Package evaluation of LinearSolve on Julia 1.10.8 (92f03a4775*) started at 2025-02-25T09:45:51.549 ################################################################################ # Set-up # Installing PkgEval dependencies (TestEnv)... Set-up completed after 5.18s ################################################################################ # Installation # Installing LinearSolve... Resolving package versions... Updating `~/.julia/environments/v1.10/Project.toml` [7ed4a6bd] + LinearSolve v3.3.1 Updating `~/.julia/environments/v1.10/Manifest.toml` [47edcb42] + ADTypes v1.13.0 [7d9f7c33] + Accessors v0.1.41 [79e6a3ab] + Adapt v4.2.0 [4fba245c] + ArrayInterface v7.18.0 [4c555306] + ArrayLayouts v1.11.1 [d360d2e6] + ChainRulesCore v1.25.1 [38540f10] + CommonSolve v0.2.4 [34da2185] + Compat v4.16.0 [a33af91c] + CompositionsBase v0.1.2 [2569d6c7] + ConcreteStructs v0.2.3 [187b0558] + ConstructionBase v1.5.8 [9a962f9c] + DataAPI v1.16.0 [e2d170a0] + DataValueInterfaces v1.0.0 [ffbed154] + DocStringExtensions v0.9.3 [4e289a0a] + EnumX v1.0.4 [e2ba6199] + ExprTools v0.1.10 [55351af7] + ExproniconLite v0.10.14 [1a297f60] + FillArrays v1.13.0 [069b7b12] + FunctionWrappers v1.1.3 [77dc65aa] + FunctionWrappersWrappers v0.1.3 [46192b85] + GPUArraysCore v0.2.0 [3587e190] + InverseFunctions v0.1.17 [82899510] + IteratorInterfaceExtensions v1.0.0 [692b3bcd] + JLLWrappers v1.7.0 [ae98c720] + Jieko v0.2.1 [ba0b0d4f] + Krylov v0.9.10 [5078a376] + LazyArrays v2.6.0 [7ed4a6bd] + LinearSolve v3.3.1 [1914dd2f] + MacroTools v0.5.15 [2e0e35c7] + Moshi v0.3.5 [bac558e1] + OrderedCollections v1.8.0 [aea7be01] + PrecompileTools v1.2.1 [21216c6a] + Preferences v1.4.3 [3cdcf5f2] + RecipesBase v1.3.4 [731186ca] + RecursiveArrayTools v3.30.0 [189a3867] + Reexport v1.2.2 [ae029012] + Requires v1.3.0 [7e49a35a] + RuntimeGeneratedFunctions v0.5.13 [0bca4576] + SciMLBase v2.75.0 [c0aeaf25] + SciMLOperators v0.3.12 [53ae85a6] + SciMLStructures v1.6.1 [efcf1570] + Setfield v1.1.1 [1e83bf80] + StaticArraysCore v1.4.3 [2efcf032] + SymbolicIndexingInterface v0.3.38 [3783bdb8] + TableTraits v1.0.1 [bd369af6] + Tables v1.12.0 [3a884ed6] + UnPack v1.0.2 [1d5cc7b8] + IntelOpenMP_jll v2025.0.4+0 [856f044c] + MKL_jll v2025.0.1+1 [1317d2d5] + oneTBB_jll v2022.0.0+0 [0dad84c5] + ArgTools v1.1.1 [56f22d72] + Artifacts [2a0f44e3] + Base64 [ade2ca70] + Dates [8ba89e20] + Distributed [f43a241f] + Downloads v1.6.0 [7b1f6079] + FileWatching [9fa8497b] + Future [b77e0a4c] + InteractiveUtils [4af54fe1] + LazyArtifacts [b27032c2] + LibCURL v0.6.4 [76f85450] + LibGit2 [8f399da3] + Libdl [37e2e46d] + LinearAlgebra [56ddb016] + Logging [d6f4376e] + Markdown [ca575930] + NetworkOptions v1.2.0 [44cfe95a] + Pkg v1.10.0 [de0858da] + Printf [3fa0cd96] + REPL [9a3f8284] + Random [ea8e919c] + SHA v0.7.0 [9e88b42a] + Serialization [6462fe0b] + Sockets [2f01184e] + SparseArrays v1.10.0 [10745b16] + Statistics v1.10.0 [fa267f1f] + TOML v1.0.3 [a4e569a6] + Tar v1.10.0 [cf7118a7] + UUIDs [4ec0a83e] + Unicode [e66e0078] + CompilerSupportLibraries_jll v1.1.1+0 [deac9b47] + LibCURL_jll v8.4.0+0 [e37daf67] + LibGit2_jll v1.6.4+0 [29816b5a] + LibSSH2_jll v1.11.0+1 [c8ffd9c3] + MbedTLS_jll v2.28.2+1 [14a3606d] + MozillaCACerts_jll v2023.1.10 [4536629a] + OpenBLAS_jll v0.3.23+4 [bea87d4a] + SuiteSparse_jll v7.2.1+1 [83775a58] + Zlib_jll v1.2.13+1 [8e850b90] + libblastrampoline_jll v5.11.0+0 [8e850ede] + nghttp2_jll v1.52.0+1 [3f19e933] + p7zip_jll v17.4.0+2 Installation completed after 7.91s ################################################################################ # Precompilation # Precompiling PkgEval dependencies... Precompiling package dependencies... Precompilation completed after 174.83s ################################################################################ # Testing # Testing LinearSolve Status `/tmp/jl_9KJC5a/Project.toml` [9b6a8646] AllocCheck v0.2.1 [4c88cf16] Aqua v0.8.11 [4fba245c] ArrayInterface v7.18.0 [aae01518] BandedMatrices v1.9.1 [0a1fb500] BlockDiagonals v0.1.42 [d360d2e6] ChainRulesCore v1.25.1 [2569d6c7] ConcreteStructs v0.2.3 [ffbed154] DocStringExtensions v0.9.3 [4e289a0a] EnumX v1.0.4 [7da242da] Enzyme v0.13.30 [9d29842c] FastAlmostBandedMatrices v0.1.4 [29a986be] FastLapackInterface v2.0.4 [6a86dc24] FiniteDiff v2.27.0 [f6369f11] ForwardDiff v0.10.38 [46192b85] GPUArraysCore v0.2.0 [b5ffcf37] HYPRE v1.7.0 [42fd0dbc] IterativeSolvers v0.9.4 [c3a54625] JET v0.9.18 [ba0b0d4f] Krylov v0.9.10 [0b1a1467] KrylovKit v0.9.5 [45d422c2] KrylovPreconditioners v0.3.1 [5078a376] LazyArrays v2.6.0 [7ed4a6bd] LinearSolve v3.3.1 [da04e1cc] MPI v0.20.22 ⌅ [bdf0d083] MultiFloats v1.0.4 [aea7be01] PrecompileTools v1.2.1 [21216c6a] Preferences v1.4.3 [731186ca] RecursiveArrayTools v3.30.0 [f2c3362d] RecursiveFactorization v0.2.23 [189a3867] Reexport v1.2.2 [1bc83da4] SafeTestsets v0.1.0 [0bca4576] SciMLBase v2.75.0 [c0aeaf25] SciMLOperators v0.3.12 [efcf1570] Setfield v1.1.1 [e56a9233] Sparspak v0.3.9 [860ef19b] StableRNGs v1.0.2 [90137ffa] StaticArrays v1.9.12 [1e83bf80] StaticArraysCore v1.4.3 [3a884ed6] UnPack v1.0.2 [e88e6eb3] Zygote v0.7.4 [856f044c] MKL_jll v2025.0.1+1 [b77e0a4c] InteractiveUtils [8f399da3] Libdl [37e2e46d] LinearAlgebra [d6f4376e] Markdown [44cfe95a] Pkg v1.10.0 [9a3f8284] Random [2f01184e] SparseArrays v1.10.0 [8dfed614] Test Status `/tmp/jl_9KJC5a/Manifest.toml` [47edcb42] ADTypes v1.13.0 [621f4979] AbstractFFTs v1.5.0 [7d9f7c33] Accessors v0.1.41 [79e6a3ab] Adapt v4.2.0 [9b6a8646] AllocCheck v0.2.1 [4c88cf16] Aqua v0.8.11 ⌅ [ec485272] ArnoldiMethod v0.1.0 [4fba245c] ArrayInterface v7.18.0 [4c555306] ArrayLayouts v1.11.1 [a9b6321e] Atomix v1.1.0 [aae01518] BandedMatrices v1.9.1 [62783981] BitTwiddlingConvenienceFunctions v0.1.6 [0a1fb500] BlockDiagonals v0.1.42 [fa961155] CEnum v0.5.0 [2a0fbf3d] CPUSummary v0.2.6 [082447d4] ChainRules v1.72.2 [d360d2e6] ChainRulesCore v1.25.1 [fb6a15b2] CloseOpenIntervals v0.1.13 [da1fd8a2] CodeTracking v1.3.6 [38540f10] CommonSolve v0.2.4 [bbf7d656] CommonSubexpressions v0.3.1 [f70d9fcc] CommonWorldInvalidations v1.0.0 [34da2185] Compat v4.16.0 [a33af91c] CompositionsBase v0.1.2 [2569d6c7] ConcreteStructs v0.2.3 [187b0558] ConstructionBase v1.5.8 [adafc99b] CpuId v0.3.1 [9a962f9c] DataAPI v1.16.0 [864edb3b] DataStructures v0.18.20 [e2d170a0] DataValueInterfaces v1.0.0 [163ba53b] DiffResults v1.1.0 [b552c78f] DiffRules v1.15.1 [ffbed154] DocStringExtensions v0.9.3 [4e289a0a] EnumX v1.0.4 [7da242da] Enzyme v0.13.30 [f151be2c] EnzymeCore v0.8.8 [e2ba6199] ExprTools v0.1.10 [55351af7] ExproniconLite v0.10.14 [9d29842c] FastAlmostBandedMatrices v0.1.4 [29a986be] FastLapackInterface v2.0.4 [1a297f60] FillArrays v1.13.0 [6a86dc24] FiniteDiff v2.27.0 [26cc04aa] FiniteDifferences v0.12.32 [f6369f11] ForwardDiff v0.10.38 [069b7b12] FunctionWrappers v1.1.3 [77dc65aa] FunctionWrappersWrappers v0.1.3 [0c68f7d7] GPUArrays v11.2.2 [46192b85] GPUArraysCore v0.2.0 [61eb1bfa] GPUCompiler v1.2.0 [b5ffcf37] HYPRE v1.7.0 [076d061b] HashArrayMappedTries v0.2.0 [3e5b6fbb] HostCPUFeatures v0.1.17 [7869d1d1] IRTools v0.4.14 [615f187c] IfElse v0.1.1 [d25df0c9] Inflate v0.1.5 [3587e190] InverseFunctions v0.1.17 [92d709cd] IrrationalConstants v0.2.4 [42fd0dbc] IterativeSolvers v0.9.4 [82899510] IteratorInterfaceExtensions v1.0.0 [c3a54625] JET v0.9.18 [692b3bcd] JLLWrappers v1.7.0 [ae98c720] Jieko v0.2.1 [aa1ae85d] JuliaInterpreter v0.9.41 [70703baa] JuliaSyntax v0.4.10 [63c18a36] KernelAbstractions v0.9.34 [ba0b0d4f] Krylov v0.9.10 [0b1a1467] KrylovKit v0.9.5 [45d422c2] KrylovPreconditioners v0.3.1 [929cbde3] LLVM v9.2.0 [10f19ff3] LayoutPointers v0.1.17 [5078a376] LazyArrays v2.6.0 [093fc24a] LightGraphs v1.3.5 [7ed4a6bd] LinearSolve v3.3.1 [2ab3a3ac] LogExpFunctions v0.3.29 [bdcacae8] LoopVectorization v0.12.171 [6f1432cf] LoweredCodeUtils v3.1.0 [da04e1cc] MPI v0.20.22 [3da0fdf6] MPIPreferences v0.1.11 [1914dd2f] MacroTools v0.5.15 [d125e4d3] ManualMemory v0.1.8 [a3b82374] MatrixFactorizations v3.0.1 [2679e427] Metis v1.5.0 [2e0e35c7] Moshi v0.3.5 ⌅ [bdf0d083] MultiFloats v1.0.4 [77ba4419] NaNMath v1.1.2 [d8793406] ObjectFile v0.4.3 [6fe1bfb0] OffsetArrays v1.15.0 [bac558e1] OrderedCollections v1.8.0 [65ce6f38] PackageExtensionCompat v1.0.2 [eebad327] PkgVersion v0.3.3 [f517fe37] Polyester v0.7.16 [1d0040c9] PolyesterWeave v0.2.2 [aea7be01] PrecompileTools v1.2.1 [21216c6a] Preferences v1.4.3 [c1ae055f] RealDot v0.1.0 [3cdcf5f2] RecipesBase v1.3.4 [731186ca] RecursiveArrayTools v3.30.0 [f2c3362d] RecursiveFactorization v0.2.23 [189a3867] Reexport v1.2.2 [ae029012] Requires v1.3.0 [708f8203] Richardson v1.4.2 [7e49a35a] RuntimeGeneratedFunctions v0.5.13 [94e857df] SIMDTypes v0.1.0 [476501e8] SLEEFPirates v0.6.43 [1bc83da4] SafeTestsets v0.1.0 [0bca4576] SciMLBase v2.75.0 [c0aeaf25] SciMLOperators v0.3.12 [53ae85a6] SciMLStructures v1.6.1 [7e506255] ScopedValues v1.3.0 [6c6a2e73] Scratch v1.2.1 [efcf1570] Setfield v1.1.1 [699a6c99] SimpleTraits v0.9.4 [dc90abb0] SparseInverseSubset v0.1.2 [e56a9233] Sparspak v0.3.9 [276daf66] SpecialFunctions v2.5.0 [860ef19b] StableRNGs v1.0.2 [aedffcd0] Static v1.1.1 [0d7ed370] StaticArrayInterface v1.8.0 [90137ffa] StaticArrays v1.9.12 [1e83bf80] StaticArraysCore v1.4.3 [7792a7ef] StrideArraysCore v0.5.7 [09ab397b] StructArrays v0.7.0 [53d494c1] StructIO v0.3.1 [2efcf032] SymbolicIndexingInterface v0.3.38 [3783bdb8] TableTraits v1.0.1 [bd369af6] Tables v1.12.0 [8290d209] ThreadingUtilities v0.5.2 [a759f4b9] TimerOutputs v0.5.27 [d5829a12] TriangularSolve v0.2.1 [3a884ed6] UnPack v1.0.2 [013be700] UnsafeAtomics v0.3.0 [409d34a3] VectorInterface v0.5.0 [3d5dd08c] VectorizationBase v0.21.71 [e88e6eb3] Zygote v0.7.4 [700de1a5] ZygoteRules v0.2.7 [7cc45869] Enzyme_jll v0.0.172+0 [0a602bbd] HYPRE_jll v2.23.1+1 [e33a78d0] Hwloc_jll v2.12.0+0 [1d5cc7b8] IntelOpenMP_jll v2025.0.4+0 [51474c39] LAPACK_jll v3.12.0+3 [dad2f222] LLVMExtra_jll v0.0.35+0 [d00139f3] METIS_jll v5.1.3+0 [856f044c] MKL_jll v2025.0.1+1 [7cb0a576] MPICH_jll v4.3.0+0 [f1f71cc9] MPItrampoline_jll v5.5.2+0 [9237b28f] MicrosoftMPI_jll v10.1.4+3 [fe0851c0] OpenMPI_jll v5.0.7+0 [efe28fd5] OpenSpecFun_jll v0.5.6+0 [1317d2d5] oneTBB_jll v2022.0.0+0 [0dad84c5] ArgTools v1.1.1 [56f22d72] Artifacts [2a0f44e3] Base64 [ade2ca70] Dates [8ba89e20] Distributed [f43a241f] Downloads v1.6.0 [7b1f6079] FileWatching [9fa8497b] Future [b77e0a4c] InteractiveUtils [4af54fe1] LazyArtifacts [b27032c2] LibCURL v0.6.4 [76f85450] LibGit2 [8f399da3] Libdl [37e2e46d] LinearAlgebra [56ddb016] Logging [d6f4376e] Markdown [a63ad114] Mmap [ca575930] NetworkOptions v1.2.0 [44cfe95a] Pkg v1.10.0 [de0858da] Printf [3fa0cd96] REPL [9a3f8284] Random [ea8e919c] SHA v0.7.0 [9e88b42a] Serialization [1a1011a3] SharedArrays [6462fe0b] Sockets [2f01184e] SparseArrays v1.10.0 [10745b16] Statistics v1.10.0 [4607b0f0] SuiteSparse [fa267f1f] TOML v1.0.3 [a4e569a6] Tar v1.10.0 [8dfed614] Test [cf7118a7] UUIDs [4ec0a83e] Unicode [e66e0078] CompilerSupportLibraries_jll v1.1.1+0 [deac9b47] LibCURL_jll v8.4.0+0 [e37daf67] LibGit2_jll v1.6.4+0 [29816b5a] LibSSH2_jll v1.11.0+1 [c8ffd9c3] MbedTLS_jll v2.28.2+1 [14a3606d] MozillaCACerts_jll v2023.1.10 [4536629a] OpenBLAS_jll v0.3.23+4 [05823500] OpenLibm_jll v0.8.1+4 [bea87d4a] SuiteSparse_jll v7.2.1+1 [83775a58] Zlib_jll v1.2.13+1 [8e850b90] libblastrampoline_jll v5.11.0+0 [8e850ede] nghttp2_jll v1.52.0+1 [3f19e933] p7zip_jll v17.4.0+2 Info Packages marked with ⌅ have new versions available but compatibility constraints restrict them from upgrading. Testing Running tests... 12 ambiguities found. To get a list, set `broken = false`. Test Summary: | Pass Broken Total Time Quality Assurance | 9 1 10 3m20.8s 201.333015 seconds (16.65 M allocations: 1.743 GiB, 1.48% gc time, 8.85% compilation time) GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 1.7e+00 ✗ ✗ ✗ ✗ 0.58s 1 1 0.0e+00 0.0e+00 1.21s GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 2.1e+00 ✗ ✗ ✗ ✗ 0.00s 1 1 2.7e-16 6.7e-17 0.00s GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 1.7e+00 ✗ ✗ ✗ ✗ 0.00s 1 1 0.0e+00 0.0e+00 0.00s GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 1.7e+00 ✗ ✗ ✗ ✗ 0.00s 1 1 0.0e+00 0.0e+00 0.00s GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 2.1e+00 ✗ ✗ ✗ ✗ 0.00s 1 1 2.7e-16 6.7e-17 0.00s GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 1.7e+00 ✗ ✗ ✗ ✗ 0.00s 1 1 0.0e+00 0.0e+00 0.49s GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 2.1e+00 ✗ ✗ ✗ ✗ 0.00s 1 1 0.0e+00 0.0e+00 0.00s GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 1.7e+00 ✗ ✗ ✗ ✗ 0.00s 1 1 0.0e+00 0.0e+00 0.00s GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 1.7e+00 ✗ ✗ ✗ ✗ 0.00s 1 1 0.0e+00 0.0e+00 0.00s GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 2.1e+00 ✗ ✗ ✗ ✗ 0.00s 1 1 0.0e+00 0.0e+00 0.00s CG: system of 8 equations in 8 variables k ‖r‖ pAp α σ timer 0 1.7e+00 2.9e+00 1.0e+00 1.0e+00 0.67s 1 0.0e+00 CG: system of 8 equations in 8 variables k ‖r‖ pAp α σ timer 0 2.1e+00 2.1e+00 2.0e+00 2.0e+00 0.00s 1 0.0e+00 CG: system of 8 equations in 8 variables k ‖r‖ pAp α σ timer 0 1.7e+00 2.9e+00 1.0e+00 1.0e+00 0.00s 1 0.0e+00 CG: system of 8 equations in 8 variables k ‖r‖ pAp α σ timer 0 1.7e+00 1.5e+00 2.0e+00 2.0e+00 0.00s 1 0.0e+00 CG: system of 8 equations in 8 variables k ‖r‖ pAp α σ timer 0 2.1e+00 2.1e+00 2.0e+00 2.0e+00 0.00s 1 0.0e+00 CG: system of 8 equations in 8 variables k ‖r‖ pAp α σ timer 0 1.7e+00 2.9e+00 1.0e+00 1.0e+00 0.00s 1 0.0e+00 CG: system of 8 equations in 8 variables k ‖r‖ pAp α σ timer 0 2.1e+00 2.1e+00 2.0e+00 2.0e+00 0.00s 1 0.0e+00 CG: system of 8 equations in 8 variables k ‖r‖ pAp α σ timer 0 1.7e+00 2.9e+00 1.0e+00 1.0e+00 0.00s 1 0.0e+00 CG: system of 8 equations in 8 variables k ‖r‖ pAp α σ timer 0 1.7e+00 1.5e+00 2.0e+00 2.0e+00 0.00s 1 0.0e+00 CG: system of 8 equations in 8 variables k ‖r‖ pAp α σ timer 0 2.1e+00 2.1e+00 2.0e+00 2.0e+00 0.00s 1 0.0e+00 GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 1.7e+00 ✗ ✗ ✗ ✗ 0.00s 1 1 0.0e+00 0.0e+00 0.00s GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 2.1e+00 ✗ ✗ ✗ ✗ 0.00s 1 1 2.7e-16 6.7e-17 0.00s GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 1.7e+00 ✗ ✗ ✗ ✗ 0.00s 1 1 0.0e+00 0.0e+00 0.00s GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 1.7e+00 ✗ ✗ ✗ ✗ 0.00s 1 1 0.0e+00 0.0e+00 0.00s GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 2.1e+00 ✗ ✗ ✗ ✗ 0.00s 1 1 2.7e-16 6.7e-17 0.00s GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 1.7e+00 ✗ ✗ ✗ ✗ 0.00s 1 1 0.0e+00 0.0e+00 0.00s GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 2.1e+00 ✗ ✗ ✗ ✗ 0.00s 1 1 0.0e+00 0.0e+00 0.00s GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 1.7e+00 ✗ ✗ ✗ ✗ 0.00s 1 1 0.0e+00 0.0e+00 0.00s GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 1.7e+00 ✗ ✗ ✗ ✗ 0.00s 1 1 0.0e+00 0.0e+00 0.00s GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 2.1e+00 ✗ ✗ ✗ ✗ 0.00s 1 1 0.0e+00 0.0e+00 0.00s GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 1.7e+00 ✗ ✗ ✗ ✗ 0.00s 1 1 0.0e+00 0.0e+00 0.00s GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 2.1e+00 ✗ ✗ ✗ ✗ 0.00s 1 1 2.7e-16 6.7e-17 0.00s GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 1.7e+00 ✗ ✗ ✗ ✗ 0.00s 1 1 0.0e+00 0.0e+00 0.00s GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 1.7e+00 ✗ ✗ ✗ ✗ 0.00s 1 1 0.0e+00 0.0e+00 0.00s GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 2.1e+00 ✗ ✗ ✗ ✗ 0.00s 1 1 2.7e-16 6.7e-17 0.00s GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 1.7e+00 ✗ ✗ ✗ ✗ 0.00s 1 1 0.0e+00 0.0e+00 0.00s GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 2.1e+00 ✗ ✗ ✗ ✗ 0.00s 1 1 0.0e+00 0.0e+00 0.00s GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 1.7e+00 ✗ ✗ ✗ ✗ 0.00s 1 1 0.0e+00 0.0e+00 0.00s GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 1.7e+00 ✗ ✗ ✗ ✗ 0.00s 1 1 0.0e+00 0.0e+00 0.00s GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 2.1e+00 ✗ ✗ ✗ ✗ 0.00s 1 1 0.0e+00 0.0e+00 0.00s MINRES: system of size 8 k ‖r‖ ‖Aᴴr‖ β cos sin ‖A‖ κ(A) test1 test2 timer 0 1.7e+00 0.0e+00 1.7e+00 -1.0e+00 0.0e+00 0.0e+00 0.0e+00 ✗ ✗ ✗ ✗ ✗ ✗ ✗ ✗ 2.29s 1 3.3e-16 1.7e+00 1.9e-16 1.0e+00 1.9e-16 2.0e+00 1.0e+00 9.8e-17 5.0e-01 3.27s MINRES: system of size 8 k ‖r‖ ‖Aᴴr‖ β cos sin ‖A‖ κ(A) test1 test2 timer 0 2.1e+00 0.0e+00 2.1e+00 -1.0e+00 0.0e+00 0.0e+00 0.0e+00 ✗ ✗ ✗ ✗ ✗ ✗ ✗ ✗ 0.00s 1 0.0e+00 1.0e+00 0.0e+00 1.0e+00 0.0e+00 2.1e+00 1.0e+00 0.0e+00 2.4e-01 0.00s MINRES: system of size 8 k ‖r‖ ‖Aᴴr‖ β cos sin ‖A‖ κ(A) test1 test2 timer 0 1.7e+00 0.0e+00 1.7e+00 -1.0e+00 0.0e+00 0.0e+00 0.0e+00 ✗ ✗ ✗ ✗ ✗ ✗ ✗ ✗ 0.00s 1 3.3e-16 1.7e+00 1.9e-16 1.0e+00 1.9e-16 2.0e+00 1.0e+00 9.8e-17 5.0e-01 0.00s MINRES: system of size 8 k ‖r‖ ‖Aᴴr‖ β cos sin ‖A‖ κ(A) test1 test2 timer 0 1.7e+00 0.0e+00 1.7e+00 -1.0e+00 0.0e+00 0.0e+00 0.0e+00 ✗ ✗ ✗ ✗ ✗ ✗ ✗ ✗ 0.00s 1 3.3e-16 8.6e-01 9.7e-17 1.0e+00 1.9e-16 1.8e+00 1.0e+00 5.5e-17 2.8e-01 0.00s MINRES: system of size 8 k ‖r‖ ‖Aᴴr‖ β cos sin ‖A‖ κ(A) test1 test2 timer 0 2.1e+00 0.0e+00 2.1e+00 -1.0e+00 0.0e+00 0.0e+00 0.0e+00 ✗ ✗ ✗ ✗ ✗ ✗ ✗ ✗ 0.00s 1 0.0e+00 1.0e+00 0.0e+00 1.0e+00 0.0e+00 2.1e+00 1.0e+00 0.0e+00 2.4e-01 0.00s MINRES: system of size 8 k ‖r‖ ‖Aᴴr‖ β cos sin ‖A‖ κ(A) test1 test2 timer 0 1.7e+00 0.0e+00 1.7e+00 -1.0e+00 0.0e+00 0.0e+00 0.0e+00 ✗ ✗ ✗ ✗ ✗ ✗ ✗ ✗ 0.00s 1 0.0e+00 1.7e+00 0.0e+00 1.0e+00 0.0e+00 2.0e+00 1.0e+00 0.0e+00 5.0e-01 0.25s MINRES: system of size 8 k ‖r‖ ‖Aᴴr‖ β cos sin ‖A‖ κ(A) test1 test2 timer 0 2.1e+00 0.0e+00 2.1e+00 -1.0e+00 0.0e+00 0.0e+00 0.0e+00 ✗ ✗ ✗ ✗ ✗ ✗ ✗ ✗ 0.00s 1 5.1e-07 1.0e+00 1.2e-07 1.0e+00 2.5e-07 2.1e+00 1.0e+00 5.8e-08 2.4e-01 0.00s MINRES: system of size 8 k ‖r‖ ‖Aᴴr‖ β cos sin ‖A‖ κ(A) test1 test2 timer 0 1.7e+00 0.0e+00 1.7e+00 -1.0e+00 0.0e+00 0.0e+00 0.0e+00 ✗ ✗ ✗ ✗ ✗ ✗ ✗ ✗ 0.00s 1 0.0e+00 1.7e+00 0.0e+00 1.0e+00 0.0e+00 2.0e+00 1.0e+00 0.0e+00 5.0e-01 0.00s MINRES: system of size 8 k ‖r‖ ‖Aᴴr‖ β cos sin ‖A‖ κ(A) test1 test2 timer 0 1.7e+00 0.0e+00 1.7e+00 -1.0e+00 0.0e+00 0.0e+00 0.0e+00 ✗ ✗ ✗ ✗ ✗ ✗ ✗ ✗ 0.00s 1 0.0e+00 8.6e-01 0.0e+00 1.0e+00 0.0e+00 1.8e+00 1.0e+00 0.0e+00 2.8e-01 0.00s MINRES: system of size 8 k ‖r‖ ‖Aᴴr‖ β cos sin ‖A‖ κ(A) test1 test2 timer 0 2.1e+00 0.0e+00 2.1e+00 -1.0e+00 0.0e+00 0.0e+00 0.0e+00 ✗ ✗ ✗ ✗ ✗ ✗ ✗ ✗ 0.00s 1 5.1e-07 1.0e+00 1.2e-07 1.0e+00 2.5e-07 2.1e+00 1.0e+00 5.8e-08 2.4e-01 0.00s MINARES: system of size 8 k ‖rₖ‖ ‖Arₖ‖ βₖ₊₁ ζₖ timer 0 1.7e+00 1.7e+00 1.7e+00 ✗ ✗ ✗ ✗ 0.00s 1 0.0e+00 0.0e+00 0.0e+00 1.7e+00 0.54s MINARES: system of size 8 k ‖rₖ‖ ‖Arₖ‖ βₖ₊₁ ζₖ timer 0 2.1e+00 1.0e+00 2.1e+00 ✗ ✗ ✗ ✗ 0.00s 1 0.0e+00 0.0e+00 0.0e+00 1.0e+00 0.00s MINARES: system of size 8 k ‖rₖ‖ ‖Arₖ‖ βₖ₊₁ ζₖ timer 0 1.7e+00 1.7e+00 1.7e+00 ✗ ✗ ✗ ✗ 0.00s 1 0.0e+00 0.0e+00 0.0e+00 1.7e+00 0.00s MINARES: system of size 8 k ‖rₖ‖ ‖Arₖ‖ βₖ₊₁ ζₖ timer 0 1.7e+00 8.6e-01 1.7e+00 ✗ ✗ ✗ ✗ 0.00s 1 0.0e+00 0.0e+00 0.0e+00 8.6e-01 0.00s MINARES: system of size 8 k ‖rₖ‖ ‖Arₖ‖ βₖ₊₁ ζₖ timer 0 2.1e+00 1.0e+00 2.1e+00 ✗ ✗ ✗ ✗ 0.00s 1 0.0e+00 0.0e+00 0.0e+00 1.0e+00 0.00s MINARES: system of size 8 k ‖rₖ‖ ‖Arₖ‖ βₖ₊₁ ζₖ timer 0 1.7e+00 1.7e+00 1.7e+00 ✗ ✗ ✗ ✗ 0.00s 1 0.0e+00 0.0e+00 0.0e+00 1.7e+00 0.13s MINARES: system of size 8 k ‖rₖ‖ ‖Arₖ‖ βₖ₊₁ ζₖ timer 0 2.1e+00 1.0e+00 2.1e+00 ✗ ✗ ✗ ✗ 0.00s 1 0.0e+00 0.0e+00 0.0e+00 1.0e+00 0.00s MINARES: system of size 8 k ‖rₖ‖ ‖Arₖ‖ βₖ₊₁ ζₖ timer 0 1.7e+00 1.7e+00 1.7e+00 ✗ ✗ ✗ ✗ 0.00s 1 0.0e+00 0.0e+00 0.0e+00 1.7e+00 0.00s MINARES: system of size 8 k ‖rₖ‖ ‖Arₖ‖ βₖ₊₁ ζₖ timer 0 1.7e+00 8.6e-01 1.7e+00 ✗ ✗ ✗ ✗ 0.00s 1 0.0e+00 0.0e+00 0.0e+00 8.6e-01 0.00s MINARES: system of size 8 k ‖rₖ‖ ‖Arₖ‖ βₖ₊₁ ζₖ timer 0 2.1e+00 1.0e+00 2.1e+00 ✗ ✗ ✗ ✗ 0.00s 1 0.0e+00 0.0e+00 0.0e+00 1.0e+00 0.00s Using IterativeSolvers.gmres_iterable! Iter: 1, residual: 0.0 Using IterativeSolvers.gmres_iterable! Iter: 