumeIntegralWeakForm}, typeof(get_second_node_vars), typeof(Tenkai.EqMHD1D.rusanov), @NamedTuple{name::String}, @NamedTuple{bflux_ind::Tenkai.BFluxType, compute_bflux!::typeof(Tenkai.eval_bflux3!)}, Nothing, 4, 16}, param::Parameters{Int64, Float64}, grid::Tenkai.CartesianGrids.CartesianGrid1D{Float64}, op::@NamedTuple{degree::Int64, xg::SVector{4, Float64}, wg::SVector{4, Float64}, wg_inv::SVector{4, Float64}, Vl::SVector{4, Float64}, Vr::SVector{4, Float64}, bl::SVector{4, Float64}, br::SVector{4, Float64}, Dm::SMatrix{4, 4, Float64, 16}, DmT::SMatrix{4, 4, Float64, 16}, bV::SMatrix{4, 4, Float64, 16}, D1::SMatrix{4, 4, Float64, 16}, D1T::SMatrix{4, 4, Float64, 16}, Dsplit::SMatrix{4, 4, Float64, 16}, Vgll::SMatrix{4, 4, Float64, 16}}, aux::@NamedTuple{plot_data::Tenkai.PlotData{Plots.GRBackend}, blend::@NamedTuple{blend_cell_residual!::typeof(Tenkai.trivial_cell_residual), blend_face_residual!::typeof(Tenkai.trivial_face_residual), dt::Vector{Float64}, parameters::@NamedTuple{positivity_blending::NoPositivityBlending}}, hierarchical::Tuple{}, error_file::IOStream, timer::TimerOutputs.TimerOutput, aux_cache::Nothing}, cache::@NamedTuple{u0::OffsetArrays.OffsetArray{Float64, 3, Array{Float64, 3}}, u1::OffsetArrays.OffsetArray{Float64, 3, Array{Float64, 3}}, ua::OffsetArrays.OffsetMatrix{Float64, Matrix{Float64}}, res::OffsetArrays.OffsetArray{Float64, 3, Array{Float64, 3}}, Fb::OffsetArrays.OffsetArray{Float64, 3, Array{Float64, 3}}, ub::OffsetArrays.OffsetArray{Float64, 3, Array{Float64, 3}}, trixi_ode::SciMLBase.ODEProblem{Vector{Float64}, Tuple{Float64, Float64}, true, Trixi.SemidiscretizationHyperbolic{Trixi.TreeMesh{1, Trixi.SerialTree{1, Float64}, Float64}, Trixi.IdealGlmMhdEquations1D{Float64}, Tenkai.var"#initial_condition#tenkai2trixiode##0"{Problem{Float64, Nothing, Tuple{Tenkai.BCType, Tenkai.BCType}, typeof(initial_value_alfven_wave), typeof(Tenkai.EqEuler1D.dummy_zero_boundary_value), Tenkai.EqMHD1D.ExactSolutionAlfvenWave{Trixi.IdealGlmMhdEquations1D{Float64}}}}, Trixi.BoundaryConditionPeriodic, Nothing, Trixi.DGSEM{Trixi.LobattoLegendreBasis{Float64, 4, SVector{4, Float64}, Matrix{Float64}, Matrix{Float64}, Matrix{Float64}}, Trixi.LobattoLegendreMortarL2{Float64, 4, Matrix{Float64}, Matrix{Float64}}, Trixi.SurfaceIntegralWeakForm{Trixi.FluxLaxFriedrichs{typeof(Trixi.max_abs_speed)}}, Trixi.VolumeIntegralShockCapturingHG{typeof(Trixi.flux_central), Trixi.FluxLaxFriedrichs{typeof(Trixi.max_abs_speed)}, Nothing}}, @NamedTuple{elements::Trixi.TreeElementContainer1D{Float64, Float64}, interfaces::Trixi.TreeInterfaceContainer1D{Float64}, boundaries::Trixi.TreeBoundaryContainer1D{Float64, Float64}, fstar1_L_threaded::Vector{MMatrix{8, 5, Float64, 40}}, fstar1_R_threaded::Vector{MMatrix{8, 5, Float64, 40}}}}, SciMLBase.ODEFunction{true, SciMLBase.FullSpecialize, typeof(Trixi.rhs!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, Nothing, Nothing, Nothing}, Base.Pairs{Symbol, Union{}, Nothing, @NamedTuple{}}, SciMLBase.StandardODEProblem}}) at RKFR.jl:413 └ @ Core ~/.julia/packages/Tenkai/IQyy6/src/solvers/RK/RKFR.jl:413 Post processing solution Segmentation fault (core dumped) Wrote avg, sol in gif,html,png format to output directory. ──────────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 33.7s / 6.2% 604MiB / 3.5% Section ncalls time %tot avg alloc %tot avg ──────────────────────────────────────────────────────────────────────────────────────── Write solution 3 2.07s 99.7% 692ms 20.3MiB 95.9% 6.78MiB Initialize write solution 1 54.4ms 2.6% 54.4ms 3.57MiB 16.8% 3.57MiB Cell averaging 151 188μs 0.0% 1.24μs 0.00B 0.0% 0.00B Limiter 301 2.12ms 0.1% 7.05μs 672B 0.0% 2.23B Pre process limiter 150 18.4μs 0.0% 123ns 0.00B 0.0% 0.00B Time step computation 31 1.83μs 0.0% 59.0ns 0.00B 0.0% 0.00B Cell residual 150 2.27ms 0.1% 15.1μs 49.9KiB 0.2% 340B Cell loop 150 2.13ms 0.1% 14.2μs 0.00B 0.0% 0.00B Update ghost values 150 467μs 0.0% 3.11μs 825KiB 3.8% 5.50KiB Face residual 150 592μs 0.0% 3.95μs 0.00B 0.0% 0.00B Error computation 1 166μs 0.0% 166μs 11.5KiB 0.1% 11.5KiB ──────────────────────────────────────────────────────────────────────────────────────── ──────────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 33.7s / 6.2% 604MiB / 3.5% Section ncalls time %tot avg alloc %tot avg ──────────────────────────────────────────────────────────────────────────────────────── Write solution 3 2.07s 99.7% 692ms 20.3MiB 95.9% 6.78MiB Initialize write solution 1 54.4ms 2.6% 54.4ms 3.57MiB 16.8% 3.57MiB Cell residual 150 2.27ms 0.1% 15.1μs 49.9KiB 0.2% 340B Cell loop 150 2.13ms 0.1% 14.2μs 0.00B 0.0% 0.00B Limiter 301 2.12ms 0.1% 7.05μs 672B 0.0% 2.23B Pre process limiter 150 18.4μs 0.0% 123ns 0.00B 0.0% 0.00B Face residual 150 592μs 0.0% 3.95μs 0.00B 0.0% 0.00B Update ghost values 150 467μs 0.0% 3.11μs 825KiB 3.8% 5.50KiB Cell averaging 151 188μs 0.0% 1.24μs 0.00B 0.0% 0.00B Error computation 1 166μs 0.0% 166μs 11.5KiB 0.1% 11.5KiB Time step computation 31 1.83μs 0.0% 59.0ns 0.00B 0.0% 0.00B ──────────────────────────────────────────────────────────────────────────────────────── Time outside write_soln = 0.005805941s ───────────────────────────────────────────────────────────────────────────────────────── Dict("l2_error" => 0.0005997180920791784, "linf_error" => 0.0008310844263215156, "energy" => 1.000000359661846, "l1_error" => 0.0005458185754673347) [ Info: You just called `trixi_include`. Julia may now compile the code, please be patient. WARNING: Method definition initial_value_alfven_wave(Any) in module Main at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/1d/run_mhd_alfven_wave_trixirk.jl:17 overwritten on the same line (check for duplicate calls to `include`). Making 1D uniform Cartesian grid Grid size = 8 xmin,xmax = 0.000000e+00, 1.000000e+00 dx = 1.250000e-01 Setting up differentiation operators Degree = 3 Sol points = gl Cor fun = radau Number of julia threads = 1 Solving Ideal GLM MHD 1D using RKFR Setting initial condition CFL: based on stability = 0.137750 Using DifferentialEquations iter,dt,t = 0 1.7122e-02 0.0000e+00 iter,dt,t = 1 1.7122e-02 1.7122e-02 iter,dt,t = 2 1.7122e-02 3.4243e-02 iter,dt,t = 3 1.7122e-02 5.1365e-02 iter,dt,t = 4 1.7122e-02 6.8486e-02 iter,dt,t = 5 1.7122e-02 8.5608e-02 iter,dt,t = 6 1.7122e-02 1.0273e-01 iter,dt,t = 7 1.7122e-02 1.1985e-01 iter,dt,t = 8 1.7122e-02 1.3697e-01 iter,dt,t = 9 1.7122e-02 1.5409e-01 iter,dt,t = 10 1.7122e-02 1.7122e-01 iter,dt,t = 11 1.7122e-02 1.8834e-01 iter,dt,t = 12 1.7122e-02 2.0546e-01 iter,dt,t = 13 1.7122e-02 2.2258e-01 iter,dt,t = 14 1.7122e-02 2.3970e-01 iter,dt,t = 15 1.7122e-02 2.5682e-01 iter,dt,t = 16 1.7122e-02 2.7395e-01 iter,dt,t = 17 1.7122e-02 2.9107e-01 iter,dt,t = 18 1.7122e-02 3.0819e-01 iter,dt,t = 19 1.7122e-02 3.2531e-01 iter,dt,t = 20 1.7122e-02 3.4243e-01 iter,dt,t = 21 1.7122e-02 3.5955e-01 iter,dt,t = 22 1.7122e-02 3.7668e-01 iter,dt,t = 23 1.7122e-02 3.9380e-01 iter,dt,t = 24 1.7122e-02 4.1092e-01 iter,dt,t = 25 1.7122e-02 4.2804e-01 iter,dt,t = 26 1.7122e-02 4.4516e-01 iter,dt,t = 27 1.7122e-02 4.6228e-01 iter,dt,t = 28 1.7122e-02 4.7941e-01 iter,dt,t = 29 1.7122e-02 4.9653e-01 iter,dt,t = 30 1.7122e-02 5.1365e-01 iter,dt,t = 31 1.7122e-02 5.3077e-01 iter,dt,t = 32 1.7122e-02 5.4789e-01 iter,dt,t = 33 1.7122e-02 5.6501e-01 iter,dt,t = 34 1.7122e-02 5.8214e-01 iter,dt,t = 35 1.7122e-02 5.9926e-01 iter,dt,t = 36 1.7122e-02 6.1638e-01 iter,dt,t = 37 1.7122e-02 6.3350e-01 iter,dt,t = 38 1.7122e-02 6.5062e-01 iter,dt,t = 39 1.7122e-02 6.6774e-01 iter,dt,t = 40 1.7122e-02 6.8486e-01 iter,dt,t = 41 1.7122e-02 7.0199e-01 iter,dt,t = 42 1.7122e-02 7.1911e-01 iter,dt,t = 43 1.7122e-02 7.3623e-01 iter,dt,t = 44 1.7122e-02 7.5335e-01 iter,dt,t = 45 1.7122e-02 7.7047e-01 iter,dt,t = 46 1.7122e-02 7.8759e-01 iter,dt,t = 47 1.7122e-02 8.0472e-01 iter,dt,t = 48 1.7122e-02 8.2184e-01 iter,dt,t = 49 1.7122e-02 8.3896e-01 iter,dt,t = 50 1.7122e-02 8.5608e-01 iter,dt,t = 51 1.7122e-02 8.7320e-01 iter,dt,t = 52 1.7122e-02 8.9032e-01 iter,dt,t = 53 1.7122e-02 9.0745e-01 iter,dt,t = 54 1.7122e-02 9.2457e-01 iter,dt,t = 55 1.7122e-02 9.4169e-01 iter,dt,t = 56 1.7122e-02 9.5881e-01 iter,dt,t = 57 1.7122e-02 9.7593e-01 iter,dt,t = 58 6.9458e-03 9.9305e-01 iter,dt,t = 59 0.0000e+00 1.0000e+00 Wrote output/sol000.txt, output/avg000.txt Wrote final solution to avg.txt, sol.txt. ┌ Warning: `Base.getindex(VA::AbstractDiffEqArray{T, N, A}, i::Int) where {T, N, A <: Union{AbstractArray, AbstractVectorOfArray}}` is deprecated, use `VA.u[i]` instead. │ caller = solve_rkfr(eq::Tenkai.EqMHD1D.MHD1D{Trixi.IdealGlmMhdEquations1D{Float64}}, problem::Problem{Float64, Nothing, Tuple{Tenkai.BCType, Tenkai.BCType}, typeof(initial_value_alfven_wave), typeof(Tenkai.EqEuler1D.dummy_zero_boundary_value), Tenkai.EqMHD1D.ExactSolutionAlfvenWave{Trixi.IdealGlmMhdEquations1D{Float64}}}, scheme::Scheme{TrixiRKSolver{VolumeIntegralWeakForm}, typeof(get_second_node_vars), typeof(Tenkai.EqMHD1D.rusanov), @NamedTuple{name::String}, @NamedTuple{bflux_ind::Tenkai.BFluxType, compute_bflux!::typeof(Tenkai.eval_bflux3!)}, Nothing, 4, 16}, param::Parameters{Int64, Float64}, grid::Tenkai.CartesianGrids.CartesianGrid1D{Float64}, op::@NamedTuple{degree::Int64, xg::SVector{4, Float64}, wg::SVector{4, Float64}, wg_inv::SVector{4, Float64}, Vl::SVector{4, Float64}, Vr::SVector{4, Float64}, bl::SVector{4, Float64}, br::SVector{4, Float64}, Dm::SMatrix{4, 4, Float64, 16}, DmT::SMatrix{4, 4, Float64, 16}, bV::SMatrix{4, 4, Float64, 16}, D1::SMatrix{4, 4, Float64, 16}, D1T::SMatrix{4, 4, Float64, 16}, Dsplit::SMatrix{4, 4, Float64, 16}, Vgll::SMatrix{4, 4, Float64, 16}}, aux::@NamedTuple{plot_data::Tenkai.PlotData{Plots.GRBackend}, blend::@NamedTuple{blend_cell_residual!::typeof(Tenkai.trivial_cell_residual), blend_face_residual!::typeof(Tenkai.trivial_face_residual), dt::Vector{Float64}, parameters::@NamedTuple{positivity_blending::NoPositivityBlending}}, hierarchical::Tuple{}, error_file::IOStream, timer::TimerOutputs.TimerOutput, aux_cache::Nothing}, cache::@NamedTuple{u0::OffsetArrays.OffsetArray{Float64, 3, Array{Float64, 3}}, u1::OffsetArrays.OffsetArray{Float64, 3, Array{Float64, 3}}, ua::OffsetArrays.OffsetMatrix{Float64, Matrix{Float64}}, res::OffsetArrays.OffsetArray{Float64, 3, Array{Float64, 3}}, Fb::OffsetArrays.OffsetArray{Float64, 3, Array{Float64, 3}}, ub::OffsetArrays.OffsetArray{Float64, 3, Array{Float64, 3}}, trixi_ode::SciMLBase.ODEProblem{Vector{Float64}, Tuple{Float64, Float64}, true, Trixi.SemidiscretizationHyperbolic{Trixi.TreeMesh{1, Trixi.SerialTree{1, Float64}, Float64}, Trixi.IdealGlmMhdEquations1D{Float64}, Tenkai.var"#initial_condition#tenkai2trixiode##0"{Problem{Float64, Nothing, Tuple{Tenkai.BCType, Tenkai.BCType}, typeof(initial_value_alfven_wave), typeof(Tenkai.EqEuler1D.dummy_zero_boundary_value), Tenkai.EqMHD1D.ExactSolutionAlfvenWave{Trixi.IdealGlmMhdEquations1D{Float64}}}}, Trixi.BoundaryConditionPeriodic, Nothing, Trixi.DGSEM{Trixi.LobattoLegendreBasis{Float64, 4, SVector{4, Float64}, Matrix{Float64}, Matrix{Float64}, Matrix{Float64}}, Trixi.LobattoLegendreMortarL2{Float64, 4, Matrix{Float64}, Matrix{Float64}}, Trixi.SurfaceIntegralWeakForm{Trixi.FluxLaxFriedrichs{typeof(Trixi.max_abs_speed)}}, Trixi.VolumeIntegralShockCapturingHG{typeof(Trixi.flux_central), Trixi.FluxLaxFriedrichs{typeof(Trixi.max_abs_speed)}, Nothing}}, @NamedTuple{elements::Trixi.TreeElementContainer1D{Float64, Float64}, interfaces::Trixi.TreeInterfaceContainer1D{Float64}, boundaries::Trixi.TreeBoundaryContainer1D{Float64, Float64}, fstar1_L_threaded::Vector{MMatrix{8, 5, Float64, 40}}, fstar1_R_threaded::Vector{MMatrix{8, 5, Float64, 40}}}}, SciMLBase.ODEFunction{true, SciMLBase.FullSpecialize, typeof(Trixi.rhs!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, Nothing, Nothing, Nothing}, Base.Pairs{Symbol, Union{}, Nothing, @NamedTuple{}}, SciMLBase.StandardODEProblem}}) at RKFR.jl:413 └ @ Core ~/.julia/packages/Tenkai/IQyy6/src/solvers/RK/RKFR.jl:413 Post processing solution Wrote avg, sol in gif,html,png format to output directory. ──────────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 2.63s / 77.2% 29.9MiB / 73.7% Section ncalls time %tot avg alloc %tot avg ──────────────────────────────────────────────────────────────────────────────────────── Write solution 3 2.02s 99.4% 673ms 20.4MiB 92.3% 6.79MiB Initialize write solution 1 42.7ms 2.1% 42.7ms 3.59MiB 16.3% 3.59MiB Cell averaging 296 356μs 0.0% 1.20μs 0.00B 0.0% 0.00B Limiter 591 4.28ms 0.2% 7.23μs 672B 0.0% 1.14B Pre process limiter 295 27.3μs 0.0% 92.7ns 0.00B 0.0% 0.00B Time step computation 60 3.01μs 0.0% 50.2ns 0.00B 0.0% 0.00B Cell residual 295 4.62ms 0.2% 15.7μs 97.5KiB 0.4% 338B Cell loop 295 4.31ms 0.2% 14.6μs 0.00B 0.0% 0.00B Update ghost values 295 603μs 0.0% 2.04μs 1.58MiB 7.2% 5.50KiB Face residual 295 1.13ms 0.1% 3.82μs 0.00B 0.0% 0.00B Error computation 1 234μs 0.0% 234μs 12.3KiB 0.1% 12.3KiB ──────────────────────────────────────────────────────────────────────────────────────── ──────────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 2.63s / 77.1% 30.0MiB / 73.6% Section ncalls time %tot avg alloc %tot avg ──────────────────────────────────────────────────────────────────────────────────────── Write solution 3 2.02s 99.4% 673ms 20.4MiB 92.3% 6.79MiB Initialize write solution 1 42.7ms 2.1% 42.7ms 3.59MiB 16.3% 3.59MiB Cell residual 295 4.62ms 0.2% 15.7μs 97.5KiB 0.4% 338B Cell loop 295 4.31ms 0.2% 14.6μs 0.00B 0.0% 0.00B Limiter 591 4.28ms 0.2% 7.23μs 672B 0.0% 1.14B Pre process limiter 295 27.3μs 0.0% 92.7ns 0.00B 0.0% 0.00B Face residual 295 1.13ms 0.1% 3.82μs 0.00B 0.0% 0.00B Update ghost values 295 603μs 0.0% 2.04μs 1.58MiB 7.2% 5.50KiB Cell averaging 296 356μs 0.0% 1.20μs 0.00B 0.0% 0.00B Error computation 1 234μs 0.0% 234μs 12.3KiB 0.1% 12.3KiB Time step computation 60 3.01μs 0.0% 50.2ns 0.00B 0.0% 0.00B ──────────────────────────────────────────────────────────────────────────────────────── Time outside write_soln = 0.011218303s ───────────────────────────────────────────────────────────────────────────────────────── Dict("l2_error" => 1.8126652283950566e-5, "linf_error" => 3.332819326562486e-5, "energy" => 1.0000000003286873, "l1_error" => 1.5966213848482602e-5) [ Info: You just called `trixi_include`. Julia may now compile the code, please be patient. WARNING: Method definition initial_value_alfven_wave(Any) in module Main at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/1d/run_mhd_alfven_wave_trixirk.jl:17 overwritten on the same line (check for duplicate calls to `include`). Making 1D uniform Cartesian grid Grid size = 8 xmin,xmax = 0.000000e+00, 1.000000e+00 dx = 1.250000e-01 Setting up differentiation operators Degree = 3 Sol points = gll Cor fun = g2 Number of julia threads = 1 Solving Ideal GLM MHD 1D using RKFR Setting initial condition CFL: based on stability = 0.273125 Using DifferentialEquations iter,dt,t = 0 3.3948e-02 0.0000e+00 iter,dt,t = 1 3.3948e-02 3.3948e-02 iter,dt,t = 2 3.3948e-02 6.7896e-02 iter,dt,t = 3 3.3948e-02 1.0184e-01 iter,dt,t = 4 3.3948e-02 1.3579e-01 iter,dt,t = 5 3.3948e-02 1.6974e-01 iter,dt,t = 6 3.3948e-02 2.0369e-01 iter,dt,t = 7 3.3948e-02 2.3764e-01 iter,dt,t = 8 3.3948e-02 2.7158e-01 iter,dt,t = 9 3.3948e-02 3.0553e-01 iter,dt,t = 10 3.3948e-02 3.3948e-01 iter,dt,t = 11 3.3948e-02 3.7343e-01 iter,dt,t = 12 3.3948e-02 4.0738e-01 iter,dt,t = 13 3.3948e-02 4.4132e-01 iter,dt,t = 14 3.3948e-02 4.7527e-01 iter,dt,t = 15 3.3948e-02 5.0922e-01 iter,dt,t = 16 3.3948e-02 5.4317e-01 iter,dt,t = 17 3.3948e-02 5.7712e-01 iter,dt,t = 18 3.3948e-02 6.1106e-01 iter,dt,t = 19 3.3948e-02 6.4501e-01 iter,dt,t = 20 3.3948e-02 6.7896e-01 iter,dt,t = 21 3.3948e-02 7.1291e-01 iter,dt,t = 22 3.3948e-02 7.4686e-01 iter,dt,t = 23 3.3948e-02 7.8081e-01 iter,dt,t = 24 3.3948e-02 8.1475e-01 iter,dt,t = 25 3.3948e-02 8.4870e-01 iter,dt,t = 26 3.3948e-02 8.8265e-01 iter,dt,t = 27 3.3948e-02 9.1660e-01 iter,dt,t = 28 3.3948e-02 9.5055e-01 iter,dt,t = 29 1.5507e-02 9.8449e-01 iter,dt,t = 30 0.0000e+00 1.0000e+00 Wrote output/sol000.txt, output/avg000.txt Wrote final solution to avg.txt, sol.txt. ┌ Warning: `Base.getindex(VA::AbstractDiffEqArray{T, N, A}, i::Int) where {T, N, A <: Union{AbstractArray, AbstractVectorOfArray}}` is deprecated, use `VA.u[i]` instead. │ caller = solve_rkfr(eq::Tenkai.EqMHD1D.MHD1D{Trixi.IdealGlmMhdEquations1D{Float64}}, problem::Problem{Float64, Nothing, Tuple{Tenkai.BCType, Tenkai.BCType}, typeof(initial_value_alfven_wave), typeof(Tenkai.EqEuler1D.dummy_zero_boundary_value), Tenkai.EqMHD1D.ExactSolutionAlfvenWave{Trixi.IdealGlmMhdEquations1D{Float64}}}, scheme::Scheme{TrixiRKSolver{VolumeIntegralFluxDifferencing{typeof(Trixi.flux_derigs_etal)}}, typeof(get_second_node_vars), typeof(Tenkai.EqMHD1D.rusanov), @NamedTuple{name::String}, @NamedTuple{bflux_ind::Tenkai.BFluxType, compute_bflux!::typeof(Tenkai.eval_bflux3!)}, Nothing, 4, 16}, param::Parameters{Int64, Float64}, grid::Tenkai.CartesianGrids.CartesianGrid1D{Float64}, op::@NamedTuple{degree::Int64, xg::SVector{4, Float64}, wg::SVector{4, Float64}, wg_inv::SVector{4, Float64}, Vl::SVector{4, Float64}, Vr::SVector{4, Float64}, bl::SVector{4, Float64}, br::SVector{4, Float64}, Dm::SMatrix{4, 4, Float64, 16}, DmT::SMatrix{4, 4, Float64, 16}, bV::SMatrix{4, 4, Float64, 16}, D1::SMatrix{4, 4, Float64, 16}, D1T::SMatrix{4, 4, Float64, 16}, Dsplit::SMatrix{4, 4, Float64, 16}, Vgll::SMatrix{4, 4, Float64, 16}}, aux::@NamedTuple{plot_data::Tenkai.PlotData{Plots.GRBackend}, blend::@NamedTuple{blend_cell_residual!::typeof(Tenkai.trivial_cell_residual), blend_face_residual!::typeof(Tenkai.trivial_face_residual), dt::Vector{Float64}, parameters::@NamedTuple{positivity_blending::NoPositivityBlending}}, hierarchical::Tuple{}, error_file::IOStream, timer::TimerOutputs.TimerOutput, aux_cache::Nothing}, cache::@NamedTuple{u0::OffsetArrays.OffsetArray{Float64, 3, Array{Float64, 3}}, u1::OffsetArrays.OffsetArray{Float64, 3, Array{Float64, 3}}, ua::OffsetArrays.OffsetMatrix{Float64, Matrix{Float64}}, res::OffsetArrays.OffsetArray{Float64, 3, Array{Float64, 3}}, Fb::OffsetArrays.OffsetArray{Float64, 3, Array{Float64, 3}}, ub::OffsetArrays.OffsetArray{Float64, 3, Array{Float64, 3}}, trixi_ode::SciMLBase.ODEProblem{Vector{Float64}, Tuple{Float64, Float64}, true, Trixi.SemidiscretizationHyperbolic{Trixi.TreeMesh{1, Trixi.SerialTree{1, Float64}, Float64}, Trixi.IdealGlmMhdEquations1D{Float64}, Tenkai.var"#initial_condition#tenkai2trixiode##0"{Problem{Float64, Nothing, Tuple{Tenkai.BCType, Tenkai.BCType}, typeof(initial_value_alfven_wave), typeof(Tenkai.EqEuler1D.dummy_zero_boundary_value), Tenkai.EqMHD1D.ExactSolutionAlfvenWave{Trixi.IdealGlmMhdEquations1D{Float64}}}}, Trixi.BoundaryConditionPeriodic, Nothing, Trixi.DGSEM{Trixi.LobattoLegendreBasis{Float64, 4, SVector{4, Float64}, Matrix{Float64}, Matrix{Float64}, Matrix{Float64}}, Trixi.LobattoLegendreMortarL2{Float64, 4, Matrix{Float64}, Matrix{Float64}}, Trixi.SurfaceIntegralWeakForm{Trixi.FluxLaxFriedrichs{typeof(Trixi.max_abs_speed)}}, Trixi.VolumeIntegralShockCapturingHG{typeof(Trixi.flux_central), Trixi.FluxLaxFriedrichs{typeof(Trixi.max_abs_speed)}, Nothing}}, @NamedTuple{elements::Trixi.TreeElementContainer1D{Float64, Float64}, interfaces::Trixi.TreeInterfaceContainer1D{Float64}, boundaries::Trixi.TreeBoundaryContainer1D{Float64, Float64}, fstar1_L_threaded::Vector{MMatrix{8, 5, Float64, 40}}, fstar1_R_threaded::Vector{MMatrix{8, 5, Float64, 40}}}}, SciMLBase.ODEFunction{true, SciMLBase.FullSpecialize, typeof(Trixi.rhs!