Package evaluation to test DualDecomposition on Julia 1.14.0-DEV.1699 (9484a92029*) started at 2026-02-10T20:36:04.496 ################################################################################ # Set-up # Installing PkgEval dependencies (TestEnv)... Activating project at `~/.julia/environments/v1.14` Set-up completed after 10.97s ################################################################################ # Installation # Installing DualDecomposition... Resolving package versions... Updating `~/.julia/environments/v1.14/Project.toml` [d0e446f1] + DualDecomposition v0.3.4 Updating `~/.julia/environments/v1.14/Manifest.toml` [6e4b80f9] + BenchmarkTools v1.6.3 [e8a6717a] + BundleMethod v0.4.0 [523fee87] + CodecBzip2 v0.8.5 [944b1d66] + CodecZlib v0.7.8 [bbf7d656] + CommonSubexpressions v0.3.1 [34da2185] + Compat v4.18.1 [163ba53b] + DiffResults v1.1.0 [b552c78f] + DiffRules v1.15.1 [ffbed154] + DocStringExtensions v0.9.5 [d0e446f1] + DualDecomposition v0.3.4 [f6369f11] + ForwardDiff v1.3.2 [92d709cd] + IrrationalConstants v0.2.6 [692b3bcd] + JLLWrappers v1.7.1 [682c06a0] + JSON v1.4.0 [4076af6c] + JuMP v1.29.4 [2ab3a3ac] + LogExpFunctions v0.3.29 ⌃ [da04e1cc] + MPI v0.20.16 [3da0fdf6] + MPIPreferences v0.1.11 [1914dd2f] + MacroTools v0.5.16 [b8f27783] + MathOptInterface v1.49.0 [d8a4904e] + MutableArithmetics v1.6.7 [77ba4419] + NaNMath v1.1.3 [bac558e1] + OrderedCollections v1.8.1 [69de0a69] + Parsers v2.8.3 [eebad327] + PkgVersion v0.3.3 [aea7be01] + PrecompileTools v1.3.3 [21216c6a] + Preferences v1.5.1 [ae029012] + Requires v1.3.1 [276daf66] + SpecialFunctions v2.6.1 [1e83bf80] + StaticArraysCore v1.4.4 [10745b16] + Statistics v1.11.1 [ec057cc2] + StructUtils v2.6.2 [3bb67fe8] + TranscodingStreams v0.11.3 [6e34b625] + Bzip2_jll v1.0.9+0 [e33a78d0] + Hwloc_jll v2.12.2+0 [94ce4f54] + Libiconv_jll v1.18.0+0 [7cb0a576] + MPICH_jll v5.0.0+0 [f1f71cc9] + MPItrampoline_jll v5.5.4+0 [9237b28f] + MicrosoftMPI_jll v10.1.4+3 [fe0851c0] + OpenMPI_jll v5.0.9+0 [efe28fd5] + OpenSpecFun_jll v0.5.6+0 ⌅ [02c8fc9c] + XML2_jll v2.13.9+0 [a65dc6b1] + Xorg_libpciaccess_jll v0.18.1+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 [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 [ca575930] + NetworkOptions v1.3.0 [44cfe95a] + Pkg v1.14.0 [de0858da] + Printf v1.11.0 [9abbd945] + Profile 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 v0.3.30+0 [05823500] + OpenLibm_jll v0.8.7+0 [458c3c95] + OpenSSL_jll v3.5.5+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 ⌃ and ⌅ have new versions available. Those with ⌃ may be upgradable, but those with ⌅ are restricted by compatibility constraints from upgrading. To see why use `status --outdated -m` Installation completed after 9.02s ################################################################################ # Precompilation # Precompiling PkgEval dependencies... Precompiling package dependencies... Precompiling packages... 15036.4 ms ✓ BundleMethod 21745.3 ms ✓ DualDecomposition 2 dependencies successfully precompiled in 38 seconds. 90 already precompiled. Precompilation completed after 62.64s ################################################################################ # Testing # Testing DualDecomposition Status `/tmp/jl_AKFjFi/Project.toml` [e8a6717a] BundleMethod v0.4.0 [d0e446f1] DualDecomposition v0.3.4 [60bf3e95] GLPK v1.2.1 [b6b21f68] Ipopt v1.14.0 [4076af6c] JuMP v1.29.4 ⌃ [da04e1cc] MPI v0.20.16 [37e2e46d] LinearAlgebra v1.13.0 [de0858da] Printf v1.11.0 [9a3f8284] Random v1.11.0 [2f01184e] SparseArrays v1.13.0 [8dfed614] Test v1.11.0 Status `/tmp/jl_AKFjFi/Manifest.toml` [6e4b80f9] BenchmarkTools v1.6.3 [e8a6717a] BundleMethod v0.4.0 [523fee87] CodecBzip2 v0.8.5 [944b1d66] CodecZlib v0.7.8 [bbf7d656] CommonSubexpressions v0.3.1 [34da2185] Compat v4.18.1 [163ba53b] DiffResults v1.1.0 [b552c78f] DiffRules v1.15.1 [ffbed154] DocStringExtensions v0.9.5 [d0e446f1] DualDecomposition v0.3.4 [f6369f11] ForwardDiff v1.3.2 [60bf3e95] GLPK v1.2.1 [b6b21f68] Ipopt v1.14.0 [92d709cd] IrrationalConstants v0.2.6 [692b3bcd] JLLWrappers v1.7.1 [682c06a0] JSON v1.4.0 [4076af6c] JuMP v1.29.4 [2ab3a3ac] LogExpFunctions v0.3.29 ⌃ [da04e1cc] MPI v0.20.16 [3da0fdf6] MPIPreferences v0.1.11 [1914dd2f] MacroTools v0.5.16 [b8f27783] MathOptInterface v1.49.0 [d8a4904e] MutableArithmetics v1.6.7 [77ba4419] NaNMath v1.1.3 [bac558e1] OrderedCollections v1.8.1 [69de0a69] Parsers v2.8.3 [eebad327] PkgVersion v0.3.3 [aea7be01] PrecompileTools v1.3.3 [21216c6a] Preferences v1.5.1 [ae029012] Requires v1.3.1 [276daf66] SpecialFunctions v2.6.1 [1e83bf80] StaticArraysCore v1.4.4 [10745b16] Statistics v1.11.1 [ec057cc2] StructUtils v2.6.2 [3bb67fe8] TranscodingStreams v0.11.3 [ae81ac8f] ASL_jll v0.1.3+0 [6e34b625] Bzip2_jll v1.0.9+0 [e8aa6df9] GLPK_jll v5.0.1+1 [e33a78d0] Hwloc_jll v2.12.2+0 [9cc047cb] Ipopt_jll v300.1400.1901+0 [94ce4f54] Libiconv_jll v1.18.0+0 [d00139f3] METIS_jll v5.1.3+0 [7cb0a576] MPICH_jll v5.0.0+0 [f1f71cc9] MPItrampoline_jll v5.5.4+0 [d7ed1dd3] MUMPS_seq_jll v500.800.200+0 [9237b28f] MicrosoftMPI_jll v10.1.4+3 [656ef2d0] OpenBLAS32_jll v0.3.30+0 [fe0851c0] OpenMPI_jll v5.0.9+0 [efe28fd5] OpenSpecFun_jll v0.5.6+0 [319450e9] SPRAL_jll v2025.9.18+0 ⌅ [02c8fc9c] XML2_jll v2.13.9+0 [a65dc6b1] Xorg_libpciaccess_jll v0.18.1+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 [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 [ca575930] NetworkOptions v1.3.0 [44cfe95a] Pkg v1.14.0 [de0858da] Printf v1.11.0 [9abbd945] Profile 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 [781609d7] GMP_jll v6.3.0+2 [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 v0.3.30+0 [05823500] OpenLibm_jll v0.8.7+0 [458c3c95] OpenSSL_jll v3.5.5+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 ⌃ and ⌅ have new versions available. Those with ⌃ may be upgradable, but those with ⌅ are restricted by compatibility constraints from upgrading. Testing Running tests... Iter fbest f |∇f| α sg time tot time 1 -1.154000e+05 -1.154000e+05 +6.021030e+02 +1.933644e-02 0.89 17.23 2 -1.151424e+05 -1.151424e+05 +6.021030e+02 +1.862587e-02 0.89 18.86 3 -1.148943e+05 -1.148943e+05 +6.021030e+02 +1.794142e-02 0.89 18.86 4 -1.146553e+05 -1.146553e+05 +6.021030e+02 +1.728211e-02 0.89 18.86 5 -1.144250e+05 -1.144250e+05 +6.021030e+02 +1.664704e-02 0.89 18.86 6 -1.142032e+05 -1.142032e+05 +6.021030e+02 +1.603530e-02 0.89 18.86 7 -1.139896e+05 -1.139896e+05 +6.021030e+02 +1.544605e-02 0.89 18.86 8 -1.137839e+05 -1.137839e+05 +6.021030e+02 +1.487844e-02 0.89 18.86 9 -1.135856e+05 -1.135856e+05 +6.021030e+02 +1.433170e-02 0.89 18.86 10 -1.134624e+05 -1.134624e+05 +5.668139e+02 +1.578806e-02 0.89 18.86 11 -1.133681e+05 -1.133681e+05 +5.668139e+02 +1.549459e-02 0.89 18.86 12 -1.132755e+05 -1.132755e+05 +5.668139e+02 +1.520657e-02 0.89 18.86 13 -1.131847e+05 -1.131847e+05 +5.668139e+02 +1.492391e-02 0.89 18.86 14 -1.130956e+05 -1.130956e+05 +5.668139e+02 +1.464650e-02 0.89 18.86 15 -1.130081e+05 -1.130081e+05 +5.668139e+02 +1.437425e-02 0.89 18.86 16 -1.129223e+05 -1.129223e+05 +5.668139e+02 +1.410706e-02 0.89 18.86 17 -1.128380e+05 -1.128380e+05 +5.668139e+02 +1.384483e-02 0.89 18.86 18 -1.127554e+05 -1.127554e+05 +5.668139e+02 +1.358748e-02 0.89 18.86 19 -1.126742e+05 -1.126742e+05 +5.668139e+02 +1.333491e-02 0.89 18.86 20 -1.125946e+05 -1.125946e+05 +5.668139e+02 +1.308704e-02 0.89 18.86 21 -1.125164e+05 -1.125164e+05 +5.668139e+02 +1.284377e-02 0.89 18.86 22 -1.124586e+05 -1.124586e+05 +5.668139e+02 +1.266391e-02 0.89 18.86 23 -1.124581e+05 -1.124581e+05 +5.668139e+02 +1.266226e-02 0.89 18.87 24 -1.123825e+05 -1.123825e+05 +5.668139e+02 +1.242689e-02 0.89 18.87 25 -1.123803e+05 -1.123803e+05 +5.668139e+02 +1.241997e-02 0.89 18.87 26 -1.123263e+05 -1.123263e+05 +5.668139e+02 +1.225203e-02 0.89 18.87 27 -1.122855e+05 -1.122855e+05 +5.668139e+02 +1.212489e-02 0.89 18.87 28 -1.122707e+05 -1.122707e+05 +5.668139e+02 +1.207908e-02 0.89 18.87 29 -1.121986e+05 -1.121986e+05 +5.668139e+02 +1.185456e-02 0.89 18.87 30 -1.121986e+05 -1.122103e+05 +5.668139e+02 +1.189094e-02 0.89 18.87 31 -1.121451e+05 -1.121451e+05 +5.668139e+02 +1.168794e-02 0.89 18.87 32 -1.121195e+05 -1.121195e+05 +5.668139e+02 +1.160824e-02 0.89 18.87 33 -1.120921e+05 -1.120921e+05 +5.668139e+02 +1.152314e-02 0.89 18.87 34 -1.120310e+05 -1.120310e+05 +5.668139e+02 +1.133278e-02 0.89 18.87 35 -1.120310e+05 -1.120398e+05 +5.668139e+02 +1.136017e-02 0.89 18.87 36 -1.119719e+05 -1.119719e+05 +5.668139e+02 +1.114900e-02 0.89 18.87 37 -1.119609e+05 -1.119609e+05 +5.668139e+02 +1.111473e-02 0.89 18.87 38 -1.119215e+05 -1.119215e+05 +5.668139e+02 +1.099199e-02 0.89 18.87 39 -1.118761e+05 -1.118761e+05 +5.668139e+02 +1.085079e-02 0.89 18.87 40 -1.118716e+05 -1.118716e+05 +5.668139e+02 +1.083671e-02 0.89 18.87 41 -1.118069e+05 -1.118069e+05 +5.668139e+02 +1.063528e-02 0.89 18.87 42 -1.118069e+05 -1.118089e+05 +5.668139e+02 +1.064166e-02 0.89 18.87 43 -1.117588e+05 -1.117588e+05 +5.668139e+02 +1.048568e-02 0.89 18.87 44 -1.117277e+05 -1.117277e+05 +5.668139e+02 +1.038878e-02 0.89 18.87 45 -1.117113e+05 -1.117113e+05 +5.668139e+02 +1.033772e-02 0.89 18.87 46 -1.116495e+05 -1.116495e+05 +5.668139e+02 +1.014556e-02 0.89 18.87 47 -1.116495e+05 -1.116633e+05 +5.668139e+02 +1.018822e-02 0.89 18.87 48 -1.116037e+05 -1.116037e+05 +5.668139e+02 +1.000302e-02 0.89 18.87 49 -1.115854e+05 -1.115854e+05 +5.668139e+02 +9.945953e-03 0.89 18.87 50 -1.115585e+05 -1.115585e+05 +5.668139e+02 +9.862028e-03 0.89 18.87 51 -1.115096e+05 -1.115096e+05 +5.668139e+02 +9.709884e-03 0.89 18.87 52 -1.115096e+05 -1.115137e+05 +5.668139e+02 +9.722593e-03 0.89 18.87 53 -1.114556e+05 -1.114556e+05 +5.668139e+02 +9.541867e-03 0.89 18.87 54 -1.114495e+05 -1.114495e+05 +5.668139e+02 +9.522970e-03 0.89 18.87 55 -1.114124e+05 -1.114124e+05 +5.668139e+02 +9.407539e-03 0.89 18.87 56 -1.113769e+05 -1.113769e+05 +5.668139e+02 +9.296783e-03 0.89 18.87 57 -1.113698e+05 -1.113698e+05 +5.668139e+02 +9.274685e-03 0.89 18.88 58 -1.113144e+05 -1.113144e+05 +5.668139e+02 +9.102285e-03 0.89 18.88 59 -1.113144e+05 -1.113193e+05 +5.668139e+02 +9.117514e-03 0.89 18.88 60 -1.112732e+05 -1.112732e+05 +5.668139e+02 +8.974296e-03 0.89 18.88 61 -1.112496e+05 -1.112496e+05 +5.668139e+02 +8.900809e-03 0.89 18.88 62 -1.112326e+05 -1.112326e+05 +5.668139e+02 +8.847706e-03 0.89 18.88 63 -1.111818e+05 -1.111818e+05 +5.668139e+02 +8.689646e-03 0.89 18.88 64 -1.111818e+05 -1.111924e+05 +5.668139e+02 +8.722515e-03 0.89 18.88 65 -1.111403e+05 -1.111403e+05 +5.668139e+02 +8.560378e-03 