1, residual: 0.0 Using IterativeSolvers.gmres_iterable! Iter: 1, residual: 0.0 Using IterativeSolvers.gmres_iterable! Iter: 1, residual: 0.0 Using IterativeSolvers.gmres_iterable! Iter: 1, residual: 0.0 Using IterativeSolvers.gmres_iterable! Iter: 1, residual: 0.0 Using IterativeSolvers.gmres_iterable! Iter: 1, residual: 0.0 Using IterativeSolvers.gmres_iterable! Iter: 1, residual: 0.0 Using IterativeSolvers.gmres_iterable! Iter: 1, residual: 0.0 Using IterativeSolvers.gmres_iterable! Iter: 1, residual: 0.0 Using IterativeSolvers.cg_iterator! Iter: 1, residual: 0.0 Using IterativeSolvers.cg_iterator! Using IterativeSolvers.cg_iterator! Using IterativeSolvers.cg_iterator! Iter: 1, residual: 0.0 Using IterativeSolvers.cg_iterator! Iter: 1, residual: 0.0 Using IterativeSolvers.cg_iterator! Iter: 1, residual: 0.0 Using IterativeSolvers.cg_iterator! Using IterativeSolvers.cg_iterator! Iter: 1, residual: 0.0 Using IterativeSolvers.cg_iterator! Iter: 1, residual: 0.0 Using IterativeSolvers.cg_iterator! Iter: 1, residual: 0.0 Using IterativeSolvers.gmres_iterable! Iter: 1, residual: 0.0 Using IterativeSolvers.gmres_iterable! Iter: 1, residual: 0.0 Using IterativeSolvers.gmres_iterable! Iter: 1, residual: 0.0 Using IterativeSolvers.gmres_iterable! Iter: 1, residual: 0.0 Using IterativeSolvers.gmres_iterable! Iter: 1, residual: 0.0 Using IterativeSolvers.gmres_iterable! Iter: 1, residual: 0.0 Using IterativeSolvers.gmres_iterable! Iter: 1, residual: 0.0 Using IterativeSolvers.gmres_iterable! Iter: 1, residual: 0.0 Using IterativeSolvers.gmres_iterable! Iter: 1, residual: 0.0 Using IterativeSolvers.gmres_iterable! Iter: 1, residual: 0.0 ┌ Warning: idrs_iterable! doesn't support right preconditioning └ @ LinearSolveIterativeSolversExt ~/.julia/packages/LinearSolve/QuCP8/ext/LinearSolveIterativeSolversExt.jl:71 ┌ Warning: idrs_iterable! doesn't support right preconditioning └ @ LinearSolveIterativeSolversExt ~/.julia/packages/LinearSolve/QuCP8/ext/LinearSolveIterativeSolversExt.jl:71 Using IterativeSolvers.idrs_iterable! Iter: 1, residual: 0.0 ┌ Warning: idrs_iterable! doesn't support right preconditioning └ @ LinearSolveIterativeSolversExt ~/.julia/packages/LinearSolve/QuCP8/ext/LinearSolveIterativeSolversExt.jl:71 ┌ Warning: idrs_iterable! doesn't support right preconditioning └ @ LinearSolveIterativeSolversExt ~/.julia/packages/LinearSolve/QuCP8/ext/LinearSolveIterativeSolversExt.jl:71 Using IterativeSolvers.idrs_iterable! ┌ Warning: idrs_iterable! doesn't support right preconditioning └ @ LinearSolveIterativeSolversExt ~/.julia/packages/LinearSolve/QuCP8/ext/LinearSolveIterativeSolversExt.jl:71 ┌ Warning: idrs_iterable! doesn't support right preconditioning └ @ LinearSolveIterativeSolversExt ~/.julia/packages/LinearSolve/QuCP8/ext/LinearSolveIterativeSolversExt.jl:71 Using IterativeSolvers.idrs_iterable! ┌ Warning: idrs_iterable! doesn't support right preconditioning └ @ LinearSolveIterativeSolversExt ~/.julia/packages/LinearSolve/QuCP8/ext/LinearSolveIterativeSolversExt.jl:71 Using IterativeSolvers.idrs_iterable! Iter: 1, residual: 0.0 ┌ Warning: idrs_iterable! doesn't support right preconditioning └ @ LinearSolveIterativeSolversExt ~/.julia/packages/LinearSolve/QuCP8/ext/LinearSolveIterativeSolversExt.jl:71 Using IterativeSolvers.idrs_iterable! Iter: 1, residual: 0.0 ┌ Warning: idrs_iterable! doesn't support right preconditioning └ @ LinearSolveIterativeSolversExt ~/.julia/packages/LinearSolve/QuCP8/ext/LinearSolveIterativeSolversExt.jl:71 ┌ Warning: idrs_iterable! doesn't support right preconditioning └ @ LinearSolveIterativeSolversExt ~/.julia/packages/LinearSolve/QuCP8/ext/LinearSolveIterativeSolversExt.jl:71 Using IterativeSolvers.idrs_iterable! Iter: 1, residual: 0.0 ┌ Warning: idrs_iterable! doesn't support right preconditioning └ @ LinearSolveIterativeSolversExt ~/.julia/packages/LinearSolve/QuCP8/ext/LinearSolveIterativeSolversExt.jl:71 ┌ Warning: idrs_iterable! doesn't support right preconditioning └ @ LinearSolveIterativeSolversExt ~/.julia/packages/LinearSolve/QuCP8/ext/LinearSolveIterativeSolversExt.jl:71 Using IterativeSolvers.idrs_iterable! ┌ Warning: idrs_iterable! doesn't support right preconditioning └ @ LinearSolveIterativeSolversExt ~/.julia/packages/LinearSolve/QuCP8/ext/LinearSolveIterativeSolversExt.jl:71 ┌ Warning: idrs_iterable! doesn't support right preconditioning └ @ LinearSolveIterativeSolversExt ~/.julia/packages/LinearSolve/QuCP8/ext/LinearSolveIterativeSolversExt.jl:71 Using IterativeSolvers.idrs_iterable! Iter: 1, residual: 0.0 ┌ Warning: idrs_iterable! doesn't support right preconditioning └ @ LinearSolveIterativeSolversExt ~/.julia/packages/LinearSolve/QuCP8/ext/LinearSolveIterativeSolversExt.jl:71 Using IterativeSolvers.idrs_iterable! Iter: 1, residual: 0.0 ┌ Warning: idrs_iterable! doesn't support right preconditioning └ @ LinearSolveIterativeSolversExt ~/.julia/packages/LinearSolve/QuCP8/ext/LinearSolveIterativeSolversExt.jl:71 Using IterativeSolvers.idrs_iterable! Iter: 1, residual: 0.0 out-of-place solve out-of-place solve out-of-place solve out-of-place solve out-of-place solve in-place solve in-place solve in-place solve in-place solve in-place solve WARNING: Method definition (::##Basic Tests#226.var"#fi#14"{A})(Any, Any, Any, Any) in module ##Basic Tests#226 at /home/pkgeval/.julia/packages/LinearSolve/QuCP8/test/basictests.jl:486 overwritten at /home/pkgeval/.julia/packages/LinearSolve/QuCP8/test/basictests.jl:490. using FunctionOperator IIP div using FunctionOperator OOP mul using FunctionOperator IIP div using FunctionOperator OOP mul using FunctionOperator IIP div using FunctionOperator OOP mul using FunctionOperator IIP div using FunctionOperator OOP mul using FunctionOperator IIP div using FunctionOperator OOP mul using FunctionOperator IIP div using FunctionOperator OOP mul using FunctionOperator IIP div using FunctionOperator OOP mul using FunctionOperator IIP div using FunctionOperator OOP mul using FunctionOperator IIP div using FunctionOperator OOP mul using FunctionOperator IIP div using FunctionOperator OOP mul GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 2.1e+00 ✗ ✗ ✗ ✗ 0.00s using FunctionOperator IIP mul 1 1 8.5e-01 2.6e-01 0.00s using FunctionOperator IIP mul 1 2 5.5e-01 2.3e-01 0.00s using FunctionOperator IIP mul 1 3 1.7e-01 1.2e-01 0.00s using FunctionOperator IIP mul 1 4 4.9e-02 1.3e-01 0.00s using FunctionOperator IIP mul 1 5 2.5e-02 1.8e-01 0.00s using FunctionOperator IIP mul 1 6 3.1e-03 5.5e-02 0.00s using FunctionOperator IIP mul 1 7 1.1e-04 2.2e-02 0.00s using FunctionOperator IIP mul 1 8 1.8e-16 1.1e-12 0.00s using FunctionOperator OOP mul GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 1.8e+00 ✗ ✗ ✗ ✗ 0.00s using FunctionOperator IIP mul 1 1 1.1e+00 3.1e-01 0.00s using FunctionOperator IIP mul 1 2 8.5e-01 2.9e-01 0.00s using FunctionOperator IIP mul 1 3 7.1e-01 2.3e-01 0.00s using FunctionOperator IIP mul 1 4 4.2e-01 6.3e-02 0.00s using FunctionOperator IIP mul 1 5 2.4e-01 1.8e-01 0.00s using FunctionOperator IIP mul 1 6 6.4e-02 7.1e-02 0.00s using FunctionOperator IIP mul 1 7 4.9e-03 4.5e-03 0.00s using FunctionOperator IIP mul 1 8 2.4e-15 2.7e-13 0.00s using FunctionOperator OOP mul GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 2.1e+00 ✗ ✗ ✗ ✗ 0.00s using FunctionOperator IIP mul 1 1 8.5e-01 2.6e-01 0.00s using FunctionOperator IIP mul 1 2 5.5e-01 2.3e-01 0.00s using FunctionOperator IIP mul 1 3 1.7e-01 1.2e-01 0.00s using FunctionOperator IIP mul 1 4 4.9e-02 1.3e-01 0.00s using FunctionOperator IIP mul 1 5 2.5e-02 1.8e-01 0.00s using FunctionOperator IIP mul 1 6 3.1e-03 5.5e-02 0.00s using FunctionOperator IIP mul 1 7 1.1e-04 2.2e-02 0.00s using FunctionOperator IIP mul 1 8 1.8e-16 1.1e-12 0.00s using FunctionOperator OOP mul GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 2.1e+00 ✗ ✗ ✗ ✗ 0.00s using FunctionOperator IIP mul 1 1 1.1e+00 2.8e-01 0.00s using FunctionOperator IIP mul 1 2 6.2e-01 2.6e-01 0.00s using FunctionOperator IIP mul 1 3 3.7e-01 2.3e-01 0.00s using FunctionOperator IIP mul 1 4 2.8e-01 9.1e-02 0.00s using FunctionOperator IIP mul 1 5 2.0e-01 1.8e-01 0.00s using FunctionOperator IIP mul 1 6 8.8e-02 9.4e-02 0.00s using FunctionOperator IIP mul 1 7 6.4e-03 3.4e-03 0.00s using FunctionOperator IIP mul 1 8 8.6e-16 7.4e-14 0.00s using FunctionOperator OOP mul GMRES: system of size 8 pass k ‖rₖ‖ hₖ₊₁.