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, Nothing, Nothing, Nothing}, Base.Pairs{Symbol, Union{}, Nothing, @NamedTuple{}}, SciMLBase.StandardODEProblem}}) at RKFR.jl:413 └ @ Core ~/.julia/packages/Tenkai/IQyy6/src/solvers/RK/RKFR.jl:413 Post processing solution Wrote avg, sol in gif,html,png format to output directory. ──────────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 18.9s / 10.3% 230MiB / 9.2% Section ncalls time %tot avg alloc %tot avg ──────────────────────────────────────────────────────────────────────────────────────── Write solution 3 1.93s 99.7% 643ms 20.3MiB 95.9% 6.78MiB Initialize write solution 1 40.3ms 2.1% 40.3ms 3.57MiB 16.8% 3.57MiB Cell averaging 151 194μs 0.0% 1.29μs 0.00B 0.0% 0.00B Limiter 301 2.09ms 0.1% 6.95μs 672B 0.0% 2.23B Pre process limiter 150 15.1μs 0.0% 101ns 0.00B 0.0% 0.00B Time step computation 31 1.66μs 0.0% 53.5ns 0.00B 0.0% 0.00B Cell residual 150 2.84ms 0.1% 19.0μs 49.9KiB 0.2% 340B Cell loop 150 2.77ms 0.1% 18.4μs 0.00B 0.0% 0.00B Update ghost values 150 440μs 0.0% 2.94μs 825KiB 3.8% 5.50KiB Face residual 150 551μs 0.0% 3.68μs 0.00B 0.0% 0.00B Error computation 1 359μs 0.0% 359μs 12.3KiB 0.1% 12.3KiB ──────────────────────────────────────────────────────────────────────────────────────── ──────────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 18.9s / 10.3% 230MiB / 9.2% Section ncalls time %tot avg alloc %tot avg ──────────────────────────────────────────────────────────────────────────────────────── Write solution 3 1.93s 99.7% 643ms 20.3MiB 95.9% 6.78MiB Initialize write solution 1 40.3ms 2.1% 40.3ms 3.57MiB 16.8% 3.57MiB Cell residual 150 2.84ms 0.1% 19.0μs 49.9KiB 0.2% 340B Cell loop 150 2.77ms 0.1% 18.4μs 0.00B 0.0% 0.00B Limiter 301 2.09ms 0.1% 6.95μs 672B 0.0% 2.23B Pre process limiter 150 15.1μs 0.0% 101ns 0.00B 0.0% 0.00B Face residual 150 551μs 0.0% 3.68μs 0.00B 0.0% 0.00B Update ghost values 150 440μs 0.0% 2.94μs 825KiB 3.8% 5.50KiB Error computation 1 359μs 0.0% 359μs 12.3KiB 0.1% 12.3KiB Cell averaging 151 194μs 0.0% 1.29μs 0.00B 0.0% 0.00B Time step computation 31 1.66μs 0.0% 53.5ns 0.00B 0.0% 0.00B ──────────────────────────────────────────────────────────────────────────────────────── Time outside write_soln = 0.006484115s ───────────────────────────────────────────────────────────────────────────────────────── Dict("l2_error" => 1.0488062666561514e-5, "linf_error" => 2.2510115206042514e-5, "energy" => 1.0000000001100566, "l1_error" => 9.093898051245052e-6) Test Summary: | Pass Total Time MHD 1D alfven | 12 12 2m47.0s [ Info: You just called `trixi_include`. Julia may now compile the code, please be patient. Making 2D uniform Cartesian grid Grid size = 5 x 5 xmin,xmax = -1.000000e+00, 1.000000e+00 ymin,ymax = -1.000000e+00, 1.000000e+00 dx, dy = 4.000000e-01, 4.000000e-01 Setting up differentiation operators Degree = 1 Sol points = gl Cor fun = radau Number of julia threads = 1 About to use a solver written by user... Solving 2d Burger's equation using a cRK scheme Setting initial condition Wrote file output/avg000.vtr CFL: based on stability = 0.253820 Starting time stepping iter,dt,t = 1 3.5672e-02 3.5672e-02 iter,dt,t = 2 3.7752e-02 7.3424e-02 iter,dt,t = 3 3.5448e-02 1.0887e-01 iter,dt,t = 4 3.4364e-02 1.4324e-01 iter,dt,t = 5 3.5334e-02 1.7857e-01 iter,dt,t = 6 3.8663e-02 2.1723e-01 iter,dt,t = 7 4.3735e-02 2.6097e-01 iter,dt,t = 8 4.3979e-02 3.0495e-01 iter,dt,t = 9 4.1235e-02 3.4618e-01 iter,dt,t = 10 4.1222e-02 3.8740e-01 iter,dt,t = 11 4.5010e-02 4.3241e-01 iter,dt,t = 12 4.2274e-02 4.7469e-01 iter,dt,t = 13 4.4008e-02 5.1870e-01 iter,dt,t = 14 4.2628e-02 5.6132e-01 iter,dt,t = 15 4.3783e-02 6.0511e-01 iter,dt,t = 16 4.3768e-02 6.4887e-01 iter,dt,t = 17 4.2814e-02 6.9169e-01 iter,dt,t = 18 4.1154e-02 7.3284e-01 iter,dt,t = 19 4.0808e-02 7.7365e-01 iter,dt,t = 20 4.3433e-02 8.1708e-01 iter,dt,t = 21 4.2504e-02 8.5959e-01 iter,dt,t = 22 4.2663e-02 9.0225e-01 iter,dt,t = 23 4.3386e-02 9.4564e-01 iter,dt,t = 24 4.3241e-02 9.8888e-01 iter,dt,t = 25 1.1124e-02 1.0000e+00 Wrote file output/avg001.vtr Wrote final solution to avg.vtr. ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 72.0s / 2.5% 802MiB / 4.1% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Cell averaging 26 55.6μs 0.0% 2.14μs 0.00B 0.0% 0.00B Limiter 51 17.8μs 0.0% 350ns 672B 0.0% 13.2B Pre process limiter 25 2.51μs 0.0% 100ns 0.00B 0.0% 0.00B Write solution 2 1.67s 93.9% 835ms 31.8MiB 96.2% 15.9MiB Compute error 2 106ms 6.0% 53.2ms 1.21MiB 3.7% 621KiB Time Step computation 25 15.0μs 0.0% 599ns 0.00B 0.0% 0.00B Time step computation 25 1.20μs 0.0% 48.0ns 0.00B 0.0% 0.00B Cell Residual 25 1.17ms 0.1% 46.7μs 0.00B 0.0% 0.00B Update ghost values 75 399μs 0.0% 5.32μs 35.9KiB 0.1% 491B Face residual 25 281μs 0.0% 11.2μs 0.00B 0.0% 0.00B Update solution 25 26.4μs 0.0% 1.06μs 672B 0.0% 26.9B Update solution 25 20.3μs 0.0% 813ns 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 72.0s / 2.5% 802MiB / 4.1% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Write solution 2 1.67s 93.9% 835ms 31.8MiB 96.2% 15.9MiB Compute error 2 106ms 6.0% 53.2ms 1.21MiB 3.7% 621KiB Cell Residual 25 1.17ms 0.1% 46.7μs 0.00B 0.0% 0.00B Update ghost values 75 399μs 0.0% 5.32μs 35.9KiB 0.1% 491B Face residual 25 281μs 0.0% 11.2μs 0.00B 0.0% 0.00B Cell averaging 26 55.6μs 0.0% 2.14μs 0.00B 0.0% 0.00B Update solution 25 26.4μs 0.0% 1.06μs 672B 0.0% 26.9B Update solution 25 20.3μs 0.0% 813ns 0.00B 0.0% 0.00B Limiter 51 17.8μs 0.0% 350ns 672B 0.0% 13.2B Pre process limiter 25 2.51μs 0.0% 100ns 0.00B 0.0% 0.00B Time Step computation 25 15.0μs 0.0% 599ns 0.00B 0.0% 0.00B Time step computation 25 1.20μs 0.0% 48.0ns 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── Dict("l2_error" => 0.1226432644681486, "energy" => 0.10515852893324892, "l1_error" => 0.03155291963557318)Test Summary: | Pass Total Time Burgers' equation 2D smooth sin | 3 3 1m24.2s [ Info: You just called `trixi_include`. Julia may now compile the code, please be patient. Making 2D uniform Cartesian grid Grid size = 5 x 5 xmin,xmax = -1.000000e+01, 1.000000e+01 ymin,ymax = -1.000000e+01, 1.000000e+01 dx, dy = 4.000000e+00, 4.000000e+00 Setting up differentiation operators Degree = 3 Sol points = gl Cor fun = radau Number of julia threads = 1 Solving 2d Euler Equations using MDRK Setting initial condition Wrote file output/avg000.vtr filename = "output/sol000" Wrote pointwise solution to output/sol000 Wrote output/solution_000000.h5 CFL: based on stability = 0.104860 Starting time stepping iter,dt,t = 1 1.3511e-01 1.3511e-01 iter,dt,t = 2 1.3518e-01 2.7029e-01 iter,dt,t = 3 1.3504e-01 4.0534e-01 iter,dt,t = 4 1.3488e-01 5.4022e-01 iter,dt,t = 5 1.3471e-01 6.7492e-01 iter,dt,t = 6 1.3450e-01 8.0943e-01 iter,dt,t = 7 1.3427e-01 9.4370e-01 iter,dt,t = 8 5.6302e-02 1.0000e+00 Wrote file output/avg001.vtr filename = "output/sol001" Wrote pointwise solution to output/sol001 Wrote final average solution to avg.vtr. Wrote output/solution_000008.h5 ──────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 193s / 0.8% 1.19GiB / 2.5% Section ncalls time %tot avg alloc %tot avg ──────────────────────────────────────────────────────────────────────────────────── Cell averaging 1 24.5μs 0.0% 24.5μs 0.00B 0.0% 0.00B Limiter 1 49.1μs 0.0% 49.1μs 704B 0.0% 704B Bound limiter 1 39.7μs 0.0% 39.7μs 32.0B 0.0% 32.0B Write solution 2 1.45s 99.5% 724ms 30.6MiB 100.0% 15.3MiB Compute error 2 507μs 0.0% 253μs 4.62KiB 0.0% 2.31KiB Time Step computation 8 18.7μs 0.0% 2.34μs 0.00B 0.0% 0.00B Time step computation 8 540ns 0.0% 67.5ns 0.00B 0.0% 0.00B MDRK Stages 16 6.98ms 0.5% 436μs 3.84KiB 0.0% 246B Limiter 32 458μs 0.0% 14.3μs 1.45KiB 0.0% 46.5B Pre process limiter 16 2.82μs 0.0% 176ns 0.00B 0.0% 0.00B Bound limiter 16 438μs 0.0% 27.4μs 512B 0.0% 32.0B Cell Residual 16 4.45ms 0.3% 278μs 0.00B 0.0% 0.00B Update ghost values 16 123μs 0.0% 7.67μs 0.00B 0.0% 0.00B Face residual 16 1.45ms 0.1% 90.4μs 0.00B 0.0% 0.00B Update solution 16 169μs 0.0% 10.5μs 0.00B 0.0% 0.00B Cell averaging 16 235μs 0.0% 14.7μs 0.00B 0.0% 0.00B ──────────────────────────────────────────────────────────────────────────────────── ──────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 193s / 0.8% 1.19GiB / 2.5% Section ncalls time %tot avg alloc %tot avg ──────────────────────────────────────────────────────────────────────────────────── Write solution 2 1.45s 99.5% 724ms 30.6MiB 100.0% 15.3MiB MDRK Stages 16 6.98ms 0.5% 436μs 3.84KiB 0.0% 246B Cell Residual 16 4.45ms 0.3% 278μs 0.00B 0.0% 0.00B Face residual 16 1.45ms 0.1% 90.4μs 0.00B 0.0% 0.00B Limiter 32 458μs 0.0% 14.3μs 1.45KiB 0.0% 46.5B Bound limiter 16 438μs 0.0% 27.4μs 512B 0.0% 32.0B Pre process limiter 16 2.82μs 0.0% 176ns 0.00B 0.0% 0.00B Cell averaging 16 235μs 0.0% 14.7μs 0.00B 0.0% 0.00B Update solution 16 169μs 0.0% 10.5μs 0.00B 0.0% 0.00B Update ghost values 16 123μs 0.0% 7.67μs 0.00B 0.0% 0.00B Compute error 2 507μs 0.0% 253μs 4.62KiB 0.0% 2.31KiB Limiter 1 49.1μs 0.0% 49.1μs 704B 0.0% 704B Bound limiter 1 39.7μs 0.0% 39.7μs 32.0B 0.0% 32.0B Cell averaging 1 24.5μs 0.0% 24.5μs 0.00B 0.0% 0.00B Time Step computation 8 18.7μs 0.0% 2.34μs 0.00B 0.0% 0.00B Time step computation 8 540ns 0.0% 67.5ns 0.00B 0.0% 0.00B ──────────────────────────────────────────────────────────────────────────────────── Dict("l2_error" => 0.005576098181201702, "energy" => 0.3626366805233626, "l1_error" => 0.0010554782928168535) [ Info: You just called `trixi_include`. Julia may now compile the code, please be patient. Making 2D uniform Cartesian grid Grid size = 5 x 5 xmin,xmax = -1.000000e+01, 1.000000e+01 ymin,ymax = -1.000000e+01, 1.000000e+01 dx, dy = 4.000000e+00, 4.000000e+00 Setting up differentiation operators Degree = 1 Sol points = gl Cor fun = radau Number of julia threads = 1 Solving 2d Euler Equations using LWFR Setting initial condition Wrote file output/avg000.vtr filename = "output/sol000" Wrote pointwise solution to output/sol000 Wrote output/solution_000000.h5 Using LW-D2 CFL with LW-D2 CFL: based on stability = 0.253820 Starting time stepping iter,dt,t = 1 3.2456e-01 3.2456e-01 iter,dt,t = 2 3.2242e-01 6.4698e-01 iter,dt,t = 3 3.1922e-01 9.6620e-01 iter,dt,t = 4 3.3802e-02 1.0000e+00 Wrote file output/avg001.vtr filename = "output/sol001" Wrote pointwise solution to output/sol001 Wrote final average solution to avg.vtr. Wrote output/solution_000004.h5 ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 80.2s / 0.0% 607MiB / 1.7% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Cell averaging 5 37.4μs 0.2% 7.49μs 0.00B 0.0% 0.00B Limiter 9 94.0μs 0.4% 10.4μs 1.11KiB 0.0% 126B Bound limiter 5 77.4μs 0.3% 15.5μs 160B 0.0% 32.0B Pre process limiter 4 920ns 0.0% 230ns 0.00B 0.0% 0.00B Write solution 2 22.6ms 94.3% 11.3ms 10.5MiB 99.9% 5.27MiB Compute error 2 727μs 3.0% 364μs 4.62KiB 0.0% 2.31KiB Time Step computation 4 9.54μs 0.0% 2.38μs 0.00B 0.0% 0.00B Time step computation 4 220ns 0.0% 55.0ns 0.00B 0.0% 0.00B Cell Residual 4 309μs 1.3% 77.3μs 0.00B 0.0% 0.00B Update ghost values 4 24.8μs 0.1% 6.20μs 0.00B 0.0% 0.00B Face residual 4 148μs 0.6% 37.1μs 0.00B 0.0% 0.00B Update solution 4 12.2μs 0.1% 3.06μs 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 80.2s / 0.0% 607MiB / 1.7% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Write solution 2 22.6ms 94.3% 11.3ms 10.5MiB 99.9% 5.27MiB Compute error 2 727μs 3.0% 364μs 4.62KiB 0.0% 2.31KiB Cell Residual 4 309μs 1.3% 77.3μs 0.00B 0.0% 0.00B Face residual 4 148μs 0.6% 37.1μs 0.00B 0.0% 0.00B Limiter 9 94.0μs 0.4% 10.4μs 1.11KiB 0.0% 126B Bound limiter 5 77.4μs 0.3% 15.5μs 160B 0.0% 32.0B Pre process limiter 4 920ns 0.0% 230ns 0.00B 0.0% 0.00B Cell averaging 5 37.4μs 0.2% 7.49μs 0.00B 0.0% 0.00B Update ghost values 4 24.8μs 0.1% 6.20μs 0.00B 0.0% 0.00B Update solution 4 12.2μs 0.1% 3.06μs 0.00B 0.0% 0.00B Time Step computation 4 9.54μs 0.0% 2.38μs 0.00B 0.0% 0.00B Time step computation 4 220ns 0.0% 55.0ns 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── Dict("l2_error" => 0.005456398364084852, "energy" => 0.1275915260521094, "l1_error" => 0.0006255511126465771) [ Info: You just called `trixi_include`. Julia may now compile the code, please be patient. Making 2D uniform Cartesian grid Grid size = 5 x 5 xmin,xmax = -1.000000e+01, 1.000000e+01 ymin,ymax = -1.000000e+01, 1.000000e+01 dx, dy = 4.000000e+00, 4.000000e+00 Setting up differentiation operators Degree = 2 Sol points = gl Cor fun = radau Number of julia threads = 1 Solving 2d Euler Equations using LWFR Setting initial condition Wrote file output/avg000.vtr filename = "output/sol000" Wrote pointwise solution to output/sol000 Wrote output/solution_000000.h5 Using LW-D2 CFL with LW-D2 CFL: based on stability = 0.166600 Starting time stepping iter,dt,t = 1 2.1485e-01 2.1485e-01 iter,dt,t = 2 2.1328e-01 4.2813e-01 iter,dt,t = 3 2.1286e-01 6.4099e-01 iter,dt,t = 4 2.1312e-01 8.5411e-01 iter,dt,t = 5 1.4589e-01 1.0000e+00 Wrote file output/avg001.vtr filename = "output/sol001" Wrote pointwise solution to output/sol001 Wrote final average solution to avg.vtr. Wrote output/solution_000005.h5 ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 96.4s / 1.4% 691MiB / 5.1% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Cell averaging 6 64.5μs 0.0% 10.8μs 0.00B 0.0% 0.00B Limiter 11 165μs 0.0% 15.0μs 1.14KiB 0.0% 106B Bound limiter 6 148μs 0.0% 24.7μs 192B 0.0% 32.0B Pre process limiter 5 810ns 0.0% 162ns 0.00B 0.0% 0.00B Write solution 2 1.40s 99.9% 698ms 35.0MiB 100.0% 17.5MiB Compute error 2 338μs 0.0% 169μs 4.62KiB 0.0% 2.31KiB Time Step computation 5 11.1μs 0.0% 2.21μs 0.00B 0.0% 0.00B Time step computation 5 270ns 0.0% 54.0ns 0.00B 0.0% 0.00B Cell Residual 5 867μs 0.1% 173μs 0.00B 0.0% 0.00B Update ghost values 5 37.4μs 0.0% 7.47μs 0.00B 0.0% 0.00B Face residual 5 296μs 0.0% 59.2μs 0.00B 0.0% 0.00B Update solution 5 36.0μs 0.0% 7.21μs 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 96.4s / 1.4% 691MiB / 5.1% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Write solution 2 1.40s 99.9% 698ms 35.0MiB 100.0% 17.5MiB Cell Residual 5 867μs 0.1% 173μs 0.00B 0.0% 0.00B Compute error 2 338μs 0.0% 169μs 4.62KiB 0.0% 2.31KiB Face residual 5 296μs 0.0% 59.2μs 0.00B 0.0% 0.00B Limiter 11 165μs 0.0% 15.0μs 1.14KiB 0.0% 106B Bound limiter 6 148μs 0.0% 24.7μs 192B 0.0% 32.0B Pre process limiter 5 810ns 0.0% 162ns 0.00B 0.0% 0.00B Cell averaging 6 64.5μs 0.0% 10.8μs 0.00B 0.0% 0.00B Update ghost values 5 37.4μs 0.0% 7.47μs 0.00B 0.0% 0.00B Update solution 5 36.0μs 0.0% 7.21μs 0.00B 0.0% 0.00B Time Step computation 5 11.1μs 0.0% 2.21μs 0.00B 0.0% 0.00B Time step computation 5 270ns 0.0% 54.0ns 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── Dict("l2_error" => 0.010999469735196528, "energy" => 0.2478304402757163, "l1_error" => 0.0017551279338436873) [ Info: You just called `trixi_include`. Julia may now compile the code, please be patient. Making 2D uniform Cartesian grid Grid size = 5 x 5 xmin,xmax = -1.000000e+01, 1.000000e+01 ymin,ymax = -1.000000e+01, 1.000000e+01 dx, dy = 4.000000e+00, 4.000000e+00 Setting up differentiation operators Degree = 3 Sol points = gl Cor fun = radau Number of julia threads = 1 Solving 2d Euler Equations using LWFR Setting initial condition Wrote file output/avg000.vtr filename = "output/sol000" Wrote pointwise solution to output/sol000 Wrote output/solution_000000.h5 Using LW-D2 CFL with LW-D2 CFL: based on stability = 0.100940 Starting time stepping iter,dt,t = 1 1.3006e-01 1.3006e-01 iter,dt,t = 2 1.3011e-01 2.6017e-01 iter,dt,t = 3 1.3002e-01 3.9019e-01 iter,dt,t = 4 1.2987e-01 5.2006e-01 iter,dt,t = 5 1.2971e-01 6.4978e-01 iter,dt,t = 6 1.2953e-01 7.7931e-01 iter,dt,t = 7 1.2932e-01 9.0863e-01 iter,dt,t = 8 9.1373e-02 1.0000e+00 Wrote file output/avg001.vtr filename = "output/sol001" Wrote pointwise solution to output/sol001 Wrote final average solution to avg.vtr. Wrote output/solution_000008.h5 ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 90.4s / 0.0% 476MiB / 2.2% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Cell averaging 9 167μs 0.6% 18.6μs 0.00B 0.0% 0.00B Limiter 17 339μs 1.3% 20.0μs 1.23KiB 0.0% 74.4B Bound limiter 9 317μs 1.2% 35.2μs 288B 0.0% 32.0B Pre process limiter 8 1.27μs 0.0% 159ns 0.00B 0.0% 0.00B Write solution 2 20.8ms 80.7% 10.4ms 10.6MiB 99.9% 5.31MiB Compute error 2 589μs 2.3% 294μs 4.62KiB 0.0% 2.31KiB Time Step computation 8 20.8μs 0.1% 2.60μs 0.00B 0.0% 0.00B Time step computation 8 420ns 0.0% 52.5ns 0.00B 0.0% 0.00B Cell Residual 8 2.78ms 10.8% 348μs 0.00B 0.0% 0.00B Update ghost values 8 85.4μs 0.3% 10.7μs 0.00B 0.0% 0.00B Face residual 8 859μs 3.3% 107μs 0.00B 0.0% 0.00B Update solution 8 120μs 0.5% 15.0μs 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 90.4s / 0.0% 476MiB / 2.2% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Write solution 2 20.8ms 80.7% 10.4ms 10.6MiB 99.9% 5.31MiB Cell Residual 8 2.78ms 10.8% 348μs 0.00B 0.0% 0.00B Face residual 8 859μs 3.3% 107μs 0.00B 0.0% 0.00B Compute error 2 589μs 2.3% 294μs 4.62KiB 0.0% 2.31KiB Limiter 17 339μs 1.3% 20.0μs 1.23KiB 0.0% 74.4B Bound limiter 9 317μs 1.2% 35.2μs 288B 0.0% 32.0B Pre process limiter 8 1.27μs 0.0% 159ns 0.00B 0.0% 0.00B Cell averaging 9 167μs 0.6% 18.6μs 0.00B 0.0% 0.00B Update solution 8 120μs 0.5% 15.0μs 0.00B 0.0% 0.00B Update ghost values 8 85.4μs 0.3% 10.7μs 0.00B 0.0% 0.00B Time Step computation 8 20.8μs 0.1% 2.60μs 0.00B 0.0% 0.00B Time step computation 8 420ns 0.0% 52.5ns 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── Dict("l2_error" => 0.005496444416604801, "energy" => 0.36265048931990845, "l1_error" => 0.001032724975136229) [ Info: You just called `trixi_include`. Julia may now compile the code, please be patient. Making 2D uniform Cartesian grid Grid size = 5 x 5 xmin,xmax = -1.000000e+01, 1.000000e+01 ymin,ymax = -1.000000e+01, 1.000000e+01 dx, dy = 4.000000e+00, 4.000000e+00 Setting up differentiation operators Degree = 4 Sol points = gl Cor fun = radau Number of julia threads = 1 Solving 2d Euler Equations using LWFR Setting initial condition Wrote file output/avg000.vtr filename = "output/sol000" Wrote pointwise solution to output/sol000 Wrote output/solution_000000.h5 Using LW-D2 CFL with LW-D2 CFL: based on stability = 0.067620 Starting time stepping iter,dt,t = 1 8.7231e-02 8.7231e-02 iter,dt,t = 2 8.7170e-02 1.7440e-01 iter,dt,t = 3 8.7167e-02 2.6157e-01 iter,dt,t = 4 8.7154e-02 3.4872e-01 iter,dt,t = 5 8.7083e-02 4.3581e-01 iter,dt,t = 6 8.7007e-02 5.2281e-01 iter,dt,t = 7 8.6927e-02 6.0974e-01 iter,dt,t = 8 8.6846e-02 6.9659e-01 iter,dt,t = 9 8.6769e-02 7.8335e-01 iter,dt,t = 10 8.6696e-02 8.7005e-01 iter,dt,t = 11 8.6628e-02 9.5668e-01 iter,dt,t = 12 4.3323e-02 1.0000e+00 Wrote file output/avg001.vtr filename = "output/sol001" Wrote pointwise solution to output/sol001 Wrote final average solution to avg.vtr. Wrote output/solution_000012.h5 ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 157s / 0.6% 861MiB / 3.5% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Cell averaging 13 178μs 0.0% 13.7μs 0.00B 0.0% 0.00B Limiter 25 330μs 0.0% 13.2μs 1.36KiB 0.0% 55.7B Bound limiter 13 315μs 0.0% 24.2μs 416B 0.0% 32.0B Pre process limiter 12 1.37μs 0.0% 114ns 0.00B 0.0% 0.00B Write solution 2 887ms 99.3% 443ms 29.9MiB 100.0% 15.0MiB Compute error 2 367μs 0.0% 184μs 4.62KiB 0.0% 2.31KiB Time Step computation 12 15.1μs 0.0% 1.25μs 0.00B 0.0% 0.00B Time step computation 12 420ns 0.0% 35.0ns 0.00B 0.0% 0.00B Cell Residual 12 4.22ms 0.5% 352μs 0.00B 0.0% 0.00B Update ghost values 12 89.4μs 0.0% 7.45μs 0.00B 0.0% 0.00B Face residual 12 932μs 0.1% 77.7μs 0.00B 0.0% 0.00B Update solution 12 114μs 0.0% 9.53μs 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 157s / 0.6% 861MiB / 3.5% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Write solution 2 887ms 99.3% 443ms 29.9MiB 100.0% 15.0MiB Cell Residual 12 4.22ms 0.5% 352μs 0.00B 0.0% 0.00B Face residual 12 932μs 0.1% 77.7μs 0.00B 0.0% 0.00B Compute error 2 367μs 0.0% 184μs 4.62KiB 0.0% 2.31KiB Limiter 25 330μs 0.0% 13.2μs 1.36KiB 0.0% 55.7B Bound limiter 13 315μs 0.0% 24.2μs 416B 0.0% 32.0B Pre