0.89 18.88 66 -1.111281e+05 -1.111281e+05 +5.668139e+02 +8.522564e-03 0.89 18.88 67 -1.111015e+05 -1.111015e+05 +5.668139e+02 +8.439773e-03 0.89 18.88 68 -1.110631e+05 -1.110631e+05 +5.668139e+02 +8.320230e-03 0.89 18.88 69 -1.110631e+05 -1.110632e+05 +5.668139e+02 +8.320495e-03 0.89 18.88 70 -1.110135e+05 -1.110135e+05 +5.668139e+02 +8.165832e-03 0.89 18.88 71 -1.110116e+05 -1.110116e+05 +5.668139e+02 +8.159972e-03 0.89 18.88 72 -1.109766e+05 -1.109766e+05 +5.668139e+02 +8.050922e-03 0.89 18.88 73 -1.109766e+05 -1.110002e+05 +6.174771e+02 +6.845895e-03 0.89 18.88 74 -1.109766e+05 -1.110432e+05 +5.668139e+02 +8.258226e-03 0.89 18.88 75 -1.109766e+05 -1.109939e+05 +5.668139e+02 +8.104720e-03 0.89 18.88 76 -1.109455e+05 -1.109455e+05 +5.668139e+02 +7.954067e-03 0.89 18.88 77 -1.109455e+05 -1.109479e+05 +5.668139e+02 +7.961685e-03 0.89 18.88 78 -1.109095e+05 -1.109095e+05 +5.668139e+02 +7.842197e-03 0.89 18.88 79 -1.108871e+05 -1.108871e+05 +5.668139e+02 +7.772477e-03 0.89 18.88 80 -1.108740e+05 -1.108740e+05 +5.668139e+02 +7.731552e-03 0.89 18.88 81 -1.108279e+05 -1.108279e+05 +5.668139e+02 +7.588107e-03 0.89 18.88 82 -1.108279e+05 -1.108388e+05 +5.668139e+02 +7.622130e-03 0.89 18.88 83 -1.108279e+05 -1.108612e+05 +6.174771e+02 +6.481408e-03 0.89 18.88 84 -1.108279e+05 -1.108538e+05 +5.668139e+02 +7.668629e-03 0.89 18.88 85 -1.108147e+05 -1.108147e+05 +5.668139e+02 +7.547039e-03 0.89 18.88 86 -1.108147e+05 -1.108189e+05 +5.668139e+02 +7.560191e-03 0.89 18.88 87 -1.107738e+05 -1.107738e+05 +5.668139e+02 +7.419660e-03 0.89 18.88 88 -1.107680e+05 -1.107680e+05 +5.668139e+02 +7.401789e-03 0.89 18.88 89 -1.107402e+05 -1.107402e+05 +5.668139e+02 +7.315194e-03 0.89 18.88 90 -1.107116e+05 -1.107116e+05 +5.668139e+02 +7.225997e-03 0.89 18.88 91 -1.107070e+05 -1.107070e+05 +5.668139e+02 +7.211875e-03 0.89 18.89 92 -1.107041e+05 -1.107041e+05 +6.174771e+02 +6.069303e-03 0.89 18.89 93 -1.107041e+05 -1.107206e+05 +5.668139e+02 +7.254035e-03 0.89 18.89 94 -1.106983e+05 -1.106983e+05 +5.668139e+02 +7.184810e-03 0.89 18.89 95 -1.106877e+05 -1.106877e+05 +5.668139e+02 +7.151666e-03 0.89 18.89 96 -1.106450e+05 -1.106450e+05 +5.668139e+02 +7.018729e-03 0.89 18.89 97 -1.106450e+05 -1.106538e+05 +5.668139e+02 +7.046123e-03 0.89 18.89 98 -1.106133e+05 -1.106133e+05 +5.668139e+02 +6.920108e-03 0.89 18.89 99 -1.105999e+05 -1.105999e+05 +5.668139e+02 +6.878581e-03 0.89 18.89 100 -1.105819e+05 -1.105819e+05 +5.668139e+02 +6.822562e-03 0.89 18.89 Iter fbest f |∇f| α sg time tot time 101 -1.105683e+05 -1.105683e+05 +6.174771e+02 +5.713250e-03 0.89 18.89 102 -1.105683e+05 -1.106369e+05 +5.668139e+02 +6.993642e-03 0.89 18.89 103 -1.105683e+05 -1.105951e+05 +5.668139e+02 +6.863642e-03 0.89 18.89 104 -1.105541e+05 -1.105541e+05 +5.668139e+02 +6.736059e-03 0.89 18.89 105 -1.105467e+05 -1.105467e+05 +5.668139e+02 +6.712985e-03 0.89 18.89 106 -1.105237e+05 -1.105237e+05 +5.668139e+02 +6.641186e-03 0.89 18.89 107 -1.104955e+05 -1.104955e+05 +5.668139e+02 +6.553583e-03 0.89 18.89 108 -1.104935e+05 -1.104935e+05 +5.668139e+02 +6.547357e-03 0.89 18.89 109 -1.104544e+05 -1.104544e+05 +5.668139e+02 +6.425653e-03 0.89 18.89 110 -1.104544e+05 -1.104756e+05 +6.174771e+02 +5.470049e-03 0.89 18.89 111 -1.104544e+05 -1.105077e+05 +5.668139e+02 +6.591429e-03 0.89 18.89 112 -1.104544e+05 -1.104683e+05 +5.668139e+02 +6.468906e-03 0.89 18.89 113 -1.104446e+05 -1.104446e+05 +5.668139e+02 +6.394971e-03 0.89 18.89 114 -1.104390e+05 -1.104390e+05 +5.668139e+02 +6.377562e-03 0.89 18.89 115 -1.104009e+05 -1.104009e+05 +5.668139e+02 +6.259014e-03 0.89 18.89 116 -1.104009e+05 -1.104049e+05 +5.668139e+02 +6.271638e-03 0.89 18.89 117 -1.103726e+05 -1.103726e+05 +5.668139e+02 +6.171014e-03 0.89 18.89 118 -1.103570e+05 -1.103570e+05 +5.668139e+02 +6.122564e-03 0.89 18.89 119 -1.103446e+05 -1.103446e+05 +5.668139e+02 +6.083976e-03 0.89 18.89 120 -1.103446e+05 -1.103451e+05 +6.174771e+02 +5.127634e-03 0.89 18.89 121 -1.103446e+05 -1.103942e+05 +5.668139e+02 +6.238250e-03 0.89 18.89 122 -1.103446e+05 -1.103570e+05 +5.668139e+02 +6.122291e-03 0.89 18.89 123 -1.103204e+05 -1.103204e+05 +5.668139e+02 +6.008489e-03 0.89 18.89 124 -1.103095e+05 -1.103095e+05 +5.668139e+02 +5.974689e-03 0.89 18.90 125 -1.102932e+05 -1.102932e+05 +5.668139e+02 +5.923804e-03 0.89 18.90 126 -1.102640e+05 -1.102640e+05 +5.668139e+02 +5.832877e-03 0.89 18.90 127 -1.102640e+05 -1.102663e+05 +5.668139e+02 +5.840052e-03 0.89 18.90 128 -1.102314e+05 -1.102314e+05 +5.668139e+02 +5.731495e-03 0.89 18.90 129 -1.102314e+05 -1.102586e+05 +6.174771e+02 +4.901010e-03 0.89 18.90 130 -1.102314e+05 -1.102793e+05 +5.668139e+02 +5.880504e-03 0.89 18.90 131 -1.102314e+05 -1.102442e+05 +5.668139e+02 +5.771196e-03 0.89 18.90 132 -1.102185e+05 -1.102185e+05 +5.668139e+02 +5.691403e-03 0.89 18.90 133 -1.102180e+05 -1.102180e+05 +5.668139e+02 +5.689641e-03 0.89 18.90 134 -1.101840e+05 -1.101840e+05 +5.668139e+02 +5.583881e-03 0.89 18.90 135 -1.101833e+05 -1.101833e+05 +5.668139e+02 +5.581762e-03 0.89 18.90 136 -1.101587e+05 -1.101587e+05 +5.668139e+02 +5.505313e-03 0.89 18.90 137 -1.101407e+05 -1.101407e+05 +5.668139e+02 +5.449145e-03 0.89 18.90 138 -1.101338e+05 -1.101338e+05 +5.668139e+02 +5.427606e-03 0.89 18.90 139 -1.101338e+05 -1.101420e+05 +6.174771e+02 +4.595121e-03 0.89 18.90 140 -1.101338e+05 -1.101442e+05 +5.668139e+02 +5.460131e-03 0.89 18.90 141 -1.101308e+05 -1.101308e+05 +5.668139e+02 +5.418283e-03 0.89 18.90 142 -1.101195e+05 -1.101195e+05 +5.668139e+02 +5.383124e-03 0.89 18.90 143 -1.100895e+05 -1.100895e+05 +5.668139e+02 +5.289727e-03 0.89 18.90 144 -1.100895e+05 -1.100950e+05 +5.668139e+02 +5.306968e-03 0.89 18.90 145 -1.100633e+05 -1.100633e+05 +5.668139e+02 +5.208320e-03 0.89 18.90 146 -1.100568e+05 -1.100568e+05 +5.668139e+02 +5.187993e-03 0.89 18.90 147 -1.100397e+05 -1.100397e+05 +5.668139e+02 +5.134954e-03 0.89 18.90 148 -1.100397e+05 -1.100409e+05 +6.174771e+02 +4.329994e-03 0.89 18.90 149 -1.100397e+05 -1.100816e+05 +5.668139e+02 +5.265277e-03 0.89 18.90 150 -1.100397e+05 -1.100502e+05 +5.668139e+02 +5.167405e-03 0.89 18.90 151 -1.100193e+05 -1.100193e+05 +5.668139e+02 +5.071352e-03 0.89 18.90 152 -1.100165e+05 -1.100165e+05 +5.668139e+02 +5.062572e-03 0.89 18.90 153 -1.099964e+05 -1.099964e+05 +5.668139e+02 +4.999964e-03 0.89 18.90 DD.dual_objective_value(algo) = -109996.3785357534 154 -1.099964e+05 -1.154000e+05 +6.021030e+02 +1.933644e-02 0.00 0.00 155 -1.099964e+05 -1.151424e+05 +6.021030e+02 +1.862587e-02 0.00 0.00 156 -1.099964e+05 -1.148943e+05 +6.021030e+02 +1.794142e-02 0.00 0.00 157 -1.099964e+05 -1.146553e+05 +6.021030e+02 +1.728211e-02 0.00 0.00 158 -1.099964e+05 -1.144250e+05 +6.021030e+02 +1.664704e-02 0.00 0.00 159 -1.099964e+05 -1.142032e+05 +6.021030e+02 +1.603530e-02 0.00 0.00 160 -1.099964e+05 -1.139896e+05 +6.021030e+02 +1.544605e-02 0.00 0.00 161 -1.099964e+05 -1.137839e+05 +6.021030e+02 +1.487844e-02 0.00 0.00 162 -1.099964e+05 -1.135856e+05 +6.021030e+02 +1.433170e-02 0.00 0.00 163 -1.099964e+05 -1.134624e+05 +5.668139e+02 +1.578806e-02 0.00 0.00 164 -1.099964e+05 -1.133681e+05 +5.668139e+02 +1.549459e-02 0.00 0.00 165 -1.099964e+05 -1.132755e+05 +5.668139e+02 +1.520657e-02 0.00 0.00 166 -1.099964e+05 -1.131847e+05 +5.668139e+02 +1.492391e-02 0.00 0.00 167 -1.099964e+05 -1.130956e+05 +5.668139e+02 +1.464650e-02 0.00 0.00 168 -1.099964e+05 -1.130081e+05 +5.668139e+02 +1.437425e-02 0.00 0.00 169 -1.099964e+05 -1.129223e+05 +5.668139e+02 +1.410706e-02 0.00 0.01 170 -1.099964e+05 -1.128380e+05 +5.668139e+02 +1.384483e-02 0.00 0.01 171 -1.099964e+05 -1.127554e+05 +5.668139e+02 +1.358748e-02 0.00 0.01 172 -1.099964e+05 -1.126742e+05 +5.668139e+02 +1.333491e-02 0.00 0.01 173 -1.099964e+05 -1.125946e+05 +5.668139e+02 +1.308704e-02 0.00 0.01 174 -1.099964e+05 -1.125164e+05 +5.668139e+02 +1.284377e-02 0.00 0.01 175 -1.099964e+05 -1.124586e+05 +5.668139e+02 +1.266391e-02 0.00 0.01 176 -1.099964e+05 -1.124581e+05 +5.668139e+02 +1.266226e-02 0.00 0.01 177 -1.099964e+05 -1.123825e+05 +5.668139e+02 +1.242689e-02 0.00 0.01 178 -1.099964e+05 -1.123803e+05 +5.668139e+02 +1.241997e-02 0.00 0.01 179 -1.099964e+05 -1.123263e+05 +5.668139e+02 +1.225203e-02 0.00 0.01 180 -1.099964e+05 -1.122855e+05 +5.668139e+02 +1.212489e-02 0.00 0.01 181 -1.099964e+05 -1.122707e+05 +5.668139e+02 +1.207908e-02 0.00 0.01 182 -1.099964e+05 -1.121986e+05 +5.668139e+02 +1.185456e-02 0.00 0.01 183 -1.099964e+05 -1.122103e+05 +5.668139e+02 +1.189094e-02 0.00 0.01 184 -1.099964e+05 -1.121451e+05 +5.668139e+02 +1.168794e-02 0.00 0.01 185 -1.099964e+05 -1.121195e+05 +5.668139e+02 +1.160824e-02 0.00 0.01 186 -1.099964e+05 -1.120921e+05 +5.668139e+02 +1.152314e-02 0.00 0.01 187 -1.099964e+05 -1.120310e+05 +5.668139e+02 +1.133278e-02 0.00 0.01 188 -1.099964e+05 -1.120398e+05 +5.668139e+02 +1.136017e-02 0.00 0.01 189 -1.099964e+05 -1.119719e+05 +5.668139e+02 +1.114900e-02 0.00 0.01 190 -1.099964e+05 -1.119609e+05 +5.668139e+02 +1.111473e-02 0.00 0.01 191 -1.099964e+05 -1.119215e+05 +5.668139e+02 +1.099199e-02 0.00 0.01 192 -1.099964e+05 -1.118761e+05 +5.668139e+02 +1.085079e-02 0.00 0.01 193 -1.099964e+05 -1.118716e+05 +5.668139e+02 +1.083671e-02 0.00 0.01 194 -1.099964e+05 -1.118069e+05 +5.668139e+02 +1.063528e-02 0.00 0.01 195 -1.099964e+05 -1.118089e+05 +5.668139e+02 +1.064166e-02 0.00 0.01 196 -1.099964e+05 -1.117588e+05 +5.668139e+02 +1.048568e-02 0.00 0.01 197 -1.099964e+05 -1.117277e+05 +5.668139e+02 +1.038878e-02 0.00 0.01 198 -1.099964e+05 -1.117113e+05 +5.668139e+02 +1.033772e-02 0.00 0.01 199 -1.099964e+05 -1.116495e+05 +5.668139e+02 +1.014556e-02 0.00 0.01 200 -1.099964e+05 -1.116633e+05 +5.668139e+02 +1.018822e-02 0.00 0.01 Iter fbest f |∇f| α sg time tot time 201 -1.099964e+05 -1.116037e+05 +5.668139e+02 +1.000302e-02 0.00 0.01 202 -1.099964e+05 -1.115854e+05 +5.668139e+02 +9.945953e-03 0.00 0.01 203 -1.099964e+05 -1.115585e+05 +5.668139e+02 +9.862028e-03 0.00 0.02 204 -1.099964e+05 -1.115096e+05 +5.668139e+02 +9.709884e-03 0.00 0.02 205 -1.099964e+05 -1.115137e+05 +5.668139e+02 +9.722593e-03 0.00 0.02 206 -1.099964e+05 -1.114556e+05 +5.668139e+02 +9.541867e-03 0.00 0.02 207 -1.099964e+05 -1.114495e+05 +5.668139e+02 +9.522970e-03 0.00 0.02 208 -1.099964e+05 -1.114124e+05 +5.668139e+02 +9.407539e-03 0.00 0.02 209 -1.099964e+05 -1.113769e+05 +5.668139e+02 +9.296783e-03 0.00 0.02 210 -1.099964e+05 -1.113698e+05 +5.668139e+02 +9.274685e-03 0.00 0.02 211 -1.099964e+05 -1.113144e+05 +5.668139e+02 +9.102285e-03 0.00 0.02 212 -1.099964e+05 -1.113193e+05 +5.668139e+02 +9.117514e-03 0.00 