ₖ timer 0 0 1.8e+00 ✗ ✗ ✗ ✗ 0.00s using FunctionOperator IIP mul 1 1 1.1e+00 3.1e-01 0.00s using FunctionOperator IIP mul 1 2 8.5e-01 2.9e-01 0.00s using FunctionOperator IIP mul 1 3 7.1e-01 2.3e-01 0.00s using FunctionOperator IIP mul 1 4 4.2e-01 6.3e-02 0.00s using FunctionOperator IIP mul 1 5 2.4e-01 1.8e-01 0.00s using FunctionOperator IIP mul 1 6 6.4e-02 7.1e-02 0.00s using FunctionOperator IIP mul 1 7 4.9e-03 4.5e-03 0.00s using FunctionOperator IIP mul 1 8 2.4e-15 2.7e-13 0.00s using FunctionOperator OOP mul using FunctionOperator IIP div using FunctionOperator OOP mul using FunctionOperator IIP div using FunctionOperator OOP mul using FunctionOperator IIP div using FunctionOperator OOP mul using FunctionOperator IIP div using FunctionOperator OOP mul using FunctionOperator IIP div using FunctionOperator OOP mul solve MySparseMatrixCSC: 1.879483 seconds (2.78 M allocations: 195.692 MiB, 4.18% gc time, 99.40% compilation time) Test Summary: | Pass Total Time Basic Tests | 448 448 7m26.3s 446.319023 seconds (135.12 M allocations: 8.869 GiB, 1.70% gc time, 78.36% compilation time) Test Summary: | Pass Total Time Return codes | 40 40 0.8s 0.760511 seconds (233.48 k allocations: 16.941 MiB, 96.98% compilation time) alg = LinearSolve.BunchKaufmanFactorization A = [10.0 14.0; 14.0 20.0] alg = LinearSolve.CholeskyFactorization A = [10.0 14.0; 14.0 20.0] alg = LinearSolve.DiagonalFactorization alg = LinearSolve.FastLUFactorization A = [10.0 14.0; 14.0 20.0] alg = LinearSolve.FastQRFactorization A = [10.0 14.0; 14.0 20.0] alg = LinearSolve.GenericFactorization A = [10.0 14.0; 14.0 20.0] alg = LinearSolve.GenericLUFactorization A = [10.0 14.0; 14.0 20.0] alg = LinearSolve.LDLtFactorization A = [10.0 14.0; 14.0 20.0] alg = LinearSolve.LUFactorization A = [10.0 14.0; 14.0 20.0] alg = LinearSolve.NormalBunchKaufmanFactorization A = [10.0 14.0; 14.0 20.0] alg = LinearSolve.NormalCholeskyFactorization A = [10.0 14.0; 14.0 20.0] alg = LinearSolve.QRFactorization A = [10.0 14.0; 14.0 20.0] alg = LinearSolve.RFLUFactorization A = [10.0 14.0; 14.0 20.0] alg = LinearSolve.SVDFactorization A = [10.0 14.0; 14.0 20.0] alg = LinearSolve.CHOLMODFactorization A = [10.0 14.0; 14.0 20.0] alg = LinearSolve.KLUFactorization A = sparse([1, 2, 1, 2], [1, 1, 2, 2], [10.0, 14.0, 14.0, 20.0], 2, 2) alg = LinearSolve.SparspakFactorization A = sparse([1, 2, 1, 2], [1, 1, 2, 2], [10.0, 14.0, 14.0, 20.0], 2, 2) alg = LinearSolve.UMFPACKFactorization A = sparse([1, 2, 1, 2], [1, 1, 2, 2], [10.0, 14.0, 14.0, 20.0], 2, 2) ┌ Warning: `alias_A` keyword argument is deprecated, to set `alias_A`, │ please use an ODEAliasSpecifier, e.g. `solve(prob, alias = LinearAliasSpecifier(alias_A = true)) │ caller = top-level scope at resolve.jl:78 └ @ Core ~/.julia/packages/LinearSolve/QuCP8/test/resolve.jl:78 ┌ Warning: `alias_A` keyword argument is deprecated, to set `alias_A`, │ please use an ODEAliasSpecifier, e.g. `solve(prob, alias = LinearAliasSpecifier(alias_A = true)) │ caller = ip:0x0 └ @ Core :-1 Test Summary: | Pass Total Time Re-solve | 94 94 9.4s 9.369782 seconds (2.75 M allocations: 194.493 MiB, 1.37% gc time, 86.64% compilation time) Test Summary: | Pass Total Time Zero Initialization Tests | 6 6 1.6s 1.643973 seconds (596.09 k allocations: 39.864 MiB, 98.70% compilation time) Test Summary: | Pass Total Time Non-Square Tests | 17 17 9.1s 9.139304 seconds (4.98 M allocations: 429.380 MiB, 2.09% gc time, 97.71% compilation time) Test Summary: | Pass Total Time SparseVector b Tests | 2 2 1.5s 1.491813 seconds (405.86 k allocations: 26.686 MiB, 98.52% compilation time) Test Summary: | Pass Broken Total Time Default Alg Tests | 19 1 20 2m47.9s 167.872937 seconds (16.32 M allocations: 9.197 GiB, 2.00% gc time, 35.59% compilation time: <1% of which was recompilation) alg = LinearSolve.LUFactorization{LinearAlgebra.RowMaximum}(LinearAlgebra.RowMaximum(), true, true) fd_jac = [0.23170889914035797, 0.6519861817359924, 0.015014976263046265, 0.8202302753925323] zyg_jac = [0.23170890367723554, 0.6519861704141487, 0.015014979534225564, 0.8202302717755177] fd_jac = [-0.14812588691711426, -0.4167989641427994, -0.009598717093467712, -0.5243533402681351, 0.08453337848186493, 0.23786137998104095, 0.0054778605699539185, 0.29924117028713226, -0.134833425283432, -0.3793964236974716, -0.008737355470657349, -0.47729912400245667, -0.0727420300245285, -0.20468272268772125, -0.004713758826255798, -0.2575007975101471] zyg_jac = [-0.14812588822678635, -0.4167989622820216, -0.009598712630017462, -0.5243533400274059, 0.08453338535524316, 0.23786137397068552, 0.0054778518689805504, 0.2992411622672043, -0.1348334243007524, -0.3793964174813466, -0.008737347051736321, -0.4772991218873705, -0.07274204968787464, -0.20468272755775246, -0.004713760973391387, -0.25750081346941134] alg = LinearSolve.RFLUFactorization{true, true}() fd_jac = [0.23170891404151917, 0.6519861668348312, 0.015014976263046265, 0.8202302604913712] zyg_jac = [0.23170890367723554, 0.6519861704141487, 0.015014979534225564, 0.8202302717755177] fd_jac = [-0.14812588691711426, -0.4167989641427994, -0.009598717093467712, -0.5243533551692963, 0.08453339338302612, 0.23786136507987976, 0.0054778605699539185, 0.29924115538597107, -0.134833425283432, -0.3793964236974716, -0.008737340569496155, -0.47729910910129547, -0.0727420449256897, -0.20468272268772125, -0.004713758826255798, -0.2575008124113083] zyg_jac = [-0.14812588822678635, -0.4167989622820216, -0.009598712630017462, -0.5243533400274059, 0.08453338535524316, 0.23786137397068552, 0.0054778518689805504, 0.2992411622672043, -0.1348334243007524, -0.3793964174813466, -0.008737347051736321, -0.4772991218873705, -0.07274204968787465, -0.2046827275577525, -0.0047137609733913875, -0.2575008134694114] alg = LinearSolve.KrylovJL{typeof(Krylov.gmres!), Int64, Nothing, Tuple{}, Base.Pairs{Symbol, Union{}, Tuple{}, @NamedTuple{}}}(Krylov.gmres!, 0, 0, nothing, (), Base.Pairs{Symbol, Union{}, Tuple{}, @NamedTuple{}}()) fd_jac = [0.23170892894268036, 0.6519861668348312, 0.015014991164207458, 0.8202302902936935] zyg_jac = [0.2317089036772358, 0.6519861704141484, 0.015014979534226081, 0.8202302717755174] fd_jac = [-0.14812593162059784, -0.4167989492416382, -0.009598731994628906, -0.5243533402681351, 0.08453339338302612, 0.23786136507987976, 0.0054778605699539185, 0.29924118518829346, -0.1348334401845932, -0.3793964385986328, -0.008737325668334961, -0.47729915380477905, -0.0727420449256897, -0.20468273758888245, -0.004713714122772217, -0.2575008422136307] zyg_jac = [-0.14812588822678657, -0.41679896228202157, -0.009598712630017797, -0.5243533400274059, 0.08453338535524328, 0.2378613739706855, 0.005477851868980741, 0.2992411622672044, -0.13483342430075257, -0.3793964174813465, -0.008737347051736625, -0.47729912188737045, -0.07274204968787475, -0.20468272755775244, -0.0047137609733915505, -0.25750081346941134] Test Summary: | Pass Total Time Adjoint Sensitivity | 20 20 3m17.2s 197.232419 seconds (45.59 M allocations: 2.871 GiB, 0.78% gc time, 59.92% compilation time) Test Summary: | Pass Total Time Traits | 6 6 0.1s 0.072312 seconds (8.18 k allocations: 530.188 KiB, 68.85% compilation time) Test Summary: | Pass Total Time BandedMatrices | 9 9 1m15.9s 75.876364 seconds (12.10 M allocations: 885.682 MiB, 0.71% gc time, 51.34% compilation time) Test Summary: | Pass Broken Total Time Static Arrays | 23 1 24 1m34.2s 94.247460 seconds (24.48 M allocations: 1.597 GiB, 2.18% gc time, 73.62% compilation time: <1% of which was recompilation) ┌ Warning: Using fallback BLAS replacements for (["dasum_64_"]), performance may be degraded └ @ Enzyme.Compiler ~/.julia/packages/GPUCompiler/OGnEB/src/utils.jl:61 ┌ Warning: Using fallback BLAS replacements for (["dasum_64_"]), performance may be degraded └ @ Enzyme.Compiler ~/.julia/packages/GPUCompiler/OGnEB/src/utils.jl:61 WARNING: Method definition f(Any, Any) in module ##Enzyme Derivative Rules#242 at /home/pkgeval/.julia/packages/LinearSolve/QuCP8/test/enzyme.jl:11 overwritten at /home/pkgeval/.julia/packages/LinearSolve/QuCP8/test/enzyme.jl:69. WARNING: Method definition kwcall(NamedTuple{names, T} where T<:Tuple where names, typeof(##Enzyme Derivative Rules#242.f), Any, Any) in module ##Enzyme Derivative Rules#242 at /home/pkgeval/.julia/packages/LinearSolve/QuCP8/test/enzyme.jl:11 overwritten at /home/pkgeval/.julia/packages/LinearSolve/QuCP8/test/enzyme.jl:69. ┌ Warning: Using fallback BLAS replacements for (["dasum_64_"]), performance may be degraded └ @ Enzyme.Compiler ~/.julia/packages/GPUCompiler/OGnEB/src/utils.jl:61 ┌ Warning: Using fallback BLAS replacements for (["dasum_64_"]), performance may be degraded └ @ Enzyme.Compiler ~/.julia/packages/GPUCompiler/OGnEB/src/utils.jl:61 ┌ Warning: Using fallback BLAS replacements for (["dasum_64_"]), performance may be degraded └ @ Enzyme.Compiler ~/.julia/packages/GPUCompiler/OGnEB/src/utils.jl:61 ┌ Warning: Using fallback BLAS replacements for (["dasum_64_"]), performance may be degraded └ @ Enzyme.Compiler ~/.julia/packages/GPUCompiler/OGnEB/src/utils.jl:61 fd_jac = [10.480845093727112, 0.11683553457260132, 1.1682922840118408, -11.977641344070435] en_jac = [10.480845194480324, 0.11683570052113856, 1.168292287658065, -11.977641258037943] fd_jac = [119.05446290969849, 1.3271648287773132, 13.27091133594513, -136.05685579776764, -79.58310103416443, -0.8871567249298096, -8.871072769165039, 90.94859838485718, -88.60525929927826, -0.9877315759658813, -9.876766204833984, 101.25923943519592, -33.19513547420502, -0.370044469833374, -3.7002387046813965, 37.93582212924957] en_jac = [119.0544333895547, 1.3271647340561152, 13.270912198356724, -136.05689873847672, -79.58311479885931, -0.8871564072023226, -8.871072658937766, 90.94858110870618, -88.60527404126415, -0.9877313394467908, -9.876766270983076, 101.25921777714284, -33.19513754940007, -0.37004431202955157, -3.700238145596968, 37.9358192684052] fd_jac = [10.480845093727112, 0.11683571338653564, 1.1682922840118408, -11.97764128446579] en_jac = [10.480845194480317, 0.11683570052113579, 1.1682922876580677, -11.977641258037933] fd_jac = [119.05446362495422, 1.3271647691726685, 13.270911991596222, -136.05685555934906, -79.58310091495514, -0.8871563673019409, -8.87107241153717, 90.94859874248505, -88.60525929927826, -0.9877310991287231, -9.876765966415405, 101.2592396736145, -33.19513511657715, -0.37004411220550537, -3.700237989425659, 37.93582236766815] en_jac = [119.05443338955445, 1.327164734056085, 13.270912198356756, -136.05689873847652, -79.58311479885913, -0.8871564072023048, -8.871072658937788, 90.94858110870595, -88.60527404126401, -0.9877313394467713, -9.876766270983088, 101.25921777714265, -33.195137549400016, -0.37004431202954313, -3.7002381455969715, 37.93581926840514] Test Summary: | Pass Total Time Enzyme Derivative Rules | 21 21 15m13.9s 913.964258 seconds (241.05 M allocations: 12.690 GiB, 0.81% gc time, 52.61% compilation time) L2 norm of b: 5.755851e+00 Initial L2 norm of residual: 5.755851e+00 ============================================= Iters resid.norm conv.rate rel.res.norm ----- ------------ ---------- ------------ 1 5.461266e-02 0.009488 9.488200e-03 2 1.055938e-03 0.019335 1.834547e-04 3 1.007860e-05 0.009545 1.751018e-06 4 6.836490e-08 0.006783 1.187746e-08 Final L2 norm of residual: 6.836490e-08 L2 norm of b: 