process limiter 12 1.37μs 0.0% 114ns 0.00B 0.0% 0.00B Cell averaging 13 178μs 0.0% 13.7μs 0.00B 0.0% 0.00B Update solution 12 114μs 0.0% 9.53μs 0.00B 0.0% 0.00B Update ghost values 12 89.4μs 0.0% 7.45μs 0.00B 0.0% 0.00B Time Step computation 12 15.1μs 0.0% 1.25μs 0.00B 0.0% 0.00B Time step computation 12 420ns 0.0% 35.0ns 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── Dict("l2_error" => 0.004877369160515106, "energy" => 0.46100794265592926, "l1_error" => 0.0009188614078133044) [ Info: You just called `trixi_include`. Julia may now compile the code, please be patient. Making 2D uniform Cartesian grid Grid size = 5 x 5 xmin,xmax = -1.000000e+01, 1.000000e+01 ymin,ymax = -1.000000e+01, 1.000000e+01 dx, dy = 4.000000e+00, 4.000000e+00 Setting up differentiation operators Degree = 1 Sol points = gl Cor fun = radau Number of julia threads = 1 Solving 2d Euler Equations using RKFR Setting initial condition CFL: based on stability = 0.326340 Wrote file output/avg000.vtr filename = "output/sol000" Wrote pointwise solution to output/sol000 Wrote output/solution_000000.h5 Starting time stepping iter,dt,t = 1 4.1729e-01 4.1729e-01 iter,dt,t = 2 4.1513e-01 8.3242e-01 iter,dt,t = 3 1.6758e-01 1.0000e+00 Wrote file output/avg001.vtr filename = "output/sol001" Wrote pointwise solution to output/sol001 Wrote final average solution to avg.vtr. Wrote output/solution_000003.h5 ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 21.5s / 0.1% 604MiB / 1.7% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Cell averaging 7 33.0μs 0.3% 4.71μs 0.00B 0.0% 0.00B Limiter 10 66.1μs 0.5% 6.61μs 1.08KiB 0.0% 110B Bound limiter 4 57.3μs 0.5% 14.3μs 128B 0.0% 32.0B Pre process limiter 6 780ns 0.0% 130ns 0.00B 0.0% 0.00B Write solution 2 11.8ms 94.3% 5.92ms 10.5MiB 99.9% 5.27MiB Compute error 2 237μs 1.9% 119μs 4.62KiB 0.0% 2.31KiB Time Step computation 3 6.04μs 0.0% 2.01μs 0.00B 0.0% 0.00B Time step computation 3 250ns 0.0% 83.3ns 0.00B 0.0% 0.00B Cell residual 6 224μs 1.8% 37.3μs 0.00B 0.0% 0.00B Update ghost values 6 17.6μs 0.1% 2.92μs 0.00B 0.0% 0.00B Face residual 6 128μs 1.0% 21.3μs 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 21.5s / 0.1% 604MiB / 1.7% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Write solution 2 11.8ms 94.3% 5.92ms 10.5MiB 99.9% 5.27MiB Compute error 2 237μs 1.9% 119μs 4.62KiB 0.0% 2.31KiB Cell residual 6 224μs 1.8% 37.3μs 0.00B 0.0% 0.00B Face residual 6 128μs 1.0% 21.3μs 0.00B 0.0% 0.00B Limiter 10 66.1μs 0.5% 6.61μs 1.08KiB 0.0% 110B Bound limiter 4 57.3μs 0.5% 14.3μs 128B 0.0% 32.0B Pre process limiter 6 780ns 0.0% 130ns 0.00B 0.0% 0.00B Cell averaging 7 33.0μs 0.3% 4.71μs 0.00B 0.0% 0.00B Update ghost values 6 17.6μs 0.1% 2.92μs 0.00B 0.0% 0.00B Time Step computation 3 6.04μs 0.0% 2.01μs 0.00B 0.0% 0.00B Time step computation 3 250ns 0.0% 83.3ns 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── Dict("l2_error" => 0.005700469091304728, "energy" => 0.12758894362328396, "l1_error" => 0.0007264747126947557) [ Info: You just called `trixi_include`. Julia may now compile the code, please be patient. Making 2D uniform Cartesian grid Grid size = 5 x 5 xmin,xmax = -1.000000e+01, 1.000000e+01 ymin,ymax = -1.000000e+01, 1.000000e+01 dx, dy = 4.000000e+00, 4.000000e+00 Setting up differentiation operators Degree = 2 Sol points = gl Cor fun = radau Number of julia threads = 1 Solving 2d Euler Equations using RKFR Setting initial condition CFL: based on stability = 0.204820 Wrote file output/avg000.vtr filename = "output/sol000" Wrote pointwise solution to output/sol000 Wrote output/solution_000000.h5 Starting time stepping iter,dt,t = 1 2.6414e-01 2.6414e-01 iter,dt,t = 2 2.6244e-01 5.2658e-01 iter,dt,t = 3 2.6191e-01 7.8849e-01 iter,dt,t = 4 2.1151e-01 1.0000e+00 Wrote file output/avg001.vtr filename = "output/sol001" Wrote pointwise solution to output/sol001 Wrote final average solution to avg.vtr. Wrote output/solution_000004.h5 ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 20.3s / 0.1% 585MiB / 1.8% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Cell averaging 17 95.9μs 0.5% 5.64μs 0.00B 0.0% 0.00B Limiter 25 178μs 1.0% 7.11μs 1.36KiB 0.0% 55.7B Bound limiter 13 164μs 0.9% 12.6μs 416B 0.0% 32.0B Pre process limiter 12 3.92μs 0.0% 327ns 0.00B 0.0% 0.00B Write solution 2 16.7ms 89.7% 8.33ms 10.6MiB 99.9% 5.29MiB Compute error 2 242μs 1.3% 121μs 4.62KiB 0.0% 2.31KiB Time Step computation 4 5.59μs 0.0% 1.40μs 0.00B 0.0% 0.00B Time step computation 4 280ns 0.0% 70.0ns 0.00B 0.0% 0.00B Cell residual 12 902μs 4.9% 75.1μs 0.00B 0.0% 0.00B Update ghost values 12 52.6μs 0.3% 4.38μs 0.00B 0.0% 0.00B Face residual 12 429μs 2.3% 35.7μs 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 20.3s / 0.1% 585MiB / 1.8% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Write solution 2 16.7ms 89.7% 8.33ms 10.6MiB 99.9% 5.29MiB Cell residual 12 902μs 4.9% 75.1μs 0.00B 0.0% 0.00B Face residual 12 429μs 2.3% 35.7μs 0.00B 0.0% 0.00B Compute error 2 242μs 1.3% 121μs 4.62KiB 0.0% 2.31KiB Limiter 25 178μs 1.0% 7.11μs 1.36KiB 0.0% 55.7B Bound limiter 13 164μs 0.9% 12.6μs 416B 0.0% 32.0B Pre process limiter 12 3.92μs 0.0% 327ns 0.00B 0.0% 0.00B Cell averaging 17 95.9μs 0.5% 5.64μs 0.00B 0.0% 0.00B Update ghost values 12 52.6μs 0.3% 4.38μs 0.00B 0.0% 0.00B Time Step computation 4 5.59μs 0.0% 1.40μs 0.00B 0.0% 0.00B Time step computation 4 280ns 0.0% 70.0ns 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── Dict("l2_error" => 0.010221989007810274, "energy" => 0.2478414004395625, "l1_error" => 0.001560809539114103) [ Info: You just called `trixi_include`. Julia may now compile the code, please be patient. Making 2D uniform Cartesian grid Grid size = 5 x 5 xmin,xmax = -1.000000e+01, 1.000000e+01 ymin,ymax = -1.000000e+01, 1.000000e+01 dx, dy = 4.000000e+00, 4.000000e+00 Setting up differentiation operators Degree = 3 Sol points = gl Cor fun = radau Number of julia threads = 1 Solving 2d Euler Equations using RKFR Setting initial condition CFL: based on stability = 0.142100 Using DifferentialEquations iter,dt,t = 0 1.8309e-01 0.0000e+00 iter,dt,t = 1 1.8315e-01 1.8309e-01 iter,dt,t = 2 1.8292e-01 3.6624e-01 iter,dt,t = 3 1.8261e-01 5.4916e-01 iter,dt,t = 4 1.8222e-01 7.3177e-01 iter,dt,t = 5 8.6012e-02 9.1399e-01 iter,dt,t = 6 0.0000e+00 1.0000e+00 Wrote file output/avg000.vtr filename = "output/sol000" Wrote pointwise solution to output/sol000 Wrote final average solution to avg.vtr. Wrote output/solution_000006.h5 ┌ Warning: `Base.getindex(VA::AbstractDiffEqArray{T, N, A}, i::Int) where {T, N, A <: Union{AbstractArray, AbstractVectorOfArray}}` is deprecated, use `VA.u[i]` instead. │ caller = solve_rkfr(eq::Tenkai.EqEuler2D.Euler2D{Float64, Tenkai.EqEuler2D.var"#hll_speeds#131"}, problem::Problem{Float64, Nothing, NTuple{4, Tenkai.BCType}, typeof(Tenkai.EqEuler2D.isentropic_iv), typeof(Tenkai.EqEuler2D.zero_bv), typeof(Tenkai.EqEuler2D.isentropic_exact)}, scheme::Scheme{String, typeof(get_second_node_vars), typeof(Tenkai.EqEuler2D.rusanov), @NamedTuple{name::String}, @NamedTuple{bflux_ind::Tenkai.BFluxType, compute_bflux!::typeof(Tenkai.trivial_function)}, Nothing, 4, 16}, param::Parameters{Vector{Int64}, Float64}, grid::Tenkai.CartesianGrids.CartesianGrid2D{Float64}, op::@NamedTuple{degree::Int64, xg::SVector{4, Float64}, wg::SVector{4, Float64}, wg_inv::SVector{4, Float64}, Vl::SVector{4, Float64}, Vr::SVector{4, Float64}, bl::SVector{4, Float64}, br::SVector{4, Float64}, Dm::SMatrix{4, 4, Float64, 16}, DmT::SMatrix{4, 4, Float64, 16}, bV::SMatrix{4, 4, Float64, 16}, D1::SMatrix{4, 4, Float64, 16}, D1T::SMatrix{4, 4, Float64, 16}, Dsplit::SMatrix{4, 4, Float64, 16}, Vgll::SMatrix{4, 4, Float64, 16}}, aux::@NamedTuple{plot_data::Nothing, blend::@NamedTuple{subroutines::@NamedTuple{blend_cell_residual!::typeof(Tenkai.trivial_cell_residual), blend_face_residual_x!::typeof(Tenkai.trivial_face_residual), blend_face_residual_y!::typeof(Tenkai.trivial_face_residual), get_element_alpha::typeof(Tenkai.get_element_alpha_other_limiter)}, cache::@NamedTuple{dt::MVector{1, Float64}, fn_low::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}}, parameters::@NamedTuple{positivity_blending::NoPositivityBlending}, uEltype::DataType}, hierarchical::Nothing, error_file::IOStream, timer::TimerOutputs.TimerOutput, aux_cache::@NamedTuple{error_cache::@NamedTuple{xq::SVector{7, Float64}, w2d::SMatrix{7, 7, Float64, 49}, V::SMatrix{7, 4, Float64, 28}, arr_cache::SVector{1, SVector{2, MArray{Tuple{4, 7, 7}, Float64, 3, 196}}}}, bound_limiter_cache::SVector{1, SVector{4, MMatrix{4, 4, Float64, 16}}}}}, cache::@NamedTuple{u0::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}, u1::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}, ua::OffsetArrays.OffsetArray{Float64, 3, Array{Float64, 3}}, res::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}, Fb::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}, ub::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}, trixi_ode::Tuple{}}) at RKFR.jl:413 └ @ Core ~/.julia/packages/Tenkai/IQyy6/src/solvers/RK/RKFR.jl:413 ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 30.2s / 0.1% 727MiB / 0.7% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Cell averaging 31 266μs 1.7% 8.60μs 0.00B 0.0% 0.00B Limiter 61 515μs 3.3% 8.45μs 1.92KiB 0.0% 32.3B Bound limiter 31 494μs 3.1% 15.9μs 992B 0.0% 32.0B Pre process limiter 30 4.89μs 0.0% 163ns 0.00B 0.0% 0.00B Time Step computation 8 36.4μs 0.2% 4.54μs 0.00B 0.0% 0.00B Time step computation 7 250ns 0.0% 35.7ns 0.00B 0.0% 0.00B Cell residual 30 4.08ms 25.9% 136μs 0.00B 0.0% 0.00B Update ghost values 30 148μs 0.9% 4.93μs 0.00B 0.0% 0.00B Face residual 30 1.59ms 10.1% 53.0μs 0.00B 0.0% 0.00B Write solution 1 8.94ms 56.7% 8.94ms 5.32MiB 99.9% 5.32MiB Compute error 1 180μs 1.1% 180μs 2.31KiB 0.0% 2.31KiB ────────────────────────────────────────────────────────────────────────────────── ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 30.2s / 0.1% 727MiB / 0.7% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Write solution 1 8.94ms 56.7% 8.94ms 5.32MiB 99.9% 5.32MiB Cell residual 30 4.08ms 25.9% 136μs 0.00B 0.0% 0.00B Face residual 30 1.59ms 10.1% 53.0μs 0.00B 0.0% 0.00B Limiter 61 515μs 3.3% 8.45μs 1.92KiB 0.0% 32.3B Bound limiter 31 494μs 3.1% 15.9μs 992B 0.0% 32.0B Pre process limiter 30 4.89μs 0.0% 163ns 0.00B 0.0% 0.00B Cell averaging 31 266μs 1.7% 8.60μs 0.00B 0.0% 0.00B Compute error 1 180μs 1.1% 180μs 2.31KiB 0.0% 2.31KiB Update ghost values 30 148μs 0.9% 4.93μs 0.00B 0.0% 0.00B Time Step computation 8 36.4μs 0.2% 4.54μs 0.00B 0.0% 0.00B Time step computation 7 250ns 0.0% 35.7ns 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── Dict("l2_error" => 0.006332296030142877, "energy" => 0.3627401229371328, "l1_error" => 0.0011312860756202664) [ Info: You just called `trixi_include`. Julia may now compile the code, please be patient. Making 2D uniform Cartesian grid Grid size = 5 x 5 xmin,xmax = -1.000000e+01, 1.000000e+01 ymin,ymax = -1.000000e+01, 1.000000e+01 dx, dy = 4.000000e+00, 4.000000e+00 Setting up differentiation operators Degree = 4 Sol points = gl Cor fun = radau Number of julia threads = 1 Solving 2d Euler Equations using RKFR Setting initial condition CFL: based on stability = 0.107800 Using DifferentialEquations iter,dt,t = 0 1.3906e-01 0.0000e+00 iter,dt,t = 1 1.3899e-01 1.3906e-01 iter,dt,t = 2 1.3889e-01 2.7806e-01 iter,dt,t = 3 1.3871e-01 4.1695e-01 iter,dt,t = 4 1.3851e-01 5.5566e-01 iter,dt,t = 5 1.3832e-01 6.9417e-01 iter,dt,t = 6 1.3815e-01 8.3249e-01 iter,dt,t = 7 2.9356e-02 9.7064e-01 iter,dt,t = 8 0.0000e+00 1.0000e+00 Wrote file output/avg000.vtr filename = "output/sol000" Wrote pointwise solution to output/sol000 Wrote final average solution to avg.vtr. Wrote output/solution_000008.h5 ┌ Warning: `Base.getindex(VA::AbstractDiffEqArray{T, N, A}, i::Int) where {T, N, A <: Union{AbstractArray, AbstractVectorOfArray}}` is deprecated, use `VA.u[i]` instead. │ caller = solve_rkfr(eq::Tenkai.EqEuler2D.Euler2D{Float64, Tenkai.EqEuler2D.var"#hll_speeds#131"}, problem::Problem{Float64, Nothing, NTuple{4, Tenkai.BCType}, typeof(Tenkai.EqEuler2D.isentropic_iv), typeof(Tenkai.EqEuler2D.zero_bv), typeof(Tenkai.EqEuler2D.isentropic_exact)}, scheme::Scheme{String, typeof(get_second_node_vars), typeof(Tenkai.EqEuler2D.rusanov), @NamedTuple{name::String}, @NamedTuple{bflux_ind::Tenkai.BFluxType, compute_bflux!::typeof(Tenkai.trivial_function)}, Nothing, 5, 25}, param::Parameters{Vector{Int64}, Float64}, grid::Tenkai.CartesianGrids.CartesianGrid2D{Float64}, op::@NamedTuple{degree::Int64, xg::SVector{5, Float64}, wg::SVector{5, Float64}, wg_inv::SVector{5, Float64}, Vl::SVector{5, Float64}, Vr::SVector{5, Float64}, bl::SVector{5, Float64}, br::SVector{5, Float64}, Dm::SMatrix{5, 5, Float64, 25}, DmT::SMatrix{5, 5, Float64, 25}, bV::SMatrix{5, 5, Float64, 25}, D1::SMatrix{5, 5, Float64, 25}, D1T::SMatrix{5, 5, Float64, 25}, Dsplit::SMatrix{5, 5, Float64, 25}, Vgll::SMatrix{5, 5, Float64, 25}}, aux::@NamedTuple{plot_data::Nothing, blend::@NamedTuple{subroutines::@NamedTuple{blend_cell_residual!::typeof(Tenkai.trivial_cell_residual), blend_face_residual_x!::typeof(Tenkai.trivial_face_residual), blend_face_residual_y!::typeof(Tenkai.trivial_face_residual), get_element_alpha::typeof(Tenkai.get_element_alpha_other_limiter)}, cache::@NamedTuple{dt::MVector{1, Float64}, fn_low::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}}, parameters::@NamedTuple{positivity_blending::NoPositivityBlending}, uEltype::DataType}, hierarchical::Nothing, error_file::IOStream, timer::TimerOutputs.TimerOutput, aux_cache::@NamedTuple{error_cache::@NamedTuple{xq::SVector{8, Float64}, w2d::SMatrix{8, 8, Float64, 64}, V::SMatrix{8, 5, Float64, 40}, arr_cache::SVector{1, SVector{2, MArray{Tuple{4, 8, 8}, Float64, 3, 256}}}}, bound_limiter_cache::SVector{1, SVector{4, MMatrix{4, 5, Float64, 20}}}}}, cache::@NamedTuple{u0::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}, u1::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}, ua::OffsetArrays.OffsetArray{Float64, 3, Array{Float64, 3}}, res::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}, Fb::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}, ub::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}, trixi_ode::Tuple{}}) at RKFR.jl:413 └ @ Core ~/.julia/packages/Tenkai/IQyy6/src/solvers/RK/RKFR.jl:413 ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 26.0s / 0.1% 494MiB / 1.1% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Cell averaging 41 527μs 2.3% 12.9μs 0.00B 0.0% 0.00B Limiter 81 931μs 4.1% 11.5μs 2.23KiB 0.0% 28.2B Bound limiter 41 912μs 4.0% 22.2μs 1.28KiB 0.0% 32.0B Pre process limiter 40 4.01μs 0.0% 100ns 0.00B 0.0% 0.00B Time Step computation 10 29.4μs 0.1% 2.94μs 0.00B 0.0% 0.00B Time step computation 9 340ns 0.0% 37.8ns 0.00B 0.0% 0.00B Cell residual 40 8.48ms 37.5% 212μs 0.00B 0.0% 0.00B Update ghost values 40 252μs 1.1% 6.30μs 0.00B 0.0% 0.00B Face residual 40 3.20ms 14.1% 79.9μs 0.00B 0.0% 0.00B Write solution 1 9.01ms 39.8% 9.01ms 5.35MiB 99.9% 5.35MiB Compute error 1 200μs 0.9% 200μs 2.31KiB 0.0% 2.31KiB ────────────────────────────────────────────────────────────────────────────────── ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 26.0s / 0.1% 495MiB / 1.1% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Write solution 1 9.01ms 39.8% 9.01ms 5.35MiB 99.9% 5.35MiB Cell residual 40 8.48ms 37.5% 212μs 0.00B 0.0% 0.00B Face residual 40 3.20ms 14.1% 79.9μs 0.00B 0.0% 0.00B Limiter 81 931μs 4.1% 11.5μs 2.23KiB 0.0% 28.2B Bound limiter 41 912μs 4.0% 22.2μs 1.28KiB 0.0% 32.0B Pre process limiter 40 4.01μs 0.0% 100ns 0.00B 0.0% 0.00B Cell averaging 41 527μs 2.3% 12.9μs 0.00B 0.0% 0.00B Update ghost values 40 252μs 1.1% 6.30μs 0.00B 0.0% 0.00B Compute error 1 200μs 0.9% 200μs 2.31KiB 0.0% 2.31KiB Time Step computation 10 29.4μs 0.1% 2.94μs 0.00B 0.0% 0.00B Time step computation 9 340ns 0.0% 37.8ns 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── Dict("l2_error" => 0.0048070679442478335, "energy" => 0.4610209092882646, "l1_error" => 0.00083638609559258) [ Info: You just called `trixi_include`. Julia may now compile the code, please be patient. Making 2D uniform Cartesian grid Grid size = 5 x 5 xmin,xmax = -1.000000e+01, 1.000000e+01 ymin,ymax = -1.000000e+01, 1.000000e+01 dx, dy = 4.000000e+00, 4.000000e+00 Setting up differentiation operators Degree = 4 Sol points = gl Cor fun = radau Number of julia threads = 1 Solving 2d Euler Equations using RKFR Setting initial condition CFL: based on stability = 0.107800 Wrote file output/avg000.vtr filename = "output/sol000" Wrote pointwise solution to output/sol000 Wrote output/solution_000000.h5 Starting time stepping iter,dt,t = 1 1.3906e-01 1.3906e-01 iter,dt,t = 2 1.3900e-01 2.7806e-01 iter,dt,t = 3 1.3889e-01 4.1695e-01 iter,dt,t = 4 1.3871e-01 5.5566e-01 iter,dt,t = 5 1.3851e-01 6.9417e-01 iter,dt,t = 6 1.3832e-01 8.3249e-01 iter,dt,t = 7 1.3815e-01 9.7064e-01 iter,dt,t = 8 2.9364e-02 1.0000e+00 Wrote file output/avg001.vtr filename = "output/sol001" Wrote pointwise solution to output/sol001 Wrote final average solution to avg.vtr. Wrote output/solution_000008.h5 ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 866ms / 2.5% 26.0MiB / 41.2% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Cell averaging 41 503μs 2.3% 12.3μs 0.00B 0.0% 0.00B Limiter 65 736μs 3.3% 11.3μs 1.98KiB 0.0% 31.3B Bound limiter 33 718μs 3.3% 21.8μs 1.03KiB 0.0% 32.0B Pre process limiter 32 2.13μs 0.0% 66.6ns 0.00B 0.0% 0.00B Write solution 2 11.2ms 51.0% 5.62ms 10.7MiB 99.9% 5.34MiB Compute error 2 234μs 1.1% 117μs 4.62KiB 0.0% 2.31KiB Time Step computation 8 9.67μs 0.0% 1.21μs 0.00B 0.0% 0.00B Time step computation 8 330ns 0.0% 41.2ns 0.00B 0.0% 0.00B Cell residual 32 6.79ms 30.8% 212μs 0.00B 0.0% 0.00B Update ghost values 32 192μs 0.9% 6.01μs 0.00B 0.0% 0.00B Face residual 32 2.34ms 10.6% 73.3μs 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 867ms / 2.5% 26.0MiB / 41.1% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Write solution 2 11.2ms 51.0% 5.62ms 10.7MiB 99.9% 5.34MiB Cell residual 32 6.79ms 30.8% 212μs 0.00B 0.0% 0.00B Face residual 32 2.34ms 10.6% 73.3μs 0.00B 0.0% 0.00B Limiter 65 736μs 3.3% 11.3μs 1.98KiB 0.0% 31.3B Bound limiter 33 718μs 3.3% 21.8μs 1.03KiB 0.0% 32.0B Pre process limiter 32 2.13μs 0.0% 66.6ns 0.00B 0.0% 0.00B Cell averaging 41 503μs 2.3% 12.3μs 0.00B 0.0% 0.00B Compute error 2 234μs 1.1% 117μs 4.62KiB 0.0% 2.31KiB Update ghost values 32 192μs 0.9% 6.01μs 0.00B 0.0% 0.00B Time Step computation 8 9.67μs 0.0% 1.21μs 0.00B 0.0% 0.00B Time step computation 8 330ns 0.0% 41.2ns 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── Dict("l2_error" => 0.004888084325958354, "energy" => 0.4610215530661904, "l1_error" => 0.001105916787614259) [ Info: You just called `trixi_include`. Julia may now compile the code, please be patient. Making 2D uniform Cartesian grid Grid size = 5 x 5 xmin,xmax = -1.000000e+01, 1.000000e+01 ymin,ymax = -1.000000e+01, 1.000000e+01 dx, dy = 4.000000e+00, 4.000000e+00 Setting up differentiation operators Degree = 4 Sol points = gl Cor fun = radau Number of julia threads = 1 Solving 2d Euler Equations using RKFR Setting initial condition CFL: based on stability = 0.107800 Using DifferentialEquations iter,dt,t = 0 1.3906e-01 0.0000e+00 iter,dt,t = 1 1.3899e-01 1.3906e-01 iter,dt,t = 2 1.3889e-01 2.7806e-01 iter,dt,t = 3 1.3871e-01 4.1695e-01 iter,dt,t = 4 1.3851e-01 5.5566e-01 iter,dt,t = 5 1.3832e-01 6.9417e-01 iter,dt,t = 6 1.3815e-01 8.3249e-01 iter,dt,t = 7 2.9355e-02 9.7064e-01 iter,dt,t = 8 0.0000e+00 1.0000e+00 Wrote file output/avg000.vtr filename = "output/sol000" Wrote pointwise solution to output/sol000 Wrote final average solution to avg.vtr. Wrote output/solution_000008.h5 ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 7.57s / 0.6% 425MiB / 1.3% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Cell averaging 49 640μs 1.4% 13.1μs 0.00B 0.0% 0.00B Limiter 98 1.10ms 2.4% 11.2μs 2.48KiB 0.0% 26.0B Bound limiter 49 1.08ms 2.4% 22.0μs 1.53KiB 0.0% 32.0B Pre process limiter 49 2.94μs 0.0% 60.0ns 0.00B 0.0% 0.00B Time Step computation 10 14.2μs 0.0% 1.42μs 0.00B 0.0% 0.00B Time step computation 9 350ns 0.0% 38.9ns 0.00B 0.0% 0.00B Cell residual 49 10.4ms 22.7% 212μs 0.00B 0.0% 0.00B Update ghost values 49 290μs 0.6% 5.91μs 0.00B 0.0% 0.00B Face residual 49 3.64ms 8.0% 74.2μs 0.00B 0.0% 0.00B Write solution 1 29.5ms 64.6% 29.5ms 5.35MiB 99.9% 5.35MiB Compute error 1 135μs 0.3% 135μs 2.31KiB 0.0% 2.31KiB ────────────────────────────────────────────────────────────────────────────────── ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 7.57s / 0.6% 425MiB / 1.3% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Write solution 1 29.5ms 64.6% 29.5ms 5.35MiB 99.9% 5.35MiB Cell residual 49 10.4ms 22.7% 212μs 0.00B 0.0% 0.00B Face residual 49 3.64ms 8.0% 74.2μs 0.00B 0.0% 0.00B Limiter 98 1.10ms 2.4% 11.2μs 2.48KiB 0.0% 26.0B Bound limiter 49 1.08ms 2.4% 22.0μs 1.53KiB 0.0% 32.0B Pre process limiter 49 2.94μs 0.0% 60.0ns 0.00B 0.0% 0.00B Cell averaging 49 640μs 1.4% 13.1μs 0.00B 0.0% 0.00B Update ghost values 49 290μs 0.6% 5.91μs 0.00B 0.0% 0.00B Compute error 1 135μs 0.3% 135μs 2.31KiB 0.0% 2.31KiB Time Step computation 10 14.2μs 0.0% 1.42μs 0.00B 0.0% 0.00B Time step computation 9 350ns 0.0% 38.9ns 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── Dict("l2_error" => 0.0048064783660410485, "energy" => 0.46102081430607295, "l1_error" => 0.0008371926868349178) [ Info: You just called `trixi_include`. Julia may now compile the code, please be patient. Making 2D uniform Cartesian grid Grid size = 8 x 8 xmin,xmax = -1.000000e+01, 1.000000e+01 ymin,ymax = -1.000000e+01, 1.000000e+01 dx, dy = 2.500000e+00, 2.500000e+00 Setting up differentiation operators Degree = 4 Sol points = gll Cor fun = g2 Number of julia threads = 1 Solving 2d Euler Equations using RKFR Setting initial condition CFL: based on stability = 0.207760 Using DifferentialEquations iter,dt,t = 0 1.4677e-01 0.0000e+00 iter,dt,t = 1 1.4680e-01 1.4677e-01 iter,dt,t = 2 1.4689e-01 2.9358e-01 iter,dt,t = 3 1.4704e-01 4.4047e-01 iter,dt,t = 4 1.4722e-01 5.8751e-01 iter,dt,t = 5 1.4746e-01 7.3473e-01 iter,dt,t = 6 1.1781e-01 8.8219e-01 iter,dt,t = 7 0.0000e+00 1.0000e+00 Wrote file output/avg000.vtr filename = "output/sol000" Wrote pointwise solution to output/sol000 Wrote final average solution to avg.vtr. Wrote output/solution_000007.h5 ┌ Warning: `Base.getindex(VA::AbstractDiffEqArray{T, N, A}, i::Int) where {T, N, A <: Union{AbstractArray, AbstractVectorOfArray}}` is deprecated, use `VA.u[i]` instead. │ caller = solve_rkfr(eq::Tenkai.EqEuler2D.Euler2D{Float64, Tenkai.EqEuler2D.var"#hll_speeds#131"}, problem::Problem{Float64, Nothing, NTuple{4, Tenkai.BCType}, typeof(Tenkai.EqEuler2D.isentropic_iv), typeof(Tenkai.EqEuler2D.zero_bv), typeof(Tenkai.EqEuler2D.isentropic_exact)}, scheme::Scheme{TrixiRKSolver{VolumeIntegralWeakForm}, typeof(get_second_node_vars), typeof(Tenkai.EqEuler2D.rusanov), @NamedTuple{name::String}, @NamedTuple{bflux_ind::Tenkai.BFluxType, compute_bflux!::typeof(Tenkai.eval_bflux4!)}, Nothing, 5, 25}, param::Parameters{Vector{Int64}, Float64}, grid::Tenkai.CartesianGrids.CartesianGrid2D{Float64}, op::@NamedTuple{degree::Int64, xg::SVector{5, Float64}, wg::SVector{5, Float64}, wg_inv::SVector{5, Float64}, Vl::SVector{5, Float64}, Vr::SVector{5, Float64}, bl::SVector{5, Float64}, br::SVector{5, Float64}, Dm::SMatrix{5, 5, Float64, 25}, DmT::SMatrix{5, 5, Float64, 25}, bV::SMatrix{5, 5, Float64, 25}, D1::SMatrix{5, 5, Float64, 25}, D1T::SMatrix{5, 5, Float64, 25}, Dsplit::SMatrix{5, 5, Float64, 25}, Vgll::SMatrix{5, 5, Float64, 25}}, aux::@NamedTuple{plot_data::Nothing, blend::@NamedTuple{subroutines::@NamedTuple{blend_cell_residual!::typeof(Tenkai.trivial_cell_residual), blend_face_residual_x!::typeof(Tenkai.trivial_face_residual), blend_face_residual_y!::typeof(Tenkai.trivial_face_residual), get_element_alpha::typeof(Tenkai.get_element_alpha_other_limiter)}, cache::@NamedTuple{dt::MVector{1, Float64}, fn_low::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}}, parameters::@NamedTuple{positivity_blending::NoPositivityBlending}, uEltype::DataType}, hierarchical::Nothing, error_file::IOStream, timer::TimerOutputs.TimerOutput, aux_cache::@NamedTuple{error_cache::@NamedTuple{xq::SVector{8, Float64}, w2d::SMatrix{8, 8, Float64, 64}, V::SMatrix{8, 5, Float64, 40}, arr_cache::SVector{1, SVector{2, MArray{Tuple{4, 8, 8}, Float64, 3, 256}}}}, bound_limiter_cache::SVector{1, SVector{4, MMatrix{4, 5, Float64, 20}}}}}, cache::@NamedTuple{u0::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}, u1::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}, ua::OffsetArrays.OffsetArray{Float64, 3, Array{Float64, 3}}, res::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}, Fb::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}, ub::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}, trixi_ode::SciMLBase.ODEProblem{Vector{Float64}, Tuple{Float64, Float64}, true, Trixi.SemidiscretizationHyperbolic{Trixi.TreeMesh{2, Trixi.SerialTree{2, Float64}, Float64}, Trixi.CompressibleEulerEquations2D{Float64}, Tenkai.var"#initial_condition#tenkai2trixiode##1"{Problem{Float64, Nothing, NTuple{4, Tenkai.BCType}, typeof(Tenkai.EqEuler2D.isentropic_iv), typeof(Tenkai.EqEuler2D.zero_bv), typeof(Tenkai.EqEuler2D.isentropic_exact)}}, Trixi.BoundaryConditionPeriodic, Nothing, Trixi.DGSEM{Trixi.LobattoLegendreBasis{Float64, 5, SVector{5, Float64}, Matrix{Float64}, Matrix{Float64}, Matrix{Float64}}, Trixi.LobattoLegendreMortarL2{Float64, 5, Matrix{Float64}, Matrix{Float64}}, Trixi.SurfaceIntegralWeakForm{Trixi.FluxLaxFriedrichs{typeof(Trixi.max_abs_speed)}}, Trixi.VolumeIntegralShockCapturingHG{typeof(Trixi.flux_central), Trixi.FluxLaxFriedrichs{typeof(Trixi.max_abs_speed)}, Nothing}}, @NamedTuple{elements::Trixi.TreeElementContainer2D{Float64, Float64}, interfaces::Trixi.TreeInterfaceContainer2D{Float64}, boundaries::Trixi.TreeBoundaryContainer2D{Float64, Float64}, mortars::Trixi.TreeL2MortarContainer2D{Float64}, fstar1_L_threaded::Vector{Array{Float64, 3}}, fstar1_R_threaded::Vector{Array{Float64, 3}}, fstar2_L_threaded::Vector{Array{Float64, 3}}, fstar2_R_threaded::Vector{Array{Float64, 3}}, fstar_primary_upper_threaded::Vector{MMatrix{4, 5, Float64, 20}}, fstar_primary_lower_threaded::Vector{MMatrix{4, 5, Float64, 20}}, fstar_secondary_upper_threaded::Vector{MMatrix{4, 5, Float64, 20}}, fstar_secondary_lower_threaded::Vector{MMatrix{4, 5, Float64, 20}}}}, SciMLBase.ODEFunction{true, SciMLBase.FullSpecialize, typeof(Trixi.rhs!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, Nothing, Nothing, Nothing}, Base.Pairs{Symbol, Union{}, Nothing, @NamedTuple{}}, SciMLBase.StandardODEProblem}}) at RKFR.jl:413 └ @ Core ~/.julia/packages/Tenkai/IQyy6/src/solvers/RK/RKFR.jl:413 ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 22.5s / 0.1% 468MiB / 1.2% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Cell averaging 36 1.28ms 3.9% 35.5μs 0.00B 0.0% 0.00B Limiter 71 16.6μs 0.1% 234ns 672B 0.0% 9.46B Pre process limiter 35 2.68μs 0.0% 76.6ns 0.00B 0.0% 0.00B Time Step computation 9 32.8μs 0.1% 3.64μs 0.00B 0.0% 0.00B Time step computation 8 270ns 0.0% 33.8ns 0.00B 0.0% 0.00B Cell residual 35 15.5ms 46.7% 442μs 0.00B 0.0% 0.00B Update ghost values 35 327μs 1.0% 9.33μs 0.00B 0.0% 0.00B Face residual 35 6.17ms 18.6% 176μs 0.00B 0.0% 0.00B Write solution 1 9.59ms 28.9% 9.59ms 5.49MiB 99.9% 5.49MiB Compute error 1 251μs 0.8% 251μs 2.31KiB 0.0% 2.31KiB ────────────────────────────────────────────────────────────────────────────────── ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 22.5s / 0.1% 468MiB / 1.2% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Cell residual 35 15.5ms 46.7% 442μs 0.00B 0.0% 0.00B Write solution 1 9.59ms 28.9% 9.59ms 5.49MiB 99.9% 5.49MiB Face residual 35 6.17ms 18.6% 176μs 0.00B 0.0% 0.00B Cell averaging 36 1.28ms 3.9% 35.5μs 0.00B 0.0% 0.00B Update ghost values 35 327μs 1.0% 9.33μs 0.00B 0.0% 0.00B Compute error 1 251μs 0.8% 251μs 2.31KiB 0.0% 2.31KiB Time Step computation 9 32.8μs 0.1% 3.64μs 0.00B 0.0% 0.00B Limiter 71 16.6μs 0.1% 234ns 672B 0.0% 9.46B Pre process limiter 35 2.68μs 0.0% 76.6ns 0.00B 0.0% 0.00B Time step computation 8 270ns 0.0% 33.8ns 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── Dict("l2_error" => 0.0052344786243845014, "energy" => 0.4604739184918031, "l1_error" => 0.0008810442724177947) [ Info: You just called `trixi_include`. Julia may now compile the code, please be patient. Making 2D uniform Cartesian grid Grid size = 8 x 8 xmin,xmax = -1.000000e+01, 1.000000e+01 ymin,ymax = -1.000000e+01, 1.000000e+01 dx, dy = 2.500000e+00, 2.500000e+00 Setting up differentiation operators Degree = 4 Sol points = gll Cor fun = g2 Number of julia threads = 1 Solving 2d Euler Equations using RKFR Setting initial condition CFL: based on stability = 0.207760 Using DifferentialEquations iter,dt,t = 0 1.4677e-01 0.0000e+00 iter,dt,t = 1 1.4680e-01 1.4677e-01 iter,dt,t = 2 1.4689e-01 2.9358e-01 iter,dt,t = 3 1.4703e-01 4.4047e-01 iter,dt,t = 4 1.4722e-01 5.8750e-01 iter,dt,t = 5 1.4746e-01 7.3473e-01 iter,dt,t = 6 1.1781e-01 8.8219e-01 iter,dt,t = 7 0.0000e+00 1.0000e+00 Wrote file output/avg000.vtr filename = "output/sol000" Wrote pointwise solution to output/sol000 Wrote final average solution to avg.vtr. Wrote output/solution_000007.h5 ┌ Warning: `Base.getindex(VA::AbstractDiffEqArray{T, N, A}, i::Int) where {T, N, A <: Union{AbstractArray, AbstractVectorOfArray}}` is deprecated, use `VA.u[i]` instead. │ caller = solve_rkfr(eq::Tenkai.EqEuler2D.Euler2D{Float64, Tenkai.EqEuler2D.var"#hll_speeds#131"}, problem::Problem{Float64, Nothing, NTuple{4, Tenkai.BCType}, typeof(Tenkai.EqEuler2D.isentropic_iv), typeof(Tenkai.EqEuler2D.zero_bv), typeof(Tenkai.EqEuler2D.isentropic_exact)}, scheme::Scheme{TrixiRKSolver{VolumeIntegralFluxDifferencing{typeof(Trixi.flux_ranocha)}}, typeof(get_second_node_vars), typeof(Tenkai.EqEuler2D.rusanov), @NamedTuple{name::String}, @NamedTuple{bflux_ind::Tenkai.BFluxType, compute_bflux!::typeof(Tenkai.eval_bflux4!)}, Nothing, 5, 25}, param::Parameters{Vector{Int64}, Float64}, grid::Tenkai.CartesianGrids.CartesianGrid2D{Float64}, op::@NamedTuple{degree::Int64, xg::SVector{5, Float64}, wg::SVector{5, Float64}, wg_inv::SVector{5, Float64}, Vl::SVector{5, Float64}, Vr::SVector{5, Float64}, bl::SVector{5, Float64}, br::SVector{5, Float64}, Dm::SMatrix{5, 5, Float64, 25}, DmT::SMatrix{5, 5, Float64, 25}, bV::SMatrix{5, 5, Float64, 25}, D1::SMatrix{5, 5, Float64, 25}, D1T::SMatrix{5, 5, Float64, 25}, Dsplit::SMatrix{5, 5, Float64, 25}, Vgll::SMatrix{5, 5, Float64, 25}}, aux::@NamedTuple{plot_data::Nothing, blend::@NamedTuple{subroutines::@NamedTuple{blend_cell_residual!::typeof(Tenkai.trivial_cell_residual), blend_face_residual_x!::typeof(Tenkai.trivial_face_residual), blend_face_residual_y!::typeof(Tenkai.trivial_face_residual), get_element_alpha::typeof(Tenkai.get_element_alpha_other_limiter)}, cache::@NamedTuple{dt::MVector{1, Float64}, fn_low::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}}, parameters::@NamedTuple{positivity_blending::NoPositivityBlending}, uEltype::DataType}, hierarchical::Nothing, error_file::IOStream, timer::TimerOutputs.TimerOutput, aux_cache::@NamedTuple{error_cache::@NamedTuple{xq::SVector{8, Float64}, w2d::SMatrix{8, 8, Float64, 64}, V::SMatrix{8, 5, Float64, 40}, arr_cache::SVector{1, SVector{2, MArray{Tuple{4, 8, 8}, Float64, 3, 256}}}}, bound_limiter_cache::SVector{1, SVector{4, MMatrix{4, 5, Float64, 20}}}}}, cache::@NamedTuple{u0::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}, u1::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}, ua::OffsetArrays.OffsetArray{Float64, 3, Array{Float64, 3}}, res::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}, Fb::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}, ub::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}, trixi_ode::SciMLBase.ODEProblem{Vector{Float64}, Tuple{Float64, Float64}, true, Trixi.SemidiscretizationHyperbolic{Trixi.TreeMesh{2, Trixi.SerialTree{2, Float64}, Float64}, Trixi.CompressibleEulerEquations2D{Float64}, Tenkai.var"#initial_condition#tenkai2trixiode##1"{Problem{Float64, Nothing, NTuple{4, Tenkai.BCType}, typeof(Tenkai.EqEuler2D.isentropic_iv), typeof(Tenkai.EqEuler2D.zero_bv), typeof(Tenkai.EqEuler2D.isentropic_exact)}}, Trixi.BoundaryConditionPeriodic, Nothing, Trixi.DGSEM{Trixi.LobattoLegendreBasis{Float64, 5, SVector{5, Float64}, Matrix{Float64}, Matrix{Float64}, Matrix{Float64}}, Trixi.LobattoLegendreMortarL2{Float64, 5, Matrix{Float64}, Matrix{Float64}}, Trixi.SurfaceIntegralWeakForm{Trixi.FluxLaxFriedrichs{typeof(Trixi.max_abs_speed)}}, Trixi.VolumeIntegralShockCapturingHG{typeof(Trixi.flux_central), Trixi.FluxLaxFriedrichs{typeof(Trixi.max_abs_speed)}, Nothing}}, @NamedTuple{elements::Trixi.TreeElementContainer2D{Float64, Float64}, interfaces::Trixi.TreeInterfaceContainer2D{Float64}, boundaries::Trixi.TreeBoundaryContainer2D{Float64, Float64}, mortars::Trixi.TreeL2MortarContainer2D{Float64}, fstar1_L_threaded::Vector{Array{Float64, 3}}, fstar1_R_threaded::Vector{Array{Float64, 3}}, fstar2_L_threaded::Vector{Array{Float64, 3}}, fstar2_R_threaded::Vector{Array{Float64, 3}}, fstar_primary_upper_threaded::Vector{MMatrix{4, 5, Float64, 20}}, fstar_primary_lower_threaded::Vector{MMatrix{4, 5, Float64, 20}}, fstar_secondary_upper_threaded::Vector{MMatrix{4, 5, Float64, 20}}, fstar_secondary_lower_threaded::Vector{MMatrix{4, 5, Float64, 20}}}}, SciMLBase.ODEFunction{true, SciMLBase.FullSpecialize, typeof(Trixi.rhs!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, Nothing, Nothing, Nothing}, Base.Pairs{Symbol, Union{}, Nothing, @NamedTuple{}}, SciMLBase.StandardODEProblem}}) at RKFR.jl:413 └ @ Core ~/.julia/packages/Tenkai/IQyy6/src/solvers/RK/RKFR.jl:413 ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 22.6s / 0.2% 433MiB / 1.3% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Cell averaging 36 1.17ms 2.8% 32.5μs 0.00B 0.0% 0.00B Limiter 71 18.4μs 0.0% 258ns 672B 0.0% 9.46B Pre process limiter 35 5.65μs 0.0% 161ns 0.00B 0.0% 0.00B Time Step computation 9 32.6μs 0.1% 3.62μs 0.00B 0.0% 0.00B Time step computation 8 930ns 0.0% 116ns 0.00B 0.0% 0.00B Cell residual 35 24.2ms 57.3% 690μs 0.00B 0.0% 0.00B Update ghost values 35 331μs 0.8% 9.45μs 0.00B 0.0% 0.00B Face residual 35 6.11ms 14.5% 175μs 0.00B 0.0% 0.00B Write solution 1 10.1ms 23.9% 10.1ms 5.49MiB 99.9% 5.49MiB Compute error 1 258μs 0.6% 258μs 2.31KiB 0.0% 2.31KiB ────────────────────────────────────────────────────────────────────────────────── ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 22.6s / 0.2% 433MiB / 1.3% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Cell residual 35 24.2ms 57.3% 690μs 0.00B 0.0% 0.00B Write solution 1 10.1ms 23.9% 10.1ms 5.49MiB 99.9% 5.49MiB Face residual 35 6.11ms 14.5% 175μs 0.00B 0.0% 0.00B Cell averaging 36 1.17ms 2.8% 32.5μs 0.00B 0.0% 0.00B Update ghost values 35 331μs 0.8% 9.45μs 0.00B 0.0% 0.00B Compute error 1 258μs 0.6% 258μs 2.31KiB 0.0% 2.31KiB Time Step computation 9 32.6μs 0.1% 3.62μs 0.00B 0.0% 0.00B Limiter 71 18.4μs 0.0% 258ns 672B 0.0% 9.46B Pre process limiter 35 5.65μs 0.0% 161ns 0.00B 0.0% 0.00B Time step computation 8 930ns 0.0% 116ns 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── Dict("l2_error" => 0.002514554654372448, "energy" => 0.4604296175900568, "l1_error" => 0.00040962758009206577) Test Summary: | Pass Total Time Isentropic 2D | 39 39 13m46.3s [ Info: You just called `trixi_include`. Julia may now compile the code, please be patient. Making 2D uniform Cartesian grid Grid size = 5 x 5 xmin,xmax = 0.000000e+00, 1.000000e+00 ymin,ymax = 0.000000e+00, 1.000000e+00 dx, dy = 2.000000e-01, 2.000000e-01 Setting up differentiation operators Degree = 3 Sol points = gl Cor fun = radau Number of julia threads = 1 Solving Ten moment problem using MDRK Setting initial condition Wrote file output/avg000.vtr filename = "output/sol000" Wrote pointwise solution to output/sol000 CFL: based on stability = 0.104860 Starting time stepping iter,dt,t = 1 3.4094e-03 3.4094e-03 iter,dt,t = 2 3.4061e-03 6.8155e-03 iter,dt,t = 3 3.4042e-03 1.0220e-02 iter,dt,t = 4 3.4038e-03 1.3623e-02 iter,dt,t = 5 3.4047e-03 1.7028e-02 iter,dt,t = 6 3.4071e-03 2.0435e-02 iter,dt,t = 7 3.4108e-03 2.3846e-02 iter,dt,t = 8 3.4159e-03 2.7262e-02 iter,dt,t = 9 3.4222e-03 3.0684e-02 iter,dt,t = 10 3.4297e-03 3.4114e-02 iter,dt,t = 11 3.4330e-03 3.7547e-02 iter,dt,t = 12 3.4194e-03 4.0966e-02 iter,dt,t = 13 3.4069e-03 4.4373e-02 iter,dt,t = 14 3.3955e-03 4.7769e-02 iter,dt,t = 15 3.3854e-03 5.1154e-02 iter,dt,t = 16 3.3766e-03 5.4531e-02 iter,dt,t = 17 3.3692e-03 5.7900e-02 iter,dt,t = 18 3.3631e-03 6.1263e-02 iter,dt,t = 19 3.3585e-03 6.4621e-02 iter,dt,t = 20 3.3554e-03 6.7977e-02 iter,dt,t = 21 3.3538e-03 7.1331e-02 iter,dt,t = 22 3.3536e-03 7.4684e-02 iter,dt,t = 23 3.3550e-03 7.8039e-02 iter,dt,t = 24 3.3578e-03 8.1397e-02 iter,dt,t = 25 3.3620e-03 8.4759e-02 iter,dt,t = 26 3.3677e-03 8.8127e-02 iter,dt,t = 27 3.3748e-03 9.1502e-02 iter,dt,t = 28 3.3831e-03 9.4885e-02 iter,dt,t = 29 3.3927e-03 9.8277e-02 iter,dt,t = 30 3.4035e-03 1.0168e-01 iter,dt,t = 31 3.4036e-03 1.0508e-01 iter,dt,t = 32 3.3928e-03 1.0848e-01 iter,dt,t = 33 3.3832e-03 1.1186e-01 iter,dt,t = 34 3.3748e-03 1.1524e-01 iter,dt,t = 35 3.3677e-03 1.1860e-01 iter,dt,t = 36 3.3621e-03 1.2197e-01 iter,dt,t = 37 3.3578e-03 1.2532e-01 iter,dt,t = 38 3.3550e-03 1.2868e-01 iter,dt,t = 39 3.3537e-03 1.3203e-01 iter,dt,t = 40 3.3538e-03 1.3539e-01 iter,dt,t = 41 3.3555e-03 1.3874e-01 iter,dt,t = 42 3.3586e-03 1.4210e-01 iter,dt,t = 43 3.3632e-03 1.4546e-01 iter,dt,t = 44 3.3692e-03 1.4883e-01 iter,dt,t = 45 3.3766e-03 1.5221e-01 iter,dt,t = 46 3.3854e-03 1.5559e-01 iter,dt,t = 47 3.3955e-03 1.5899e-01 iter,dt,t = 48 3.4068e-03 1.6240e-01 iter,dt,t = 49 3.4192e-03 1.6582e-01 iter,dt,t = 50 3.4328e-03 1.6925e-01 iter,dt,t = 51 3.4299e-03 1.7268e-01 iter,dt,t = 52 3.4223e-03 1.7610e-01 iter,dt,t = 53 3.4160e-03 1.7952e-01 iter,dt,t = 54 3.4109e-03 1.8293e-01 iter,dt,t = 55 3.4072e-03 1.8633e-01 iter,dt,t = 56 3.4048e-03 1.8974e-01 iter,dt,t = 57 3.4038e-03 1.9314e-01 iter,dt,t = 58 3.4043e-03 1.9655e-01 iter,dt,t = 59 3.4061e-03 1.9995e-01 iter,dt,t = 60 3.4093e-03 2.0336e-01 iter,dt,t = 61 3.4062e-03 2.0677e-01 iter,dt,t = 62 3.4043e-03 2.1017e-01 iter,dt,t = 63 3.4038e-03 2.1358e-01 iter,dt,t = 64 3.4048e-03 2.1698e-01 iter,dt,t = 65 3.4071e-03 2.2039e-01 iter,dt,t = 66 3.4108e-03 2.2380e-01 iter,dt,t = 67 3.4158e-03 2.2722e-01 iter,dt,t = 68 3.4221e-03 2.3064e-01 iter,dt,t = 69 3.4296e-03 2.3407e-01 iter,dt,t = 70 3.4333e-03 2.3750e-01 iter,dt,t = 71 3.4196e-03 2.4092e-01 iter,dt,t = 72 3.4071e-03 2.4433e-01 iter,dt,t = 73 3.3957e-03 2.4772e-01 iter,dt,t = 74 3.3856e-03 2.5111e-01 iter,dt,t = 75 3.3767e-03 2.5449e-01 iter,dt,t = 76 3.3693e-03 2.5785e-01 iter,dt,t = 77 3.3632e-03 2.6122e-01 iter,dt,t = 78 3.3586e-03 2.6458e-01 iter,dt,t = 79 3.3555e-03 2.6793e-01 iter,dt,t = 80 3.3538e-03 2.7129e-01 iter,dt,t = 81 3.3536e-03 2.7464e-01 iter,dt,t = 82 3.3550e-03 2.7799e-01 iter,dt,t = 83 3.3578e-03 2.8135e-01 iter,dt,t = 84 3.3620e-03 2.8471e-01 iter,dt,t = 85 3.3676e-03 2.8808e-01 iter,dt,t = 86 3.3747e-03 2.9146e-01 iter,dt,t = 87 3.3830e-03 2.9484e-01 iter,dt,t = 88 3.3926e-03 2.9823e-01 iter,dt,t = 89 3.4034e-03 3.0164e-01 iter,dt,t = 90 3.4038e-03 3.0504e-01 iter,dt,t = 91 3.3930e-03 3.0843e-01 iter,dt,t = 92 3.3833e-03 3.1182e-01 iter,dt,t = 93 3.3749e-03 