0.02 213 -1.099964e+05 -1.112732e+05 +5.668139e+02 +8.974296e-03 0.00 0.02 214 -1.099964e+05 -1.112496e+05 +5.668139e+02 +8.900809e-03 0.00 0.02 215 -1.099964e+05 -1.112326e+05 +5.668139e+02 +8.847706e-03 0.00 0.02 216 -1.099964e+05 -1.111818e+05 +5.668139e+02 +8.689646e-03 0.00 0.02 217 -1.099964e+05 -1.111924e+05 +5.668139e+02 +8.722515e-03 0.00 0.02 218 -1.099964e+05 -1.111403e+05 +5.668139e+02 +8.560378e-03 0.00 0.02 219 -1.099964e+05 -1.111281e+05 +5.668139e+02 +8.522564e-03 0.00 0.02 220 -1.099964e+05 -1.111015e+05 +5.668139e+02 +8.439773e-03 0.00 0.02 221 -1.099964e+05 -1.110631e+05 +5.668139e+02 +8.320230e-03 0.00 0.02 222 -1.099964e+05 -1.110632e+05 +5.668139e+02 +8.320495e-03 0.00 0.02 223 -1.099964e+05 -1.110135e+05 +5.668139e+02 +8.165832e-03 0.00 0.02 224 -1.099964e+05 -1.110116e+05 +5.668139e+02 +8.159972e-03 0.00 0.02 225 -1.099964e+05 -1.109766e+05 +5.668139e+02 +8.050922e-03 0.00 0.02 226 -1.099964e+05 -1.110002e+05 +6.174771e+02 +6.845895e-03 0.00 0.02 227 -1.099964e+05 -1.110432e+05 +5.668139e+02 +8.258226e-03 0.00 0.02 228 -1.099964e+05 -1.109939e+05 +5.668139e+02 +8.104720e-03 0.00 0.02 229 -1.099964e+05 -1.109455e+05 +5.668139e+02 +7.954067e-03 0.00 0.02 230 -1.099964e+05 -1.109479e+05 +5.668139e+02 +7.961685e-03 0.00 0.02 231 -1.099964e+05 -1.109095e+05 +5.668139e+02 +7.842197e-03 0.00 0.02 232 -1.099964e+05 -1.108871e+05 +5.668139e+02 +7.772477e-03 0.00 0.02 233 -1.099964e+05 -1.108740e+05 +5.668139e+02 +7.731552e-03 0.00 0.02 234 -1.099964e+05 -1.108279e+05 +5.668139e+02 +7.588107e-03 0.00 0.02 235 -1.099964e+05 -1.108388e+05 +5.668139e+02 +7.622130e-03 0.00 0.02 236 -1.099964e+05 -1.108612e+05 +6.174771e+02 +6.481408e-03 0.00 0.03 237 -1.099964e+05 -1.108538e+05 +5.668139e+02 +7.668629e-03 0.00 0.03 238 -1.099964e+05 -1.108147e+05 +5.668139e+02 +7.547039e-03 0.00 0.03 239 -1.099964e+05 -1.108189e+05 +5.668139e+02 +7.560191e-03 0.00 0.03 240 -1.099964e+05 -1.107738e+05 +5.668139e+02 +7.419660e-03 0.00 0.03 241 -1.099964e+05 -1.107680e+05 +5.668139e+02 +7.401789e-03 0.00 0.03 242 -1.099964e+05 -1.107402e+05 +5.668139e+02 +7.315194e-03 0.00 0.03 243 -1.099964e+05 -1.107116e+05 +5.668139e+02 +7.225997e-03 0.00 0.03 244 -1.099964e+05 -1.107070e+05 +5.668139e+02 +7.211875e-03 0.00 0.03 245 -1.099964e+05 -1.107041e+05 +6.174771e+02 +6.069303e-03 0.00 0.03 246 -1.099964e+05 -1.107206e+05 +5.668139e+02 +7.254035e-03 0.00 0.03 247 -1.099964e+05 -1.106983e+05 +5.668139e+02 +7.184810e-03 0.00 0.03 248 -1.099964e+05 -1.106877e+05 +5.668139e+02 +7.151666e-03 0.00 0.03 249 -1.099964e+05 -1.106450e+05 +5.668139e+02 +7.018729e-03 0.00 0.03 250 -1.099964e+05 -1.106538e+05 +5.668139e+02 +7.046123e-03 0.00 0.03 251 -1.099964e+05 -1.106133e+05 +5.668139e+02 +6.920108e-03 0.00 0.03 252 -1.099964e+05 -1.105999e+05 +5.668139e+02 +6.878581e-03 0.00 0.03 253 -1.099964e+05 -1.105819e+05 +5.668139e+02 +6.822562e-03 0.00 0.03 254 -1.099964e+05 -1.105683e+05 +6.174771e+02 +5.713250e-03 0.00 0.03 255 -1.099964e+05 -1.106369e+05 +5.668139e+02 +6.993642e-03 0.00 0.03 256 -1.099964e+05 -1.105951e+05 +5.668139e+02 +6.863642e-03 0.00 0.03 257 -1.099964e+05 -1.105541e+05 +5.668139e+02 +6.736059e-03 0.00 0.03 258 -1.099964e+05 -1.105467e+05 +5.668139e+02 +6.712985e-03 0.00 0.03 259 -1.099964e+05 -1.105237e+05 +5.668139e+02 +6.641186e-03 0.00 0.03 260 -1.099964e+05 -1.104955e+05 +5.668139e+02 +6.553583e-03 0.00 0.03 261 -1.099964e+05 -1.104935e+05 +5.668139e+02 +6.547357e-03 0.00 0.03 262 -1.099964e+05 -1.104544e+05 +5.668139e+02 +6.425653e-03 0.00 0.03 263 -1.099964e+05 -1.104756e+05 +6.174771e+02 +5.470049e-03 0.00 0.03 264 -1.099964e+05 -1.105077e+05 +5.668139e+02 +6.591429e-03 0.00 0.03 265 -1.099964e+05 -1.104683e+05 +5.668139e+02 +6.468906e-03 0.00 0.03 266 -1.099964e+05 -1.104446e+05 +5.668139e+02 +6.394971e-03 0.00 0.03 267 -1.099964e+05 -1.104390e+05 +5.668139e+02 +6.377562e-03 0.00 0.03 268 -1.099964e+05 -1.104009e+05 +5.668139e+02 +6.259014e-03 0.00 0.03 269 -1.099964e+05 -1.104049e+05 +5.668139e+02 +6.271638e-03 0.00 0.04 270 -1.099964e+05 -1.103726e+05 +5.668139e+02 +6.171014e-03 0.00 0.04 271 -1.099964e+05 -1.103570e+05 +5.668139e+02 +6.122564e-03 0.00 0.04 272 -1.099964e+05 -1.103446e+05 +5.668139e+02 +6.083976e-03 0.00 0.04 273 -1.099964e+05 -1.103451e+05 +6.174771e+02 +5.127634e-03 0.00 0.04 274 -1.099964e+05 -1.103942e+05 +5.668139e+02 +6.238250e-03 0.00 0.04 275 -1.099964e+05 -1.103570e+05 +5.668139e+02 +6.122291e-03 0.00 0.04 276 -1.099964e+05 -1.103204e+05 +5.668139e+02 +6.008489e-03 0.00 0.04 277 -1.099964e+05 -1.103095e+05 +5.668139e+02 +5.974689e-03 0.00 0.04 278 -1.099964e+05 -1.102932e+05 +5.668139e+02 +5.923804e-03 0.00 0.04 279 -1.099964e+05 -1.102640e+05 +5.668139e+02 +5.832877e-03 0.00 0.04 280 -1.099964e+05 -1.102663e+05 +5.668139e+02 +5.840052e-03 0.00 0.04 281 -1.099964e+05 -1.102314e+05 +5.668139e+02 +5.731495e-03 0.00 0.04 282 -1.099964e+05 -1.102586e+05 +6.174771e+02 +4.901010e-03 0.00 0.04 283 -1.099964e+05 -1.102793e+05 +5.668139e+02 +5.880504e-03 0.00 0.04 284 -1.099964e+05 -1.102442e+05 +5.668139e+02 +5.771196e-03 0.00 0.04 285 -1.099964e+05 -1.102185e+05 +5.668139e+02 +5.691403e-03 0.00 0.04 286 -1.099964e+05 -1.102180e+05 +5.668139e+02 +5.689641e-03 0.00 0.04 287 -1.099964e+05 -1.101840e+05 +5.668139e+02 +5.583881e-03 0.00 0.04 288 -1.099964e+05 -1.101833e+05 +5.668139e+02 +5.581762e-03 0.00 0.04 289 -1.099964e+05 -1.101587e+05 +5.668139e+02 +5.505313e-03 0.00 0.04 290 -1.099964e+05 -1.101407e+05 +5.668139e+02 +5.449145e-03 0.00 0.04 291 -1.099964e+05 -1.101338e+05 +5.668139e+02 +5.427606e-03 0.00 0.04 292 -1.099964e+05 -1.101420e+05 +6.174771e+02 +4.595121e-03 0.00 0.04 293 -1.099964e+05 -1.101442e+05 +5.668139e+02 +5.460131e-03 0.00 0.04 294 -1.099964e+05 -1.101308e+05 +5.668139e+02 +5.418283e-03 0.00 0.04 295 -1.099964e+05 -1.101195e+05 +5.668139e+02 +5.383124e-03 0.00 0.04 296 -1.099964e+05 -1.100895e+05 +5.668139e+02 +5.289727e-03 0.00 0.04 297 -1.099964e+05 -1.100950e+05 +5.668139e+02 +5.306968e-03 0.00 0.04 298 -1.099964e+05 -1.100633e+05 +5.668139e+02 +5.208320e-03 0.00 0.04 299 -1.099964e+05 -1.100568e+05 +5.668139e+02 +5.187993e-03 0.00 0.04 300 -1.099964e+05 -1.100397e+05 +5.668139e+02 +5.134954e-03 0.00 0.04 Iter fbest f |∇f| α sg time tot time 301 -1.099964e+05 -1.100409e+05 +6.174771e+02 +4.329994e-03 0.00 0.04 302 -1.099964e+05 -1.100816e+05 +5.668139e+02 +5.265277e-03 0.00 0.04 303 -1.099964e+05 -1.100502e+05 +5.668139e+02 +5.167405e-03 0.00 0.05 304 -1.099964e+05 -1.100193e+05 +5.668139e+02 +5.071352e-03 0.00 0.05 305 -1.099964e+05 -1.100165e+05 +5.668139e+02 +5.062572e-03 0.00 0.05 306 -1.099964e+05 -1.099964e+05 +5.668139e+02 +4.999964e-03 0.00 0.05 307 -1.099779e+05 -1.099779e+05 +5.668139e+02 +4.942322e-03 0.00 0.05 308 -1.099737e+05 -1.099737e+05 +5.668139e+02 +4.929360e-03 0.00 0.05 309 -1.099443e+05 -1.099443e+05 +5.668139e+02 +4.837732e-03 0.00 0.05 310 -1.099443e+05 -1.099675e+05 +6.174771e+02 +4.137514e-03 0.00 0.05 311 -1.099443e+05 -1.099847e+05 +5.668139e+02 +4.963544e-03 0.00 0.05 312 -1.099443e+05 -1.099550e+05 +5.668139e+02 +4.871281e-03 0.00 0.05 313 -1.099393e+05 -1.099393e+05 +5.668139e+02 +4.822360e-03 0.00 0.05 314 -1.099329e+05 -1.099329e+05 +5.668139e+02 +4.802526e-03 0.00 0.05 315 -1.099043e+05 -1.099043e+05 +5.668139e+02 +4.713256e-03 0.00 0.05 316 -1.099043e+05 -1.099094e+05 +5.668139e+02 +4.729296e-03 0.00 0.05 317 -1.098830e+05 -1.098830e+05 +5.668139e+02 +4.647018e-03 0.00 0.05 318 -1.098733e+05 -1.098733e+05 +5.668139e+02 +4.616854e-03 0.00 0.05 319 -1.098619e+05 -1.098619e+05 +5.668139e+02 +4.581504e-03 0.00 0.05 320 -1.098619e+05 -1.098669e+05 +6.174771e+02 +3.873525e-03 0.00 0.05 321 -1.098619e+05 -1.098995e+05 +5.668139e+02 +4.698314e-03 0.00 0.05 322 -1.098619e+05 -1.098714e+05 +5.668139e+02 +4.610981e-03 0.00 0.05 323 -1.098439e+05 -1.098439e+05 +5.668139e+02 +4.525271e-03 0.00 0.05 324 -1.098374e+05 -1.098374e+05 +5.668139e+02 +4.505126e-03 0.00 0.05 325 -1.098234e+05 -1.098234e+05 +5.668139e+02 +4.461514e-03 0.00 0.05 326 -1.098030e+05 -1.098030e+05 +5.668139e+02 +4.398170e-03 0.00 0.05 327 -1.098030e+05 -1.098031e+05 +5.668139e+02 +4.398460e-03 0.00 0.05 328 -1.097769e+05 -1.097769e+05 +5.668139e+02 +4.316700e-03 0.00 0.05 329 -1.097769e+05 -1.098003e+05 +6.174771e+02 +3.698979e-03 0.00 0.05 330 -1.097769e+05 -1.098130e+05 +5.668139e+02 +4.429331e-03 0.00 0.05 331 -1.097769e+05 -1.097866e+05 +5.668139e+02 +4.346998e-03 0.00 0.05 332 -1.097687e+05 -1.097687e+05 +5.668139e+02 +4.291349e-03 0.00 0.05 333 -1.097669e+05 -1.097669e+05 +5.668139e+02 +4.285589e-03 0.00 0.05 334 -1.097413e+05 -1.097413e+05 +5.668139e+02 +4.205928e-03 0.00 0.05 335 -1.097413e+05 -1.097421e+05 +5.668139e+02 +4.208639e-03 0.00 0.05 336 -1.097223e+05 -1.097223e+05 +5.668139e+02 +4.146767e-03 0.00 0.05 337 -1.097100e+05 -1.097100e+05 +5.668139e+02 +4.108627e-03 0.00 0.06 338 -1.097035e+05 -1.097035e+05 +5.668139e+02 +4.088255e-03 0.00 0.06 339 -1.097035e+05 -1.097102e+05 +6.174771e+02 +3.462634e-03 0.00 0.06 340 -1.097035e+05 -1.097114e+05 +5.668139e+02 +4.112796e-03 0.00 0.06 341 -1.097025e+05 -1.097025e+05 +5.668139e+02 +4.085287e-03 0.00 0.06 342 -1.096927e+05 -1.096927e+05 +5.668139e+02 +4.054809e-03 0.00 0.06 343 -1.096714e+05 -1.096714e+05 +5.668139e+02 +3.988340e-03 0.00 0.06 344 -1.096714e+05 -1.096743e+05 +5.668139e+02 +3.997462e-03 0.00 0.06 345 -1.096504e+05 -1.096504e+05 +5.668139e+02 +3.923157e-03 0.00 0.06 346 -1.096467e+05 -1.096467e+05 +5.668139e+02 +3.911600e-03 0.00 0.06 347 -1.096327e+05 -1.096327e+05 +5.668139e+02 +3.867910e-03 0.00 0.06 348 -1.096327e+05 -1.096352e+05 +6.174771e+02 +3.265802e-03 0.00 0.06 349 -1.096327e+05 -1.096643e+05 +5.668139e+02 +3.966297e-03 0.00 0.06 350 -1.096327e+05 -1.096406e+05 +5.668139e+02 +3.892571e-03 0.00 0.06 351 -1.096174e+05 -1.096174e+05 +5.668139e+02 +3.820214e-03 0.00 0.06 352 -1.096163e+05 -1.096163e+05 +5.668139e+02 +3.816953e-03 0.00 0.06 353 -1.096001e+05 -1.096001e+05 +5.668139e+02 +3.766454e-03 0.00 0.06 354 -1.095872e+05 -1.095872e+05 +5.668139e+02 +3.726275e-03 0.00 0.06 355 -1.095830e+05 -1.095830e+05 +5.668139e+02 +3.713283e-03 0.00 0.06 356 -1.095608e+05 -1.095608e+05 +5.668139e+02 +3.644259e-03 0.00 0.06 357 -1.095608e+05 -1.095794e+05 +6.174771e+02 +3.119427e-03 0.00 0.06 358 -1.095608e+05 -1.095913e+05 +5.668139e+02 +3.739171e-03 0.00 0.06 359 -1.095608e+05 -1.095690e+05 +5.668139e+02 +3.669666e-03 0.00 0.06 360 -1.095581e+05 -1.095581e+05 +5.668139e+02 +3.635774e-03 0.00 0.06 361 -1.095523e+05 -1.095523e+05 +5.668139e+02 +3.617885e-03 0.00 0.06 362 -1.095307e+05 -1.095307e+05 +5.668139e+02 +3.550635e-03 0.00 0.06 363 -1.095307e+05 -1.095355e+05 +5.668139e+02 +3.565583e-03 0.00 0.06 364 -1.095147e+05 -1.095147e+05 +5.668139e+02 +3.500750e-03 0.00 0.06 365 -1.095083e+05 -1.095083e+05 +5.668139e+02 +3.480796e-03 0.00 0.06 366 -1.094989e+05 -1.094989e+05 +5.668139e+02 +3.451408e-03 0.00 0.06 367 -1.094989e+05 -1.095032e+05 +6.174771e+02 +2.919633e-03 0.00 0.06 368 -1.094989e+05 -1.095272e+05 +5.668139e+02 +3.539487e-03 0.00 0.06 369 -1.094989e+05 -1.095060e+05 +5.668139e+02 +3.473694e-03 0.00 0.06 370 -1.094853e+05 -1.094853e+05 +5.668139e+02 +3.409124e-03 0.00 0.06 371 -1.094812e+05 -1.094812e+05 +5.668139e+02 +3.396524e-03 0.00 0.07 372 -1.094698e+05 -1.094698e+05 +5.668139e+02 +3.361105e-03 0.00 0.07 373 -1.094553e+05 -1.094553e+05 +5.668139e+02 +3.315877e-03 0.00 0.07 374 -1.094546e+05 -1.094546e+05 +5.668139e+02 +3.313614e-03 0.00 0.07 375 -1.094348e+05 -1.094348e+05 +5.668139e+02 +3.252019e-03 0.00 0.07 376 -1.094348e+05 -1.094528e+05 +6.174771e+02 +2.787590e-03 0.00 0.07 377 -1.094348e+05 -1.094621e+05 +5.668139e+02 +3.336920e-03 0.00 0.07 378 -1.094348e+05 -1.094422e+05 +5.668139e+02 +3.274892e-03 0.00 0.07 379 -1.094294e+05 -1.094294e+05 +5.668139e+02 +3.235316e-03 0.00 0.07 380 -1.094273e+05 -1.094273e+05 +5.668139e+02 +3.228640e-03 0.00 0.07 381 -1.094080e+05 -1.094080e+05 +5.668139e+02 +3.168625e-03 0.00 0.07 382 -1.094080e+05 -1.094094e+05 +5.668139e+02 +3.172939e-03 0.00 0.07 383 -1.093937e+05 -1.093937e+05 +5.668139e+02 +3.124066e-03 0.00 0.07 384 -1.093852e+05 -1.093852e+05 +5.668139e+02 +3.097529e-03 0.00 0.07 385 -1.093795e+05 -1.093795e+05 +5.668139e+02 +3.079994e-03 0.00 0.07 386 -1.093795e+05 -1.093846e+05 +6.174771e+02 +2.608465e-03 0.00 0.07 387 -1.093795e+05 -1.094048e+05 +5.668139e+02 +3.158752e-03 0.00 0.07 388 -1.093795e+05 -1.093860e+05 +5.668139e+02 +3.100036e-03 0.00 0.07 389 -1.093675e+05 -1.093675e+05 +5.668139e+02 +3.042412e-03 0.00 0.07 390 -1.093611e+05 -1.093611e+05 +5.668139e+02 +3.022523e-03 0.00 0.07 391 -1.093537e+05 -1.093537e+05 +5.668139e+02 +2.999519e-03 0.00 0.07 392 -1.093380e+05 -1.093380e+05 +5.668139e+02 +2.950794e-03 0.00 0.07 393 -1.093380e+05 -1.093401e+05 +5.668139e+02 +2.957099e-03 0.00 0.07 394 -1.093224e+05 -1.093224e+05 +5.668139e+02 +2.902132e-03 0.00 0.07 395 -1.093224e+05 -1.093394e+05 +6.174771e+02 +2.489934e-03 0.00 0.07 396 -1.093224e+05 -1.093468e+05 +5.668139e+02 +2.978016e-03 0.00 0.07 397 -1.093224e+05 -1.093290e+05 +5.668139e+02 +2.922660e-03 0.00 0.07 398 -1.093150e+05 -1.093150e+05 +5.668139e+02 +2.879099e-03 0.00 0.07 399 -1.093150e+05 -1.093157e+05 +5.668139e+02 +2.881344e-03 0.00 0.07 400 -1.092985e+05 -1.092985e+05 +5.668139e+02 +2.827785e-03 0.00 0.07 Iter fbest f |∇f| α sg time tot time 401 -1.092972e+05 -1.092972e+05 +5.668139e+02 +2.823664e-03 0.00 0.07 402 -1.092857e+05 -1.092857e+05 +5.668139e+02 +2.787983e-03 0.00 0.07 403 -1.092756e+05 -1.092756e+05 +5.668139e+02 +2.756590e-03 0.00 0.07 404 -1.092731e+05 -1.092731e+05 +5.668139e+02 +2.748617e-03 0.00 0.07 405 -1.092731e+05 -1.092803e+05 +6.174771e+02 +2.335016e-03 0.00 0.08 406 -1.092731e+05 -1.092784e+05 +5.668139e+02 +2.765320e-03 0.00 0.08 407 -1.092707e+05 -1.092707e+05 +5.668139e+02 +2.741173e-03 0.00 0.08 408 -1.092659e+05 -1.092659e+05 +5.668139e+02 +2.726306e-03 0.00 0.08 409 -1.092498e+05 -1.092498e+05 +5.668139e+02 +2.676148e-03 0.00 0.08 410 -1.092498e+05 -1.092535e+05 +5.668139e+02 +2.687724e-03 0.00 0.08 411 -1.092375e+05 -1.092375e+05 +5.668139e+02 +2.637764e-03 0.00 0.08 412 -1.092333e+05 -1.092333e+05 +5.668139e+02 +2.624705e-03 0.00 0.08 413 -1.092255e+05 -1.092255e+05 +5.668139e+02 +2.600595e-03 0.00 0.08 414 -1.092255e+05 -1.092274e+05 +6.174771e+02 +2.196421e-03 0.00 0.08 415 -1.092255e+05 -1.092468e+05 +5.668139e+02 +2.666779e-03 0.00 0.08 416 -1.092255e+05 -1.092309e+05 +5.668139e+02 +2.617208e-03 0.00 0.08 417 -1.092152e+05 -1.092152e+05 +5.668139e+02 +2.568559e-03 0.00 0.08 418 -1.092129e+05 -1.092129e+05 +5.668139e+02 +2.561207e-03 0.00 0.08 419 -1.092036e+05 -1.092036e+05 +5.668139e+02 +2.532389e-03 0.00 0.08 420 -1.091933e+05 -1.091933e+05 +5.668139e+02 +2.500384e-03 0.00 0.08 421 -1.091921e+05 -1.091921e+05 +5.668139e+02 +2.496617e-03 0.00 0.08 422 -1.091772e+05 -1.091772e+05 +5.668139e+02 +2.450209e-03 0.00 0.08 423 -1.091772e+05 -1.091899e+05 +6.174771e+02 +2.097942e-03 0.00 0.08 424 -1.091772e+05 -1.091977e+05 +5.668139e+02 +2.514054e-03 0.00 0.08 425 -1.091772e+05 -1.091827e+05 +5.668139e+02 +2.467323e-03 0.00 0.08 426 -1.091738e+05 -1.091738e+05 +5.668139e+02 +2.439666e-03 0.00 0.08 427 -1.091715e+05 -1.091715e+05 +5.668139e+02 +2.432485e-03 0.00 0.08 428 -1.091570e+05 -1.091570e+05 +5.668139e+02 +2.387270e-03 0.00 0.08 429 -1.091570e+05 -1.091587e+05 +5.668139e+02 +2.392610e-03 0.00 0.08 430 -1.091462e+05 -1.091462e+05 +5.668139e+02 +2.353708e-03 0.00 0.08 431 -1.091404e+05 -1.091404e+05 +5.668139e+02 +2.335737e-03 0.00 0.08 432 -1.091355e+05 -1.091355e+05 +5.668139e+02 +2.320513e-03 0.00 0.08 433 -1.091355e+05 -1.091387e+05 +6.174771e+02 +1.963619e-03 0.00 0.08 434 -1.091355e+05 -1.091546e+05 +5.668139e+02 +2.379765e-03 0.00 0.08 435 -1.091355e+05 -1.091404e+05 +5.668139e+02 +2.335529e-03 0.00 0.08 436 -1.091264e+05 -1.091264e+05 +5.668139e+02 +2.292116e-03 0.00 0.08 437 -1.091223e+05 -1.091223e+05 +5.668139e+02 +2.279195e-03 0.00 0.09 438 -1.091160e+05 -1.091160e+05 +5.668139e+02 +2.259810e-03 0.00 0.09 439 -1.091049e+05 -1.091049e+05 +5.668139e+02 +2.225097e-03 0.00 0.09 440 -1.091049e+05 -1.091058e+05 +5.668139e+02 +2.227860e-03 0.00 0.09 441 -1.090925e+05 -1.090925e+05 +5.668139e+02 +2.186448e-03 0.00 0.09 442 -1.090925e+05 -1.091048e+05 +6.174771e+02 +1.874764e-03 0.00 0.09 443 -1.090925e+05 -1.091108e+05 +5.668139e+02 +2.243559e-03 0.00 0.09 444 -1.090925e+05 -1.090974e+05 +5.668139e+02 +2.201856e-03 0.00 0.09 445 -1.090875e+05 -1.090875e+05 +5.668139e+02 +2.171045e-03 0.00 0.09 446 -1.090874e+05 -1.090874e+05 +5.668139e+02 +2.170739e-03 0.00 0.09 447 -1.090744e+05 -1.090744e+05 +5.668139e+02 +2.130389e-03 0.00 0.09 448 -1.090741e+05 -1.090741e+05 +5.668139e+02 +2.129225e-03 0.00 0.09 449 -1.090648e+05 -1.090648e+05 +5.668139e+02 +2.100411e-03 0.00 0.09 450 -1.090578e+05 -1.090578e+05 +5.668139e+02 +2.078638e-03 0.00 0.09 451 -1.090553e+05 -1.090553e+05 +5.668139e+02 +2.070763e-03 0.00 0.09 452 -1.090553e+05 -1.090598e+05 +6.174771e+02 +1.756789e-03 0.00 0.09 453 -1.090553e+05 -1.090593e+05 +5.668139e+02 +2.083277e-03 0.00 0.09 454 -1.090541e+05 -1.090541e+05 +5.668139e+02 +2.066932e-03 0.00 0.09 455 -1.090499e+05 -1.090499e+05 +5.668139e+02 +2.053894e-03 0.00 0.09 456 -1.090383e+05 -1.090383e+05 +5.668139e+02 +2.017893e-03 0.00 0.09 457 -1.090383e+05 -1.090405e+05 +5.668139e+02 +2.024836e-03 0.00 0.09 458 -1.090284e+05 -1.090284e+05 +5.668139e+02 +1.987198e-03 0.00 0.09 459 -1.090258e+05 -1.090258e+05 +5.668139e+02 +1.979088e-03 0.00 0.09 460 -1.090194e+05 -1.090194e+05 +5.668139e+02 +1.959203e-03 0.00 0.09 461 -1.090194e+05 -1.090208e+05 +6.174771e+02 +1.654440e-03 0.00 0.09 462 -1.090194e+05 -1.090355e+05 +5.668139e+02 +2.009051e-03 0.00 0.09 463 -1.090194e+05 -1.090235e+05 +5.668139e+02 +1.971706e-03 0.00 0.09 464 -1.090117e+05 -1.090117e+05 +5.668139e+02 +1.935055e-03 0.00 0.09 465 -1.090105e+05 -1.090105e+05 +5.668139e+02 +1.931206e-03 0.00 0.09 466 -1.090029e+05 -1.090029e+05 +5.668139e+02 +1.907814e-03 0.00 0.09 467 -1.089957e+05 -1.089957e+05 +5.668139e+02 +1.885337e-03 0.00 0.09 468 -1.089943e+05 -1.089943e+05 +5.668139e+02 +1.880872e-03 0.00 0.09 469 -1.089831e+05 -1.089831e+05 +5.668139e+02 +1.845909e-03 0.00 0.09 470 -1.089831e+05 -1.089925e+05 +6.174771e+02 +1.580288e-03 0.00 0.09 471 -1.089831e+05 -1.089985e+05 +5.668139e+02 +1.893996e-03 0.00 0.10 472 -1.089831e+05 -1.089872e+05 +5.668139e+02 +1.858790e-03 0.00 0.10 473 -1.089810e+05 -1.089810e+05 +5.668139e+02 +1.839552e-03 0.00 0.10 474 -1.089788e+05 -1.089788e+05 +5.668139e+02 +1.832552e-03 0.00 0.10 475 -1.089678e+05 -1.089678e+05 +5.668139e+02 +1.798488e-03 0.00 0.10 476 -1.089678e+05 -1.089696e+05 +5.668139e+02 +1.804057e-03 0.00 0.10 477 -1.089597e+05 -1.089597e+05 +5.668139e+02 +1.773211e-03 0.00 0.10 478 -1.089558e+05 -1.089558e+05 +5.668139e+02 +1.761166e-03 0.00 0.10 479 -1.089517e+05 -1.089517e+05 +5.668139e+02 +1.748209e-03 0.00 0.10 480 -1.089517e+05 -1.089539e+05 +6.174771e+02 +1.479102e-03 0.00 0.10 481 -1.089517e+05 -1.089660e+05 +5.668139e+02 +1.792836e-03 0.00 0.10 482 -1.089517e+05 -1.089553e+05 +5.668139e+02 +1.759510e-03 0.00 0.10 483 -1.089448e+05 -1.089448e+05 +5.668139e+02 +1.726804e-03 0.00 0.10 484 -1.089421e+05 -1.089421e+05 +5.668139e+02 +1.718531e-03 0.00 0.10 485 -1.089370e+05 -1.089370e+05 +5.668139e+02 +1.702473e-03 0.00 0.10 486 -1.089290e+05 -1.089290e+05 +5.668139e+02 +1.677735e-03 0.00 0.10 487 -1.089290e+05 -1.089292e+05 +5.668139e+02 +1.678409e-03 0.00 0.10 488 -1.089192e+05 -1.089192e+05 +5.668139e+02 +1.647210e-03 0.00 0.10 489 -1.089192e+05 -1.089284e+05 +6.174771e+02 +1.412194e-03 0.00 0.10 490 -1.089192e+05 -1.089330e+05 +5.668139e+02 +1.690226e-03 0.00 0.10 491 -1.089192e+05 -1.089229e+05 +5.668139e+02 +1.658808e-03 0.00 0.10 492 -1.089159e+05 -1.089159e+05 +5.668139e+02 +1.636977e-03 0.00 0.10 493 -1.089154e+05 -1.089154e+05 +5.668139e+02 +1.635371e-03 0.00 0.10 494 -1.089056e+05 -1.089056e+05 +5.668139e+02 +1.604973e-03 0.00 0.10 495 -1.089056e+05 -1.089058e+05 +5.668139e+02 +1.605432e-03 0.00 0.10 496 -1.088984e+05 -1.088984e+05 +5.668139e+02 +1.582395e-03 0.00 0.10 497 -1.088935e+05 -1.088935e+05 +5.668139e+02 +1.567284e-03 0.00 0.10 498 -1.088912e+05 -1.088912e+05 +5.668139e+02 +1.560064e-03 0.00 0.10 499 -1.088912e+05 -1.088942e+05 +6.174771e+02 +1.322269e-03 0.00 0.10 500 -1.088912e+05 -1.088942e+05 +5.668139e+02 +1.569456e-03 0.00 0.10 Iter fbest f |∇f| α sg time tot time 501 -1.088907e+05 -1.088907e+05 +5.668139e+02 +1.558408e-03 0.00 0.10 502 -1.088871e+05 -1.088871e+05 +5.668139e+02 +1.547326e-03 0.00 0.10 503 -1.088788e+05 -1.088788e+05 +5.668139e+02 +1.521428e-03 0.00 0.10 504 -1.088788e+05 -1.088801e+05 +5.668139e+02 +1.525440e-03 0.00 0.10 505 -1.088710e+05 -1.088710e+05 +5.668139e+02 +1.497084e-03 0.00 0.10 506 -1.088694e+05 -1.088694e+05 +5.668139e+02 +1.492159e-03 0.00 0.11 507 -1.088642e+05 -1.088642e+05 +5.668139e+02 +1.476000e-03 0.00 0.11 508 -1.088642e+05 -1.088653e+05 +6.174771e+02 +1.246486e-03 0.00 0.11 509 -1.088642e+05 -1.088763e+05 +5.668139e+02 +1.513558e-03 0.00 0.11 510 -1.088642e+05 -1.088672e+05 +5.668139e+02 +1.485423e-03 0.00 0.11 511 -1.088584e+05 -1.088584e+05 +5.668139e+02 +1.457812e-03 0.00 0.11 512 -1.088578e+05 -1.088578e+05 +5.668139e+02 +1.456052e-03 0.00 0.11 513 -1.088518e+05 -1.088518e+05 +5.668139e+02 +1.437294e-03 0.00 0.11 514 -1.088467e+05 -1.088467e+05 +5.668139e+02 +1.421464e-03 0.00 0.11 515 -1.088453e+05 -1.088453e+05 +5.668139e+02 +1.417002e-03 0.00 0.11 516 -1.088368e+05 -1.088368e+05 +5.668139e+02 +1.390662e-03 0.00 0.11 517 -1.088368e+05 -1.088439e+05 +6.174771e+02 +1.190565e-03 0.00 0.11 518 -1.088368e+05 -1.088484e+05 +5.668139e+02 +1.426890e-03 0.00 0.11 519 -1.088368e+05 -1.088399e+05 +5.668139e+02 +1.400367e-03 0.00 0.11 520 -1.088356e+05 -1.088356e+05 +5.668139e+02 +1.386939e-03 0.00 0.11 521 -1.088336e+05 -1.088336e+05 +5.668139e+02 +1.380605e-03 0.00 0.11 522 -1.088253e+05 -1.088253e+05 +5.668139e+02 +1.354941e-03 0.00 0.11 523 -1.088253e+05 -1.088270e+05 +5.668139e+02 +1.360168e-03 0.00 0.11 524 -1.088192e+05 -1.088192e+05 +5.668139e+02 +1.335903e-03 0.00 0.11 525 -1.088166e+05 -1.088166e+05 +5.668139e+02 +1.327826e-03 0.00 0.11 526 -1.088131e+05 -1.088131e+05 +5.668139e+02 +1.317072e-03 0.00 0.11 527 -1.088131e+05 -1.088149e+05 +6.174771e+02 +1.114287e-03 0.00 0.11 528 -1.088131e+05 -1.088239e+05 +5.668139e+02 +1.350690e-03 0.00 0.11 529 -1.088131e+05 -1.088159e+05 +5.668139e+02 +1.325583e-03 0.00 0.11 530 -1.088080e+05 -1.088080e+05 +5.668139e+02 +1.300943e-03 0.00 0.11 531 -1.088063e+05 -1.088063e+05 +5.668139e+02 +1.295678e-03 0.00 0.11 532 -1.088021e+05 -1.088021e+05 +5.668139e+02 +1.282617e-03 0.00 0.11 533 -1.087964e+05 -1.087964e+05 +5.668139e+02 +1.264916e-03 0.00 0.11 534 -1.087963e+05 -1.087963e+05 +5.668139e+02 +1.264492e-03 0.00 0.11 535 -1.087887e+05 -1.087887e+05 +5.668139e+02 +1.240987e-03 0.00 0.11 536 -1.087887e+05 -1.087956e+05 +6.174771e+02 +1.063867e-03 0.00 0.11 537 -1.087887e+05 -1.087991e+05 +5.668139e+02 +1.273391e-03 0.00 0.11 538 -1.087887e+05 -1.087915e+05 +5.668139e+02 +1.249721e-03 0.00 0.11 539 -1.087865e+05 -1.087865e+05 +5.668139e+02 +1.234184e-03 0.00 0.11 540 -1.087858e+05 -1.087858e+05 +5.668139e+02 +1.232069e-03 0.00 0.11 541 -1.087785e+05 -1.087785e+05 +5.668139e+02 +1.209167e-03 0.00 0.11 542 -1.087785e+05 -1.087789e+05 +5.668139e+02 +1.210393e-03 0.00 0.11 543 -1.087730e+05 -1.087730e+05 +5.668139e+02 +1.192161e-03 0.00 0.11 544 -1.087696e+05 -1.087696e+05 +5.668139e+02 +1.181628e-03 0.00 0.11 545 -1.087676e+05 -1.087676e+05 +5.668139e+02 +1.175341e-03 0.00 0.11 546 -1.087676e+05 -1.087696e+05 +6.174771e+02 +9.954960e-04 0.00 0.11 547 -1.087676e+05 -1.087773e+05 +5.668139e+02 +1.205400e-03 0.00 0.11 548 -1.087676e+05 -1.087701e+05 +5.668139e+02 +1.182994e-03 0.00 0.11 549 -1.087630e+05 -1.087630e+05 +5.668139e+02 +1.161004e-03 0.00 0.11 550 -1.087604e+05 -1.087604e+05 +5.668139e+02 +1.153015e-03 0.00 0.11 551 -1.087577e+05 -1.087577e+05 +5.668139e+02 +1.144634e-03 0.00 0.11 552 -1.087516e+05 -1.087516e+05 +5.668139e+02 +1.125654e-03 0.00 0.11 553 -1.087516e+05 -1.087525e+05 +5.668139e+02 +1.128445e-03 0.00 0.11 554 -1.087458e+05 -1.087458e+05 +5.668139e+02 +1.107469e-03 0.00 0.11 555 -1.087458e+05 -1.087523e+05 +6.174771e+02 +9.502463e-04 0.00 0.11 556 -1.087458e+05 -1.087551e+05 +5.668139e+02 +1.136430e-03 0.00 0.11 557 -1.087458e+05 -1.087483e+05 +5.668139e+02 +1.115306e-03 0.00 0.11 558 -1.087429e+05 -1.087429e+05 +5.668139e+02 +1.098305e-03 0.00 0.11 559 -1.087429e+05 -1.087433e+05 +5.668139e+02 +1.099538e-03 0.00 0.11 560 -1.087367e+05 -1.087367e+05 +5.668139e+02 +1.079100e-03 0.00 0.11 561 -1.087361e+05 -1.087361e+05 +5.668139e+02 +1.077160e-03 0.00 0.12 562 -1.087318e+05 -1.087318e+05 +5.668139e+02 +1.063909e-03 0.00 0.12 563 -1.087278e+05 -1.087278e+05 +5.668139e+02 +1.051575e-03 0.00 0.12 564 -1.087270e+05 -1.087270e+05 +5.668139e+02 +1.048886e-03 0.00 0.12 565 -1.087270e+05 -1.087299e+05 +6.174771e+02 +8.914096e-04 0.00 0.12 566 -1.087270e+05 -1.087290e+05 +5.668139e+02 +1.055270e-03 0.00 0.12 567 -1.087260e+05 -1.087260e+05 +5.668139e+02 +1.045708e-03 0.00 0.12 568 -1.087243e+05 -1.087243e+05 +5.668139e+02 +1.040380e-03 0.00 0.12 569 -1.087180e+05 -1.087180e+05 +5.668139e+02 +1.021041e-03 0.00 0.12 570 -1.087180e+05 -1.087195e+05 +5.668139e+02 +1.025518e-03 0.00 0.12 571 -1.087134e+05 -1.087134e+05 +5.668139e+02 +1.006697e-03 0.00 0.12 572 -1.087116e+05 -1.087116e+05 +5.668139e+02 +1.001131e-03 0.00 0.12 573 -1.087089e+05 -1.087089e+05 +5.668139e+02 +9.925086e-04 0.00 0.12 574 -1.087089e+05 -1.087095e+05 +6.174771e+02 +8.378984e-04 0.00 0.12 575 -1.087089e+05 -1.087170e+05 +5.668139e+02 +1.017749e-03 0.00 0.12 576 -1.087089e+05 -1.087109e+05 +5.668139e+02 +9.988309e-04 0.00 0.12 577 -1.087049e+05 -1.087049e+05 +5.668139e+02 +9.802644e-04 0.00 0.12 578 -1.087039e+05 -1.087039e+05 +5.668139e+02 +9.769195e-04 0.00 0.12 579 -1.087005e+05 -1.087005e+05 +5.668139e+02 +9.664581e-04 0.00 0.12 580 -1.086964e+05 -1.086964e+05 +5.668139e+02 +9.537222e-04 0.00 0.12 581 -1.086961e+05 -1.086961e+05 +5.668139e+02 +9.528036e-04 0.00 0.12 582 -1.086904e+05 -1.086904e+05 +5.668139e+02 +9.350927e-04 0.00 0.12 583 -1.086904e+05 -1.086952e+05 +6.174771e+02 +8.004390e-04 0.00 0.12 584 -1.086904e+05 -1.086982e+05 +5.668139e+02 +9.594472e-04 0.00 0.12 585 -1.086904e+05 -1.086925e+05 +5.668139e+02 +9.416128e-04 0.00 0.12 586 -1.086890e+05 -1.086890e+05 +5.668139e+02 +9.305682e-04 0.00 0.12 587 -1.086882e+05 -1.086882e+05 +5.668139e+02 +9.283155e-04 0.00 0.12 588 -1.086827e+05 -1.086827e+05 +5.668139e+02 +9.110597e-04 0.00 0.12 589 -1.086827e+05 -1.086832e+05 +5.668139e+02 +9.126238e-04 0.00 0.12 590 -1.086786e+05 -1.086786e+05 +5.668139e+02 +8.982492e-04 0.00 0.12 591 -1.086762e+05 -1.086762e+05 +5.668139e+02 +8.909323e-04 0.00 0.12 592 -1.086745e+05 -1.086745e+05 +5.668139e+02 +8.855789e-04 0.00 0.12 593 -1.086745e+05 -1.086757e+05 +6.174771e+02 +7.492619e-04 0.00 0.12 594 -1.086745e+05 -1.086818e+05 +5.668139e+02 +9.081853e-04 0.00 0.12 595 -1.086745e+05 -1.086764e+05 +5.668139e+02 +8.913037e-04 0.00 0.12 596 -1.086710e+05 -1.086710e+05 +5.668139e+02 +8.747360e-04 0.00 0.12 597 -1.086693e+05 -1.086693e+05 +5.668139e+02 +8.693691e-04 0.00 0.12 598 -1.086671e+05 -1.086671e+05 +5.668139e+02 +8.624052e-04 0.00 0.12 599 -1.086627e+05 -1.086627e+05 +5.668139e+02 +8.487361e-04 0.00 0.12 600 -1.086627e+05 -1.086632e+05 +5.668139e+02 +8.502104e-04 0.00 0.12 Iter fbest f |∇f| α sg time tot time 601 -1.086581e+05 -1.086581e+05 +5.668139e+02 +8.344065e-04 0.00 0.12 602 -1.086581e+05 -1.086628e+05 +6.174771e+02 +7.153993e-04 0.00 0.12 603 -1.086581e+05 -1.086651e+05 +5.668139e+02 +8.561985e-04 0.00 0.12 604 -1.086581e+05 -1.086600e+05 +5.668139e+02 +8.402832e-04 0.00 0.12 605 -1.086561e+05 -1.086561e+05 +5.668139e+02 +8.281214e-04 0.00 0.12 606 -1.086561e+05 -1.086561e+05 +5.668139e+02 +8.284065e-04 0.00 0.12 607 -1.086512e+05 -1.086512e+05 +5.668139e+02 +8.130078e-04 0.00 0.12 608 -1.086509e+05 -1.086509e+05 +5.668139e+02 +8.121730e-04 0.00 0.12 609 -1.086475e+05 -1.086475e+05 +5.668139e+02 +8.015660e-04 0.00 0.12 610 -1.086447e+05 -1.086447e+05 +5.668139e+02 +7.928790e-04 0.00 0.12 611 -1.086439e+05 -1.086439e+05 +5.668139e+02 +7.902497e-04 0.00 0.12 612 -1.086439e+05 -1.086457e+05 +6.174771e+02 +6.707196e-04 0.00 0.12 613 -1.086439e+05 -1.086454e+05 +5.668139e+02 +7.950340e-04 0.00 0.12 614 -1.086433e+05 -1.086433e+05 +5.668139e+02 +7.884270e-04 0.00 0.12 615 -1.086418e+05 -1.086418e+05 +5.668139e+02 +7.838190e-04 0.00 0.12 616 -1.086373e+05 -1.086373e+05 +5.668139e+02 +7.697228e-04 0.00 0.12 617 -1.086373e+05 -1.086383e+05 +5.668139e+02 +7.727279e-04 0.00 0.12 618 -1.086336e+05 -1.086336e+05 +5.668139e+02 +7.583642e-04 0.00 0.13 619 -1.086325e+05 -1.086325e+05 +5.668139e+02 +7.549236e-04 0.00 0.13 620 -1.086302e+05 -1.086302e+05 +5.668139e+02 +7.476794e-04 0.00 0.13 621 -1.086302e+05 -1.086307e+05 +6.174771e+02 +6.312931e-04 0.00 0.13 622 -1.086302e+05 -1.086363e+05 +5.668139e+02 +7.666980e-04 0.00 0.13 623 -1.086302e+05 -1.086317e+05 +5.668139e+02 +7.524464e-04 0.00 0.13 624 -1.086273e+05 -1.086273e+05 +5.668139e+02 +7.384598e-04 0.00 0.13 625 -1.086267e+05 -1.086267e+05 +5.668139e+02 +7.366620e-04 0.00 0.13 626 -1.086239e+05 -1.086239e+05 +5.668139e+02 +7.280624e-04 0.00 0.13 627 -1.086211e+05 -1.086211e+05 +5.668139e+02 +7.191664e-04 0.00 0.13 628 -1.086206e+05 -1.086206e+05 +5.668139e+02 +7.177792e-04 0.00 0.13 629 -1.086163e+05 -1.086163e+05 +5.668139e+02 +7.044369e-04 0.00 0.13 630 -1.086163e+05 -1.086199e+05 +6.174771e+02 +6.030286e-04 0.00 0.13 631 -1.086163e+05 -1.086222e+05 +5.668139e+02 +7.227857e-04 0.00 0.13 632 -1.086163e+05 -1.086179e+05 +5.668139e+02 +7.093503e-04 0.00 0.13 633 -1.086154e+05 -1.086154e+05 +5.668139e+02 +7.017036e-04 0.00 0.13 634 -1.086147e+05 -1.086147e+05 +5.668139e+02 +6.993361e-04 0.00 0.13 635 -1.086105e+05 -1.086105e+05 +5.668139e+02 +6.863366e-04 0.00 0.13 636 -1.086105e+05 -1.086111e+05 +5.668139e+02 +6.881665e-04 0.00 0.13 637 -1.086074e+05 -1.086074e+05 +5.668139e+02 +6.766889e-04 0.00 0.13 638 -1.086058e+05 -1.086058e+05 +5.668139e+02 +6.718071e-04 0.00 0.13 639 -1.086043e+05 -1.086043e+05 +5.668139e+02 +6.671467e-04 0.00 0.13 640 -1.086043e+05 -1.086052e+05 +6.174771e+02 +5.644389e-04 0.00 0.13 641 -1.086043e+05 -1.086098e+05 +5.668139e+02 +6.841764e-04 0.00 0.13 642 -1.086043e+05 -1.086057e+05 +5.668139e+02 +6.714588e-04 0.00 0.13 643 -1.086017e+05 -1.086017e+05 +5.668139e+02 +6.589775e-04 0.00 0.13 644 -1.086006e+05 -1.086006e+05 +5.668139e+02 +6.555450e-04 0.00 0.13 645 -1.085987e+05 -1.085987e+05 +5.668139e+02 +6.496910e-04 0.00 0.13 646 -1.085956e+05 -1.085956e+05 +5.668139e+02 +6.399841e-04 0.00 0.13 647 -1.085956e+05 -1.085958e+05 +5.668139e+02 +6.405067e-04 0.00 0.13 648 -1.085920e+05 -1.085920e+05 +5.668139e+02 +6.286008e-04 0.00 0.13 649 -1.085920e+05 -1.085955e+05 +6.174771e+02 +5.389166e-04 0.00 0.13 650 -1.085920e+05 -1.085972e+05 +5.668139e+02 +6.450163e-04 0.00 0.13 651 -1.085920e+05 -1.085934e+05 +5.668139e+02 +6.330265e-04 0.00 0.13 652 -1.085906e+05 -1.085906e+05 +5.668139e+02 +6.244378e-04 0.00 0.13 653 -1.085905e+05 -1.085905e+05 +5.668139e+02 +6.240818e-04 0.00 0.13 654 -1.085868e+05 -1.085868e+05 +5.668139e+02 +6.124812e-04 0.00 0.13 655 -1.085868e+05 -1.085868e+05 +5.668139e+02 +6.124070e-04 0.00 0.13 656 -1.085840e+05 -1.085840e+05 +5.668139e+02 +6.038640e-04 0.00 0.13 657 -1.085821e+05 -1.085821e+05 +5.668139e+02 +5.978561e-04 0.00 0.13 658 -1.085813e+05 -1.085813e+05 +5.668139e+02 +5.953412e-04 0.00 0.13 659 -1.085813e+05 -1.085825e+05 +6.174771e+02 +5.048062e-04 