5.755851e+00 Initial L2 norm of residual: 5.755851e+00 ============================================= Iters resid.norm conv.rate rel.res.norm ----- ------------ ---------- ------------ 1 6.380773e-01 0.110857 1.108572e-01 2 1.030539e-01 0.161507 1.790421e-02 3 2.074820e-02 0.201333 3.604715e-03 4 3.562702e-03 0.171711 6.189705e-04 5 6.847913e-04 0.192211 1.189731e-04 6 1.161179e-04 0.169567 2.017388e-05 7 2.592745e-05 0.223286 4.504539e-06 8 5.537111e-06 0.213562 9.619969e-07 Final L2 norm of residual: 5.537111e-06 L2 norm of b: 5.755851e+00 Initial L2 norm of residual: 5.537111e-06 ============================================= Iters resid.norm conv.rate rel.res.norm ----- ------------ ---------- ------------ Tolerance and min_iter requirements satisfied by initial data. Final L2 norm of residual: 5.537111e-06 L2 norm of b: 1.151170e+01 Initial L2 norm of residual: 5.755851e+00 ============================================= Iters resid.norm conv.rate rel.res.norm ----- ------------ ---------- ------------ 1 6.380775e-01 0.110857 5.542860e-02 2 1.030540e-01 0.161507 8.952111e-03 3 2.074825e-02 0.201334 1.802361e-03 4 3.562720e-03 0.171712 3.094868e-04 5 6.847989e-04 0.192212 5.948720e-05 6 1.161203e-04 0.169568 1.008715e-05 7 2.592810e-05 0.223287 2.252326e-06 8 5.537238e-06 0.213561 4.810095e-07 Final L2 norm of residual: 5.537238e-06 L2 norm of b: 5.451681e+00 Initial L2 norm of residual: 5.451681e+00 ============================================= Iters resid.norm conv.rate rel.res.norm ----- ------------ ---------- ------------ 1 5.075813e-02 0.009311 9.310546e-03 2 9.176771e-04 0.018079 1.683292e-04 3 1.189908e-05 0.012967 2.182645e-06 4 1.013262e-07 0.008515 1.858624e-08 Final L2 norm of residual: 1.013262e-07 L2 norm of b: 5.451681e+00 Initial L2 norm of residual: 5.451681e+00 ============================================= Iters resid.norm conv.rate rel.res.norm ----- ------------ ---------- ------------ 1 6.105493e-01 0.111993 1.119929e-01 2 9.134500e-02 0.149611 1.675538e-02 3 1.690586e-02 0.185077 3.101036e-03 4 3.316263e-03 0.196161 6.083010e-04 5 8.046024e-04 0.242623 1.475879e-04 6 1.683702e-04 0.209259 3.088409e-05 7 3.220472e-05 0.191273 5.907301e-06 8 4.674295e-06 0.145143 8.574042e-07 Final L2 norm of residual: 4.674295e-06 L2 norm of b: 5.451681e+00 Initial L2 norm of residual: 4.674295e-06 ============================================= Iters resid.norm conv.rate rel.res.norm ----- ------------ ---------- ------------ Tolerance and min_iter requirements satisfied by initial data. Final L2 norm of residual: 4.674295e-06 L2 norm of b: 1.090336e+01 Initial L2 norm of residual: 5.451681e+00 ============================================= Iters resid.norm conv.rate rel.res.norm ----- ------------ ---------- ------------ 1 6.105495e-01 0.111993 5.599644e-02 2 9.134516e-02 0.149611 8.377705e-03 3 1.690596e-02 0.185078 1.550527e-03 4 3.316297e-03 0.196161 3.041536e-04 5 8.046114e-04 0.242623 7.379480e-05 6 1.683714e-04 0.209258 1.544215e-05 7 3.220481e-05 0.191273 2.953659e-06 8 4.674282e-06 0.145142 4.287010e-07 Final L2 norm of residual: 4.674282e-06 L2 norm of b: 5.755851e+00 Initial L2 norm of residual: 5.755851e+00 ============================================= Iters resid.norm conv.rate rel.res.norm ----- ------------ ---------- ------------ 1 5.461266e-02 0.009488 9.488200e-03 2 1.055938e-03 0.019335 1.834547e-04 3 1.007860e-05 0.009545 1.751018e-06 4 6.836490e-08 0.006783 1.187746e-08 Final L2 norm of residual: 6.836490e-08 L2 norm of b: 5.755851e+00 Initial L2 norm of residual: 6.836490e-08 ============================================= Iters resid.norm conv.rate rel.res.norm ----- ------------ ---------- ------------ Tolerance and min_iter requirements satisfied by initial data. Final L2 norm of residual: 6.836490e-08 L2 norm of b: 5.755851e+00 Initial L2 norm of residual: 6.836490e-08 ============================================= Iters resid.norm conv.rate rel.res.norm ----- ------------ ---------- ------------ Tolerance and min_iter requirements satisfied by initial data. Final L2 norm of residual: 6.836490e-08 L2 norm of b: 1.151170e+01 Initial L2 norm of residual: 5.755851e+00 ============================================= Iters resid.norm conv.rate rel.res.norm ----- ------------ ---------- ------------ 1 6.380773e-01 0.110857 5.542858e-02 2 1.030539e-01 0.161507 8.952103e-03 3 2.074820e-02 0.201333 1.802357e-03 4 3.562702e-03 0.171711 3.094853e-04 5 6.847914e-04 0.192211 5.948655e-05 6 1.161179e-04 0.169567 1.008694e-05 7 2.592746e-05 0.223286 2.252270e-06 8 5.537112e-06 0.213562 4.809985e-07 Final L2 norm of residual: 5.537112e-06 L2 norm of b: 5.451681e+00 Initial L2 norm of residual: 5.451681e+00 ============================================= Iters resid.norm conv.rate rel.res.norm ----- ------------ ---------- ------------ 1 5.075813e-02 0.009311 9.310546e-03 2 9.176771e-04 0.018079 1.683292e-04 3 1.189908e-05 0.012967 2.182645e-06 4 1.013262e-07 0.008515 1.858624e-08 Final L2 norm of residual: 1.013262e-07 L2 norm of b: 5.451681e+00 Initial L2 norm of residual: 5.451681e+00 ============================================= Iters resid.norm conv.rate rel.res.norm ----- ------------ ---------- ------------ 1 6.105493e-01 0.111993 1.119929e-01 2 9.134500e-02 0.149611 1.675538e-02 3 1.690586e-02 0.185077 3.101036e-03 4 3.316263e-03 0.196161 6.083010e-04 5 8.046024e-04 0.242623 1.475879e-04 6 1.683702e-04 0.209259 3.088409e-05 7 3.220472e-05 0.191273 5.907301e-06 8 4.674295e-06 0.145143 8.574042e-07 Final L2 norm of residual: 4.674295e-06 L2 norm of b: 5.451681e+00 Initial L2 norm of residual: 4.674295e-06 ============================================= Iters resid.norm conv.rate rel.res.norm ----- ------------ ---------- ------------ Tolerance and min_iter requirements satisfied by initial data. Final L2 norm of residual: 4.674295e-06 L2 norm of b: 1.090336e+01 Initial L2 norm of residual: 5.451681e+00 ============================================= Iters resid.norm conv.rate rel.res.norm ----- ------------ ---------- ------------ 1 6.105495e-01 0.111993 5.599644e-02 2 9.134516e-02 0.149611 8.377705e-03 3 1.690596e-02 0.185078 1.550527e-03 4 3.316297e-03 0.196161 3.041536e-04 5 8.046114e-04 0.242623 7.379480e-05 6 1.683714e-04 0.209258 1.544215e-05 7 3.220481e-05 0.191273 2.953659e-06 8 4.674282e-06 0.145142 4.287010e-07 Final L2 norm of residual: 4.674282e-06 L2 norm of b: 5.755851e+00 Initial L2 norm of residual: 5.755851e+00 ============================================= Iters resid.norm conv.rate rel.res.norm ----- ------------ ---------- ------------ 1 5.461266e-02 0.009488 9.488200e-03 2 1.055938e-03 0.019335 1.834547e-04 3 1.007860e-05 0.009545 1.751018e-06 4 6.836490e-08 0.006783 1.187746e-08 Final L2 norm of residual: 6.836490e-08 L2 norm of b: 5.755851e+00 Initial L2 norm of residual: 5.755851e+00 ============================================= Iters resid.norm conv.rate rel.res.norm ----- ------------ ---------- ------------ 1 5.461266e-02 0.009488 9.488200e-03 2 1.055938e-03 0.019335 1.834547e-04 3 1.007860e-05 0.009545 1.751018e-06 4 6.836490e-08 0.006783 1.187746e-08 Final L2 norm of residual: 6.836490e-08 L2 norm of b: 5.755851e+00 Initial L2 norm of residual: 6.836490e-08 ============================================= Iters resid.norm conv.rate rel.res.norm ----- ------------ ---------- ------------ Tolerance and min_iter requirements satisfied by initial data. Final L2 norm of residual: 6.836490e-08 L2 norm of b: 1.151170e+01 Initial L2 norm of residual: 5.755851e+00 ============================================= Iters resid.norm conv.rate rel.res.norm ----- ------------ ---------- ------------ 1 5.461267e-02 0.009488 4.744100e-03 2 1.055938e-03 0.019335 9.172736e-05 3 1.007860e-05 0.009545 8.755089e-07 Final L2 norm of residual: 1.007860e-05 L2 norm of b: 5.451681e+00 Initial L2 norm of residual: 5.451681e+00 ============================================= Iters resid.norm conv.rate rel.res.norm ----- ------------ ---------- ------------ 1 5.075813e-02 0.009311 9.310546e-03 2 9.176771e-04 0.018079 1.683292e-04 3 1.189908e-05 0.012967 2.182645e-06 4 1.013262e-07 0.008515 1.858624e-08 Final L2 norm of residual: 1.013262e-07 L2 norm of b: 5.451681e+00 Initial L2 norm of residual: 5.451681e+00 ============================================= Iters resid.norm conv.rate rel.res.norm ----- ------------ ---------- ------------ 1 5.075813e-02 0.009311 9.310546e-03 2 9.176771e-04 0.018079 1.683292e-04 3 1.189908e-05 0.012967 2.182645e-06 4 1.013262e-07 0.008515 1.858624e-08 Final L2 norm of residual: 1.013262e-07 L2 norm of b: 5.451681e+00 Initial L2 norm of residual: 1.013262e-07 ============================================= Iters resid.norm conv.rate rel.res.norm ----- ------------ ---------- ------------ Tolerance and min_iter requirements satisfied by initial data. Final L2 norm of residual: 1.013262e-07 L2 norm of b: 1.090336e+01 Initial L2 norm of residual: 5.451681e+00 ============================================= Iters resid.norm conv.rate rel.res.norm ----- ------------ ---------- ------------ 1 5.075813e-02 0.009311 4.655274e-03 2 9.176772e-04 0.018079 8.416461e-05 3 1.189908e-05 0.012967 1.091322e-06 4 1.013262e-07 0.008515 9.293117e-09 Final L2 norm of residual: 1.013262e-07 L2 norm of b: 5.755851e+00 Initial L2 norm of residual: 5.755851e+00 ============================================= Iters resid.norm conv.rate rel.res.norm ----- ------------ ---------- ------------ 1 5.461266e-02 0.009488 9.488200e-03 2 1.055938e-03 0.019335 1.834547e-04 3 1.007860e-05 0.009545 1.751018e-06 4 6.836490e-08 0.006783 1.187746e-08 Final L2 norm of residual: 6.836490e-08 L2 norm of b: 5.755851e+00 Initial L2 norm of residual: 6.836490e-08 ============================================= Iters resid.norm conv.rate rel.res.norm ----- ------------ ---------- ------------ Tolerance and min_iter requirements satisfied by initial data. Final L2 norm of residual: 6.836490e-08 L2 norm of b: 5.755851e+00 Initial L2 norm of residual: 6.836490e-08 ============================================= Iters resid.norm conv.rate rel.res.norm ----- ------------ ---------- ------------ Tolerance and min_iter requirements satisfied by initial data. Final L2 norm of residual: 6.836490e-08 L2 norm of b: 1.151170e+01 Initial L2 norm of residual: 5.755851e+00 ============================================= Iters resid.norm conv.rate rel.res.norm ----- ------------ ---------- ------------ 1 5.461267e-02 0.009488 4.744100e-03 2 1.055938e-03 0.019335 9.172736e-05 3 1.007860e-05 0.009545 8.755089e-07 Final L2 norm of residual: 1.007860e-05 L2 norm of b: 5.451681e+00 Initial L2 norm of residual: 5.451681e+00 ============================================= Iters resid.norm conv.rate rel.res.norm ----- ------------ ---------- ------------ 1 5.075813e-02 0.009311 9.310546e-03 2 9.176771e-04 0.018079 1.683292e-04 3 1.189908e-05 0.012967 2.182645e-06 4 1.013262e-07 0.008515 1.858624e-08 Final L2 norm of residual: 1.013262e-07 L2 norm of b: 5.451681e+00 Initial L2 norm of residual: 5.451681e+00 ============================================= Iters resid.norm conv.rate rel.res.norm ----- ------------ ---------- ------------ 1 5.075813e-02 0.009311 9.310546e-03 2 9.176771e-04 0.018079 1.683292e-04 3 1.189908e-05 0.012967 2.182645e-06 4 1.013262e-07 0.008515 1.858624e-08 Final L2 norm of residual: 1.013262e-07 L2 norm of b: 5.451681e+00 Initial L2 norm of residual: 1.013262e-07 ============================================= Iters resid.norm conv.rate rel.res.norm ----- ------------ ---------- ------------ Tolerance and min_iter requirements satisfied by initial data. Final L2 norm of residual: 1.013262e-07 L2 norm of b: 1.090336e+01 Initial L2 norm of residual: 5.451681e+00 ============================================= Iters resid.norm conv.rate rel.res.norm ----- ------------ ---------- ------------ 1 5.075813e-02 0.009311 4.655274e-03 2 9.176772e-04 0.018079 8.416461e-05 3 1.189908e-05 0.012967 1.091322e-06 4 1.013262e-07 0.008515 9.293117e-09 Final L2 norm of residual: 1.013262e-07 Num MPI tasks = 1 Num OpenMP threads = 1 BoomerAMG SETUP PARAMETERS: Max levels = 25 Num levels = 5 Strength Threshold = 0.250000 Interpolation Truncation Factor = 0.000000 Maximum Row Sum Threshold for Dependency Weakening = 0.900000 Coarsening Type = HMIS measures are determined locally No global partition option chosen. Interpolation = extended+i interpolation Operator Matrix Information: nonzero entries/row row sums lev rows entries sparse min max avg min max ====================================================================== 0 100 294 0.029 1 3 2.9 -2.220e-16 2.000e+00 1 49 145 0.060 2 3 3.0 -5.551e-16 1.748e+00 2 24 70 0.122 2 3 2.9 -4.441e-16 4.890e-01 3 12 34 0.236 2 3 2.8 -6.661e-16 4.890e-01 4 6 16 0.444 2 3 2.7 -9.714e-16 4.890e-01 Interpolation Matrix Information: entries/row min max row sums lev rows x cols min max avgW weight weight min max ================================================================================ 0 100 x 49 0 2 1.9 3.527e-01 6.473e-01 0.000e+00 1.000e+00 1 49 x 24 1 2 1.9 2.798e-01 5.938e-01 2.798e-01 1.000e+00 2 24 x 12 1 2 1.9 4.212e-01 5.788e-01 4.826e-01 1.000e+00 3 12 x 6 1 2 1.8 4.525e-01 5.475e-01 4.657e-01 1.000e+00 Complexity: grid = 1.910000 operator = 1.901361 memory = 2.819728 BoomerAMG SOLVER PARAMETERS: Maximum number of cycles: 50 Stopping Tolerance: 1.000000e-06 Cycle type (1 = V, 2 = W, etc.): 1 Relaxation Parameters: Visiting Grid: down up coarse Number of sweeps: 1 1 1 Type 0=Jac, 3=hGS, 6=hSGS, 9=GE: 13 14 9 Point types, partial sweeps (1=C, -1=F): Pre-CG relaxation (down): 0 Post-CG relaxation (up): 0 Coarsest grid: 0 Num MPI tasks = 1 Num OpenMP threads = 1 BoomerAMG SETUP PARAMETERS: Max levels = 25 Num levels = 5 Strength Threshold = 0.250000 Interpolation Truncation Factor = 0.000000 Maximum Row Sum Threshold for Dependency Weakening = 0.900000 Coarsening Type = HMIS measures are determined locally No global partition option chosen. Interpolation = extended+i interpolation Operator Matrix Information: nonzero entries/row row sums lev rows entries sparse min max avg min max ====================================================================== 0 100 294 0.029 1 3 2.9 -2.220e-16 2.000e+00 1 49 145 0.060 2 3 3.0 -5.551e-16 1.748e+00 2 24 70 0.122 2 3 2.9 -4.441e-16 4.890e-01 3 12 34 0.236 2 3 2.8 -6.661e-16 4.890e-01 4 6 16 0.444 2 3 2.7 -9.714e-16 4.890e-01 Interpolation Matrix Information: entries/row min max row sums lev rows x cols min max avgW weight weight min max ================================================================================ 0 100 x 49 0 2 1.9 3.527e-01 6.473e-01 0.000e+00 1.000e+00 1 49 x 24 1 2 1.9 2.798e-01 5.938e-01 2.798e-01 1.000e+00 2 24 x 12 1 2 1.9 4.212e-01 5.788e-01 4.826e-01 1.000e+00 3 12 x 6 1 2 1.8 4.525e-01 5.475e-01 4.657e-01 1.000e+00 Complexity: grid = 1.910000 operator = 1.901361 memory = 2.819728 BoomerAMG SOLVER PARAMETERS: Maximum number of cycles: 50 Stopping Tolerance: 1.000000e-06 Cycle type (1 = V, 2 = W, etc.): 1 Relaxation Parameters: Visiting Grid: down up coarse Number of sweeps: 1 1 1 Type 0=Jac, 3=hGS, 6=hSGS, 9=GE: 13 14 9 Point types, partial sweeps (1=C, -1=F): Pre-CG relaxation (down): 0 Post-CG relaxation (up): 0 Coarsest grid: 0 Num MPI tasks = 1 Num OpenMP threads = 1 BoomerAMG SETUP PARAMETERS: Max levels = 25 Num levels = 5 Strength Threshold = 0.250000 Interpolation Truncation Factor = 0.000000 Maximum Row Sum Threshold for Dependency Weakening = 0.900000 Coarsening Type = HMIS measures are determined locally No global partition option chosen. Interpolation = extended+i interpolation Operator Matrix Information: nonzero entries/row row sums lev rows entries sparse min max avg min max ====================================================================== 0 100 294 0.029 1 3 2.9 -2.220e-16 2.000e+00 1 49 145 0.060 2 3 3.0 -5.551e-16 1.748e+00 2 24 70 0.122 2 3 2.9 -4.441e-16 4.890e-01 3 12 34 0.236 2 3 2.8 -6.661e-16 4.890e-01 4 6 16 0.444 2 3 2.7 -9.714e-16 4.890e-01 Interpolation Matrix Information: entries/row min max row sums lev rows x cols min max avgW weight weight min max ================================================================================ 0 100 x 49 0 2 1.9 3.527e-01 6.473e-01 0.000e+00 1.000e+00 1 49 x 24 1 2 1.9 2.798e-01 5.938e-01 2.798e-01 1.000e+00 2 24 x 12 1 2 1.9 4.212e-01 5.788e-01 4.826e-01 1.000e+00 3 12 x 6 1 2 1.8 4.525e-01 5.475e-01 4.657e-01 1.000e+00 Complexity: grid = 1.910000 operator = 1.901361 memory = 2.819728 BoomerAMG SOLVER PARAMETERS: Maximum number of cycles: 50 Stopping Tolerance: 1.000000e-06 Cycle type (1 = V, 2 = W, etc.): 1 Relaxation Parameters: Visiting Grid: down up coarse Number of sweeps: 1 1 1 Type 0=Jac, 3=hGS, 6=hSGS, 9=GE: 13 14 9 Point types, partial sweeps (1=C, -1=F): Pre-CG relaxation (down): 0 Post-CG relaxation (up): 0 Coarsest grid: 0 Num MPI tasks = 1 Num OpenMP threads = 1 BoomerAMG SETUP PARAMETERS: Max levels = 25 Num levels = 5 Strength Threshold = 0.250000 Interpolation Truncation Factor = 0.000000 Maximum Row Sum Threshold for Dependency Weakening = 0.900000 Coarsening Type = HMIS measures are determined locally No global partition option chosen. Interpolation = extended+i interpolation Operator Matrix Information: nonzero entries/row row sums lev rows entries sparse min max avg min max ====================================================================== 0 100 294 0.029 1 3 2.9 -2.220e-16 2.000e+00 1 49 145 0.060 2 3 3.0 -5.551e-16 1.748e+00 2 24 70 0.122 2 3 2.9 -4.441e-16 4.890e-01 3 12 34 0.236 2 3 2.8 -6.661e-16 4.890e-01 4 6 16 0.444 2 3 2.7 -9.714e-16 4.890e-01 Interpolation Matrix Information: entries/row min max row sums lev rows x cols min max avgW weight weight min max ================================================================================ 0 100 x 49 0 2 1.9 3.527e-01 6.473e-01 0.000e+00 1.000e+00 1 49 x 24 1 2 1.9 2.798e-01 5.938e-01 2.798e-01 1.000e+00 2 24 x 12 1 2 1.9 4.212e-01 5.788e-01 4.826e-01 1.000e+00 3 12 x 6 1 2 1.8 4.525e-01 5.475e-01 4.657e-01 1.000e+00 Complexity: grid = 1.910000 operator = 1.901361 memory = 2.819728 BoomerAMG SOLVER PARAMETERS: Maximum number of cycles: 50 Stopping Tolerance: 1.000000e-06 Cycle type (1 = V, 2 = W, etc.): 1 Relaxation Parameters: Visiting Grid: down up coarse Number of sweeps: 1 1 1 Type 0=Jac, 3=hGS, 6=hSGS, 9=GE: 13 14 9 Point types, partial sweeps (1=C, -1=F): Pre-CG relaxation (down): 0 Post-CG relaxation (up): 0 Coarsest grid: 0 Num MPI tasks = 1 Num OpenMP threads = 1 BoomerAMG SETUP PARAMETERS: Max levels = 25 Num levels = 5 Strength Threshold = 0.250000 Interpolation Truncation Factor = 0.000000 Maximum Row Sum Threshold for Dependency Weakening = 0.900000 Coarsening Type = HMIS measures are determined locally No global partition option chosen. Interpolation = extended+i interpolation Operator Matrix Information: nonzero entries/row row sums lev rows entries sparse min max avg min max ====================================================================== 0 100 294 0.029 1 3 2.9 -1.110e-16 1.000e+00 1 49 145 0.060 2 3 3.0 -2.776e-16 8.740e-01 2 24 70 0.122 2 3 2.9 -2.220e-16 2.445e-01 3 12 34 0.236 2 3 2.8 -3.331e-16 2.445e-01 4 6 16 0.444 2 3 2.7 -4.857e-16 2.445e-01 Interpolation Matrix Information: entries/row min max row sums lev rows x cols min max avgW weight weight min max ================================================================================ 0 100 x 49 0 2 1.9 3.527e-01 6.473e-01 0.000e+00 1.000e+00 1 49 x 24 1 2 1.9 2.798e-01 5.938e-01 2.798e-01 1.000e+00 2 24 x 12 1 2 1.9 4.212e-01 5.788e-01 4.826e-01 1.000e+00 3 12 x 6 1 2 1.8 4.525e-01 5.475e-01 4.657e-01 1.000e+00 Complexity: grid = 1.910000 operator = 1.901361 memory = 2.819728 BoomerAMG SOLVER PARAMETERS: Maximum number of cycles: 50 Stopping Tolerance: 1.000000e-06 Cycle type (1 = V, 2 = W, etc.): 1 Relaxation Parameters: Visiting Grid: down up coarse Number of sweeps: 1 1 1 Type 0=Jac, 3=hGS, 6=hSGS, 9=GE: 13 14 9 Point types, partial sweeps (1=C, -1=F): Pre-CG relaxation (down): 0 Post-CG relaxation (up): 0 Coarsest grid: 0 Num MPI tasks = 1 Num OpenMP threads = 1 BoomerAMG SETUP PARAMETERS: Max levels = 25 Num levels = 5 Strength Threshold = 0.250000 Interpolation Truncation Factor = 0.000000 Maximum Row Sum Threshold for Dependency Weakening = 0.900000 Coarsening Type = HMIS measures are determined locally No global partition option chosen. Interpolation = extended+i interpolation Operator Matrix Information: nonzero entries/row row sums lev rows entries sparse min max avg min max ====================================================================== 0 100 294 0.029 1 3 2.9 -1.110e-16 1.000e+00 1 49 145 0.060 2 3 3.0 -2.776e-16 8.740e-01 2 24 70 0.122 2 3 2.9 -2.220e-16 2.445e-01 3 12 34 0.236 2 3 2.8 -3.331e-16 2.445e-01 4 6 16 0.444 2 3 2.7 -4.857e-16 2.445e-01 Interpolation Matrix Information: entries/row min max row sums lev rows x cols min max avgW weight weight min max ================================================================================ 0 100 x 49 0 2 1.9 3.527e-01 6.473e-01 0.000e+00 1.000e+00 1 49 x 24 1 2 1.9 2.798e-01 5.938e-01 2.798e-01 1.000e+00 2 24 x 12 1 2 1.9 4.212e-01 5.788e-01 4.826e-01 1.000e+00 3 12 x 6 1 2 1.8 4.525e-01 5.475e-01 4.657e-01 1.000e+00 Complexity: grid = 1.910000 operator = 1.901361 memory = 2.819728 BoomerAMG SOLVER PARAMETERS: Maximum number of cycles: 50 Stopping Tolerance: 1.000000e-06 Cycle type (1 = V, 2 = W, etc.): 1 Relaxation Parameters: Visiting Grid: down up coarse Number of sweeps: 1 1 1 Type 0=Jac, 3=hGS, 6=hSGS, 9=GE: 13 14 9 Point types, partial sweeps (1=C, -1=F): Pre-CG relaxation (down): 0 Post-CG relaxation (up): 0 Coarsest grid: 0 Num MPI tasks = 1 Num OpenMP threads = 1 BoomerAMG SETUP PARAMETERS: Max levels = 25 Num levels = 5 Strength Threshold = 0.250000 Interpolation Truncation Factor = 0.000000 Maximum Row Sum Threshold for Dependency Weakening = 0.900000 Coarsening Type = HMIS measures are determined locally No global partition option chosen. Interpolation = extended+i interpolation Operator Matrix Information: nonzero entries/row row sums lev rows entries sparse min max avg min max ====================================================================== 0 100 294 0.029 1 3 2.9 -1.110e-16 1.000e+00 1 49 145 0.060 2 3 3.0 -2.776e-16 8.740e-01 2 24 70 0.122 2 3 2.9 -2.220e-16 2.445e-01 3 12 34 0.236 2 3 2.8 -3.331e-16 2.445e-01 4 6 16 0.444 2 3 2.7 -4.857e-16 2.445e-01 Interpolation Matrix Information: entries/row min max row sums lev rows x cols min max avgW weight weight min max ================================================================================ 0 100 x 49 0 2 1.9 3.527e-01 6.473e-01 0.000e+00 1.000e+00 1 49 x 24 1 2 1.9 2.798e-01 5.938e-01 2.798e-01 1.000e+00 2 24 x 12 1 2 1.9 4.212e-01 5.788e-01 4.826e-01 1.000e+00 3 12 x 6 1 2 1.8 4.525e-01 5.475e-01 4.657e-01 1.000e+00 Complexity: grid = 1.910000 operator = 1.901361 memory = 2.819728 BoomerAMG SOLVER PARAMETERS: Maximum number of cycles: 50 Stopping Tolerance: 1.000000e-06 Cycle type (1 = V, 2 = W, etc.): 1 Relaxation Parameters: Visiting Grid: down up coarse Number of sweeps: 1 1 1 Type 0=Jac, 3=hGS, 6=hSGS, 9=GE: 13 14 9 Point types, partial sweeps (1=C, -1=F): Pre-CG relaxation (down): 0 Post-CG relaxation (up): 0 Coarsest grid: 0 Num MPI tasks = 1 Num OpenMP threads = 1 BoomerAMG SETUP PARAMETERS: Max levels = 25 Num levels = 5 Strength Threshold = 0.250000 Interpolation Truncation Factor = 0.000000 Maximum Row Sum Threshold for Dependency Weakening = 0.900000 Coarsening Type = HMIS measures are determined locally No global partition option chosen. Interpolation = extended+i interpolation Operator Matrix Information: nonzero entries/row row sums lev rows entries sparse min max avg min max ====================================================================== 0 100 294 0.029 1 3 2.9 -1.110e-16 1.000e+00 1 49 145 0.060 2 3 3.0 -2.776e-16 8.740e-01 2 24 70 0.122 2 3 2.9 -2.220e-16 2.445e-01 3 12 34 0.236 2 3 2.8 -3.331e-16 2.445e-01 4 6 16 0.444 2 3 2.7 -4.857e-16 2.445e-01 Interpolation Matrix Information: entries/row min max row sums lev rows x cols min max avgW weight weight min max ================================================================================ 0 100 x 49 0 2 1.9 3.527e-01 6.473e-01 0.000e+00 1.000e+00 1 49 x 24 1 2 1.9 2.798e-01 5.938e-01 2.798e-01 1.000e+00 2 24 x 12 1 2 1.9 4.212e-01 5.788e-01 4.826e-01 1.000e+00 3 12 x 6 1 2 1.8 4.525e-01 5.475e-01 4.657e-01 1.000e+00 Complexity: grid = 1.910000 operator = 1.901361 memory = 2.819728 BoomerAMG SOLVER PARAMETERS: Maximum number of cycles: 50 Stopping Tolerance: 1.000000e-06 Cycle type (1 = V, 2 = W, etc.): 1 Relaxation Parameters: Visiting Grid: down up coarse Number of sweeps: 1 1 1 Type 0=Jac, 3=hGS, 6=hSGS, 9=GE: 13 14 9 Point types, partial sweeps (1=C, -1=F): Pre-CG relaxation (down): 0 Post-CG relaxation (up): 0 Coarsest grid: 0 Num MPI tasks = 1 Num OpenMP threads = 1 BoomerAMG SETUP PARAMETERS: Max levels = 25 Num levels = 5 Strength Threshold = 0.250000 Interpolation Truncation Factor = 0.000000 Maximum Row Sum Threshold for Dependency Weakening = 0.900000 Coarsening Type = HMIS measures are determined locally No global partition option chosen. Interpolation = extended+i interpolation Operator Matrix Information: nonzero entries/row row sums lev rows entries sparse min max avg min max ====================================================================== 0 100 294 0.029 1 3 2.9 -2.220e-16 2.000e+00 1 49 145 0.060 2 3 3.0 -5.551e-16 1.748e+00 2 24 70 0.122 2 3 2.9 -4.441e-16 4.890e-01 3 12 34 0.236 2 3 2.8 -6.661e-16 4.890e-01 4 6 16 0.444 2 3 2.7 -9.714e-16 4.890e-01 Interpolation Matrix Information: entries/row min max row sums lev rows x cols min max avgW weight weight min max ================================================================================ 0 100 x 49 0 2 1.9 3.527e-01 6.473e-01 0.000e+00 1.000e+00 1 49 x 24 1 2 1.9 2.798e-01 5.938e-01 2.798e-01 1.000e+00 2 24 x 12 1 2 1.9 4.212e-01 5.788e-01 4.826e-01 1.000e+00 3 12 x 6 1 2 1.8 4.525e-01 5.475e-01 4.657e-01 1.000e+00 Complexity: grid = 1.910000 operator = 1.901361 memory = 2.819728 BoomerAMG SOLVER PARAMETERS: Maximum number of cycles: 50 Stopping Tolerance: 1.000000e-06 Cycle type (1 = V, 2 = W, etc.): 1 Relaxation Parameters: Visiting Grid: down up coarse Number of sweeps: 1 1 1 Type 0=Jac, 3=hGS, 6=hSGS, 9=GE: 13 14 9 Point types, partial sweeps (1=C, -1=F): Pre-CG relaxation (down): 0 Post-CG relaxation (up): 0 Coarsest grid: 0 Num MPI tasks = 1 Num OpenMP threads = 1 BoomerAMG SETUP PARAMETERS: Max levels = 25 Num levels = 5 Strength Threshold = 0.250000 Interpolation Truncation Factor = 0.000000 Maximum Row Sum Threshold for Dependency Weakening = 0.900000 Coarsening Type = HMIS measures are determined locally No global partition option chosen. Interpolation = extended+i interpolation Operator Matrix Information: nonzero entries/row row sums lev rows entries sparse min max avg min max ====================================================================== 0 100 294 0.029 1 3 2.9 -2.220e-16 2.000e+00 1 49 145 0.060 2 3 3.0 -5.551e-16 1.748e+00 2 24 70 0.122 2 3 2.9 -4.441e-16 4.890e-01 3 12 34 0.236 2 3 2.8 -6.661e-16 4.890e-01 4 6 16 0.444 2 3 2.7 -9.714e-16 4.890e-01 Interpolation Matrix Information: entries/row min max row sums lev rows x cols min max avgW weight weight min max ================================================================================ 0 100 x 49 0 2 1.9 3.527e-01 6.473e-01 0.000e+00 1.000e+00 1 49 x 24 1 2 1.9 2.798e-01 5.938e-01 2.798e-01 1.000e+00 2 24 x 12 1 2 1.9 4.212e-01 5.788e-01 4.826e-01 1.000e+00 3 12 x 6 1 2 1.8 4.525e-01 5.475e-01 4.657e-01 1.000e+00 Complexity: grid = 1.910000 operator = 1.901361 memory = 2.819728 BoomerAMG SOLVER PARAMETERS: Maximum number of cycles: 50 Stopping Tolerance: 1.000000e-06 Cycle type (1 = V, 2 = W, etc.): 1 Relaxation Parameters: Visiting Grid: down up coarse Number of sweeps: 1 1 1 Type 0=Jac, 3=hGS, 6=hSGS, 9=GE: 13 14 9 Point types, partial sweeps (1=C, -1=F): Pre-CG relaxation (down): 0 Post-CG relaxation (up): 0 Coarsest grid: 0 Num MPI tasks = 1 Num OpenMP threads = 1 BoomerAMG SETUP PARAMETERS: Max levels = 25 Num levels = 5 Strength Threshold = 0.250000 Interpolation Truncation Factor = 0.000000 Maximum Row Sum Threshold for Dependency Weakening = 0.900000 Coarsening Type = HMIS measures are determined locally No global partition option chosen. Interpolation = extended+i interpolation Operator Matrix Information: nonzero entries/row row sums lev rows entries sparse min max avg min max ====================================================================== 0 100 294 0.029 1 3 2.9 -2.220e-16 2.000e+00 1 49 145 0.060 2 3 3.0 -5.551e-16 1.748e+00 2 24 70 0.122 2 3 2.9 -4.441e-16 4.890e-01 3 12 34 0.236 2 3 2.8 -6.661e-16 4.890e-01 4 6 16 0.444 2 3 2.7 -9.714e-16 4.890e-01 Interpolation Matrix Information: entries/row min max row sums lev rows x cols min max avgW weight weight min max ================================================================================ 0 100 x 49 0 2 1.9 3.527e-01 6.473e-01 0.000e+00 1.000e+00 1 49 x 24 1 2 1.9 2.798e-01 5.938e-01 2.798e-01 1.000e+00 2 24 x 12 1 2 1.9 4.212e-01 5.788e-01 4.826e-01 1.000e+00 3 12 x 6 1 2 1.8 4.525e-01 5.475e-01 4.657e-01 1.000e+00 Complexity: grid = 1.910000 operator = 1.901361 memory = 2.819728 BoomerAMG SOLVER PARAMETERS: Maximum number of cycles: 50 Stopping Tolerance: 1.000000e-06 Cycle type (1 = V, 2 = W, etc.): 1 Relaxation Parameters: Visiting Grid: down up coarse Number of sweeps: 1 1 1 Type 0=Jac, 3=hGS, 6=hSGS, 9=GE: 13 14 9 Point types, partial sweeps (1=C, -1=F): Pre-CG relaxation (down): 0 Post-CG relaxation (up): 0 Coarsest grid: 0 Num MPI tasks = 1 Num OpenMP threads = 1 BoomerAMG SETUP PARAMETERS: Max levels = 25 Num levels = 5 Strength Threshold = 0.250000 Interpolation Truncation Factor = 0.000000 Maximum Row Sum Threshold for Dependency Weakening = 0.900000 Coarsening Type = HMIS measures are determined locally No global partition option chosen. Interpolation = extended+i interpolation Operator Matrix Information: nonzero entries/row row sums lev rows entries sparse min max avg min max ====================================================================== 0 100 294 0.029 1 3 2.9 -2.220e-16 2.000e+00 1 49 145 0.060 2 3 3.0 -5.551e-16 1.748e+00 2 24 70 0.122 2 3 2.9 -4.441e-16 4.890e-01 3 12 34 0.236 2 3 2.8 -6.661e-16 4.890e-01 4 6 16 0.444 2 3 2.7 -9.714e-16 4.890e-01 Interpolation Matrix Information: entries/row min max row sums lev rows x cols min max avgW weight weight min max ================================================================================ 0 100 x 49 0 2 1.9 3.527e-01 6.473e-01 0.000e+00 1.000e+00 1 49 x 24 1 2 1.9 2.798e-01 5.938e-01 2.798e-01 1.000e+00 2 24 x 12 1 2 1.9 4.212e-01 5.788e-01 4.826e-01 1.000e+00 3 12 x 6 1 2 1.8 4.525e-01 5.475e-01 4.657e-01 1.000e+00 Complexity: grid = 1.910000 operator = 1.901361 memory = 2.819728 BoomerAMG SOLVER PARAMETERS: Maximum number of cycles: 50 Stopping Tolerance: 1.000000e-06 Cycle type (1 = V, 2 = W, etc.): 1 Relaxation Parameters: Visiting Grid: down up coarse Number of sweeps: 1 1 1 Type 0=Jac, 3=hGS, 6=hSGS, 9=GE: 13 14 9 Point types, partial sweeps (1=C, -1=F): Pre-CG relaxation (down): 0 Post-CG relaxation (up): 0 Coarsest grid: 0 Num MPI tasks = 1 Num OpenMP threads = 1 BoomerAMG SETUP PARAMETERS: Max levels = 25 Num levels = 5 Strength Threshold = 0.250000 Interpolation Truncation Factor = 0.000000 Maximum Row Sum Threshold for Dependency Weakening = 0.900000 Coarsening Type = HMIS measures are determined locally No global partition option chosen. Interpolation = extended+i interpolation Operator Matrix Information: nonzero entries/row row sums lev rows entries sparse min max avg min max ====================================================================== 0 100 294 0.029 1 3 2.9 -1.110e-16 1.000e+00 1 49 145 0.060 2 3 3.0 -2.776e-16 8.740e-01 2 24 70 0.122 2 3 2.9 -2.220e-16 2.445e-01 3 12 34 0.236 2 3 2.8 -3.331e-16 2.445e-01 4 6 16 0.444 2 3 2.7 -4.857e-16 2.445e-01 Interpolation Matrix Information: entries/row min max row sums lev rows x cols min max avgW weight weight min max ================================================================================ 0 100 x 49 0 2 1.9 3.527e-01 6.473e-01 0.000e+00 1.000e+00 1 49 x 24 1 2 1.9 2.798e-01 5.938e-01 2.798e-01 1.000e+00 2 24 x 12 1 2 1.9 4.212e-01 5.788e-01 4.826e-01 1.000e+00 3 12 x 6 1 2 1.8 4.525e-01 5.475e-01 4.657e-01 1.000e+00 Complexity: grid = 1.910000 operator = 1.901361 memory = 2.819728 BoomerAMG SOLVER PARAMETERS: Maximum number of cycles: 50 Stopping Tolerance: 1.000000e-06 Cycle type (1 = V, 2 = W, etc.): 1 Relaxation Parameters: Visiting Grid: down up coarse Number of sweeps: 1 1 1 Type 0=Jac, 3=hGS, 6=hSGS, 9=GE: 13 14 9 Point types, partial sweeps (1=C, -1=F): Pre-CG relaxation (down): 0 Post-CG relaxation (up): 0 Coarsest grid: 0 Num MPI tasks = 1 Num OpenMP threads = 1 BoomerAMG SETUP PARAMETERS: Max levels = 25 Num levels = 5 Strength Threshold = 0.250000 Interpolation Truncation Factor = 0.000000 Maximum Row Sum Threshold for Dependency Weakening = 0.900000 Coarsening Type = HMIS measures are determined locally No global partition option chosen. Interpolation = extended+i interpolation Operator Matrix Information: nonzero entries/row row sums lev rows entries sparse min max avg min max ====================================================================== 0 100 294 0.029 1 3 2.9 -1.110e-16 1.000e+00 1 49 145 0.060 2 3 3.0 -2.776e-16 8.740e-01 2 24 70 0.122 2 3 2.9 -2.220e-16 2.445e-01 3 12 34 0.236 2 3 2.8 -3.331e-16 2.445e-01 4 6 16 0.444 2 3 2.7 -4.857e-16 2.445e-01 Interpolation Matrix Information: entries/row min max row sums lev rows x cols min max avgW weight weight min max ================================================================================ 0 100 x 49 0 2 1.9 3.527e-01 6.473e-01 0.000e+00 1.000e+00 1 49 x 24 1 2 1.9 2.798e-01 5.938e-01 2.798e-01 1.000e+00 2 24 x 12 1 2 1.9 4.212e-01 5.788e-01 4.826e-01 1.000e+00 3 12 x 6 1 2 1.8 4.525e-01 5.475e-01 4.657e-01 1.000e+00 Complexity: grid = 1.910000 operator = 1.901361 memory = 2.819728 BoomerAMG SOLVER PARAMETERS: Maximum number of cycles: 50 Stopping Tolerance: 1.000000e-06 Cycle type (1 = V, 2 = W, etc.): 1 Relaxation Parameters: Visiting Grid: down up coarse Number of sweeps: 1 1 1 Type 0=Jac, 3=hGS, 6=hSGS, 9=GE: 13 14 9 Point types, partial sweeps (1=C, -1=F): Pre-CG relaxation (down): 0 Post-CG relaxation (up): 0 Coarsest grid: 0 Num MPI tasks = 1 Num OpenMP threads = 1 BoomerAMG SETUP PARAMETERS: Max levels = 25 Num levels = 5 Strength Threshold = 0.250000 Interpolation Truncation Factor = 0.000000 Maximum Row Sum Threshold for Dependency Weakening = 0.900000 Coarsening Type = HMIS measures are determined locally No global partition option chosen. Interpolation = extended+i interpolation Operator Matrix Information: nonzero entries/row row sums lev rows entries sparse min max avg min max ====================================================================== 0 100 294 0.029 1 3 2.9 -1.110e-16 1.000e+00 1 49 145 0.060 2 3 3.0 -2.776e-16 8.740e-01 2 24 70 0.122 2 3 2.9 -2.220e-16 2.445e-01 3 12 34 0.236 2 3 2.8 -3.331e-16 2.445e-01 4 6 16 0.444 2 3 2.7 -4.857e-16 2.445e-01 Interpolation Matrix Information: entries/row min max row sums lev rows x cols min max avgW weight weight min max ================================================================================ 0 100 x 49 0 2 1.9 3.527e-01 6.473e-01 0.000e+00 1.000e+00 1 49 x 24 1 2 1.9 2.798e-01 5.938e-01 2.798e-01 1.000e+00 2 24 x 12 1 2 1.9 4.212e-01 5.788e-01 4.826e-01 1.000e+00 3 12 x 6 1 2 1.8 4.525e-01 5.475e-01 4.657e-01 1.000e+00 Complexity: grid = 1.910000 operator = 1.901361 memory = 2.819728 BoomerAMG SOLVER PARAMETERS: Maximum number of cycles: 50 Stopping Tolerance: 1.000000e-06 Cycle type (1 = V, 2 = W, etc.): 1 Relaxation Parameters: Visiting Grid: down up coarse Number of sweeps: 1 1 1 Type 0=Jac, 3=hGS, 6=hSGS, 9=GE: 13 14 9 Point types, partial sweeps (1=C, -1=F): Pre-CG relaxation (down): 0 Post-CG relaxation (up): 0 Coarsest grid: 0 Num MPI tasks = 1 Num OpenMP threads = 1 BoomerAMG SETUP PARAMETERS: Max levels = 25 Num levels = 5 Strength Threshold = 0.250000 Interpolation Truncation Factor = 0.000000 Maximum Row Sum Threshold for Dependency Weakening = 0.900000 Coarsening Type = HMIS measures are determined locally No global partition option chosen. Interpolation = extended+i interpolation Operator Matrix Information: nonzero entries/row row sums lev rows entries sparse min max avg min max ====================================================================== 0 100 294 0.029 1 3 2.9 -1.110e-16 1.000e+00 1 49 145 0.060 2 3 3.0 -2.776e-16 8.740e-01 2 24 70 0.122 2 3 2.9 -2.220e-16 2.445e-01 3 12 34 0.236 2 3 2.8 -3.331e-16 2.445e-01 4 6 16 0.444 2 3 2.7 -4.857e-16 2.445e-01 Interpolation Matrix Information: entries/row min max row sums lev rows x cols min max avgW weight weight min max ================================================================================ 0 100 x 49 0 2 1.9 3.527e-01 6.473e-01 0.000e+00 1.000e+00 1 49 x 24 1 2 1.9 2.798e-01 5.938e-01 2.798e-01 1.000e+00 2 24 x 12 1 2 1.9 4.212e-01 5.788e-01 4.826e-01 1.000e+00 3 12 x 6 1 2 1.8 4.525e-01 5.475e-01 4.657e-01 1.000e+00 Complexity: grid = 1.910000 operator = 1.901361 memory = 2.819728 BoomerAMG SOLVER PARAMETERS: Maximum number of cycles: 50 Stopping Tolerance: 1.000000e-06 Cycle type (1 = V, 2 = W, etc.): 1 Relaxation Parameters: Visiting Grid: down up coarse Number of sweeps: 1 1 1 Type 0=Jac, 3=hGS, 6=hSGS, 9=GE: 13 14 9 Point types, partial sweeps (1=C, -1=F): Pre-CG relaxation (down): 0 Post-CG relaxation (up): 0 Coarsest grid: 0 ILU SETUP: operator complexity = 1.000000 ILU SETUP: operator complexity = 1.000000 ILU SETUP: operator complexity = 1.000000 ILU SETUP: operator complexity = 1.000000 ILU SETUP: operator complexity = 1.000000 ILU SETUP: operator complexity = 1.000000 ILU SETUP: operator complexity = 1.000000 ILU SETUP: operator complexity = 1.000000 ILU SETUP: operator complexity = 1.000000 ILU SETUP: operator complexity = 1.000000 ILU SETUP: operator complexity = 1.000000 ILU SETUP: operator complexity = 1.000000 ILU SETUP: operator complexity = 1.000000 ILU SETUP: operator complexity = 1.000000 ILU SETUP: operator complexity = 1.000000 ILU SETUP: operator complexity = 1.000000 ILU SETUP: operator complexity = 1.000000 ILU SETUP: operator complexity = 1.000000 ILU SETUP: operator complexity = 1.000000 ILU SETUP: operator complexity = 1.000000 ILU SETUP: operator complexity = 1.000000 ILU SETUP: operator complexity = 1.000000 ILU SETUP: operator complexity = 1.000000 ILU SETUP: operator complexity = 1.000000 ILU SETUP: operator complexity = 1.000000 ILU SETUP: operator complexity = 1.000000 ILU SETUP: operator complexity = 1.000000 ILU SETUP: operator complexity = 1.000000 ILU SETUP: operator complexity = 1.000000 ILU SETUP: operator complexity = 1.000000 ILU SETUP: operator complexity = 1.000000 ILU SETUP: operator complexity = 1.000000 Test Summary: | Pass Total Time LinearSolveHYPRE | 1567 1567 37.4s 37.404556 seconds (5.63 M allocations: 413.785 MiB, 0.65% gc time, 43.84% compilation time) Testing LinearSolve tests passed Testing completed after 2158.28s PkgEval succeeded after 2382.06s