3.1519e-01 iter,dt,t = 94 3.3678e-03 3.1856e-01 iter,dt,t = 95 3.3622e-03 3.2192e-01 iter,dt,t = 96 3.3579e-03 3.2528e-01 iter,dt,t = 97 3.3550e-03 3.2863e-01 iter,dt,t = 98 3.3537e-03 3.3199e-01 iter,dt,t = 99 3.3538e-03 3.3534e-01 iter,dt,t = 100 3.3554e-03 3.3870e-01 iter,dt,t = 101 3.3585e-03 3.4205e-01 iter,dt,t = 102 3.3631e-03 3.4542e-01 iter,dt,t = 103 3.3691e-03 3.4879e-01 iter,dt,t = 104 3.3765e-03 3.5216e-01 iter,dt,t = 105 3.3852e-03 3.5555e-01 iter,dt,t = 106 3.3953e-03 3.5894e-01 iter,dt,t = 107 3.4066e-03 3.6235e-01 iter,dt,t = 108 3.4190e-03 3.6577e-01 iter,dt,t = 109 3.4326e-03 3.6920e-01 iter,dt,t = 110 3.4300e-03 3.7263e-01 iter,dt,t = 111 3.4225e-03 3.7605e-01 iter,dt,t = 112 3.4161e-03 3.7947e-01 iter,dt,t = 113 3.4110e-03 3.8288e-01 iter,dt,t = 114 3.4073e-03 3.8629e-01 iter,dt,t = 115 3.4049e-03 3.8969e-01 iter,dt,t = 116 3.4039e-03 3.9310e-01 iter,dt,t = 117 3.4043e-03 3.9650e-01 iter,dt,t = 118 3.4061e-03 3.9991e-01 iter,dt,t = 119 3.4093e-03 4.0332e-01 iter,dt,t = 120 3.4062e-03 4.0672e-01 iter,dt,t = 121 3.4043e-03 4.1013e-01 iter,dt,t = 122 3.4039e-03 4.1353e-01 iter,dt,t = 123 3.4048e-03 4.1694e-01 iter,dt,t = 124 3.4071e-03 4.2034e-01 iter,dt,t = 125 3.4108e-03 4.2375e-01 iter,dt,t = 126 3.4158e-03 4.2717e-01 iter,dt,t = 127 3.4221e-03 4.3059e-01 iter,dt,t = 128 3.4295e-03 4.3402e-01 iter,dt,t = 129 3.4335e-03 4.3746e-01 iter,dt,t = 130 3.4199e-03 4.4088e-01 iter,dt,t = 131 3.4073e-03 4.4428e-01 iter,dt,t = 132 3.3959e-03 4.4768e-01 iter,dt,t = 133 3.3857e-03 4.5106e-01 iter,dt,t = 134 3.3769e-03 4.5444e-01 iter,dt,t = 135 3.3694e-03 4.5781e-01 iter,dt,t = 136 3.3633e-03 4.6117e-01 iter,dt,t = 137 3.3587e-03 4.6453e-01 iter,dt,t = 138 3.3555e-03 4.6789e-01 iter,dt,t = 139 3.3539e-03 4.7124e-01 iter,dt,t = 140 3.3537e-03 4.7460e-01 iter,dt,t = 141 3.3550e-03 4.7795e-01 iter,dt,t = 142 3.3577e-03 4.8131e-01 iter,dt,t = 143 3.3619e-03 4.8467e-01 iter,dt,t = 144 3.3676e-03 4.8804e-01 iter,dt,t = 145 3.3746e-03 4.9141e-01 iter,dt,t = 146 3.3829e-03 4.9480e-01 iter,dt,t = 147 3.3925e-03 4.9819e-01 iter,dt,t = 148 3.4032e-03 5.0159e-01 iter,dt,t = 149 3.4040e-03 5.0500e-01 iter,dt,t = 150 3.3932e-03 5.0839e-01 iter,dt,t = 151 3.3835e-03 5.1177e-01 iter,dt,t = 152 3.3751e-03 5.1515e-01 iter,dt,t = 153 3.3680e-03 5.1851e-01 iter,dt,t = 154 3.3622e-03 5.2188e-01 iter,dt,t = 155 3.3579e-03 5.2523e-01 iter,dt,t = 156 3.3551e-03 5.2859e-01 iter,dt,t = 157 3.3537e-03 5.3194e-01 iter,dt,t = 158 3.3538e-03 5.3530e-01 iter,dt,t = 159 3.3554e-03 5.3865e-01 iter,dt,t = 160 3.3585e-03 5.4201e-01 iter,dt,t = 161 3.3630e-03 5.4537e-01 iter,dt,t = 162 3.3690e-03 5.4874e-01 iter,dt,t = 163 3.3764e-03 5.5212e-01 iter,dt,t = 164 3.3851e-03 5.5551e-01 iter,dt,t = 165 3.3952e-03 5.5890e-01 iter,dt,t = 166 3.4064e-03 5.6231e-01 iter,dt,t = 167 3.4189e-03 5.6573e-01 iter,dt,t = 168 3.4324e-03 5.6916e-01 iter,dt,t = 169 3.4302e-03 5.7259e-01 iter,dt,t = 170 3.4226e-03 5.7601e-01 iter,dt,t = 171 3.4162e-03 5.7943e-01 iter,dt,t = 172 3.4111e-03 5.8284e-01 iter,dt,t = 173 3.4073e-03 5.8625e-01 iter,dt,t = 174 3.4049e-03 5.8965e-01 iter,dt,t = 175 3.4039e-03 5.9305e-01 iter,dt,t = 176 3.4043e-03 5.9646e-01 iter,dt,t = 177 3.4061e-03 5.9986e-01 iter,dt,t = 178 3.4093e-03 6.0327e-01 iter,dt,t = 179 3.4063e-03 6.0668e-01 iter,dt,t = 180 3.4044e-03 6.1008e-01 iter,dt,t = 181 3.4039e-03 6.1349e-01 iter,dt,t = 182 3.4048e-03 6.1689e-01 iter,dt,t = 183 3.4071e-03 6.2030e-01 iter,dt,t = 184 3.4108e-03 6.2371e-01 iter,dt,t = 185 3.4157e-03 6.2713e-01 iter,dt,t = 186 3.4220e-03 6.3055e-01 iter,dt,t = 187 3.4294e-03 6.3398e-01 iter,dt,t = 188 3.4338e-03 6.3741e-01 iter,dt,t = 189 3.4201e-03 6.4083e-01 iter,dt,t = 190 3.4075e-03 6.4424e-01 iter,dt,t = 191 3.3961e-03 6.4764e-01 iter,dt,t = 192 3.3859e-03 6.5102e-01 iter,dt,t = 193 3.3770e-03 6.5440e-01 iter,dt,t = 194 3.3695e-03 6.5777e-01 iter,dt,t = 195 3.3634e-03 6.6113e-01 iter,dt,t = 196 3.3588e-03 6.6449e-01 iter,dt,t = 197 3.3556e-03 6.6785e-01 iter,dt,t = 198 3.3539e-03 6.7120e-01 iter,dt,t = 199 3.3537e-03 6.7455e-01 iter,dt,t = 200 3.3550e-03 6.7791e-01 iter,dt,t = 201 3.3577e-03 6.8127e-01 iter,dt,t = 202 3.3619e-03 6.8463e-01 iter,dt,t = 203 3.3675e-03 6.8800e-01 iter,dt,t = 204 3.3745e-03 6.9137e-01 iter,dt,t = 205 3.3828e-03 6.9475e-01 iter,dt,t = 206 3.3923e-03 6.9815e-01 iter,dt,t = 207 3.4031e-03 7.0155e-01 iter,dt,t = 208 3.4042e-03 7.0495e-01 iter,dt,t = 209 3.3933e-03 7.0835e-01 iter,dt,t = 210 3.3836e-03 7.1173e-01 iter,dt,t = 211 3.3752e-03 7.1510e-01 iter,dt,t = 212 3.3681e-03 7.1847e-01 iter,dt,t = 213 3.3623e-03 7.2183e-01 iter,dt,t = 214 3.3580e-03 7.2519e-01 iter,dt,t = 215 3.3551e-03 7.2855e-01 iter,dt,t = 216 3.3537e-03 7.3190e-01 iter,dt,t = 217 3.3538e-03 7.3526e-01 iter,dt,t = 218 3.3554e-03 7.3861e-01 iter,dt,t = 219 3.3585e-03 7.4197e-01 iter,dt,t = 220 3.3630e-03 7.4533e-01 iter,dt,t = 221 3.3689e-03 7.4870e-01 iter,dt,t = 222 3.3763e-03 7.5208e-01 iter,dt,t = 223 3.3850e-03 7.5546e-01 iter,dt,t = 224 3.3950e-03 7.5886e-01 iter,dt,t = 225 3.4063e-03 7.6226e-01 iter,dt,t = 226 3.4187e-03 7.6568e-01 iter,dt,t = 227 3.4322e-03 7.6911e-01 iter,dt,t = 228 3.4303e-03 7.7255e-01 iter,dt,t = 229 3.4227e-03 7.7597e-01 iter,dt,t = 230 3.4163e-03 7.7938e-01 iter,dt,t = 231 3.4112e-03 7.8280e-01 iter,dt,t = 232 3.4074e-03 7.8620e-01 iter,dt,t = 233 3.4050e-03 7.8961e-01 iter,dt,t = 234 3.4039e-03 7.9301e-01 iter,dt,t = 235 3.4043e-03 7.9642e-01 iter,dt,t = 236 3.4061e-03 7.9982e-01 iter,dt,t = 237 3.4093e-03 8.0323e-01 iter,dt,t = 238 3.4064e-03 8.0664e-01 iter,dt,t = 239 3.4044e-03 8.1004e-01 iter,dt,t = 240 3.4039e-03 8.1345e-01 iter,dt,t = 241 3.4048e-03 8.1685e-01 iter,dt,t = 242 3.4071e-03 8.2026e-01 iter,dt,t = 243 3.4107e-03 8.2367e-01 iter,dt,t = 244 3.4157e-03 8.2708e-01 iter,dt,t = 245 3.4219e-03 8.3051e-01 iter,dt,t = 246 3.4293e-03 8.3394e-01 iter,dt,t = 247 3.4340e-03 8.3737e-01 iter,dt,t = 248 3.4203e-03 8.4079e-01 iter,dt,t = 249 3.4077e-03 8.4420e-01 iter,dt,t = 250 3.3962e-03 8.4759e-01 iter,dt,t = 251 3.3861e-03 8.5098e-01 iter,dt,t = 252 3.3772e-03 8.5436e-01 iter,dt,t = 253 3.3697e-03 8.5773e-01 iter,dt,t = 254 3.3635e-03 8.6109e-01 iter,dt,t = 255 3.3589e-03 8.6445e-01 iter,dt,t = 256 3.3557e-03 8.6780e-01 iter,dt,t = 257 3.3539e-03 8.7116e-01 iter,dt,t = 258 3.3537e-03 8.7451e-01 iter,dt,t = 259 3.3550e-03 8.7787e-01 iter,dt,t = 260 3.3577e-03 8.8123e-01 iter,dt,t = 261 3.3619e-03 8.8459e-01 iter,dt,t = 262 3.3674e-03 8.8795e-01 iter,dt,t = 263 3.3744e-03 8.9133e-01 iter,dt,t = 264 3.3827e-03 8.9471e-01 iter,dt,t = 265 3.3922e-03 8.9810e-01 iter,dt,t = 266 3.4029e-03 9.0151e-01 iter,dt,t = 267 3.4044e-03 9.0491e-01 iter,dt,t = 268 3.3935e-03 9.0830e-01 iter,dt,t = 269 3.3838e-03 9.1169e-01 iter,dt,t = 270 3.3753e-03 9.1506e-01 iter,dt,t = 271 3.3682e-03 9.1843e-01 iter,dt,t = 272 3.3624e-03 9.2179e-01 iter,dt,t = 273 3.3581e-03 9.2515e-01 iter,dt,t = 274 3.3552e-03 9.2851e-01 iter,dt,t = 275 3.3538e-03 9.3186e-01 iter,dt,t = 276 3.3538e-03 9.3522e-01 iter,dt,t = 277 3.3554e-03 9.3857e-01 iter,dt,t = 278 3.3584e-03 9.4193e-01 iter,dt,t = 279 3.3629e-03 9.4529e-01 iter,dt,t = 280 3.3689e-03 9.4866e-01 iter,dt,t = 281 3.3762e-03 9.5204e-01 iter,dt,t = 282 3.3849e-03 9.5542e-01 iter,dt,t = 283 3.3949e-03 9.5882e-01 iter,dt,t = 284 3.4061e-03 9.6222e-01 iter,dt,t = 285 3.4186e-03 9.6564e-01 iter,dt,t = 286 3.4321e-03 9.6907e-01 iter,dt,t = 287 3.4304e-03 9.7250e-01 iter,dt,t = 288 3.4228e-03 9.7593e-01 iter,dt,t = 289 3.4164e-03 9.7934e-01 iter,dt,t = 290 3.4113e-03 9.8275e-01 iter,dt,t = 291 3.4075e-03 9.8616e-01 iter,dt,t = 292 3.4050e-03 9.8957e-01 iter,dt,t = 293 3.4040e-03 9.9297e-01 iter,dt,t = 294 3.4043e-03 9.9638e-01 iter,dt,t = 295 3.4061e-03 9.9978e-01 iter,dt,t = 296 2.1871e-04 1.0000e+00 Wrote file output/avg001.vtr filename = "output/sol001" Wrote pointwise solution to output/sol001 Wrote final average solution to avg.vtr. ──────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 145s / 0.3% 1.17GiB / 1.5% Section ncalls time %tot avg alloc %tot avg ──────────────────────────────────────────────────────────────────────────────────── Cell averaging 1 19.1μs 0.0% 19.1μs 0.00B 0.0% 0.00B Limiter 1 4.63μs 0.0% 4.63μs 0.00B 0.0% 0.00B Write solution 2 259ms 57.8% 129ms 17.3MiB 97.2% 8.66MiB Compute error 2 9.78ms 2.2% 4.89ms 508KiB 2.8% 254KiB Time Step computation 296 306μs 0.1% 1.03μs 0.00B 0.0% 0.00B Time step computation 296 9.00μs 0.0% 30.4ns 0.00B 0.0% 0.00B MDRK Stages 592 179ms 40.0% 303μs 2.80KiB 0.0% 4.84B Limiter 1.18k 130μs 0.0% 110ns 672B 0.0% 0.57B Pre process limiter 592 28.5μs 0.0% 48.1ns 0.00B 0.0% 0.00B Cell Residual 592 121ms 26.9% 204μs 0.00B 0.0% 0.00B Update ghost values 592 4.54ms 1.0% 7.67μs 0.00B 0.0% 0.00B Face residual 592 38.8ms 8.7% 65.5μs 0.00B 0.0% 0.00B Update solution 592 5.03ms 1.1% 8.50μs 0.00B 0.0% 0.00B Cell averaging 592 7.86ms 1.8% 13.3μs 0.00B 0.0% 0.00B ──────────────────────────────────────────────────────────────────────────────────── ──────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 145s / 0.3% 1.17GiB / 1.5% Section ncalls time %tot avg alloc %tot avg ──────────────────────────────────────────────────────────────────────────────────── Write solution 2 259ms 57.8% 129ms 17.3MiB 97.2% 8.66MiB MDRK Stages 592 179ms 40.0% 303μs 2.80KiB 0.0% 4.84B Cell Residual 592 121ms 26.9% 204μs 0.00B 0.0% 0.00B Face residual 592 38.8ms 8.7% 65.5μs 0.00B 0.0% 0.00B Cell averaging 592 7.86ms 1.8% 13.3μs 0.00B 0.0% 0.00B Update solution 592 5.03ms 1.1% 8.50μs 0.00B 0.0% 0.00B Update ghost values 592 4.54ms 1.0% 7.67μs 0.00B 0.0% 0.00B Limiter 1.18k 130μs 0.0% 110ns 672B 0.0% 0.57B Pre process limiter 592 28.5μs 0.0% 48.1ns 0.00B 0.0% 0.00B Compute error 2 9.78ms 2.2% 4.89ms 508KiB 2.8% 254KiB Time Step computation 296 306μs 0.1% 1.03μs 0.00B 0.0% 0.00B Cell averaging 1 19.1μs 0.0% 19.1μs 0.00B 0.0% 0.00B Time step computation 296 9.00μs 0.0% 30.4ns 0.00B 0.0% 0.00B Limiter 1 4.63μs 0.0% 4.63μs 0.00B 0.0% 0.00B ──────────────────────────────────────────────────────────────────────────────────── Dict("l2_error" => 0.0002037848023700832, "energy" => 1.5529436887588166, "l1_error" => 9.480439442666281e-5) [ Info: You just called `trixi_include`. Julia may now compile the code, please be patient. WARNING: Method definition dummy_bv(Any, Any) in module Main at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_dwave.jl:22 overwritten at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_near_vacuum.jl:36. Making 2D uniform Cartesian grid Grid size = 5 x 5 xmin,xmax = -1.000000e+00, 1.000000e+00 ymin,ymax = -1.000000e+00, 1.000000e+00 dx, dy = 4.000000e-01, 4.000000e-01 Setting up differentiation operators Degree = 3 Sol points = gl Cor fun = radau Number of julia threads = 1 Solving Ten moment problem using MDRK Setting initial condition Wrote file output/avg000.vtr filename = "output/sol000" Wrote pointwise solution to output/sol000 CFL: based on stability = 0.026750 Starting time stepping iter,dt,t = 1 5.3770e-04 5.3770e-04 iter,dt,t = 2 5.3922e-04 1.0769e-03 iter,dt,t = 3 5.4077e-04 1.6177e-03 iter,dt,t = 4 5.4236e-04 2.1600e-03 iter,dt,t = 5 5.4397e-04 2.7040e-03 iter,dt,t = 6 5.4559e-04 3.2496e-03 iter,dt,t = 7 5.4724e-04 3.7968e-03 iter,dt,t = 8 5.4889e-04 4.3457e-03 iter,dt,t = 9 5.5056e-04 4.8963e-03 iter,dt,t = 10 5.5223e-04 5.4485e-03 iter,dt,t = 11 5.5389e-04 6.0024e-03 iter,dt,t = 12 5.5556e-04 6.5580e-03 iter,dt,t = 13 5.5722e-04 7.1152e-03 iter,dt,t = 14 5.5886e-04 7.6741e-03 iter,dt,t = 15 5.6049e-04 8.2345e-03 iter,dt,t = 16 5.6210e-04 8.7966e-03 iter,dt,t = 17 5.6368e-04 9.3603e-03 iter,dt,t = 18 5.6526e-04 9.9256e-03 iter,dt,t = 19 5.6686e-04 1.0492e-02 iter,dt,t = 20 5.6847e-04 1.1061e-02 iter,dt,t = 21 5.7009e-04 1.1631e-02 iter,dt,t = 22 5.7174e-04 1.2203e-02 iter,dt,t = 23 5.7366e-04 1.2776e-02 iter,dt,t = 24 5.7533e-04 1.3352e-02 iter,dt,t = 25 5.7724e-04 1.3929e-02 iter,dt,t = 26 5.7893e-04 1.4508e-02 iter,dt,t = 27 5.8085e-04 1.5089e-02 iter,dt,t = 28 5.8306e-04 1.5672e-02 iter,dt,t = 29 5.8476e-04 1.6257e-02 iter,dt,t = 30 5.8664e-04 1.6843e-02 iter,dt,t = 31 5.8565e-04 1.7429e-02 iter,dt,t = 32 5.8472e-04 1.8014e-02 iter,dt,t = 33 5.8386e-04 1.8597e-02 iter,dt,t = 34 5.8306e-04 1.9180e-02 iter,dt,t = 35 5.8231e-04 1.9763e-02 iter,dt,t = 36 2.3720e-04 2.0000e-02 Wrote file output/avg001.vtr filename = "output/sol001" Wrote pointwise solution to output/sol001 Wrote final average solution to avg.vtr. ──────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 129s / 0.1% 759MiB / 1.9% Section ncalls time %tot avg alloc %tot avg ──────────────────────────────────────────────────────────────────────────────────── Cell averaging 1 20.4μs 0.0% 20.4μs 0.00B 0.0% 0.00B Limiter 1 949μs 0.6% 949μs 720B 0.0% 720B TVB Limiter 1 28.4μs 0.0% 28.4μs 0.00B 0.0% 0.00B Write solution 2 84.6ms 57.7% 42.3ms 14.2MiB 96.3% 7.09MiB Compute error 2 2.22ms 1.5% 1.11ms 555KiB 3.7% 277KiB Time Step computation 36 37.3μs 0.0% 1.04μs 0.00B 0.0% 0.00B Time step computation 36 1.09μs 0.0% 30.3ns 0.00B 0.0% 0.00B MDRK Stages 72 58.8ms 40.1% 816μs 6.47KiB 0.0% 92.0B Limiter 144 36.2ms 24.7% 251μs 4.33KiB 0.0% 30.8B Pre process limiter 72 5.88μs 0.0% 81.7ns 0.00B 0.0% 0.00B TVB Limiter 72 1.59ms 1.1% 22.1μs 0.00B 0.0% 0.00B Cell Residual 72 15.3ms 10.4% 212μs 0.00B 0.0% 0.00B Update ghost values 72 638μs 0.4% 8.87μs 0.00B 0.0% 0.00B Face residual 72 4.75ms 3.2% 66.0μs 0.00B 0.0% 0.00B Update solution 72 619μs 0.4% 8.60μs 0.00B 0.0% 0.00B Cell averaging 72 986μs 0.7% 13.7μs 0.00B 0.0% 0.00B ──────────────────────────────────────────────────────────────────────────────────── ──────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 129s / 0.1% 759MiB / 1.9% Section ncalls time %tot avg alloc %tot avg ──────────────────────────────────────────────────────────────────────────────────── Write solution 2 84.6ms 57.7% 42.3ms 14.2MiB 96.3% 7.09MiB MDRK Stages 72 58.8ms 40.1% 816μs 6.47KiB 0.0% 92.0B Limiter 144 36.2ms 24.7% 251μs 4.33KiB 0.0% 30.8B TVB Limiter 72 1.59ms 1.1% 22.1μs 0.00B 0.0% 0.00B Pre process limiter 72 5.88μs 0.0% 81.7ns 0.00B 0.0% 0.00B Cell Residual 72 15.3ms 10.4% 212μs 0.00B 0.0% 0.00B Face residual 72 4.75ms 3.2% 66.0μs 0.00B 0.0% 0.00B Cell averaging 72 986μs 0.7% 13.7μs 0.00B 0.0% 0.00B Update ghost values 72 638μs 0.4% 8.87μs 0.00B 0.0% 0.00B Update solution 72 619μs 0.4% 8.60μs 0.00B 0.0% 0.00B Compute error 2 2.22ms 1.5% 1.11ms 555KiB 3.7% 277KiB Limiter 1 949μs 0.6% 949μs 720B 0.0% 720B TVB Limiter 1 28.4μs 0.0% 28.4μs 0.00B 0.0% 0.00B Time Step computation 36 37.3μs 0.0% 1.04μs 0.00B 0.0% 0.00B Cell averaging 1 20.4μs 0.0% 20.4μs 0.00B 0.0% 0.00B Time step computation 36 1.09μs 0.0% 30.3ns 0.00B 0.0% 0.00B ──────────────────────────────────────────────────────────────────────────────────── Dict("l2_error" => 0.1670612731710706, "energy" => 0.21571669381438663, "l1_error" => 0.08880034427429102) [ Info: You just called `trixi_include`. Julia may now compile the code, please be patient. WARNING: Method definition dwave(Any, Any, Tenkai.EqTenMoment2D.TenMoment2D) in module Main at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_dwave.jl:12 overwritten on the same line (check for duplicate calls to `include`). WARNING: Method definition dummy_bv(Any, Any) in module Main at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_near_vacuum.jl:36 overwritten at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_dwave.jl:22. WARNING: Method definition dwave(Any, Any) in module Main at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_dwave.jl:26 overwritten on the same line (check for duplicate calls to `include`). WARNING: Method definition exact_dwave(Any, Any, Any) in module Main at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_dwave.jl:28 overwritten on the same line (check for duplicate calls to `include`). Making 2D uniform Cartesian grid Grid size = 5 x 5 xmin,xmax = 0.000000e+00, 1.000000e+00 ymin,ymax = 0.000000e+00, 1.000000e+00 dx, dy = 2.000000e-01, 2.000000e-01 Setting up differentiation operators Degree = 3 Sol points = gl Cor fun = radau Number of julia threads = 1 Solving Ten moment problem using LWFR Setting initial condition Wrote file output/avg000.vtr filename = "output/sol000" Wrote pointwise solution to output/sol000 Using LW-D2 CFL with LW-D2 CFL: based on stability = 0.100940 Starting time stepping iter,dt,t = 1 3.2819e-03 3.2819e-03 iter,dt,t = 2 3.2788e-03 6.5608e-03 iter,dt,t = 3 3.2770e-03 9.8378e-03 iter,dt,t = 4 3.2765e-03 1.3114e-02 iter,dt,t = 5 3.2772e-03 1.6392e-02 iter,dt,t = 6 3.2792e-03 1.9671e-02 iter,dt,t = 7 3.2824e-03 2.2953e-02 iter,dt,t = 8 3.2868e-03 2.6240e-02 iter,dt,t = 9 3.2923e-03 2.9532e-02 iter,dt,t = 10 3.2989e-03 3.2831e-02 iter,dt,t = 11 3.3066e-03 3.6138e-02 iter,dt,t = 12 3.2968e-03 3.9435e-02 iter,dt,t = 13 3.2848e-03 4.2719e-02 iter,dt,t = 14 3.2737e-03 4.5993e-02 iter,dt,t = 15 3.2638e-03 4.9257e-02 iter,dt,t = 16 3.2550e-03 5.2512e-02 iter,dt,t = 17 3.2473e-03 5.5759e-02 iter,dt,t = 18 3.2409e-03 5.9000e-02 iter,dt,t = 19 3.2358e-03 6.2236e-02 iter,dt,t = 20 3.2320e-03 6.5468e-02 iter,dt,t = 21 3.2295e-03 6.8697e-02 iter,dt,t = 22 3.2283e-03 7.1926e-02 iter,dt,t = 23 3.2284e-03 7.5154e-02 iter,dt,t = 24 3.2299e-03 7.8384e-02 iter,dt,t = 25 3.2326e-03 8.1616e-02 iter,dt,t = 26 3.2367e-03 8.4853e-02 iter,dt,t = 27 3.2420e-03 8.8095e-02 iter,dt,t = 28 3.2485e-03 9.1344e-02 iter,dt,t = 29 3.2562e-03 9.4600e-02 iter,dt,t = 30 3.2651e-03 9.7865e-02 iter,dt,t = 31 3.2750e-03 1.0114e-01 iter,dt,t = 32 3.2782e-03 1.0442e-01 iter,dt,t = 33 3.2679e-03 1.0769e-01 iter,dt,t = 34 3.2587e-03 1.1094e-01 iter,dt,t = 35 3.2507e-03 1.1420e-01 iter,dt,t = 36 3.2438e-03 1.1744e-01 iter,dt,t = 37 3.2381e-03 1.2068e-01 iter,dt,t = 38 3.2337e-03 1.2391e-01 iter,dt,t = 39 3.2305e-03 1.2714e-01 iter,dt,t = 40 3.2287e-03 1.3037e-01 iter,dt,t = 41 3.2282e-03 1.3360e-01 iter,dt,t = 42 3.2290e-03 1.3683e-01 iter,dt,t = 43 3.2311e-03 1.4006e-01 iter,dt,t = 44 3.2346e-03 1.4329e-01 iter,dt,t = 45 3.2393e-03 1.4653e-01 iter,dt,t = 46 3.2454e-03 1.4978e-01 iter,dt,t = 47 3.2526e-03 1.5303e-01 iter,dt,t = 48 3.2611e-03 1.5629e-01 iter,dt,t = 49 3.2707e-03 1.5956e-01 iter,dt,t = 50 3.2813e-03 1.6284e-01 iter,dt,t = 51 3.2931e-03 1.6614e-01 iter,dt,t = 52 3.3057e-03 1.6944e-01 iter,dt,t = 53 3.3012e-03 1.7274e-01 iter,dt,t = 54 3.2943e-03 1.7604e-01 iter,dt,t = 55 3.2884e-03 1.7933e-01 iter,dt,t = 56 3.2837e-03 1.8261e-01 iter,dt,t = 57 3.2801e-03 1.8589e-01 iter,dt,t = 58 3.2778e-03 1.8917e-01 iter,dt,t = 59 3.2767e-03 1.9244e-01 iter,dt,t = 60 3.2768e-03 1.9572e-01 iter,dt,t = 61 3.2782e-03 1.9900e-01 iter,dt,t = 62 3.2809e-03 2.0228e-01 iter,dt,t = 63 3.2797e-03 2.0556e-01 iter,dt,t = 64 3.2775e-03 2.0884e-01 iter,dt,t = 65 3.2766e-03 2.1211e-01 iter,dt,t = 66 3.2769e-03 2.1539e-01 iter,dt,t = 67 3.2785e-03 2.1867e-01 iter,dt,t = 68 3.2814e-03 2.2195e-01 iter,dt,t = 69 3.2854e-03 2.2524e-01 iter,dt,t = 70 3.2905e-03 2.2853e-01 iter,dt,t = 71 3.2968e-03 2.3182e-01 iter,dt,t = 72 3.3042e-03 2.3513e-01 iter,dt,t = 73 3.3008e-03 2.3843e-01 iter,dt,t = 74 3.2884e-03 2.4172e-01 iter,dt,t = 75 3.2771e-03 2.4499e-01 iter,dt,t = 76 3.2668e-03 2.4826e-01 iter,dt,t = 77 3.2576e-03 2.5152e-01 iter,dt,t = 78 3.2496e-03 2.5477e-01 iter,dt,t = 79 3.2428e-03 2.5801e-01 iter,dt,t = 80 3.2373e-03 2.6125e-01 iter,dt,t = 81 3.2330e-03 2.6448e-01 iter,dt,t = 82 3.2301e-03 2.6771e-01 iter,dt,t = 83 3.2285e-03 2.7094e-01 iter,dt,t = 84 3.2282e-03 2.7417e-01 iter,dt,t = 85 3.2293e-03 2.7740e-01 iter,dt,t = 86 3.2316e-03 2.8063e-01 iter,dt,t = 87 3.2353e-03 2.8386e-01 iter,dt,t = 88 3.2402e-03 2.8710e-01 iter,dt,t = 89 3.2464e-03 2.9035e-01 iter,dt,t = 90 3.2538e-03 2.9360e-01 iter,dt,t = 91 3.2622e-03 2.9687e-01 iter,dt,t = 92 3.2718e-03 3.0014e-01 iter,dt,t = 93 3.2815e-03 3.0342e-01 iter,dt,t = 94 3.2710e-03 3.0669e-01 iter,dt,t = 95 3.2615e-03 3.0995e-01 iter,dt,t = 96 3.2531e-03 3.1321e-01 iter,dt,t = 97 3.2458e-03 3.1645e-01 iter,dt,t = 98 3.2397e-03 3.1969e-01 iter,dt,t = 99 3.2349e-03 3.2293e-01 iter,dt,t = 100 3.2314e-03 3.2616e-01 iter,dt,t = 101 3.2291e-03 3.2939e-01 iter,dt,t = 102 3.2282e-03 3.3262e-01 iter,dt,t = 103 3.2286e-03 3.3584e-01 iter,dt,t = 104 3.2304e-03 3.3907e-01 iter,dt,t = 105 3.2334e-03 3.4231e-01 iter,dt,t = 106 3.2378e-03 3.4555e-01 iter,dt,t = 107 3.2434e-03 3.4879e-01 iter,dt,t = 108 3.2503e-03 3.5204e-01 iter,dt,t = 109 3.2584e-03 3.5530e-01 iter,dt,t = 110 3.2676e-03 3.5856e-01 iter,dt,t = 111 3.2780e-03 3.6184e-01 iter,dt,t = 112 3.2894e-03 3.6513e-01 iter,dt,t = 113 3.3018e-03 3.6843e-01 iter,dt,t = 114 3.3036e-03 3.7174e-01 iter,dt,t = 115 3.2963e-03 3.7503e-01 iter,dt,t = 116 3.2901e-03 3.7832e-01 iter,dt,t = 117 3.2850e-03 3.8161e-01 iter,dt,t = 118 3.2811e-03 3.8489e-01 iter,dt,t = 119 3.2784e-03 3.8817e-01 iter,dt,t = 120 3.2769e-03 3.9145e-01 iter,dt,t = 121 3.2766e-03 3.9472e-01 iter,dt,t = 122 3.2777e-03 3.9800e-01 iter,dt,t = 123 3.2800e-03 4.0128e-01 iter,dt,t = 124 3.2806e-03 4.0456e-01 iter,dt,t = 125 3.2781e-03 4.0784e-01 iter,dt,t = 126 3.2768e-03 4.1112e-01 iter,dt,t = 127 3.2767e-03 4.1439e-01 iter,dt,t = 128 3.2780e-03 4.1767e-01 iter,dt,t = 129 3.2804e-03 4.2095e-01 iter,dt,t = 130 3.2840e-03 4.2423e-01 iter,dt,t = 131 3.2889e-03 4.2752e-01 iter,dt,t = 132 3.2948e-03 4.3082e-01 iter,dt,t = 133 3.3018e-03 4.3412e-01 iter,dt,t = 134 3.3048e-03 4.3742e-01 iter,dt,t = 135 3.2922e-03 4.4072e-01 iter,dt,t = 136 3.2805e-03 4.4400e-01 iter,dt,t = 137 3.2698e-03 4.4727e-01 iter,dt,t = 138 3.2603e-03 4.5053e-01 iter,dt,t = 139 3.2519e-03 4.5378e-01 iter,dt,t = 140 3.2448e-03 4.5702e-01 iter,dt,t = 141 3.2389e-03 4.6026e-01 iter,dt,t = 142 3.2342e-03 4.6350e-01 iter,dt,t = 143 3.2309e-03 4.6673e-01 iter,dt,t = 144 3.2289e-03 4.6996e-01 iter,dt,t = 145 3.2282e-03 4.7319e-01 iter,dt,t = 146 3.2288e-03 4.7641e-01 iter,dt,t = 147 3.2308e-03 4.7964e-01 iter,dt,t = 148 3.2341e-03 4.8288e-01 iter,dt,t = 149 3.2386e-03 4.8612e-01 iter,dt,t = 150 3.2444e-03 4.8936e-01 iter,dt,t = 151 3.2514e-03 4.9261e-01 iter,dt,t = 152 3.2596e-03 4.9587e-01 iter,dt,t = 153 3.2688e-03 4.9914e-01 iter,dt,t = 154 3.2791e-03 5.0242e-01 iter,dt,t = 155 3.2741e-03 5.0570e-01 iter,dt,t = 156 3.2643e-03 5.0896e-01 iter,dt,t = 157 3.2556e-03 5.1221e-01 iter,dt,t = 158 3.2479e-03 5.1546e-01 iter,dt,t = 159 3.2415e-03 5.1870e-01 iter,dt,t = 160 3.2363e-03 5.2194e-01 iter,dt,t = 161 3.2324e-03 5.2517e-01 iter,dt,t = 162 3.2297e-03 5.2840e-01 iter,dt,t = 163 3.2284e-03 5.3163e-01 iter,dt,t = 164 3.2284e-03 5.3486e-01 iter,dt,t = 165 3.2297e-03 5.3809e-01 iter,dt,t = 166 3.2323e-03 5.4132e-01 iter,dt,t = 167 3.2363e-03 5.4456e-01 iter,dt,t = 168 3.2415e-03 5.4780e-01 iter,dt,t = 169 3.2480e-03 5.5105e-01 iter,dt,t = 170 3.2558e-03 5.5430e-01 iter,dt,t = 171 3.2647e-03 5.5757e-01 iter,dt,t = 172 3.2747e-03 5.6084e-01 iter,dt,t = 173 3.2858e-03 5.6413e-01 iter,dt,t = 174 3.2979e-03 5.6743e-01 iter,dt,t = 175 3.3061e-03 5.7073e-01 iter,dt,t = 176 3.2985e-03 5.7403e-01 iter,dt,t = 177 3.2919e-03 5.7732e-01 iter,dt,t = 178 3.2865e-03 5.8061e-01 iter,dt,t = 179 3.2822e-03 5.8389e-01 iter,dt,t = 180 3.2791e-03 5.8717e-01 iter,dt,t = 181 3.2772e-03 5.9045e-01 iter,dt,t = 182 3.2766e-03 5.9372e-01 iter,dt,t = 183 3.2773e-03 5.9700e-01 iter,dt,t = 184 3.2791e-03 6.0028e-01 iter,dt,t = 185 3.2817e-03 6.0356e-01 iter,dt,t = 186 3.2788e-03 6.0684e-01 iter,dt,t = 187 3.2771e-03 6.1012e-01 iter,dt,t = 188 3.2766e-03 6.1339e-01 iter,dt,t = 189 3.2775e-03 6.1667e-01 iter,dt,t = 190 3.2796e-03 6.1995e-01 iter,dt,t = 191 3.2828e-03 6.2323e-01 iter,dt,t = 192 3.2873e-03 6.2652e-01 iter,dt,t = 193 3.2929e-03 6.2982e-01 iter,dt,t = 194 3.2996e-03 6.3311e-01 iter,dt,t = 195 3.3073e-03 6.3642e-01 iter,dt,t = 196 3.2960e-03 6.3972e-01 iter,dt,t = 197 3.2840e-03 6.4300e-01 iter,dt,t = 198 3.2730e-03 6.4627e-01 iter,dt,t = 199 3.2631e-03 6.4954e-01 iter,dt,t = 200 3.2544e-03 6.5279e-01 iter,dt,t = 201 3.2469e-03 6.5604e-01 iter,dt,t = 202 3.2406e-03 6.5928e-01 iter,dt,t = 203 3.2355e-03 6.6252e-01 iter,dt,t = 204 3.2318e-03 6.6575e-01 iter,dt,t = 205 3.2294e-03 6.6898e-01 iter,dt,t = 206 3.2283e-03 6.7220e-01 iter,dt,t = 207 3.2285e-03 6.7543e-01 iter,dt,t = 208 3.2301e-03 6.7866e-01 iter,dt,t = 209 3.2330e-03 6.8190e-01 iter,dt,t = 210 3.2371e-03 6.8513e-01 iter,dt,t = 211 3.2425e-03 6.8838e-01 iter,dt,t = 212 3.2492e-03 6.9163e-01 iter,dt,t = 213 3.2570e-03 6.9488e-01 iter,dt,t = 214 3.2659e-03 6.9815e-01 iter,dt,t = 215 3.2759e-03 7.0142e-01 iter,dt,t = 216 3.2774e-03 7.0470e-01 iter,dt,t = 217 3.2672e-03 7.0797e-01 iter,dt,t = 218 3.2581e-03 7.1123e-01 iter,dt,t = 219 3.2502e-03 7.1448e-01 iter,dt,t = 220 3.2434e-03 7.1772e-01 iter,dt,t = 221 3.2378e-03 7.2096e-01 iter,dt,t = 222 3.2335e-03 7.2419e-01 iter,dt,t = 223 3.2304e-03 7.2742e-01 iter,dt,t = 224 3.2287e-03 7.3065e-01 iter,dt,t = 225 3.2283e-03 7.3388e-01 iter,dt,t = 226 3.2292e-03 7.3711e-01 iter,dt,t = 227 3.2314e-03 7.4034e-01 iter,dt,t = 228 3.2350e-03 7.4357e-01 iter,dt,t = 229 3.2398e-03 7.4681e-01 iter,dt,t = 230 3.2459e-03 7.5006e-01 iter,dt,t = 231 3.2533e-03 7.5331e-01 iter,dt,t = 232 3.2618e-03 7.5658e-01 iter,dt,t = 233 3.2715e-03 7.5985e-01 iter,dt,t = 234 3.2823e-03 7.6313e-01 iter,dt,t = 235 3.2941e-03 7.6642e-01 iter,dt,t = 236 3.3069e-03 7.6973e-01 iter,dt,t = 237 3.3007e-03 7.7303e-01 iter,dt,t = 238 3.2938e-03 7.7632e-01 iter,dt,t = 239 3.2881e-03 7.7961e-01 iter,dt,t = 240 3.2834e-03 7.8290e-01 iter,dt,t = 241 3.2800e-03 7.8618e-01 iter,dt,t = 242 3.2777e-03 7.8945e-01 iter,dt,t = 243 3.2767e-03 7.9273e-01 iter,dt,t = 244 3.2770e-03 7.9601e-01 iter,dt,t = 245 3.2785e-03 7.9929e-01 iter,dt,t = 246 3.2812e-03 8.0257e-01 iter,dt,t = 247 3.2796e-03 8.0585e-01 iter,dt,t = 248 3.2775e-03 8.0912e-01 iter,dt,t = 249 3.2767e-03 8.1240e-01 iter,dt,t = 250 3.2771e-03 8.1568e-01 iter,dt,t = 251 3.2788e-03 8.1896e-01 iter,dt,t = 252 3.2817e-03 8.2224e-01 iter,dt,t = 253 3.2858e-03 8.2552e-01 iter,dt,t = 254 3.2911e-03 8.2882e-01 iter,dt,t = 255 3.2975e-03 8.3211e-01 iter,dt,t = 256 3.3049e-03 8.3542e-01 iter,dt,t = 257 3.2998e-03 8.3872e-01 iter,dt,t = 258 3.2876e-03 8.4201e-01 iter,dt,t = 259 3.2763e-03 8.4528e-01 iter,dt,t = 260 3.2661e-03 8.4855e-01 iter,dt,t = 261 3.2570e-03 8.5180e-01 iter,dt,t = 262 3.2491e-03 8.5505e-01 iter,dt,t = 263 3.2424e-03 8.5830e-01 iter,dt,t = 264 3.2370e-03 8.6153e-01 iter,dt,t = 265 3.2328e-03 8.6477e-01 iter,dt,t = 266 3.2300e-03 8.6800e-01 iter,dt,t = 267 3.2285e-03 8.7122e-01 iter,dt,t = 268 3.2284e-03 8.7445e-01 iter,dt,t = 269 3.2295e-03 8.7768e-01 iter,dt,t = 270 3.2320e-03 8.8091e-01 iter,dt,t = 271 3.2358e-03 8.8415e-01 iter,dt,t = 272 3.2408e-03 8.8739e-01 iter,dt,t = 273 3.2470e-03 8.9064e-01 iter,dt,t = 274 3.2545e-03 8.9389e-01 iter,dt,t = 275 3.2631e-03 8.9716e-01 iter,dt,t = 276 3.2727e-03 9.0043e-01 iter,dt,t = 277 3.2807e-03 9.0371e-01 iter,dt,t = 278 3.2703e-03 9.0698e-01 iter,dt,t = 279 3.2608e-03 9.1024e-01 iter,dt,t = 280 3.2525e-03 9.1349e-01 iter,dt,t = 281 3.2453e-03 9.1674e-01 iter,dt,t = 282 3.2394e-03 9.1998e-01 iter,dt,t = 283 3.2347e-03 9.2321e-01 iter,dt,t = 284 3.2312e-03 9.2644e-01 iter,dt,t = 285 3.2291e-03 9.2967e-01 iter,dt,t = 286 3.2283e-03 9.3290e-01 iter,dt,t = 287 3.2288e-03 9.3613e-01 iter,dt,t = 288 3.2306e-03 9.3936e-01 iter,dt,t = 289 3.2338e-03 9.4259e-01 iter,dt,t = 290 3.2382e-03 9.4583e-01 iter,dt,t = 291 3.2440e-03 9.4908e-01 iter,dt,t = 292 3.2510e-03 9.5233e-01 iter,dt,t = 293 3.2591e-03 9.5559e-01 iter,dt,t = 294 3.2685e-03 9.5885e-01 iter,dt,t = 295 3.2789e-03 9.6213e-01 iter,dt,t = 296 3.2904e-03 9.6542e-01 iter,dt,t = 297 3.3029e-03 9.6873e-01 iter,dt,t = 298 3.3030e-03 9.7203e-01 iter,dt,t = 299 3.2958e-03 9.7533e-01 iter,dt,t = 300 3.2897e-03 9.7862e-01 iter,dt,t = 301 3.2847e-03 9.8190e-01 iter,dt,t = 302 3.2809e-03 9.8518e-01 iter,dt,t = 303 3.2783e-03 9.8846e-01 iter,dt,t = 304 3.2769e-03 9.9174e-01 iter,dt,t = 305 3.2768e-03 9.9501e-01 iter,dt,t = 306 3.2779e-03 9.9829e-01 iter,dt,t = 307 1.7093e-03 1.0000e+00 Wrote file output/avg001.vtr filename = "output/sol001" Wrote pointwise solution to output/sol001 Wrote final average solution to avg.vtr. ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 70.4s / 0.3% 614MiB / 2.4% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Cell averaging 308 4.51ms 2.3% 14.6μs 0.00B 0.0% 0.00B Limiter 615 75.2μs 0.0% 122ns 672B 0.0% 1.09B Pre process limiter 307 14.6μs 0.0% 47.7ns 0.00B 0.0% 0.00B Write solution 2 76.6ms 39.7% 38.3ms 14.1MiB 96.6% 7.03MiB Compute error 2 2.16ms 1.1% 1.08ms 506KiB 3.4% 253KiB Time Step computation 307 307μs 0.2% 1.00μs 0.00B 0.0% 0.00B Time step computation 307 9.18μs 0.0% 29.9ns 0.00B 0.0% 0.00B Cell Residual 307 82.7ms 42.9% 269μs 0.00B 0.0% 0.00B Update ghost values 307 2.45ms 1.3% 7.99μs 0.00B 0.0% 0.00B Face residual 307 21.2ms 11.0% 68.9μs 0.00B 0.0% 0.00B Update solution 307 2.95ms 1.5% 9.62μs 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 70.4s / 0.3% 614MiB / 2.4% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Cell Residual 307 82.7ms 42.9% 269μs 0.00B 0.0% 0.00B Write solution 2 76.6ms 39.7% 38.3ms 14.1MiB 96.6% 7.03MiB Face residual 307 21.2ms 11.0% 68.9μs 0.00B 0.0% 0.00B Cell averaging 308 4.51ms 2.3% 14.6μs 0.00B 0.0% 0.00B Update solution 307 2.95ms 1.5% 9.62μs 0.00B 0.0% 0.00B Update ghost values 307 2.45ms 1.3% 7.99μs 0.00B 0.0% 0.00B Compute error 2 2.16ms 1.1% 1.08ms 506KiB 3.4% 253KiB Time Step computation 307 307μs 0.2% 1.00μs 0.00B 0.0% 0.00B Limiter 615 75.2μs 0.0% 122ns 672B 0.0% 1.09B Pre process limiter 307 14.6μs 0.0% 47.7ns 0.00B 0.0% 0.00B Time step computation 307 9.18μs 0.0% 29.9ns 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── Dict("l2_error" => 0.00022956357168349805, "energy" => 1.5529408034693415, "l1_error" => 0.00010607310112867234) [ Info: You just called `trixi_include`. Julia may now compile the code, please be patient. WARNING: Method definition f_rare(Any, Any) in module Main at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_near_vacuum.jl:13 overwritten on the same line (check for duplicate calls to `include`). WARNING: Method definition near_vacuum_ic(Any, Any, Any, Tenkai.EqTenMoment2D.TenMoment2D) in module Main at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_near_vacuum.jl:21 overwritten on the same line (check for duplicate calls to `include`). WARNING: Method definition dummy_bv(Any, Any) in module Main at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_dwave.jl:22 overwritten at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_near_vacuum.jl:36. WARNING: Method definition near_vacuum_ic(Any, Any) in module Main at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_near_vacuum.jl:52 overwritten on the same line (check for duplicate calls to `include`). WARNING: Method definition exact_near_vacuum(Any, Any, Any) in module Main at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_near_vacuum.jl:54 overwritten on the same line (check for duplicate calls to `include`). Making 2D uniform Cartesian grid Grid size = 5 x 5 xmin,xmax = -1.000000e+00, 1.000000e+00 ymin,ymax = -1.000000e+00, 1.000000e+00 dx, dy = 4.000000e-01, 4.000000e-01 Setting up differentiation operators Degree = 3 Sol points = gl Cor fun = radau Number of julia threads = 1 Solving Ten moment problem using LWFR Setting initial condition Wrote file output/avg000.vtr filename = "output/sol000" Wrote pointwise solution to output/sol000 Using LW-D2 CFL with LW-D2 CFL: based on stability = 0.025750 Starting time stepping iter,dt,t = 1 5.1759e-04 5.1759e-04 iter,dt,t = 2 5.1900e-04 1.0366e-03 iter,dt,t = 3 5.2044e-04 1.5570e-03 iter,dt,t = 4 5.2190e-04 2.0789e-03 iter,dt,t = 5 5.2338e-04 2.6023e-03 iter,dt,t = 6 5.2488e-04 3.1272e-03 iter,dt,t = 7 5.2640e-04 3.6536e-03 iter,dt,t = 8 5.2793e-04 4.1815e-03 iter,dt,t = 9 5.2946e-04 4.7110e-03 iter,dt,t = 10 5.3100e-04 5.2420e-03 iter,dt,t = 11 5.3254e-04 5.7745e-03 iter,dt,t = 12 5.3408e-04 6.3086e-03 iter,dt,t = 13 5.3561e-04 6.8442e-03 iter,dt,t = 14 5.3713e-04 7.3813e-03 iter,dt,t = 15 5.3864e-04 7.9200e-03 iter,dt,t = 16 5.4013e-04 8.4601e-03 iter,dt,t = 17 5.4160e-04 9.0017e-03 iter,dt,t = 18 5.4305e-04 9.5448e-03 iter,dt,t = 19 5.4451e-04 1.0089e-02 iter,dt,t = 20 5.4599e-04 1.0635e-02 iter,dt,t = 21 5.4749e-04 1.1183e-02 iter,dt,t = 22 5.4901e-04 1.1732e-02 iter,dt,t = 23 5.5074e-04 1.2282e-02 iter,dt,t = 24 5.5228e-04 1.2835e-02 iter,dt,t = 25 5.5404e-04 1.3389e-02 iter,dt,t = 26 5.5560e-04 1.3944e-02 iter,dt,t = 27 5.5737e-04 1.4502e-02 iter,dt,t = 28 5.5934e-04 1.5061e-02 iter,dt,t = 29 5.6091e-04 1.5622e-02 iter,dt,t = 30 5.6270e-04 1.6185e-02 iter,dt,t = 31 5.6468e-04 1.6749e-02 iter,dt,t = 32 5.6401e-04 1.7313e-02 iter,dt,t = 33 5.6314e-04 1.7877e-02 iter,dt,t = 34 5.6233e-04 1.8439e-02 iter,dt,t = 35 5.6157e-04 1.9000e-02 iter,dt,t = 36 5.6086e-04 1.9561e-02 iter,dt,t = 37 4.3866e-04 2.0000e-02 Wrote file output/avg001.vtr filename = "output/sol001" Wrote pointwise solution to output/sol001 Wrote final average solution to avg.vtr. ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 64.7s / 0.5% 530MiB / 2.8% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Cell averaging 38 511μs 0.2% 13.4μs 0.00B 0.0% 0.00B Limiter 75 21.8ms 6.7% 291μs 2.73KiB 0.0% 37.3B TVB Limiter 38 834μs 0.3% 21.9μs 0.00B 0.0% 0.00B Pre process limiter 37 2.65μs 0.0% 71.6ns 0.00B 0.0% 0.00B Write solution 2 289ms 88.7% 144ms 14.0MiB 96.3% 7.02MiB Compute error 2 1.83ms 0.6% 914μs 556KiB 3.7% 278KiB Time Step computation 37 37.5μs 0.0% 1.01μs 0.00B 0.0% 0.00B Time step computation 37 1.13μs 0.0% 30.5ns 0.00B 0.0% 0.00B Cell Residual 37 9.59ms 2.9% 259μs 0.00B 0.0% 0.00B Update ghost values 37 375μs 0.1% 10.1μs 0.00B 0.0% 0.00B Face residual 37 2.40ms 0.7% 64.8μs 0.00B 0.0% 0.00B Update solution 37 317μs 0.1% 8.57μs 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 64.7s / 0.5% 530MiB / 2.8% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Write solution 2 289ms 88.7% 144ms 14.0MiB 96.3% 7.02MiB Limiter 75 21.8ms 6.7% 291μs 2.73KiB 0.0% 37.3B TVB Limiter 38 834μs 0.3% 21.9μs 0.00B 0.0% 0.00B Pre process limiter 37 2.65μs 0.0% 71.6ns 0.00B 0.0% 0.00B Cell Residual 37 9.59ms 2.9% 259μs 0.00B 0.0% 0.00B Face residual 37 2.40ms 0.7% 64.8μs 0.00B 0.0% 0.00B Compute error 2 1.83ms 0.6% 914μs 556KiB 3.7% 278KiB Cell averaging 38 511μs 0.2% 13.4μs 0.00B 0.0% 0.00B Update ghost values 37 375μs 0.1% 10.1μs 0.00B 0.0% 0.00B Update solution 37 317μs 0.1% 8.57μs 0.00B 0.0% 0.00B Time Step computation 37 37.5μs 0.0% 1.01μs 0.00B 0.0% 0.00B Time step computation 37 1.13μs 0.0% 30.5ns 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── Dict("l2_error" => 0.1670637814130382, "energy" => 0.21569509229353892, "l1_error" => 0.08881156406795698) Ten Moment 2D: Test Failed at /home/pkgeval/.julia/packages/Tenkai/IQyy6/test/runtests.jl:32 Expression: isapprox((sol["errors"])["energy"], energy, atol = tol, rtol = tol) Evaluated: isapprox(0.21569509229353892, 0.21569509229209013; atol = 1.0e-12, rtol = 1.0e-12) Stacktrace: [1] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:781 [inlined] [2] compare_errors_txt(sol::Dict{String, Any}, testname::String; tol::Float64, overwrite_errors::Bool) @ Main ~/.julia/packages/Tenkai/IQyy6/test/runtests.jl:32 [3] kwcall(::@NamedTuple{overwrite_errors::Bool, tol::Float64}, ::typeof(compare_errors_txt), sol::Dict{String, Any}, testname::String) @ Main ~/.julia/packages/Tenkai/IQyy6/test/runtests.jl:21 [4] top-level scope @ ~/.julia/packages/Tenkai/IQyy6/test/test_part1.jl:131 [5] macro expansion @ /opt/julia/share/julia/stdlib/v1.14/Test/src/Test.jl:2243 [inlined] [6] macro expansion @ ~/.julia/packages/Tenkai/IQyy6/test/test_part1.jl:151 [inlined] [ Info: You just called `trixi_include`. Julia may now compile the code, please be patient. WARNING: Method definition dwave(Any, Any, Tenkai.EqTenMoment2D.TenMoment2D) in module Main at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_dwave.jl:12 overwritten on the same line (check for duplicate calls to `include`). WARNING: Method definition dummy_bv(Any, Any) in module Main at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_near_vacuum.jl:36 overwritten at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_dwave.jl:22. WARNING: Method definition dwave(Any, Any) in module Main at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_dwave.jl:26 overwritten on the same line (check for duplicate calls to `include`). WARNING: Method definition exact_dwave(Any, Any, Any) in module Main at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_dwave.jl:28 overwritten on the same line (check for duplicate calls to `include`). Making 2D uniform Cartesian grid Grid size = 5 x 5 xmin,xmax = 0.000000e+00, 1.000000e+00 ymin,ymax = 0.000000e+00, 1.000000e+00 dx, dy = 2.000000e-01, 2.000000e-01 Setting up differentiation operators Degree = 3 Sol points = gl Cor fun = radau Number of julia threads = 1 Solving Ten moment problem using RKFR Setting initial condition CFL: based on stability = 0.142100 Using DifferentialEquations iter,dt,t = 0 4.6202e-03 0.0000e+00 iter,dt,t = 1 4.6146e-03 4.6202e-03 iter,dt,t = 2 4.6126e-03 9.2348e-03 iter,dt,t = 3 4.6141e-03 1.3847e-02 iter,dt,t = 4 4.6190e-03 1.8461e-02 iter,dt,t = 5 4.6273e-03 2.3080e-02 iter,dt,t = 6 4.6388e-03 2.7708e-02 iter,dt,t = 7 4.6532e-03 3.2347e-02 iter,dt,t = 8 4.6366e-03 3.7000e-02 iter,dt,t = 9 4.6136e-03 4.1636e-02 iter,dt,t = 10 4.5936e-03 4.6250e-02 iter,dt,t = 11 4.5768e-03 5.0844e-02 iter,dt,t = 12 4.5633e-03 5.5420e-02 iter,dt,t = 13 4.5534e-03 5.9984e-02 iter,dt,t = 14 4.5472e-03 6.4537e-02 iter,dt,t = 15 4.5446e-03 6.9084e-02 iter,dt,t = 16 4.5457e-03 7.3629e-02 iter,dt,t = 17 4.5505e-03 7.8175e-02 iter,dt,t = 18 4.5589e-03 8.2725e-02 iter,dt,t = 19 4.5707e-03 8.7284e-02 iter,dt,t = 20 4.5859e-03 9.1855e-02 iter,dt,t = 21 4.6041e-03 9.6441e-02 iter,dt,t = 22 4.6153e-03 1.0104e-01 iter,dt,t = 23 4.5954e-03 1.0566e-01 iter,dt,t = 24 4.5785e-03 1.1026e-01 iter,dt,t = 25 4.5648e-03 1.1483e-01 iter,dt,t = 26 4.5545e-03 1.1940e-01 iter,dt,t = 27 4.5478e-03 1.2395e-01 iter,dt,t = 28 4.5447e-03 1.2850e-01 iter,dt,t = 29 4.5453e-03 1.3305e-01 iter,dt,t = 30 4.5497e-03 1.3759e-01 iter,dt,t = 31 4.5576e-03 1.4214e-01 iter,dt,t = 32 4.5692e-03 1.4670e-01 iter,dt,t = 33 4.5842e-03 1.5127e-01 iter,dt,t = 34 4.6024e-03 1.5585e-01 iter,dt,t = 35 4.6237e-03 1.6045e-01 iter,dt,t = 36 4.6479e-03 1.6508e-01 iter,dt,t = 37 4.6465e-03 1.6973e-01 iter,dt,t = 38 4.6333e-03 1.7437e-01 iter,dt,t = 39 4.6232e-03 1.7901e-01 iter,dt,t = 40 4.6164e-03 1.8363e-01 iter,dt,t = 41 4.6130e-03 1.8825e-01 iter,dt,t = 42 4.6131e-03 1.9286e-01 iter,dt,t = 43 4.6167e-03 1.9747e-01 iter,dt,t = 44 4.6173e-03 2.0209e-01 iter,dt,t = 45 4.6133e-03 2.0671e-01 iter,dt,t = 46 4.6129e-03 2.1132e-01 iter,dt,t = 47 4.6159e-03 2.1593e-01 iter,dt,t = 48 4.6224e-03 2.2055e-01 iter,dt,t = 49 4.6321e-03 2.2517e-01 iter,dt,t = 50 4.6450e-03 2.2980e-01 iter,dt,t = 51 4.6505e-03 2.3445e-01 iter,dt,t = 52 4.6259e-03 2.3910e-01 iter,dt,t = 53 4.6042e-03 2.4372e-01 iter,dt,t = 54 4.5856e-03 2.4833e-01 iter,dt,t = 55 4.5703e-03 2.5291e-01 iter,dt,t = 56 4.5584e-03 2.5748e-01 iter,dt,t = 57 4.5501e-03 2.6204e-01 iter,dt,t = 58 4.5455e-03 2.6659e-01 iter,dt,t = 59 4.5446e-03 2.7114e-01 iter,dt,t = 60 4.5474e-03 2.7568e-01 iter,dt,t = 61 4.5538e-03 2.8023e-01 iter,dt,t = 62 4.5638e-03 2.8478e-01 iter,dt,t = 63 4.5772e-03 2.8935e-01 iter,dt,t = 64 4.5937e-03 2.9392e-01 iter,dt,t = 65 4.6133e-03 2.9852e-01 iter,dt,t = 66 4.6060e-03 3.0313e-01 iter,dt,t = 67 4.5874e-03 3.0774e-01 iter,dt,t = 68 4.5719e-03 3.1232e-01 iter,dt,t = 69 4.5597e-03 3.1690e-01 iter,dt,t = 70 4.5510e-03 3.2146e-01 iter,dt,t = 71 4.5459e-03 3.2601e-01 iter,dt,t = 72 4.5445e-03 3.3055e-01 iter,dt,t = 73 4.5468e-03 3.3510e-01 iter,dt,t = 74 4.5528e-03 3.3964e-01 iter,dt,t = 75 4.5624e-03 3.4420e-01 iter,dt,t = 76 4.5755e-03 3.4876e-01 iter,dt,t = 77 4.5920e-03 3.5334e-01 iter,dt,t = 78 4.6117e-03 3.5793e-01 iter,dt,t = 79 4.6343e-03 3.6254e-01 iter,dt,t = 80 4.6549e-03 3.6717e-01 iter,dt,t = 81 4.6401e-03 3.7183e-01 iter,dt,t = 82 4.6283e-03 3.7647e-01 iter,dt,t = 83 4.6197e-03 3.8110e-01 iter,dt,t = 84 4.6145e-03 3.8572e-01 iter,dt,t = 85 4.6126e-03 3.9033e-01 iter,dt,t = 86 4.6143e-03 3.9494e-01 iter,dt,t = 87 4.6195e-03 3.9956e-01 iter,dt,t = 88 4.6150e-03 4.0418e-01 iter,dt,t = 89 4.6127e-03 4.0879e-01 iter,dt,t = 90 4.6139e-03 4.1341e-01 iter,dt,t = 91 4.6185e-03 4.1802e-01 iter,dt,t = 92 4.6264e-03 4.2264e-01 iter,dt,t = 93 4.6376e-03 4.2726e-01 iter,dt,t = 94 4.6518e-03 4.3190e-01 iter,dt,t = 95 4.6391e-03 4.3655e-01 iter,dt,t = 96 4.6158e-03 4.4119e-01 iter,dt,t = 97 4.5954e-03 4.4581e-01 iter,dt,t = 98 4.5783e-03 4.5040e-01 iter,dt,t = 99 4.5645e-03 4.5498e-01 iter,dt,t = 100 4.5542e-03 4.5955e-01 iter,dt,t = 101 4.5476e-03 4.6410e-01 iter,dt,t = 102 4.5447e-03 4.6865e-01 iter,dt,t = 103 4.5454e-03 4.7319e-01 iter,dt,t = 104 4.5499e-03 4.7774e-01 iter,dt,t = 105 4.5579e-03 4.8229e-01 iter,dt,t = 106 4.5694e-03 4.8685e-01 iter,dt,t = 107 4.5843e-03 4.9142e-01 iter,dt,t = 108 4.6023e-03 4.9600e-01 iter,dt,t = 109 4.6174e-03 5.0060e-01 iter,dt,t = 110 4.5972e-03 5.0522e-01 iter,dt,t = 111 4.5800e-03 5.0982e-01 iter,dt,t = 112 4.5660e-03 5.1440e-01 iter,dt,t = 113 4.5554e-03 5.1896e-01 iter,dt,t = 114 4.5483e-03 5.2352e-01 iter,dt,t = 115 4.5448e-03 5.2807e-01 iter,dt,t = 116 4.5451e-03 5.3261e-01 iter,dt,t = 117 4.5491e-03 5.3716e-01 iter,dt,t = 118 4.5567e-03 5.4171e-01 iter,dt,t = 119 4.5679e-03 5.4626e-01 iter,dt,t = 120 4.5826e-03 5.5083e-01 iter,dt,t = 121 4.6005e-03 5.5541e-01 iter,dt,t = 122 4.6215e-03 5.6001e-01 iter,dt,t = 123 4.6454e-03 5.6463e-01 iter,dt,t = 124 4.6479e-03 5.6928e-01 iter,dt,t = 125 4.6344e-03 5.7393e-01 iter,dt,t = 126 4.6240e-03 5.7856e-01 iter,dt,t = 127 4.6169e-03 5.8319e-01 iter,dt,t = 128 4.6132e-03 5.8780e-01 iter,dt,t = 129 4.6130e-03 5.9242e-01 iter,dt,t = 130 4.6163e-03 5.9703e-01 iter,dt,t = 131 4.6179e-03 6.0165e-01 iter,dt,t = 132 4.6136e-03 6.0626e-01 iter,dt,t = 133 4.6128e-03 6.1088e-01 iter,dt,t = 134 4.6155e-03 6.1549e-01 iter,dt,t = 135 4.6217e-03 6.2011e-01 iter,dt,t = 136 4.6311e-03 6.2473e-01 iter,dt,t = 137 4.6437e-03 6.2936e-01 iter,dt,t = 138 4.6530e-03 6.3400e-01 iter,dt,t = 139 4.6282e-03 6.3865e-01 iter,dt,t = 140 4.6062e-03 6.4328e-01 iter,dt,t = 141 4.5873e-03 6.4789e-01 iter,dt,t = 142 4.5716e-03 6.5248e-01 iter,dt,t = 143 4.5594e-03 6.5705e-01 iter,dt,t = 144 4.5508e-03 6.6161e-01 iter,dt,t = 145 4.5458e-03 6.6616e-01 iter,dt,t = 146 4.5445e-03 6.7070e-01 iter,dt,t = 147 4.5470e-03 6.7525e-01 iter,dt,t = 148 4.5531e-03 6.7980e-01 iter,dt,t = 149 4.5627e-03 6.8435e-01 iter,dt,t = 150 4.5758e-03 6.8891e-01 iter,dt,t = 151 4.5920e-03 6.9349e-01 iter,dt,t = 152 4.6114e-03 6.9808e-01 iter,dt,t = 153 4.6079e-03 7.0269e-01 iter,dt,t = 154 4.5890e-03 7.0730e-01 iter,dt,t = 155 4.5732e-03 7.1189e-01 iter,dt,t = 156 4.5607e-03 7.1646e-01 iter,dt,t = 157 4.5517e-03 7.2102e-01 iter,dt,t = 158 4.5463e-03 7.2557e-01 iter,dt,t = 159 4.5445e-03 7.3012e-01 iter,dt,t = 160 4.5464e-03 7.3466e-01 iter,dt,t = 161 4.5521e-03 7.3921e-01 iter,dt,t = 162 4.5613e-03 7.4376e-01 iter,dt,t = 163 4.5741e-03 7.4832e-01 iter,dt,t = 164 4.5903e-03 7.5290e-01 iter,dt,t = 165 4.6097e-03 7.5749e-01 iter,dt,t = 166 4.6320e-03 7.6210e-01 iter,dt,t = 167 4.6565e-03 7.6673e-01 iter,dt,t = 168 4.6414e-03 7.7139e-01 iter,dt,t = 169 4.6293e-03 7.7603e-01 iter,dt,t = 170 4.6204e-03 7.8066e-01 iter,dt,t = 171 4.6148e-03 7.8528e-01 iter,dt,t = 172 4.6127e-03 7.8989e-01 iter,dt,t = 173 4.6140e-03 7.9451e-01 iter,dt,t = 174 4.6189e-03 7.9912e-01 iter,dt,t = 175 4.6155e-03 8.0374e-01 iter,dt,t = 176 4.6128e-03 8.0835e-01 iter,dt,t = 177 4.6136e-03 8.1297e-01 iter,dt,t = 178 4.6179e-03 8.1758e-01 iter,dt,t = 179 4.6256e-03 8.2220e-01 iter,dt,t = 180 4.6364e-03 8.2682e-01 iter,dt,t = 181 4.6503e-03 8.3146e-01 iter,dt,t = 182 4.6414e-03 8.3611e-01 iter,dt,t = 183 4.6179e-03 8.4075e-01 iter,dt,t = 184 4.5973e-03 8.4537e-01 iter,dt,t = 185 4.5798e-03 8.4997e-01 iter,dt,t = 186 4.5657e-03 8.5455e-01 iter,dt,t = 187 4.5551e-03 8.5911e-01 iter,dt,t = 188 4.5481e-03 8.6367e-01 iter,dt,t = 189 4.5448e-03 8.6822e-01 iter,dt,t = 190 4.5452e-03 8.7276e-01 iter,dt,t = 191 4.5493e-03 8.7731e-01 iter,dt,t = 192 4.5570e-03 8.8185e-01 iter,dt,t = 193 4.5682e-03 8.8641e-01 iter,dt,t = 194 4.5827e-03 8.9098e-01 iter,dt,t = 195 4.6004e-03 8.9556e-01 iter,dt,t = 196 4.6195e-03 9.0016e-01 iter,dt,t = 197 4.5990e-03 9.0478e-01 iter,dt,t = 198 4.5815e-03 9.0938e-01 iter,dt,t = 199 4.5672e-03 9.1396e-01 iter,dt,t = 200 4.5562e-03 9.1853e-01 iter,dt,t = 201 4.5488e-03 9.2309e-01 iter,dt,t = 202 4.5450e-03 9.2764e-01 iter,dt,t = 203 4.5449e-03 9.3218e-01 iter,dt,t = 204 4.5485e-03 9.3673e-01 iter,dt,t = 205 4.5558e-03 9.4127e-01 iter,dt,t = 206 4.5667e-03 9.4583e-01 iter,dt,t = 207 4.5810e-03 9.5040e-01 iter,dt,t = 208 4.5987e-03 9.5498e-01 iter,dt,t = 209 4.6194e-03 9.5958e-01 iter,dt,t = 210 4.6430e-03 9.6420e-01 iter,dt,t = 211 4.6493e-03 9.6884e-01 iter,dt,t = 212 4.6356e-03 9.7349e-01 iter,dt,t = 213 4.6249e-03 9.7812e-01 iter,dt,t = 214 4.6175e-03 9.8275e-01 iter,dt,t = 215 4.6134e-03 9.8737e-01 iter,dt,t = 216 4.6129e-03 9.9198e-01 iter,dt,t = 217 3.4077e-03 9.9659e-01 iter,dt,t = 218 0.0000e+00 1.0000e+00 Wrote file output/avg000.vtr filename = "output/sol000" Wrote pointwise solution to output/sol000 Wrote final average solution to avg.vtr. ┌ Warning: `Base.getindex(VA::AbstractDiffEqArray{T, N, A}, i::Int) where {T, N, A <: Union{AbstractArray, AbstractVectorOfArray}}` is deprecated, use `VA.u[i]` instead. │ caller = solve_rkfr(eq::Tenkai.EqTenMoment2D.TenMoment2D, problem::Problem{Float64, Nothing, NTuple{4, Tenkai.BCType}, typeof(dwave), typeof(dummy_bv), typeof(exact_dwave)}, scheme::Scheme{String, typeof(get_second_node_vars), typeof(Tenkai.EqTenMoment2D.rusanov), @NamedTuple{name::String}, @NamedTuple{bflux_ind::Tenkai.BFluxType, compute_bflux!::typeof(Tenkai.trivial_function)}, Nothing, 4, 16}, param::Parameters{Vector{Int64}, Float64}, grid::Tenkai.CartesianGrids.CartesianGrid2D{Float64}, op::@NamedTuple{degree::Int64, xg::SVector{4, Float64}, wg::SVector{4, Float64}, wg_inv::SVector{4, Float64}, Vl::SVector{4, Float64}, Vr::SVector{4, Float64}, bl::SVector{4, Float64}, br::SVector{4, Float64}, Dm::SMatrix{4, 4, Float64, 16}, DmT::SMatrix{4, 4, Float64, 16}, bV::SMatrix{4, 4, Float64, 16}, D1::SMatrix{4, 4, Float64, 16}, D1T::SMatrix{4, 4, Float64, 16}, Dsplit::SMatrix{4, 4, Float64, 16}, Vgll::SMatrix{4, 4, Float64, 16}}, aux::@NamedTuple{plot_data::Nothing, blend::@NamedTuple{subroutines::@NamedTuple{blend_cell_residual!::typeof(Tenkai.trivial_cell_residual), blend_face_residual_x!::typeof(Tenkai.trivial_face_residual), blend_face_residual_y!::typeof(Tenkai.trivial_face_residual), get_element_alpha::typeof(Tenkai.get_element_alpha_other_limiter)}, cache::@NamedTuple{dt::MVector{1, Float64}, fn_low::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}}, parameters::@NamedTuple{positivity_blending::NoPositivityBlending}, uEltype::DataType}, hierarchical::Nothing, error_file::IOStream, timer::TimerOutputs.TimerOutput, aux_cache::@NamedTuple{error_cache::@NamedTuple{xq::SVector{7, Float64}, w2d::SMatrix{7, 7, Float64, 49}, V::SMatrix{7, 4, Float64, 28}, arr_cache::SVector{1, SVector{2, MArray{Tuple{6, 7, 7}, Float64, 3, 294}}}}, bound_limiter_cache::SVector{1, SVector{4, MMatrix{6, 4, Float64, 24}}}}}, cache::@NamedTuple{u0::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}, u1::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}, ua::OffsetArrays.OffsetArray{Float64, 3, Array{Float64, 3}}, res::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}, Fb::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}, ub::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}, trixi_ode::Tuple{}}) at RKFR.jl:413 └ @ Core ~/.julia/packages/Tenkai/IQyy6/src/solvers/RK/RKFR.jl:413 ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 29.0s / 1.2% 601MiB / 1.3% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Cell averaging 1.09k 14.0ms 4.0% 12.8μs 0.00B 0.0% 0.00B Limiter 2.18k 235μs 0.1% 108ns 672B 0.0% 0.31B Pre process limiter 1.09k 49.8μs 0.0% 45.7ns 0.00B 0.0% 0.00B Time Step computation 220 232μs 0.1% 1.05μs 0.00B 0.0% 0.00B Time step computation 219 6.52μs 0.0% 29.8ns 0.00B 0.0% 0.00B Cell residual 1.09k 178ms 51.1% 164μs 0.00B 0.0% 0.00B Update ghost values 1.09k 8.18ms 2.3% 7.50μs 0.00B 0.0% 0.00B Face residual 1.09k 69.1ms 19.8% 63.4μs 0.00B 0.0% 0.00B Write solution 1 77.7ms 22.3% 77.7ms 7.63MiB 96.8% 7.63MiB Compute error 1 1.24ms 0.4% 1.24ms 254KiB 3.1% 254KiB ────────────────────────────────────────────────────────────────────────────────── ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 29.0s / 1.2% 601MiB / 1.3% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Cell residual 1.09k 178ms 51.1% 164μs 0.00B 0.0% 0.00B Write solution 1 77.7ms 22.3% 77.7ms 7.63MiB 96.8% 7.63MiB Face residual 1.09k 69.1ms 19.8% 63.4μs 0.00B 0.0% 0.00B Cell averaging 1.09k 14.0ms 4.0% 12.8μs 0.00B 0.0% 0.00B Update ghost values 1.09k 8.18ms 2.3% 7.50μs 0.00B 0.0% 0.00B Compute error 1 1.24ms 0.4% 1.24ms 254KiB 3.1% 254KiB Limiter 2.18k 235μs 0.1% 108ns 672B 0.0% 0.31B Pre process limiter 1.09k 49.8μs 0.0% 45.7ns 0.00B 0.0% 0.00B Time Step computation 220 232μs 0.1% 1.05μs 0.00B 0.0% 0.00B Time step computation 219 6.52μs 0.0% 29.8ns 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── Dict("l2_error" => 0.00018961618606145545, "energy" => 1.5529819439264372, "l1_error" => 9.137448893698532e-5) [ Info: You just called `trixi_include`. Julia may now compile the code, please be patient. WARNING: Method definition f_rare(Any, Any) in module Main at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_near_vacuum.jl:13 overwritten on the same line (check for duplicate calls to `include`). WARNING: Method definition near_vacuum_ic(Any, Any, Any, Tenkai.EqTenMoment2D.TenMoment2D) in module Main at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_near_vacuum.jl:21 overwritten on the same line (check for duplicate calls to `include`). WARNING: Method definition dummy_bv(Any, Any) in module Main at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_dwave.jl:22 overwritten at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_near_vacuum.jl:36. WARNING: Method definition near_vacuum_ic(Any, Any) in module Main at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_near_vacuum.jl:52 overwritten on the same line (check for duplicate calls to `include`). WARNING: Method definition exact_near_vacuum(Any, Any, Any) in module Main at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_near_vacuum.jl:54 overwritten on the same line (check for duplicate calls to `include`). Making 2D uniform Cartesian grid Grid size = 5 x 5 xmin,xmax = -1.000000e+00, 1.000000e+00 ymin,ymax = -1.000000e+00, 1.000000e+00 dx, dy = 4.000000e-01, 4.000000e-01 Setting up differentiation operators Degree = 3 Sol points = gl Cor fun = radau Number of julia threads = 1 Solving Ten moment problem using RKFR Setting initial condition CFL: based on stability = 0.036250 Using DifferentialEquations iter,dt,t = 0 7.2865e-04 0.0000e+00 iter,dt,t = 1 7.3140e-04 7.2865e-04 iter,dt,t = 2 7.3421e-04 1.4601e-03 iter,dt,t = 3 7.3706e-04 2.1943e-03 iter,dt,t = 4 7.3995e-04 2.9313e-03 iter,dt,t = 5 7.4285e-04 3.6713e-03 iter,dt,t = 6 7.4576e-04 4.4141e-03 iter,dt,t = 7 7.4866e-04 5.1599e-03 iter,dt,t = 8 7.5154e-04 5.9085e-03 iter,dt,t = 9 7.5439e-04 6.6601e-03 iter,dt,t = 10 7.5718e-04 7.4145e-03 iter,dt,t = 11 7.5992e-04 8.1716e-03 iter,dt,t = 12 7.6258e-04 8.9316e-03 iter,dt,t = 13 7.6527e-04 9.6941e-03 iter,dt,t = 14 7.6809e-04 1.0459e-02 iter,dt,t = 15 7.7106e-04 1.1228e-02 iter,dt,t = 16 7.7407e-04 1.1999e-02 iter,dt,t = 17 7.7716e-04 1.2773e-02 iter,dt,t = 18 7.8038e-04 1.3550e-02 iter,dt,t = 19 7.8385e-04 1.4330e-02 iter,dt,t = 20 7.8751e-04 1.5114e-02 iter,dt,t = 21 7.9136e-04 1.5902e-02 iter,dt,t = 22 7.9475e-04 1.6693e-02 iter,dt,t = 23 7.9308e-04 1.7488e-02 iter,dt,t = 24 7.9156e-04 1.8281e-02 iter,dt,t = 25 7.9019e-04 1.9072e-02 iter,dt,t = 26 1.3753e-04 1.9862e-02 iter,dt,t = 27 0.0000e+00 2.0000e-02 Wrote file output/avg000.vtr filename = "output/sol000" Wrote pointwise solution to output/sol000 Wrote final average solution to avg.vtr. ┌ Warning: `Base.getindex(VA::AbstractDiffEqArray{T, N, A}, i::Int) where {T, N, A <: Union{AbstractArray, AbstractVectorOfArray}}` is deprecated, use `VA.u[i]` instead. │ caller = solve_rkfr(eq::Tenkai.EqTenMoment2D.TenMoment2D, problem::Problem{Float64, Nothing, NTuple{4, Tenkai.BCType}, typeof(near_vacuum_ic), typeof(dummy_bv), typeof(exact_near_vacuum)}, scheme::Scheme{String, typeof(get_second_node_vars), typeof(Tenkai.EqTenMoment2D.rusanov), @NamedTuple{name::String, tvbM::Float64, cache::SVector{1, SVector{24, MMatrix{6, 1, Float64, 6}}}, beta::Float64}, @NamedTuple{bflux_ind::Tenkai.BFluxType, compute_bflux!::typeof(Tenkai.trivial_function)}, Nothing, 4, 16}, param::Parameters{Vector{Int64}, Float64}, grid::Tenkai.CartesianGrids.CartesianGrid2D{Float64}, op::@NamedTuple{degree::Int64, xg::SVector{4, Float64}, wg::SVector{4, Float64}, wg_inv::SVector{4, Float64}, Vl::SVector{4, Float64}, Vr::SVector{4, Float64}, bl::SVector{4, Float64}, br::SVector{4, Float64}, Dm::SMatrix{4, 4, Float64, 16}, DmT::SMatrix{4, 4, Float64, 16}, bV::SMatrix{4, 4, Float64, 16}, D1::SMatrix{4, 4, Float64, 16}, D1T::SMatrix{4, 4, Float64, 16}, Dsplit::SMatrix{4, 4, Float64, 16}, Vgll::SMatrix{4, 4, Float64, 16}}, aux::@NamedTuple{plot_data::Nothing, blend::@NamedTuple{subroutines::@NamedTuple{blend_cell_residual!::typeof(Tenkai.trivial_cell_residual), blend_face_residual_x!::typeof(Tenkai.trivial_face_residual), blend_face_residual_y!::typeof(Tenkai.trivial_face_residual), get_element_alpha::typeof(Tenkai.get_element_alpha_other_limiter)}, cache::@NamedTuple{dt::MVector{1, Float64}, fn_low::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}}, parameters::@NamedTuple{positivity_blending::NoPositivityBlending}, uEltype::DataType}, hierarchical::Nothing, error_file::IOStream, timer::TimerOutputs.TimerOutput, aux_cache::@NamedTuple{error_cache::@NamedTuple{xq::SVector{7, Float64}, w2d::SMatrix{7, 7, Float64, 49}, V::SMatrix{7, 4, Float64, 28}, arr_cache::SVector{1, SVector{2, MArray{Tuple{6, 7, 7}, Float64, 3, 294}}}}, bound_limiter_cache::SVector{1, SVector{4, MMatrix{6, 4, Float64, 24}}}}}, cache::@NamedTuple{u0::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}, u1::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}, ua::OffsetArrays.OffsetArray{Float64, 3, Array{Float64, 3}}, res::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}, Fb::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}, ub::OffsetArrays.OffsetArray{Float64, 5, Array{Float64, 5}}, trixi_ode::Tuple{}}) at RKFR.jl:413 └ @ Core ~/.julia/packages/Tenkai/IQyy6/src/solvers/RK/RKFR.jl:413 ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 33.8s / 0.5% 593MiB / 1.3% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Cell averaging 136 1.74ms 1.1% 12.8μs 0.00B 0.0% 0.00B Limiter 271 61.2ms 38.6% 226μs 7.33KiB 0.1% 27.7B TVB Limiter 136 2.93ms 1.9% 21.6μs 0.00B 0.0% 0.00B Pre process limiter 135 11.9μs 0.0% 88.4ns 0.00B 0.0% 0.00B Time Step computation 29 42.8μs 0.0% 1.48μs 0.00B 0.0% 0.00B Time step computation 28 1.32μs 0.0% 47.1ns 0.00B 0.0% 0.00B Cell residual 135 22.3ms 14.1% 165μs 0.00B 0.0% 0.00B Update ghost values 135 1.12ms 0.7% 8.26μs 16.9KiB 0.2% 128B Face residual 135 8.58ms 5.4% 63.6μs 0.00B 0.0% 0.00B Write solution 1 62.2ms 39.3% 62.2ms 7.61MiB 96.3% 7.61MiB Compute error 1 1.13ms 0.7% 1.13ms 278KiB 3.4% 278KiB ────────────────────────────────────────────────────────────────────────────────── ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 33.8s / 0.5% 593MiB / 1.3% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Write solution 1 62.2ms 39.3% 62.2ms 7.61MiB 96.3% 7.61MiB Limiter 271 61.2ms 38.6% 226μs 7.33KiB 0.1% 27.7B TVB Limiter 136 2.93ms 1.9% 21.6μs 0.00B 0.0% 0.00B Pre process limiter 135 11.9μs 0.0% 88.4ns 0.00B 0.0% 0.00B Cell residual 135 22.3ms 14.1% 165μs 0.00B 0.0% 0.00B Face residual 135 8.58ms 5.4% 63.6μs 0.00B 0.0% 0.00B Cell averaging 136 1.74ms 1.1% 12.8μs 0.00B 0.0% 0.00B Compute error 1 1.13ms 0.7% 1.13ms 278KiB 3.4% 278KiB Update ghost values 135 1.12ms 0.7% 8.26μs 16.9KiB 0.2% 128B Time Step computation 29 42.8μs 0.0% 1.48μs 0.00B 0.0% 0.00B Time step computation 28 1.32μs 0.0% 47.1ns 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── Dict("l2_error" => 0.1669182712103176, "energy" => 0.21590143464113912, "l1_error" => 0.08868409399606575) [ Info: You just called `trixi_include`. Julia may now compile the code, please be patient. WARNING: Method definition dwave(Any, Any, Tenkai.EqTenMoment2D.TenMoment2D) in module Main at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_dwave.jl:12 overwritten on the same line (check for duplicate calls to `include`). WARNING: Method definition dummy_bv(Any, Any) in module Main at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_near_vacuum.jl:36 overwritten at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_dwave.jl:22. WARNING: Method definition dwave(Any, Any) in module Main at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_dwave.jl:26 overwritten on the same line (check for duplicate calls to `include`). WARNING: Method definition exact_dwave(Any, Any, Any) in module Main at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_dwave.jl:28 overwritten on the same line (check for duplicate calls to `include`). Making 2D uniform Cartesian grid Grid size = 5 x 5 xmin,xmax = 0.000000e+00, 1.000000e+00 ymin,ymax = 0.000000e+00, 1.000000e+00 dx, dy = 2.000000e-01, 2.000000e-01 Setting up differentiation operators Degree = 3 Sol points = gl Cor fun = radau Number of julia threads = 1 About to use a solver written by user... Solving Ten moment problem using a cRK scheme Setting initial condition Wrote file output/avg000.vtr filename = "output/sol000" Wrote pointwise solution to output/sol000 CFL: based on stability = 0.100940 Starting time stepping iter,dt,t = 1 3.2819e-03 3.2819e-03 iter,dt,t = 2 3.2788e-03 6.5608e-03 iter,dt,t = 3 3.2770e-03 9.8378e-03 iter,dt,t = 4 3.2765e-03 1.3114e-02 iter,dt,t = 5 3.2772e-03 1.6392e-02 iter,dt,t = 6 3.2792e-03 1.9671e-02 iter,dt,t = 7 3.2824e-03 2.2953e-02 iter,dt,t = 8 3.2868e-03 2.6240e-02 iter,dt,t = 9 3.2923e-03 2.9532e-02 iter,dt,t = 10 3.2989e-03 3.2831e-02 iter,dt,t = 11 3.3066e-03 3.6138e-02 iter,dt,t = 12 3.2968e-03 3.9435e-02 iter,dt,t = 13 3.2848e-03 4.2719e-02 iter,dt,t = 14 3.2737e-03 4.5993e-02 iter,dt,t = 15 3.2638e-03 4.9257e-02 iter,dt,t = 16 3.2550e-03 5.2512e-02 iter,dt,t = 17 3.2473e-03 5.5759e-02 iter,dt,t = 18 3.2409e-03 5.9000e-02 iter,dt,t = 19 3.2358e-03 6.2236e-02 iter,dt,t = 20 3.2320e-03 6.5468e-02 iter,dt,t = 21 3.2295e-03 6.8697e-02 iter,dt,t = 22 3.2283e-03 7.1926e-02 iter,dt,t = 23 3.2284e-03 7.5154e-02 iter,dt,t = 24 3.2299e-03 7.8384e-02 iter,dt,t = 25 3.2326e-03 8.1617e-02 iter,dt,t = 26 3.2367e-03 8.4853e-02 iter,dt,t = 27 3.2420e-03 8.8095e-02 iter,dt,t = 28 3.2485e-03 9.1344e-02 iter,dt,t = 29 3.2562e-03 9.4600e-02 iter,dt,t = 30 3.2651e-03 9.7865e-02 iter,dt,t = 31 3.2750e-03 1.0114e-01 iter,dt,t = 32 3.2782e-03 1.0442e-01 iter,dt,t = 33 3.2679e-03 1.0769e-01 iter,dt,t = 34 3.2588e-03 1.1094e-01 iter,dt,t = 35 3.2507e-03 1.1420e-01 iter,dt,t = 36 3.2438e-03 1.1744e-01 iter,dt,t = 37 3.2381e-03 1.2068e-01 iter,dt,t = 38 3.2337e-03 1.2391e-01 iter,dt,t = 39 3.2305e-03 1.2714e-01 iter,dt,t = 40 3.2287e-03 1.3037e-01 iter,dt,t = 41 3.2282e-03 1.3360e-01 iter,dt,t = 42 3.2290e-03 1.3683e-01 iter,dt,t = 43 3.2311e-03 1.4006e-01 iter,dt,t = 44 3.2346e-03 1.4329e-01 iter,dt,t = 45 3.2394e-03 1.4653e-01 iter,dt,t = 46 3.2454e-03 1.4978e-01 iter,dt,t = 47 3.2526e-03 1.5303e-01 iter,dt,t = 48 3.2611e-03 1.5629e-01 iter,dt,t = 49 3.2707e-03 1.5956e-01 iter,dt,t = 50 3.2814e-03 1.6284e-01 iter,dt,t = 51 3.2931e-03 1.6614e-01 iter,dt,t = 52 3.3058e-03 1.6944e-01 iter,dt,t = 53 3.3012e-03 1.7274e-01 iter,dt,t = 54 3.2943e-03 1.7604e-01 iter,dt,t = 55 3.2884e-03 1.7933e-01 iter,dt,t = 56 3.2837e-03 1.8261e-01 iter,dt,t = 57 3.2801e-03 1.8589e-01 iter,dt,t = 58 3.2778e-03 1.8917e-01 iter,dt,t = 59 3.2767e-03 1.9244e-01 iter,dt,t = 60 3.2768e-03 1.9572e-01 iter,dt,t = 61 3.2782e-03 1.9900e-01 iter,dt,t = 62 3.2809e-03 2.0228e-01 iter,dt,t = 63 3.2797e-03 2.0556e-01 iter,dt,t = 64 3.2775e-03 2.0884e-01 iter,dt,t = 65 3.2766e-03 2.1211e-01 iter,dt,t = 66 3.2770e-03 2.1539e-01 iter,dt,t = 67 3.2786e-03 2.1867e-01 iter,dt,t = 68 3.2814e-03 2.2195e-01 iter,dt,t = 69 3.2854e-03 2.2524e-01 iter,dt,t = 70 3.2906e-03 2.2853e-01 iter,dt,t = 71 3.2968e-03 2.3182e-01 iter,dt,t = 72 3.3042e-03 2.3513e-01 iter,dt,t = 73 3.3008e-03 2.3843e-01 iter,dt,t = 74 3.2885e-03 2.4172e-01 iter,dt,t = 75 3.2771e-03 2.4499e-01 iter,dt,t = 76 3.2668e-03 2.4826e-01 iter,dt,t = 77 3.2576e-03 2.5152e-01 iter,dt,t = 78 3.2496e-03 2.5477e-01 iter,dt,t = 79 3.2428e-03 2.5801e-01 iter,dt,t = 80 3.2373e-03 2.6125e-01 iter,dt,t = 81 3.2331e-03 2.6448e-01 iter,dt,t = 82 3.2301e-03 2.6771e-01 iter,dt,t = 83 3.2285e-03 2.7094e-01 iter,dt,t = 84 3.2283e-03 2.7417e-01 iter,dt,t = 85 3.2293e-03 2.7740e-01 iter,dt,t = 86 3.2317e-03 2.8063e-01 iter,dt,t = 87 3.2353e-03 2.8387e-01 iter,dt,t = 88 3.2403e-03 2.8711e-01 iter,dt,t = 89 3.2464e-03 2.9035e-01 iter,dt,t = 90 3.2538e-03 2.9361e-01 iter,dt,t = 91 3.2623e-03 2.9687e-01 iter,dt,t = 92 3.2719e-03 3.0014e-01 iter,dt,t = 93 3.2815e-03 3.0342e-01 iter,dt,t = 94 3.2710e-03 3.0669e-01 iter,dt,t = 95 3.2615e-03 3.0995e-01 iter,dt,t = 96 3.2531e-03 3.1321e-01 iter,dt,t = 97 3.2458e-03 3.1645e-01 iter,dt,t = 98 3.2398e-03 3.1969e-01 iter,dt,t = 99 3.2350e-03 3.2293e-01 iter,dt,t = 100 3.2314e-03 3.2616e-01 iter,dt,t = 101 3.2292e-03 3.2939e-01 iter,dt,t = 102 3.2283e-03 3.3262e-01 iter,dt,t = 103 3.2287e-03 3.3585e-01 iter,dt,t = 104 3.2304e-03 3.3908e-01 iter,dt,t = 105 3.2334e-03 3.4231e-01 iter,dt,t = 106 3.2378e-03 3.4555e-01 iter,dt,t = 107 3.2434e-03 3.4879e-01 iter,dt,t = 108 3.2503e-03 3.5204e-01 iter,dt,t = 109 3.2584e-03 3.5530e-01 iter,dt,t = 110 3.2676e-03 3.5857e-01 iter,dt,t = 111 3.2780e-03 3.6184e-01 iter,dt,t = 112 3.2894e-03 3.6513e-01 iter,dt,t = 113 3.3018e-03 3.6844e-01 iter,dt,t = 114 3.3036e-03 3.7174e-01 iter,dt,t = 115 3.2963e-03 3.7504e-01 iter,dt,t = 116 3.2901e-03 3.7833e-01 iter,dt,t = 117 3.2850e-03 3.8161e-01 iter,dt,t = 118 3.2811e-03 3.8489e-01 iter,dt,t = 119 3.2784e-03 3.8817e-01 iter,dt,t = 120 3.2769e-03 3.9145e-01 iter,dt,t = 121 3.2767e-03 3.9472e-01 iter,dt,t = 122 3.2777e-03 3.9800e-01 iter,dt,t = 123 3.2800e-03 4.0128e-01 iter,dt,t = 124 3.2807e-03 4.0456e-01 iter,dt,t = 125 3.2781e-03 4.0784e-01 iter,dt,t = 126 3.2768e-03 4.1112e-01 iter,dt,t = 127 3.2768e-03 4.1439e-01 iter,dt,t = 128 3.2780e-03 4.1767e-01 iter,dt,t = 129 3.2804e-03 4.2095e-01 iter,dt,t = 130 3.2841e-03 4.2424e-01 iter,dt,t = 131 3.2889e-03 4.2753e-01 iter,dt,t = 132 3.2948e-03 4.3082e-01 iter,dt,t = 133 3.3019e-03 4.3412e-01 iter,dt,t = 134 3.3048e-03 4.3743e-01 iter,dt,t = 135 3.2922e-03 4.4072e-01 iter,dt,t = 136 3.2805e-03 4.4400e-01 iter,dt,t = 137 3.2699e-03 4.4727e-01 iter,dt,t = 138 3.2603e-03 4.5053e-01 iter,dt,t = 139 3.2520e-03 4.5378e-01 iter,dt,t = 140 3.2448e-03 4.5703e-01 iter,dt,t = 141 3.2389e-03 4.6027e-01 iter,dt,t = 142 3.2343e-03 4.6350e-01 iter,dt,t = 143 3.2309e-03 4.6673e-01 iter,dt,t = 144 3.2289e-03 4.6996e-01 iter,dt,t = 145 3.2282e-03 4.7319e-01 iter,dt,t = 146 3.2289e-03 4.7642e-01 iter,dt,t = 147 3.2309e-03 4.7965e-01 iter,dt,t = 148 3.2341e-03 4.8288e-01 iter,dt,t = 149 3.2387e-03 4.8612e-01 iter,dt,t = 150 3.2445e-03 4.8936e-01 iter,dt,t = 151 3.2515e-03 4.9262e-01 iter,dt,t = 152 3.2596e-03 4.9588e-01 iter,dt,t = 153 3.2688e-03 4.9914e-01 iter,dt,t = 154 3.2791e-03 5.0242e-01 iter,dt,t = 155 3.2742e-03 5.0570e-01 iter,dt,t = 156 3.2643e-03 5.0896e-01 iter,dt,t = 157 3.2556e-03 5.1222e-01 iter,dt,t = 158 3.2480e-03 5.1547e-01 iter,dt,t = 159 3.2415e-03 5.1871e-01 iter,dt,t = 160 3.2363e-03 5.2194e-01 iter,dt,t = 161 3.2324e-03 5.2518e-01 iter,dt,t = 162 3.2298e-03 5.2841e-01 iter,dt,t = 163 3.2284e-03 5.3163e-01 iter,dt,t = 164 3.2284e-03 5.3486e-01 iter,dt,t = 165 3.2298e-03 5.3809e-01 iter,dt,t = 166 3.2324e-03 5.4133e-01 iter,dt,t = 167 3.2364e-03 5.4456e-01 iter,dt,t = 168 3.2416e-03 5.4780e-01 iter,dt,t = 169 3.2481e-03 5.5105e-01 iter,dt,t = 170 3.2558e-03 5.5431e-01 iter,dt,t = 171 3.2647e-03 5.5757e-01 iter,dt,t = 172 3.2747e-03 5.6085e-01 iter,dt,t = 173 3.2858e-03 5.6413e-01 iter,dt,t = 174 3.2979e-03 5.6743e-01 iter,dt,t = 175 3.3061e-03 5.7074e-01 iter,dt,t = 176 3.2985e-03 5.7403e-01 iter,dt,t = 177 3.2920e-03 5.7733e-01 iter,dt,t = 178 3.2865e-03 5.8061e-01 iter,dt,t = 179 3.2822e-03 5.8390e-01 iter,dt,t = 180 3.2792e-03 5.8717e-01 iter,dt,t = 181 3.2773e-03 5.9045e-01 iter,dt,t = 182 3.2767e-03 5.9373e-01 iter,dt,t = 183 3.2773e-03 5.9701e-01 iter,dt,t = 184 3.2792e-03 6.0029e-01 iter,dt,t = 185 3.2818e-03 6.0357e-01 iter,dt,t = 186 3.2788e-03 6.0685e-01 iter,dt,t = 187 3.2771e-03 6.1012e-01 iter,dt,t = 188 3.2767e-03 6.1340e-01 iter,dt,t = 189 3.2775e-03 6.1668e-01 iter,dt,t = 190 3.2796e-03 6.1996e-01 iter,dt,t = 191 3.2829e-03 6.2324e-01 iter,dt,t = 192 3.2873e-03 6.2653e-01 iter,dt,t = 193 3.2930e-03 6.2982e-01 iter,dt,t = 194 3.2996e-03 6.3312e-01 iter,dt,t = 195 3.3074e-03 6.3643e-01 iter,dt,t = 196 3.2960e-03 6.3972e-01 iter,dt,t = 197 3.2840e-03 6.4301e-01 iter,dt,t = 198 3.2730e-03 6.4628e-01 iter,dt,t = 199 3.2632e-03 6.4954e-01 iter,dt,t = 200 3.2544e-03 6.5280e-01 iter,dt,t = 201 3.2469e-03 6.5604e-01 iter,dt,t = 202 3.2406e-03 6.5928e-01 iter,dt,t = 203 3.2356e-03 6.6252e-01 iter,dt,t = 204 3.2319e-03 6.6575e-01 iter,dt,t = 205 3.2294e-03 6.6898e-01 iter,dt,t = 206 3.2284e-03 6.7221e-01 iter,dt,t = 207 3.2286e-03 6.7544e-01 iter,dt,t = 208 3.2302e-03 6.7867e-01 iter,dt,t = 209 3.2330e-03 6.8190e-01 iter,dt,t = 210 3.2372e-03 6.8514e-01 iter,dt,t = 211 3.2426e-03 6.8838e-01 iter,dt,t = 212 3.2492e-03 6.9163e-01 iter,dt,t = 213 3.2570e-03 6.9489e-01 iter,dt,t = 214 3.2660e-03 6.9815e-01 iter,dt,t = 215 3.2759e-03 7.0143e-01 iter,dt,t = 216 3.2774e-03 7.0471e-01 iter,dt,t = 217 3.2673e-03 7.0797e-01 iter,dt,t = 218 3.2582e-03 7.1123e-01 iter,dt,t = 219 3.2502e-03 7.1448e-01 iter,dt,t = 220 3.2434e-03 7.1773e-01 iter,dt,t = 221 3.2378e-03 7.2096e-01 iter,dt,t = 222 3.2335e-03 7.2420e-01 iter,dt,t = 223 3.2305e-03 7.2743e-01 iter,dt,t = 224 3.2287e-03 7.3066e-01 iter,dt,t = 225 3.2283e-03 7.3389e-01 iter,dt,t = 226 3.2292e-03 7.3711e-01 iter,dt,t = 227 3.2315e-03 7.4035e-01 iter,dt,t = 228 3.2351e-03 7.4358e-01 iter,dt,t = 229 3.2399e-03 7.4682e-01 iter,dt,t = 230 3.2460e-03 7.5007e-01 iter,dt,t = 231 3.2534e-03 7.5332e-01 iter,dt,t = 232 3.2619e-03 7.5658e-01 iter,dt,t = 233 3.2716e-03 7.5985e-01 iter,dt,t = 234 3.2824e-03 7.6314e-01 iter,dt,t = 235 3.2942e-03 7.6643e-01 iter,dt,t = 236 3.3069e-03 7.6974e-01 iter,dt,t = 237 3.3007e-03 7.7304e-01 iter,dt,t = 238 3.2939e-03 7.7633e-01 iter,dt,t = 239 3.2881e-03 7.7962e-01 iter,dt,t = 240 3.2835e-03 7.8290e-01 iter,dt,t = 241 3.2800e-03 7.8618e-01 iter,dt,t = 242 3.2778e-03 7.8946e-01 iter,dt,t = 243 3.2768e-03 7.9274e-01 iter,dt,t = 244 3.2770e-03 7.9602e-01 iter,dt,t = 245 3.2785e-03 7.9929e-01 iter,dt,t = 246 3.2813e-03 8.0257e-01 iter,dt,t = 247 3.2796e-03 8.0585e-01 iter,dt,t = 248 3.2775e-03 8.0913e-01 iter,dt,t = 249 3.2767e-03 8.1241e-01 iter,dt,t = 250 3.2772e-03 8.1569e-01 iter,dt,t = 251 3.2789e-03 8.1896e-01 iter,dt,t = 252 3.2818e-03 8.2225e-01 iter,dt,t = 253 3.2859e-03 8.2553e-01 iter,dt,t = 254 3.2912e-03 8.2882e-01 iter,dt,t = 255 3.2975e-03 8.3212e-01 iter,dt,t = 256 3.3050e-03 8.3543e-01 iter,dt,t = 257 3.2999e-03 8.3873e-01 iter,dt,t = 258 3.2876e-03 8.4201e-01 iter,dt,t = 259 3.2763e-03 8.4529e-01 iter,dt,t = 260 3.2661e-03 8.4856e-01 iter,dt,t = 261 3.2570e-03 8.5181e-01 iter,dt,t = 262 3.2491e-03 8.5506e-01 iter,dt,t = 263 3.2424e-03 8.5830e-01 iter,dt,t = 264 3.2370e-03 8.6154e-01 iter,dt,t = 265 3.2329e-03 8.6477e-01 iter,dt,t = 266 3.2301e-03 8.6800e-01 iter,dt,t = 267 3.2286e-03 8.7123e-01 iter,dt,t = 268 3.2284e-03 8.7446e-01 iter,dt,t = 269 3.2296e-03 8.7769e-01 iter,dt,t = 270 3.2321e-03 8.8092e-01 iter,dt,t = 271 3.2358e-03 8.8416e-01 iter,dt,t = 272 3.2409e-03 8.8740e-01 iter,dt,t = 273 3.2471e-03 8.9065e-01 iter,dt,t = 274 3.2546e-03 8.9390e-01 iter,dt,t = 275 3.2632e-03 8.9716e-01 iter,dt,t = 276 3.2728e-03 9.0044e-01 iter,dt,t = 277 3.2807e-03 9.0372e-01 iter,dt,t = 278 3.2703e-03 9.0699e-01 iter,dt,t = 279 3.2609e-03 9.1025e-01 iter,dt,t = 280 3.2526e-03 9.1350e-01 iter,dt,t = 281 3.2454e-03 9.1675e-01 iter,dt,t = 282 3.2394e-03 9.1999e-01 iter,dt,t = 283 3.2347e-03 9.2322e-01 iter,dt,t = 284 3.2313e-03 9.2645e-01 iter,dt,t = 285 3.2292e-03 9.2968e-01 iter,dt,t = 286 3.2284e-03 9.3291e-01 iter,dt,t = 287 3.2289e-03 9.3614e-01 iter,dt,t = 288 3.2307e-03 9.3937e-01 iter,dt,t = 289 3.2339e-03 9.4260e-01 iter,dt,t = 290 3.2383e-03 9.4584e-01 iter,dt,t = 291 3.2441e-03 9.4909e-01 iter,dt,t = 292 3.2511e-03 9.5234e-01 iter,dt,t = 293 3.2592e-03 9.5560e-01 iter,dt,t = 294 3.2686e-03 9.5887e-01 iter,dt,t = 295 3.2790e-03 9.6214e-01 iter,dt,t = 296 3.2905e-03 9.6543e-01 iter,dt,t = 297 3.3030e-03 9.6874e-01 iter,dt,t = 298 3.3031e-03 9.7204e-01 iter,dt,t = 299 3.2959e-03 9.7534e-01 iter,dt,t = 300 3.2898e-03 9.7863e-01 iter,dt,t = 301 3.2848e-03 9.8191e-01 iter,dt,t = 302 3.2810e-03 9.8519e-01 iter,dt,t = 303 3.2784e-03 9.8847e-01 iter,dt,t = 304 3.2770e-03 9.9175e-01 iter,dt,t = 305 3.2769e-03 9.9502e-01 iter,dt,t = 306 3.2780e-03 9.9830e-01 iter,dt,t = 307 1.6974e-03 1.0000e+00 Wrote file output/avg001.vtr filename = "output/sol001" Wrote pointwise solution to output/sol001 Wrote final average solution to avg.vtr. ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 27.1s / 1.1% 491MiB / 4.1% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Cell averaging 308 3.94ms 1.4% 12.8μs 0.00B 0.0% 0.00B Limiter 615 71.4μs 0.0% 116ns 672B 0.0% 1.09B Pre process limiter 307 15.6μs 0.0% 50.9ns 0.00B 0.0% 0.00B Write solution 2 168ms 58.4% 83.8ms 14.1MiB 69.7% 7.03MiB Compute error 2 1.72ms 0.6% 861μs 506KiB 2.4% 253KiB Time Step computation 307 308μs 0.1% 1.00μs 0.00B 0.0% 0.00B Time step computation 307 9.03μs 0.0% 29.4ns 0.00B 0.0% 0.00B Cell Residual 307 55.3ms 19.3% 180μs 0.00B 0.0% 0.00B Update ghost values 921 35.2ms 12.3% 38.2μs 5.63MiB 27.9% 6.26KiB Face residual 307 20.2ms 7.0% 65.8μs 0.00B 0.0% 0.00B Update solution 307 2.75ms 1.0% 8.97μs 672B 0.0% 2.19B Update solution 307 2.72ms 0.9% 8.85μs 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 27.1s / 1.1% 491MiB / 4.1% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Write solution 2 168ms 58.4% 83.8ms 14.1MiB 69.7% 7.03MiB Cell Residual 307 55.3ms 19.3% 180μs 0.00B 0.0% 0.00B Update ghost values 921 35.2ms 12.3% 38.2μs 5.63MiB 27.9% 6.26KiB Face residual 307 20.2ms 7.0% 65.8μs 0.00B 0.0% 0.00B Cell averaging 308 3.94ms 1.4% 12.8μs 0.00B 0.0% 0.00B Update solution 307 2.75ms 1.0% 8.97μs 672B 0.0% 2.19B Update solution 307 2.72ms 0.9% 8.85μs 0.00B 0.0% 0.00B Compute error 2 1.72ms 0.6% 861μs 506KiB 2.4% 253KiB Time Step computation 307 308μs 0.1% 1.00μs 0.00B 0.0% 0.00B Limiter 615 71.4μs 0.0% 116ns 672B 0.0% 1.09B Pre process limiter 307 15.6μs 0.0% 50.9ns 0.00B 0.0% 0.00B Time step computation 307 9.03μs 0.0% 29.4ns 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── Dict("l2_error" => 0.00024537912652261226, "energy" => 1.5529239216902007, "l1_error" => 0.00011503459943726798) [ Info: You just called `trixi_include`. Julia may now compile the code, please be patient. WARNING: Method definition f_rare(Any, Any) in module Main at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_near_vacuum.jl:13 overwritten on the same line (check for duplicate calls to `include`). WARNING: Method definition near_vacuum_ic(Any, Any, Any, Tenkai.EqTenMoment2D.TenMoment2D) in module Main at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_near_vacuum.jl:21 overwritten on the same line (check for duplicate calls to `include`). WARNING: Method definition dummy_bv(Any, Any) in module Main at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_dwave.jl:22 overwritten at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_near_vacuum.jl:36. WARNING: Method definition near_vacuum_ic(Any, Any) in module Main at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_near_vacuum.jl:52 overwritten on the same line (check for duplicate calls to `include`). WARNING: Method definition exact_near_vacuum(Any, Any, Any) in module Main at /home/pkgeval/.julia/packages/Tenkai/IQyy6/Examples/2d/run_tenmom_near_vacuum.jl:54 overwritten on the same line (check for duplicate calls to `include`). Making 2D uniform Cartesian grid Grid size = 5 x 5 xmin,xmax = -1.000000e+00, 1.000000e+00 ymin,ymax = -1.000000e+00, 1.000000e+00 dx, dy = 4.000000e-01, 4.000000e-01 Setting up differentiation operators Degree = 3 Sol points = gl Cor fun = radau Number of julia threads = 1 About to use a solver written by user... Solving Ten moment problem using a cRK scheme Setting initial condition Wrote file output/avg000.vtr filename = "output/sol000" Wrote pointwise solution to output/sol000 CFL: based on stability = 0.025750 Starting time stepping iter,dt,t = 1 5.1759e-04 5.1759e-04 iter,dt,t = 2 5.1900e-04 1.0366e-03 iter,dt,t = 3 5.2044e-04 1.5570e-03 iter,dt,t = 4 5.2190e-04 2.0789e-03 iter,dt,t = 5 5.2338e-04 2.6023e-03 iter,dt,t = 6 5.2489e-04 3.1272e-03 iter,dt,t = 7 5.2641e-04 3.6536e-03 iter,dt,t = 8 5.2795e-04 4.1816e-03 iter,dt,t = 9 5.2950e-04 4.7110e-03 iter,dt,t = 10 5.3106e-04 5.2421e-03 iter,dt,t = 11 5.3262e-04 5.7747e-03 iter,dt,t = 12 5.3419e-04 6.3089e-03 iter,dt,t = 13 5.3577e-04 6.8447e-03 iter,dt,t = 14 5.3734e-04 7.3820e-03 iter,dt,t = 15 5.3890e-04 7.9209e-03 iter,dt,t = 16 5.4044e-04 8.4614e-03 iter,dt,t = 17 5.4196e-04 9.0033e-03 iter,dt,t = 18 5.4347e-04 9.5468e-03 iter,dt,t = 19 5.4495e-04 1.0092e-02 iter,dt,t = 20 5.4646e-04 1.0638e-02 iter,dt,t = 21 5.4798e-04 1.1186e-02 iter,dt,t = 22 5.4952e-04 1.1736e-02 iter,dt,t = 23 5.5107e-04 1.2287e-02 iter,dt,t = 24 5.5284e-04 1.2840e-02 iter,dt,t = 25 5.5441e-04 1.3394e-02 iter,dt,t = 26 5.5620e-04 1.3950e-02 iter,dt,t = 27 5.5779e-04 1.4508e-02 iter,dt,t = 28 5.5959e-04 1.5068e-02 iter,dt,t = 29 5.6158e-04 1.5629e-02 iter,dt,t = 30 5.6319e-04 1.6192e-02 iter,dt,t = 31 5.6468e-04 1.6757e-02 iter,dt,t = 32 5.6377e-04 1.7321e-02 iter,dt,t = 33 5.6291e-04 1.7884e-02 iter,dt,t = 34 5.6211e-04 1.8446e-02 iter,dt,t = 35 5.6137e-04 1.9007e-02 iter,dt,t = 36 5.6067e-04 1.9568e-02 iter,dt,t = 37 4.3209e-04 2.0000e-02 Wrote file output/avg001.vtr filename = "output/sol001" Wrote pointwise solution to output/sol001 Wrote final average solution to avg.vtr. ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 29.9s / 0.4% 458MiB / 3.2% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Cell averaging 38 506μs 0.5% 13.3μs 0.00B 0.0% 0.00B Limiter 75 23.5ms 22.5% 314μs 2.73KiB 0.0% 37.3B TVB Limiter 38 834μs 0.8% 21.9μs 0.00B 0.0% 0.00B Pre process limiter 37 3.09μs 0.0% 83.5ns 0.00B 0.0% 0.00B Write solution 2 66.0ms 63.0% 33.0ms 14.0MiB 95.5% 7.02MiB Compute error 2 2.28ms 2.2% 1.14ms 556KiB 3.7% 278KiB Time Step computation 37 37.9μs 0.0% 1.02μs 0.00B 0.0% 0.00B Time step computation 37 1.12μs 0.0% 30.3ns 0.00B 0.0% 0.00B Cell Residual 37 6.78ms 6.5% 183μs 0.00B 0.0% 0.00B Update ghost values 111 2.75ms 2.6% 24.8μs 125KiB 0.8% 1.12KiB Face residual 37 2.49ms 2.4% 67.4μs 0.00B 0.0% 0.00B Update solution 37 317μs 0.3% 8.56μs 672B 0.0% 18.2B Update solution 37 309μs 0.3% 8.34μs 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── ────────────────────────────────────────────────────────────────────────────────── Time Allocations ─────────────────────── ──────────────────────── Tot / % measured: 29.9s / 0.4% 458MiB / 3.2% Section ncalls time %tot avg alloc %tot avg ────────────────────────────────────────────────────────────────────────────────── Write solution 2 66.0ms 63.0% 33.0ms 14.0MiB 95.5% 7.02MiB Limiter 75 23.5ms 22.5% 314μs 2.73KiB 0.0% 37.3B TVB Limiter 38 834μs 0.8% 21.9μs 0.00B 0.0% 0.00B Pre process limiter 37 3.09μs 0.0% 83.5ns 0.00B 0.0% 0.00B Cell Residual 37 6.78ms 6.5% 183μs 0.00B 0.0% 0.00B Update ghost values 111 2.75ms 2.6% 24.8μs 125KiB 0.8% 1.12KiB Face residual 37 2.49ms 2.4% 67.4μs 0.00B 0.0% 0.00B Compute error 2 2.28ms 2.2% 1.14ms 556KiB 3.7% 278KiB Cell averaging 38 506μs 0.5% 13.3μs 0.00B 0.0% 0.00B Update solution 37 317μs 0.3% 8.56μs 672B 0.0% 18.2B Update solution 37 309μs 0.3% 8.34μs 0.00B 0.0% 0.00B Time Step computation 37 37.9μs 0.0% 1.02μs 0.00B 0.0% 0.00B Time step computation 37 1.12μs 0.0% 30.3ns 0.00B 0.0% 0.00B ────────────────────────────────────────────────────────────────────────────────── Dict("l2_error" => 0.16704718646046446, "energy" => 0.21569791117670498, "l1_error" => 0.08880738234854088) Test Summary: | Pass Fail Total Time Ten Moment 2D | 23 1 24 9m15.7s RNG of the outermost testset: Random.Xoshiro(0x891ede746ca9551f, 0x8a1cc742e633bf0b, 0x491e4153cf89a0c4, 0x624da88a914e9b49, 0x452c16aa261af513) ERROR: LoadError: Some tests did not pass: 23 passed, 1 failed, 0 errored, 0 broken. in expression starting at /home/pkgeval/.julia/packages/Tenkai/IQyy6/test/test_part1.jl:130 in expression starting at /home/pkgeval/.julia/packages/Tenkai/IQyy6/test/runtests.jl:40 Testing failed after 2295.84s ERROR: LoadError: Package Tenkai errored during testing Stacktrace: [1] pkgerror(msg::String) @ Pkg.Types /opt/julia/share/julia/stdlib/v1.14/Pkg/src/Types.jl:68 [2] test(ctx::Pkg.Types.Context, pkgs::Vector{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/v1.14/Pkg/src/Operations.jl:3122 [3] test @ /opt/julia/share/julia/stdlib/v1.14/Pkg/src/Operations.jl:2987 [inlined] [4] test(ctx::Pkg.Types.Context, pkgs::Vector{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::IOContext{IO}}) @ Pkg.API /opt/julia/share/julia/stdlib/v1.14/Pkg/src/API.jl:572 [5] kwcall(::@NamedTuple{julia_args::Cmd, io::IOContext{IO}}, ::typeof(Pkg.API.test), ctx::Pkg.Types.Context, pkgs::Vector{PackageSpec}) @ Pkg.API /opt/julia/share/julia/stdlib/v1.14/Pkg/src/API.jl:548 [6] test(pkgs::Vector{PackageSpec}; io::IOContext{IO}, kwargs::@Kwargs{julia_args::Cmd}) @ Pkg.API /opt/julia/share/julia/stdlib/v1.14/Pkg/src/API.jl:172 [7] kwcall(::@NamedTuple{julia_args::Cmd}, ::typeof(Pkg.API.test), pkgs::Vector{PackageSpec}) @ Pkg.API /opt/julia/share/julia/stdlib/v1.14/Pkg/src/API.jl:161 [8] test(pkgs::Vector{String}; kwargs::@Kwargs{julia_args::Cmd}) @ Pkg.API /opt/julia/share/julia/stdlib/v1.14/Pkg/src/API.jl:160 [9] test @ /opt/julia/share/julia/stdlib/v1.14/Pkg/src/API.jl:160 [inlined] [10] kwcall(::@NamedTuple{julia_args::Cmd}, ::typeof(Pkg.API.test), pkg::String) @ Pkg.API /opt/julia/share/julia/stdlib/v1.14/Pkg/src/API.jl:159 [11] top-level scope @ /PkgEval.jl/scripts/evaluate.jl:223 [12] include(mod::Module, _path::String) @ Base ./Base.jl:309 [13] exec_options(opts::Base.JLOptions) @ Base ./client.jl:344 [14] _start() @ Base ./client.jl:585 in expression starting at /PkgEval.jl/scripts/evaluate.jl:214 PkgEval failed after 2648.34s: package has test failures