0.00 0.13 660 -1.085813e+05 -1.085824e+05 +5.668139e+02 +5.989314e-04 0.00 0.13 661 -1.085810e+05 -1.085810e+05 +5.668139e+02 +5.944793e-04 0.00 0.13 662 -1.085797e+05 -1.085797e+05 +5.668139e+02 +5.904850e-04 0.00 0.13 663 -1.085765e+05 -1.085765e+05 +5.668139e+02 +5.803738e-04 0.00 0.13 664 -1.085765e+05 -1.085770e+05 +5.668139e+02 +5.821319e-04 0.00 0.13 665 -1.085735e+05 -1.085735e+05 +5.668139e+02 +5.713111e-04 0.00 0.13 666 -1.085729e+05 -1.085729e+05 +5.668139e+02 +5.692106e-04 0.00 0.13 667 -1.085710e+05 -1.085710e+05 +5.668139e+02 +5.632639e-04 0.00 0.13 668 -1.085710e+05 -1.085714e+05 +6.174771e+02 +4.756451e-04 0.00 0.13 669 -1.085710e+05 -1.085756e+05 +5.668139e+02 +5.775948e-04 0.00 0.13 670 -1.085710e+05 -1.085721e+05 +5.668139e+02 +5.668583e-04 0.00 0.13 671 -1.085687e+05 -1.085687e+05 +5.668139e+02 +5.563214e-04 0.00 0.13 672 -1.085685e+05 -1.085685e+05 +5.668139e+02 +5.554385e-04 0.00 0.13 673 -1.085662e+05 -1.085662e+05 +5.668139e+02 +5.484906e-04 0.00 0.13 674 -1.085642e+05 -1.085642e+05 +5.668139e+02 +5.422448e-04 0.00 0.13 675 -1.085637e+05 -1.085637e+05 +5.668139e+02 +5.407458e-04 0.00 0.14 676 -1.085605e+05 -1.085605e+05 +5.668139e+02 +5.306942e-04 0.00 0.14 677 -1.085605e+05 -1.085632e+05 +6.174771e+02 +4.543207e-04 0.00 0.14 678 -1.085605e+05 -1.085649e+05 +5.668139e+02 +5.445186e-04 0.00 0.14 679 -1.085605e+05 -1.085617e+05 +5.668139e+02 +5.343970e-04 0.00 0.14 680 -1.085600e+05 -1.085600e+05 +5.668139e+02 +5.290759e-04 0.00 0.14 681 -1.085593e+05 -1.085593e+05 +5.668139e+02 +5.268546e-04 0.00 0.14 682 -1.085561e+05 -1.085561e+05 +5.668139e+02 +5.170613e-04 0.00 0.14 683 -1.085561e+05 -1.085567e+05 +5.668139e+02 +5.188651e-04 0.00 0.14 684 -1.085538e+05 -1.085538e+05 +5.668139e+02 +5.097950e-04 0.00 0.14 685 -1.085527e+05 -1.085527e+05 +5.668139e+02 +5.065286e-04 0.00 0.14 686 -1.085515e+05 -1.085515e+05 +5.668139e+02 +5.026080e-04 0.00 0.14 687 -1.085515e+05 -1.085521e+05 +6.174771e+02 +4.252242e-04 0.00 0.14 688 -1.085515e+05 -1.085556e+05 +5.668139e+02 +5.154374e-04 0.00 0.14 689 -1.085515e+05 -1.085525e+05 +5.668139e+02 +5.058563e-04 0.00 0.14 690 -1.085495e+05 -1.085495e+05 +5.668139e+02 +4.964533e-04 0.00 0.14 691 -1.085488e+05 -1.085488e+05 +5.668139e+02 +4.942658e-04 0.00 0.14 692 -1.085473e+05 -1.085473e+05 +5.668139e+02 +4.894589e-04 0.00 0.14 693 -1.085450e+05 -1.085450e+05 +5.668139e+02 +4.825314e-04 0.00 0.14 694 -1.085450e+05 -1.085450e+05 +5.668139e+02 +4.825415e-04 0.00 0.14 695 -1.085421e+05 -1.085421e+05 +5.668139e+02 +4.735719e-04 0.00 0.14 696 -1.085421e+05 -1.085448e+05 +6.174771e+02 +4.059879e-04 0.00 0.14 697 -1.085421e+05 -1.085461e+05 +5.668139e+02 +4.859379e-04 0.00 0.14 698 -1.085421e+05 -1.085432e+05 +5.668139e+02 +4.769052e-04 0.00 0.14 699 -1.085413e+05 -1.085413e+05 +5.668139e+02 +4.708088e-04 0.00 0.14 700 -1.085411e+05 -1.085411e+05 +5.668139e+02 +4.701681e-04 0.00 0.14 Iter fbest f |∇f| α sg time tot time 701 -1.085382e+05 -1.085382e+05 +5.668139e+02 +4.614285e-04 0.00 0.14 702 -1.085382e+05 -1.085383e+05 +5.668139e+02 +4.617345e-04 0.00 0.14 703 -1.085362e+05 -1.085362e+05 +5.668139e+02 +4.549382e-04 0.00 0.14 704 -1.085348e+05 -1.085348e+05 +5.668139e+02 +4.507620e-04 0.00 0.14 705 -1.085341e+05 -1.085341e+05 +5.668139e+02 +4.485188e-04 0.00 0.14 706 -1.085341e+05 -1.085349e+05 +6.174771e+02 +3.799954e-04 0.00 0.14 707 -1.085341e+05 -1.085350e+05 +5.668139e+02 +4.512145e-04 0.00 0.14 708 -1.085340e+05 -1.085340e+05 +5.668139e+02 +4.482030e-04 0.00 0.14 709 -1.085329e+05 -1.085329e+05 +5.668139e+02 +4.448528e-04 0.00 0.14 710 -1.085306e+05 -1.085306e+05 +5.668139e+02 +4.375668e-04 0.00 0.14 711 -1.085306e+05 -1.085309e+05 +5.668139e+02 +4.385613e-04 0.00 0.14 712 -1.085283e+05 -1.085283e+05 +5.668139e+02 +4.304092e-04 0.00 0.14 713 -1.085279e+05 -1.085279e+05 +5.668139e+02 +4.291475e-04 0.00 0.14 714 -1.085263e+05 -1.085263e+05 +5.668139e+02 +4.243482e-04 0.00 0.14 715 -1.085263e+05 -1.085266e+05 +6.174771e+02 +3.583787e-04 0.00 0.14 716 -1.085263e+05 -1.085298e+05 +5.668139e+02 +4.351468e-04 0.00 0.14 717 -1.085263e+05 -1.085272e+05 +5.668139e+02 +4.270582e-04 0.00 0.14 718 -1.085247e+05 -1.085247e+05 +5.668139e+02 +4.191199e-04 0.00 0.14 719 -1.085245e+05 -1.085245e+05 +5.668139e+02 +4.187622e-04 0.00 0.14 720 -1.085228e+05 -1.085228e+05 +5.668139e+02 +4.132217e-04 0.00 0.14 721 -1.085213e+05 -1.085213e+05 +5.668139e+02 +4.088138e-04 0.00 0.14 722 -1.085209e+05 -1.085209e+05 +5.668139e+02 +4.073883e-04 0.00 0.14 723 -1.085185e+05 -1.085185e+05 +5.668139e+02 +3.998156e-04 0.00 0.14 724 -1.085185e+05 -1.085205e+05 +6.174771e+02 +3.422929e-04 0.00 0.14 725 -1.085185e+05 -1.085218e+05 +5.668139e+02 +4.102315e-04 0.00 0.14 726 -1.085185e+05 -1.085193e+05 +5.668139e+02 +4.026060e-04 0.00 0.14 727 -1.085182e+05 -1.085182e+05 +5.668139e+02 +3.988839e-04 0.00 0.14 728 -1.085175e+05 -1.085175e+05 +5.668139e+02 +3.969250e-04 0.00 0.14 729 -1.085152e+05 -1.085152e+05 +5.668139e+02 +3.895469e-04 0.00 0.14 730 -1.085152e+05 -1.085157e+05 +5.668139e+02 +3.911832e-04 0.00 0.14 731 -1.085134e+05 -1.085134e+05 +5.668139e+02 +3.840738e-04 0.00 0.14 732 -1.085127e+05 -1.085127e+05 +5.668139e+02 +3.818812e-04 0.00 0.15 733 -1.085117e+05 -1.085117e+05 +5.668139e+02 +3.786604e-04 0.00 0.15 734 -1.085117e+05 -1.085121e+05 +6.174771e+02 +3.203558e-04 0.00 0.15 735 -1.085117e+05 -1.085148e+05 +5.668139e+02 +3.883257e-04 0.00 0.15 736 -1.085117e+05 -1.085124e+05 +5.668139e+02 +3.811074e-04 0.00 0.15 737 -1.085102e+05 -1.085102e+05 +5.668139e+02 +3.740233e-04 0.00 0.15 738 -1.085097e+05 -1.085097e+05 +5.668139e+02 +3.726351e-04 0.00 0.15 739 -1.085085e+05 -1.085085e+05 +5.668139e+02 +3.687550e-04 0.00 0.15 740 -1.085069e+05 -1.085069e+05 +5.668139e+02 +3.637872e-04 0.00 0.15 741 -1.085068e+05 -1.085068e+05 +5.668139e+02 +3.635446e-04 0.00 0.15 742 -1.085046e+05 -1.085046e+05 +5.668139e+02 +3.567869e-04 0.00 0.15 743 -1.085046e+05 -1.085066e+05 +6.174771e+02 +3.058578e-04 0.00 0.15 744 -1.085046e+05 -1.085076e+05 +5.668139e+02 +3.661028e-04 0.00 0.15 745 -1.085046e+05 -1.085054e+05 +5.668139e+02 +3.592976e-04 0.00 0.15 746 -1.085040e+05 -1.085040e+05 +5.668139e+02 +3.549485e-04 0.00 0.15 747 -1.085038e+05 -1.085038e+05 +5.668139e+02 +3.542230e-04 0.00 0.15 748 -1.085017e+05 -1.085017e+05 +5.668139e+02 +3.476387e-04 0.00 0.15 749 -1.085017e+05 -1.085018e+05 +5.668139e+02 +3.481051e-04 0.00 0.15 750 -1.085001e+05 -1.085001e+05 +5.668139e+02 +3.427499e-04 0.00 0.15 751 -1.084992e+05 -1.084992e+05 +5.668139e+02 +3.398319e-04 0.00 0.15 752 -1.084986e+05 -1.084986e+05 +5.668139e+02 +3.379146e-04 0.00 0.15 753 -1.084986e+05 -1.084991e+05 +6.174771e+02 +2.861983e-04 0.00 0.15 754 -1.084986e+05 -1.085013e+05 +5.668139e+02 +3.465563e-04 0.00 0.15 755 -1.084986e+05 -1.084993e+05 +5.668139e+02 +3.401144e-04 0.00 0.15 756 -1.084972e+05 -1.084972e+05 +5.668139e+02 +3.337922e-04 0.00 0.15 757 -1.084965e+05 -1.084965e+05 +5.668139e+02 +3.316026e-04 0.00 0.15 758 -1.084957e+05 -1.084957e+05 +5.668139e+02 +3.290863e-04 0.00 0.15 759 -1.084940e+05 -1.084940e+05 +5.668139e+02 +3.237333e-04 0.00 0.15 760 -1.084940e+05 -1.084942e+05 +5.668139e+02 +3.244322e-04 0.00 0.15 761 -1.084923e+05 -1.084923e+05 +5.668139e+02 +3.184016e-04 0.00 0.15 762 -1.084923e+05 -1.084942e+05 +6.174771e+02 +2.731891e-04 0.00 0.15 763 -1.084923e+05 -1.084950e+05 +5.668139e+02 +3.267276e-04 0.00 0.15 764 -1.084923e+05 -1.084930e+05 +5.668139e+02 +3.206543e-04 0.00 0.15 765 -1.084915e+05 -1.084915e+05 +5.668139e+02 +3.158675e-04 0.00 0.15 766 -1.084915e+05 -1.084916e+05 +5.668139e+02 +3.161215e-04 0.00 0.15 767 -1.084897e+05 -1.084897e+05 +5.668139e+02 +3.102453e-04 0.00 0.15 768 -1.084895e+05 -1.084895e+05 +5.668139e+02 +3.097856e-04 0.00 0.15 769 -1.084883e+05 -1.084883e+05 +5.668139e+02 +3.058785e-04 0.00 0.15 770 -1.084872e+05 -1.084872e+05 +5.668139e+02 +3.024270e-04 0.00 0.15 771 -1.084869e+05 -1.084869e+05 +5.668139e+02 +3.015595e-04 0.00 0.15 772 -1.084869e+05 -1.084877e+05 +6.174771e+02 +2.561954e-04 0.00 0.15 773 -1.084869e+05 -1.084875e+05 +5.668139e+02 +3.033924e-04 0.00 0.15 774 -1.084866e+05 -1.084866e+05 +5.668139e+02 +3.007359e-04 0.00 0.15 775 -1.084861e+05 -1.084861e+05 +5.668139e+02 +2.991121e-04 0.00 0.15 776 -1.084843e+05 -1.084843e+05 +5.668139e+02 +2.936021e-04 0.00 0.15 777 -1.084843e+05 -1.084847e+05 +5.668139e+02 +2.948790e-04 0.00 0.15 778 -1.084830e+05 -1.084830e+05 +5.668139e+02 +2.893977e-04 0.00 0.15 779 -1.084825e+05 -1.084825e+05 +5.668139e+02 +2.879582e-04 0.00 0.15 780 -1.084817e+05 -1.084817e+05 +5.668139e+02 +2.853197e-04 0.00 0.15 781 -1.084817e+05 -1.084819e+05 +6.174771e+02 +2.409807e-04 0.00 0.15 782 -1.084817e+05 -1.084840e+05 +5.668139e+02 +2.925813e-04 0.00 0.15 783 -1.084817e+05 -1.084823e+05 +5.668139e+02 +2.871427e-04 0.00 0.15 784 -1.084805e+05 -1.084805e+05 +5.668139e+02 +2.818052e-04 0.00 0.15 785 -1.084803e+05 -1.084803e+05 +5.668139e+02 +2.809918e-04 0.00 0.15 786 -1.084793e+05 -1.084793e+05 +5.668139e+02 +2.778369e-04 0.00 0.15 787 -1.084781e+05 -1.084781e+05 +5.668139e+02 +2.743189e-04 0.00 0.15 788 -1.084780e+05 -1.084780e+05 +5.668139e+02 +2.739122e-04 0.00 0.15 789 -1.084764e+05 -1.084764e+05 +5.668139e+02 +2.688206e-04 0.00 0.15 790 -1.084764e+05 -1.084778e+05 +6.174771e+02 +2.301752e-04 0.00 0.16 791 -1.084764e+05 -1.084786e+05 +5.668139e+02 +2.758254e-04 0.00 0.16 792 -1.084764e+05 -1.084770e+05 +5.668139e+02 +2.706983e-04 0.00 0.16 793 -1.084760e+05 -1.084760e+05 +5.668139e+02 +2.676575e-04 0.00 0.16 794 -1.084757e+05 -1.084757e+05 +5.668139e+02 +2.668762e-04 0.00 0.16 795 -1.084741e+05 -1.084741e+05 +5.668139e+02 +2.619154e-04 0.00 0.16 796 -1.084741e+05 -1.084743e+05 +5.668139e+02 +2.624950e-04 0.00 0.16 797 -1.084730e+05 -1.084730e+05 +5.668139e+02 +2.582332e-04 0.00 0.16 798 -1.084723e+05 -1.084723e+05 +5.668139e+02 +2.562554e-04 0.00 0.16 799 -1.084718e+05 -1.084718e+05 +5.668139e+02 +2.545912e-04 0.00 0.16 800 -1.084718e+05 -1.084721e+05 +6.174771e+02 +2.154375e-04 0.00 0.16 Iter fbest f |∇f| α sg time tot time 801 -1.084718e+05 -1.084739e+05 +5.668139e+02 +2.610921e-04 0.00 0.16 802 -1.084718e+05 -1.084723e+05 +5.668139e+02 +2.562388e-04 0.00 0.16 803 -1.084708e+05 -1.084708e+05 +5.668139e+02 +2.514758e-04 0.00 0.16 804 -1.084703e+05 -1.084703e+05 +5.668139e+02 +2.500522e-04 0.00 0.16 805 -1.084697e+05 -1.084697e+05 +5.668139e+02 +2.479314e-04 0.00 0.16 806 -1.084684e+05 -1.084684e+05 +5.668139e+02 +2.441171e-04 0.00 0.16 807 -1.084684e+05 -1.084685e+05 +5.668139e+02 +2.444261e-04 0.00 0.16 808 -1.084671e+05 -1.084671e+05 +5.668139e+02 +2.398826e-04 0.00 0.16 809 -1.084671e+05 -1.084684e+05 +6.174771e+02 +2.056884e-04 0.00 0.16 810 -1.084671e+05 -1.084691e+05 +5.668139e+02 +2.461486e-04 0.00 1.63 811 -1.084671e+05 -1.084676e+05 +5.668139e+02 +2.415731e-04 0.00 1.63 812 -1.084665e+05 -1.084665e+05 +5.668139e+02 +2.381870e-04 0.00 1.63 813 -1.084665e+05 -1.084665e+05 +5.668139e+02 +2.381591e-04 0.00 1.63 814 -1.084651e+05 -1.084651e+05 +5.668139e+02 +2.337322e-04 0.00 1.63 815 -1.084651e+05 -1.084651e+05 +5.668139e+02 +2.335989e-04 0.00 1.63 816 -1.084640e+05 -1.084640e+05 +5.668139e+02 +2.304432e-04 0.00 1.63 817 -1.084633e+05 -1.084633e+05 +5.668139e+02 +2.280491e-04 0.00 1.63 818 -1.084630e+05 -1.084630e+05 +5.668139e+02 +2.271904e-04 0.00 1.63 819 -1.084630e+05 -1.084635e+05 +6.174771e+02 +1.927491e-04 0.00 1.63 820 -1.084630e+05 -1.084634e+05 +5.668139e+02 +2.285636e-04 0.00 1.63 821 -1.084629e+05 -1.084629e+05 +5.668139e+02 +2.267650e-04 0.00 1.63 822 -1.084624e+05 -1.084624e+05 +5.668139e+02 +2.253398e-04 0.00 1.63 823 -1.084611e+05 -1.084611e+05 +5.668139e+02 +2.213849e-04 0.00 1.63 824 -1.084611e+05 -1.084614e+05 +5.668139e+02 +2.221517e-04 0.00 1.63 825 -1.084600e+05 -1.084600e+05 +5.668139e+02 +2.180223e-04 0.00 1.63 826 -1.084598e+05 -1.084598e+05 +5.668139e+02 +2.171275e-04 0.00 1.63 827 -1.084591e+05 -1.084591e+05 +5.668139e+02 +2.149509e-04 0.00 1.63 828 -1.084591e+05 -1.084592e+05 +6.174771e+02 +1.815143e-04 0.00 1.63 829 -1.084591e+05 -1.084608e+05 +5.668139e+02 +2.204198e-04 0.00 1.63 830 -1.084591e+05 -1.084595e+05 +5.668139e+02 +2.163226e-04 0.00 1.63 831 -1.084582e+05 -1.084582e+05 +5.668139e+02 +2.123015e-04 0.00 1.63 832 -1.084581e+05 -1.084581e+05 +5.668139e+02 +2.118745e-04 0.00 1.63 833 -1.084572e+05 -1.084572e+05 +5.668139e+02 +2.093128e-04 0.00 1.63 834 -1.084565e+05 -1.084565e+05 +5.668139e+02 +2.068421e-04 0.00 1.63 835 -1.084563e+05 -1.084563e+05 +5.668139e+02 +2.063568e-04 0.00 1.63 836 -1.084551e+05 -1.084551e+05 +5.668139e+02 +2.025210e-04 0.00 1.63 837 -1.084551e+05 -1.084561e+05 +6.174771e+02 +1.733789e-04 0.00 1.63 838 -1.084551e+05 -1.084568e+05 +5.668139e+02 +2.077968e-04 0.00 1.64 839 -1.084551e+05 -1.084555e+05 +5.668139e+02 +2.039342e-04 0.00 1.64 840 -1.084548e+05 -1.084548e+05 +5.668139e+02 +2.018190e-04 0.00 1.64 841 -1.084546e+05 -1.084546e+05 +5.668139e+02 +2.010555e-04 0.00 1.64 842 -1.084534e+05 -1.084534e+05 +5.668139e+02 +1.973183e-04 0.00 1.64 843 -1.084534e+05 -1.084536e+05 +5.668139e+02 +1.979248e-04 0.00 1.64 844 -1.084525e+05 -1.084525e+05 +5.668139e+02 +1.945450e-04 0.00 1.64 845 -1.084521e+05 -1.084521e+05 +5.668139e+02 +1.932193e-04 0.00 1.64 846 -1.084516e+05 -1.084516e+05 +5.668139e+02 +1.918020e-04 0.00 1.64 847 -1.084516e+05 -1.084519e+05 +6.174771e+02 +1.622776e-04 0.00 1.64 848 -1.084516e+05 -1.084532e+05 +5.668139e+02 +1.966981e-04 0.00 1.64 849 -1.084516e+05 -1.084520e+05 +5.668139e+02 +1.930419e-04 0.00 1.64 850 -1.084509e+05 -1.084509e+05 +5.668139e+02 +1.894535e-04 0.00 1.64 851 -1.084506e+05 -1.084506e+05 +5.668139e+02 +1.885418e-04 0.00 1.64 852 -1.084500e+05 -1.084500e+05 +5.668139e+02 +1.867840e-04 0.00 1.64 853 -1.084491e+05 -1.084491e+05 +5.668139e+02 +1.840660e-04 0.00 1.64 854 -1.084491e+05 -1.084492e+05 +5.668139e+02 +1.841439e-04 0.00 1.64 855 -1.084481e+05 -1.084481e+05 +5.668139e+02 +1.807210e-04 0.00 1.64 856 -1.084481e+05 -1.084491e+05 +6.174771e+02 +1.549369e-04 0.00 1.64 857 -1.084481e+05 -1.084496e+05 +5.668139e+02 +1.854404e-04 0.00 1.64 858 -1.084481e+05 -1.084485e+05 +5.668139e+02 +1.819934e-04 0.00 1.64 859 -1.084477e+05 -1.084477e+05 +5.668139e+02 +1.795944e-04 0.00 1.64 860 -1.084476e+05 -1.084476e+05 +5.668139e+02 +1.794221e-04 0.00 1.64 861 -1.084466e+05 -1.084466e+05 +5.668139e+02 +1.760870e-04 0.00 1.64 862 -1.084466e+05 -1.084466e+05 +5.668139e+02 +1.761336e-04 0.00 1.64 863 -1.084458e+05 -1.084458e+05 +5.668139e+02 +1.736098e-04 0.00 1.64 864 -1.084452e+05 -1.084452e+05 +5.668139e+02 +1.719484e-04 0.00 1.64 865 -1.084450e+05 -1.084450e+05 +5.668139e+02 +1.711598e-04 0.00 1.64 866 -1.084450e+05 -1.084453e+05 +6.174771e+02 +1.450739e-04 0.00 1.65 867 -1.084450e+05 -1.084453e+05 +5.668139e+02 +1.721904e-04 0.00 1.65 868 -1.084449e+05 -1.084449e+05 +5.668139e+02 +1.709747e-04 0.00 1.65 869 -1.084445e+05 -1.084445e+05 +5.668139e+02 +1.697624e-04 0.00 1.65 870 -1.084436e+05 -1.084436e+05 +5.668139e+02 +1.669177e-04 0.00 1.65 871 -1.084436e+05 -1.084438e+05 +5.668139e+02 +1.673611e-04 0.00 1.65 872 -1.084428e+05 -1.084428e+05 +5.668139e+02 +1.642502e-04 0.00 1.65 873 -1.084426e+05 -1.084426e+05 +5.668139e+02 +1.637065e-04 0.00 1.65 874 -1.084420e+05 -1.084420e+05 +5.668139e+02 +1.619369e-04 0.00 1.65 875 -1.084420e+05 -1.084421e+05 +6.174771e+02 +1.367558e-04 0.00 1.65 876 -1.084420e+05 -1.084434e+05 +5.668139e+02 +1.660575e-04 0.00 1.65 877 -1.084420e+05 -1.084424e+05 +5.668139e+02 +1.629708e-04 0.00 1.65 878 -1.084414e+05 -1.084414e+05 +5.668139e+02 +1.599414e-04 0.00 1.65 879 -1.084413e+05 -1.084413e+05 +5.668139e+02 +1.597452e-04 0.00 1.65 880 -1.084407e+05 -1.084407e+05 +5.668139e+02 +1.576904e-04 0.00 1.65 881 -1.084401e+05 -1.084401e+05 +5.668139e+02 +1.559505e-04 0.00 1.65 882 -1.084399e+05 -1.084399e+05 +5.668139e+02 +1.554640e-04 0.00 1.65 883 -1.084390e+05 -1.084390e+05 +5.668139e+02 +1.525742e-04 0.00 1.65 884 -1.084390e+05 -1.084398e+05 +6.174771e+02 +1.306208e-04 0.00 1.65 885 -1.084390e+05 -1.084403e+05 +5.668139e+02 +1.565489e-04 0.00 1.65 886 -1.084390e+05 -1.084394e+05 +5.668139e+02 +1.536389e-04 0.00 1.65 887 -1.084389e+05 -1.084389e+05 +5.668139e+02 +1.521628e-04 0.00 1.65 888 -1.084387e+05 -1.084387e+05 +5.668139e+02 +1.514707e-04 0.00 1.65 889 -1.084378e+05 -1.084378e+05 +5.668139e+02 +1.486551e-04 0.00 1.65 890 -1.084378e+05 -1.084379e+05 +5.668139e+02 +1.492257e-04 0.00 1.65 891 -1.084371e+05 -1.084371e+05 +5.668139e+02 +1.465663e-04 0.00 1.65 892 -1.084368e+05 -1.084368e+05 +5.668139e+02 +1.456774e-04 0.00 1.65 893 -1.084364e+05 -1.084364e+05 +5.668139e+02 +1.445003e-04 0.00 1.65 894 -1.084364e+05 -1.084366e+05 +6.174771e+02 +1.222522e-04 0.00 1.65 895 -1.084364e+05 -1.084376e+05 +5.668139e+02 +1.481887e-04 0.00 1.65 896 -1.084364e+05 -1.084367e+05 +5.668139e+02 +1.454342e-04 0.00 1.65 897 -1.084359e+05 -1.084359e+05 +5.668139e+02 +1.427308e-04 0.00 1.66 898 -1.084357e+05 -1.084357e+05 +5.668139e+02 +1.421505e-04 0.00 1.66 899 -1.084352e+05 -1.084352e+05 +5.668139e+02 +1.407201e-04 0.00 1.66 900 -1.084346e+05 -1.084346e+05 +5.668139e+02 +1.387755e-04 0.00 1.66 Iter fbest f |∇f| α sg time tot time 901 -1.084346e+05 -1.084346e+05 +5.668139e+02 +1.387316e-04 0.00 1.66 902 -1.084337e+05 -1.084337e+05 +5.668139e+02 +1.361528e-04 0.00 1.66 903 -1.084337e+05 -1.084345e+05 +6.174771e+02 +1.167205e-04 0.00 1.66 904 -1.084337e+05 -1.084349e+05 +5.668139e+02 +1.397079e-04 0.00 1.66 905 -1.084337e+05 -1.084341e+05 +5.668139e+02 +1.371110e-04 0.00 1.66 906 -1.084335e+05 -1.084335e+05 +5.668139e+02 +1.354039e-04 0.00 1.66 907 -1.084334e+05 -1.084334e+05 +5.668139e+02 +1.351743e-04 0.00 1.66 908 -1.084326e+05 -1.084326e+05 +5.668139e+02 +1.326617e-04 0.00 1.66 909 -1.084326e+05 -1.084327e+05 +5.668139e+02 +1.327937e-04 0.00 1.66 910 -1.084320e+05 -1.084320e+05 +5.668139e+02 +1.307959e-04 0.00 1.66 911 -1.084316e+05 -1.084316e+05 +5.668139e+02 +1.296379e-04 0.00 1.66 912 -1.084314e+05 -1.084314e+05 +5.668139e+02 +1.289505e-04 0.00 1.66 913 -1.084314e+05 -1.084316e+05 +6.174771e+02 +1.092193e-04 0.00 1.66 914 -1.084314e+05 -1.084325e+05 +5.668139e+02 +1.322484e-04 0.00 1.66 915 -1.084314e+05 -1.084317e+05 +5.668139e+02 +1.297901e-04 0.00 1.66 916 -1.084309e+05 -1.084309e+05 +5.668139e+02 +1.273776e-04 0.00 1.66 917 -1.084306e+05 -1.084306e+05 +5.668139e+02 +1.264987e-04 0.00 1.66 918 -1.084303e+05 -1.084303e+05 +5.668139e+02 +1.255815e-04 0.00 1.66 919 -1.084297e+05 -1.084297e+05 +5.668139e+02 +1.234969e-04 0.00 1.66 920 -1.084297e+05 -1.084298e+05 +5.668139e+02 +1.238053e-04 0.00 1.66 921 -1.084290e+05 -1.084290e+05 +5.668139e+02 +1.215040e-04 0.00 1.66 922 -1.084290e+05 -1.084298e+05 +6.174771e+02 +1.042548e-04 0.00 1.66 923 -1.084290e+05 -1.084301e+05 +5.668139e+02 +1.246815e-04 0.00 1.66 924 -1.084290e+05 -1.084293e+05 +5.668139e+02 +1.223639e-04 0.00 1.66 925 -1.084287e+05 -1.084287e+05 +5.668139e+02 +1.204964e-04 0.00 1.66 926 -1.084287e+05 -1.084288e+05 +5.668139e+02 +1.206339e-04 0.00 1.66 927 -1.084280e+05 -1.084280e+05 +5.668139e+02 +1.183916e-04 0.00 1.67 928 -1.084280e+05 -1.084280e+05 +5.668139e+02 +1.181767e-04 0.00 1.67 929 -1.084275e+05 -1.084275e+05 +5.668139e+02 +1.167250e-04 0.00 1.67 930 -1.084271e+05 -1.084271e+05 +5.668139e+02 +1.153697e-04 0.00 1.67 931 -1.084270e+05 -1.084270e+05 +5.668139e+02 +1.150766e-04 0.00 1.67 932 -1.084270e+05 -1.084273e+05 +6.174771e+02 +9.780136e-05 0.00 1.67 933 -1.084270e+05 -1.084272e+05 +5.668139e+02 +1.157771e-04 0.00 1.67 934 -1.084269e+05 -1.084269e+05 +5.668139e+02 +1.147260e-04 0.00 1.67 935 -1.084267e+05 -1.084267e+05 +5.668139e+02 +1.141435e-04 0.00 1.67 936 -1.084260e+05 -1.084260e+05 +5.668139e+02 +1.120218e-04 0.00 1.67 937 -1.084260e+05 -1.084261e+05 +5.668139e+02 +1.125110e-04 0.00 1.67 938 -1.084255e+05 -1.084255e+05 +5.668139e+02 +1.104480e-04 0.00 1.67 939 -1.084253e+05 -1.084253e+05 +5.668139e+02 +1.098355e-04 0.00 1.67 940 -1.084250e+05 -1.084250e+05 +5.668139e+02 +1.088914e-04 0.00 1.67 941 -1.084250e+05 -1.084251e+05 +6.174771e+02 +9.192840e-05 0.00 1.67 942 -1.084250e+05 -1.084259e+05 +5.668139e+02 +1.116606e-04 0.00 1.67 943 -1.084250e+05 -1.084252e+05 +5.668139e+02 +1.095850e-04 0.00 1.67 944 -1.084246e+05 -1.084246e+05 +5.668139e+02 +1.075480e-04 0.00 1.67 945 -1.084244e+05 -1.084244e+05 +5.668139e+02 +1.071792e-04 0.00 1.67 946 -1.084241e+05 -1.084241e+05 +5.668139e+02 +1.060333e-04 0.00 1.67 947 -1.084236e+05 -1.084236e+05 +5.668139e+02 +1.046342e-04 0.00 1.67 948 -1.084236e+05 -1.084236e+05 +5.668139e+02 +1.045352e-04 0.00 1.67 949 -1.084230e+05 -1.084230e+05 +5.668139e+02 +1.025921e-04 0.00 1.67 950 -1.084230e+05 -1.084235e+05 +6.174771e+02 +8.781871e-05 0.00 1.67 951 -1.084230e+05 -1.084238e+05 +5.668139e+02 +1.052641e-04 0.00 1.67 952 -1.084230e+05 -1.084232e+05 +5.668139e+02 +1.033074e-04 0.00 1.67 953 -1.084228e+05 -1.084228e+05 +5.668139e+02 +1.020940e-04 0.00 1.67 954 -1.084227e+05 -1.084227e+05 +5.668139e+02 +1.018485e-04 0.00 1.67 955 -1.084221e+05 -1.084221e+05 +5.668139e+02 +9.995531e-05 0.00 1.67 956 -1.084221e+05 -1.084222e+05 +5.668139e+02 +1.001253e-04 0.00 1.67 957 -1.084217e+05 -1.084217e+05 +5.668139e+02 +9.854983e-05 0.00 1.67 958 -1.084214e+05 -1.084214e+05 +5.668139e+02 +9.774550e-05 0.00 1.67 959 -1.084212e+05 -1.084212e+05 +5.668139e+02 +9.715971e-05 0.00 1.67 960 -1.084212e+05 -1.084213e+05 +6.174771e+02 +8.220399e-05 0.00 1.67 961 -1.084212e+05 -1.084220e+05 +5.668139e+02 +9.963994e-05 0.00 1.67 962 -1.084212e+05 -1.084214e+05 +5.668139e+02 +9.778781e-05 0.00 1.67 963 -1.084208e+05 -1.084208e+05 +5.668139e+02 +9.597010e-05 0.00 1.67 964 -1.084206e+05 -1.084206e+05 +5.668139e+02 +9.537977e-05 0.00 1.68 965 -1.084204e+05 -1.084204e+05 +5.668139e+02 +9.461725e-05 0.00 1.68 966 -1.084199e+05 -1.084199e+05 +5.668139e+02 +9.311610e-05 0.00 1.68 967 -1.084199e+05 -1.084200e+05 +5.668139e+02 +9.327931e-05 0.00 1.68 968 -1.084194e+05 -1.084194e+05 +5.668139e+02 +9.154541e-05 0.00 1.68 969 -1.084194e+05 -1.084199e+05 +6.174771e+02 +7.848884e-05 0.00 1.68 970 -1.084194e+05 -1.084202e+05 +5.668139e+02 +9.393629e-05 0.00 1.68 971 -1.084194e+05 -1.084196e+05 +5.668139e+02 +9.219018e-05 0.00 1.68 972 -1.084192e+05 -1.084192e+05 +5.668139e+02 +9.085443e-05 0.00 1.68 973 -1.084192e+05 -1.084192e+05 +5.668139e+02 +9.088713e-05 0.00 1.68 974 -1.084187e+05 -1.084187e+05 +5.668139e+02 +8.919770e-05 0.00 1.68 975 -1.084186e+05 -1.084186e+05 +5.668139e+02 +8.910472e-05 0.00 1.68 976 -1.084183e+05 -1.084183e+05 +5.668139e+02 +8.794237e-05 0.00 1.68 977 -1.084179e+05 -1.084179e+05 +5.668139e+02 +8.698795e-05 0.00 1.68 978 -1.084179e+05 -1.084179e+05 +5.668139e+02 +8.670082e-05 0.00 1.68 979 -1.084179e+05 -1.084181e+05 +6.174771e+02 +7.358801e-05 0.00 1.68 980 -1.084179e+05 -1.084180e+05 +5.668139e+02 +8.722576e-05 0.00 1.68 981 -1.084178e+05 -1.084178e+05 +5.668139e+02 +8.649957e-05 0.00 1.68 982 -1.084176e+05 -1.084176e+05 +5.668139e+02 +8.599531e-05 0.00 1.68 983 -1.084171e+05 -1.084171e+05 +5.668139e+02 +8.444750e-05 0.00 1.68 984 -1.084171e+05 -1.084172e+05 +5.668139e+02 +8.477846e-05 0.00 1.68 985 -1.084167e+05 -1.084167e+05 +5.668139e+02 +8.320258e-05 0.00 1.68 986 -1.084166e+05 -1.084166e+05 +5.668139e+02 +8.282387e-05 0.00 1.68 987 -1.084164e+05 -1.084164e+05 +5.668139e+02 +8.203031e-05 0.00 1.68 988 -1.084164e+05 -1.084164e+05 +6.174771e+02 +6.926105e-05 0.00 1.68 989 -1.084164e+05 -1.084170e+05 +5.668139e+02 +8.411690e-05 0.00 1.68 990 -1.084164e+05 -1.084165e+05 +5.668139e+02 +8.255331e-05 0.00 1.68 991 -1.084160e+05 -1.084160e+05 +5.668139e+02 +8.101879e-05 0.00 1.68 992 -1.084160e+05 -1.084160e+05 +5.668139e+02 +8.082037e-05 0.00 1.68 993 -1.084157e+05 -1.084157e+05 +5.668139e+02 +7.987805e-05 0.00 1.68 994 -1.084153e+05 -1.084153e+05 +5.668139e+02 +7.890091e-05 0.00 1.68 995 -1.084153e+05 -1.084153e+05 +5.668139e+02 +7.874985e-05 0.00 1.68 996 -1.084148e+05 -1.084148e+05 +5.668139e+02 +7.728603e-05 0.00 1.68 997 -1.084148e+05 -1.084152e+05 +6.174771e+02 +6.616014e-05 0.00 1.68 998 -1.084148e+05 -1.084155e+05 +5.668139e+02 +7.929912e-05 0.00 1.68 999 -1.084148e+05 -1.084150e+05 +5.668139e+02 +7.782509e-05 0.00 1.68 1000 -1.084147e+05 -1.084147e+05 +5.668139e+02 +7.698504e-05 0.00 1.69 DD.dual_objective_value(algo) = -108414.7336000847 DD.dual_solution(algo) = [40.02837978993153, 23.367013067530266, -63.395392857461815, -16.907484318949756, -27.62427268056398, 44.5317569995137, -23.120895470981772, 4.257259613033712, 18.86363585794811] ****************************************************************************** This program contains Ipopt, a library for large-scale nonlinear optimization. Ipopt is released as open source code under the Eclipse Public License (EPL). For more information visit https://github.com/coin-or/Ipopt ****************************************************************************** Iter 1: ncols 10, nrows 4, fx0 +1.154000e+05, fy +1.154000e+05, m -1.216800e+06, v -1.332200e+06, u 1.000000e-02, i +0, master time 2.4s, eval time 0.0s, time 24.9s Iter 2: ncols 10, nrows 5, fx0 +1.154000e+05, fy +5.387233e+06, m -2.440467e+05, v -3.594467e+05, u 1.000000e-02, i -1, master time 2.4s, eval time 0.0s, time 26.7s Iter 3: ncols 10, nrows 6, fx0 +1.154000e+05, fy +3.332575e+06, m +6.418420e+04, v -5.121580e+04, u 1.000000e-02, i -2, master time 2.4s, eval time 0.0s, time 26.7s Iter 4: ncols 10, nrows 7, fx0 +1.154000e+05, fy +1.251737e+06, m +9.227554e+04, v -2.312446e+04, u 1.000000e-02, i -3, master time 2.4s, eval time 0.0s, time 26.7s Iter 5: ncols 10, nrows 8, fx0 +1.154000e+05, fy +2.326776e+05, m +9.327913e+04, v -2.212087e+04, u 1.000000e-02, i -4, master time 2.4s, eval time 0.0s, time 26.7s Iter 6: ncols 10, nrows 9, fx0 +1.154000e+05, fy +1.785821e+05, m +1.023305e+05, v -1.306945e+04, u 1.000000e-02, i -5, master time 2.4s, eval time 0.0s, time 26.7s Iter 7: ncols 10, nrows 10, fx0 +1.154000e+05, fy +1.527007e+05, m +1.029119e+05, v -1.248813e+04, u 1.000000e-02, i -6, master time 2.4s, eval time 0.0s, time 26.7s Iter 8: ncols 10, nrows 11, fx0 +1.154000e+05, fy +1.179714e+05, m +1.038162e+05, v -1.158385e+04, u 1.000000e-02, i -7, master time 2.4s, eval time 0.0s, time 26.7s Iter 9: ncols 10, nrows 12, fx0 +1.154000e+05, fy +2.056245e+05, m +1.044640e+05, v -1.093600e+04, u 1.000000e-02, i -8, master time 2.4s, eval time 0.0s, time 26.7s Iter 10: ncols 10, nrows 13, fx0 +1.154000e+05, fy +1.285070e+05, m +1.057059e+05, v -9.694098e+03, u 1.000000e-02, i -9, master time 2.4s, eval time 0.0s, time 26.7s Iter 11: ncols 10, nrows 14, fx0 +1.151550e+05, fy +1.151550e+05, m +1.060115e+05, v -9.143505e+03, u 1.000000e-02, i +1, master time 2.4s, eval time 0.0s, time 27.0s Iter 12: ncols 10, nrows 15, fx0 +1.118179e+05, fy +1.118179e+05, m +1.063641e+05, v -5.453794e+03, u 1.000000e-02, i +2, master time 2.4s, eval time 0.0s, time 27.0s Iter 13: ncols 10, nrows 16, fx0 +1.114122e+05, fy +1.114122e+05, m +1.065173e+05, v -4.894860e+03, u 1.000000e-02, i +3, master time 2.4s, eval time 0.0s, time 27.1s Iter 14: ncols 10, nrows 17, fx0 +1.108414e+05, fy +1.108414e+05, m +1.070019e+05, v -3.839479e+03, u 1.000000e-02, i +4, master time 2.4s, eval time 0.0s, time 27.1s TERMINATION: Dual objective limit reached. DD.dual_objective_value(algo) = -110841.39211995454 Iter 1: ncols 10, nrows 4, fx0 +1.154000e+05, fy +1.154000e+05, m -1.216800e+06, v -1.332200e+06, u 1.000000e-02, i +0, master time 0.0s, eval time 0.0s, time 0.0s Iter 2: ncols 10, nrows 5, fx0 +1.154000e+05, fy +5.387233e+06, m -2.440467e+05, v -3.594467e+05, u 1.000000e-02, i -1, master time 0.0s, eval time 0.0s, time 0.0s Iter 3: ncols 10, nrows 6, fx0 +1.154000e+05, fy +3.332575e+06, m +6.418420e+04, v -5.121580e+04, u 1.000000e-02, i -2, master time 0.0s, eval time 0.0s, time 0.0s Iter 4: ncols 10, nrows 7, fx0 +1.154000e+05, fy +1.251737e+06, m +9.227554e+04, v -2.312446e+04, u 1.000000e-02, i -3, master time 0.0s, eval time 0.0s, time 0.0s Iter 5: ncols 10, nrows 8, fx0 +1.154000e+05, fy +2.326776e+05, m +9.327913e+04, v -2.212087e+04, u 1.000000e-02, i -4, master time 0.0s, eval time 0.0s, time 0.0s Iter 6: ncols 10, nrows 9, fx0 +1.154000e+05, fy +1.785821e+05, m +1.023305e+05, v -1.306945e+04, u 1.000000e-02, i -5, master time 0.0s, eval time 0.0s, time 0.0s Iter 7: ncols 10, nrows 10, fx0 +1.154000e+05, fy +1.527007e+05, m +1.029119e+05, v -1.248813e+04, u 1.000000e-02, i -6, master time 0.0s, eval time 0.0s, time 0.0s Iter 8: ncols 10, nrows 11, fx0 +1.154000e+05, fy +1.179714e+05, m +1.038162e+05, v -1.158385e+04, u 1.000000e-02, i -7, master time 0.0s, eval time 0.0s, time 0.0s Iter 9: ncols 10, nrows 12, fx0 +1.154000e+05, fy +2.056245e+05, m +1.044640e+05, v -1.093600e+04, u 1.000000e-02, i -8, master time 0.0s, eval time 0.0s, time 0.1s Iter 10: ncols 10, nrows 13, fx0 +1.154000e+05, fy +1.285070e+05, m +1.057059e+05, v -9.694098e+03, u 1.000000e-02, i -9, master time 0.0s, eval time 0.0s, time 0.1s Iter 11: ncols 10, nrows 14, fx0 +1.151550e+05, fy +1.151550e+05, m +1.060115e+05, v -9.143505e+03, u 1.000000e-02, i +1, master time 0.0s, eval time 0.0s, time 0.1s Iter 12: ncols 10, nrows 15, fx0 +1.118179e+05, fy +1.118179e+05, m +1.063641e+05, v -5.453794e+03, u 1.000000e-02, i +2, master time 0.1s, eval time 0.0s, time 0.1s Iter 13: ncols 10, nrows 16, fx0 +1.114122e+05, fy +1.114122e+05, m +1.065173e+05, v -4.894860e+03, u 1.000000e-02, i +3, master time 0.1s, eval time 0.0s, time 0.1s Iter 14: ncols 10, nrows 17, fx0 +1.108414e+05, fy +1.108414e+05, m +1.070019e+05, v -3.839479e+03, u 1.000000e-02, i +4, master time 0.1s, eval time 0.0s, time 0.1s Iter 15: ncols 10, nrows 18, fx0 +1.105321e+05, fy +1.105321e+05, m +1.074300e+05, v -3.102106e+03, u 5.000000e-03, i +1, master time 0.1s, eval time 0.0s, time 0.1s Removed 1 inactive cuts. Iter 16: ncols 10, nrows 18, fx0 +1.103100e+05, fy +1.103100e+05, m +1.077528e+05, v -2.557241e+03, u 5.000000e-03, i +2, master time 0.1s, eval time 0.0s, time 0.7s Removed 1 inactive cuts. Iter 17: ncols 10, nrows 18, fx0 +1.103100e+05, fy +1.106328e+05, m +1.083900e+05, v -1.920000e+03, u 5.000000e-03, i -1, master time 0.1s, eval time 0.0s, time 0.7s Iter 18: ncols 10, nrows 19, fx0 +1.083900e+05, fy +1.083900e+05, m +1.083900e+05, v -2.158976e-05, u 5.000000e-03, i +1, master time 0.1s, eval time 0.0s, time 0.7s TERMINATION: Optimal: v = -2.1589764857912756e-5 DD.dual_objective_value(algo) = -108390.00002159717 DD.dual_solution(algo) = [40.11111117498621, 23.44444450860141, -63.55555568357625, -16.777777649732613, -28.11111146315631, 44.8888891128804, -23.333333525253593, 4.666666954554898, 18.666666570695863] Iter 1: ncols 10, nrows 4, Δ 1.000000e+01, fx0 +1.154000e+05, m +1.127700e+05, fy +1.154000e+05, linerr +0.000000e+00, master time 0.0s, eval time 0.0s, time 11.7s Iter 2: ncols 10, nrows 4, Δ 2.000000e+01, fx0 +1.132200e+05, m +1.075100e+05, fy +1.132200e+05, linerr +0.000000e+00, master time 0.0s, eval time 0.0s, time 13.0s Iter 3: ncols 10, nrows 5, Δ 2.000000e+01, fx0 +1.132200e+05, m +1.085843e+05, fy +1.179067e+05, linerr +7.373333e+03, master time 0.0s, eval time 0.0s, time 13.0s Iter 4: ncols 10, nrows 5, Δ 2.000000e+01, fx0 +1.120343e+05, m +1.057803e+05, fy +1.120343e+05, linerr +7.373333e+03, master time 0.0s, eval time 0.0s, time 13.0s Iter 5: ncols 10, nrows 6, Δ 2.000000e+01, fx0 +1.120343e+05, m +1.068408e+05, fy +1.236170e+05, linerr +1.533333e+03, master time 0.0s, eval time 0.0s, time 13.0s Iter 6: ncols 10, nrows 6, Δ 2.000000e+01, fx0 +1.099075e+05, m +1.048408e+05, fy +1.099075e+05, linerr +1.533333e+03, master time 0.0s, eval time 0.0s, time 13.0s TERMINATION: Dual objective limit reached. DD.dual_objective_value(algo) = -109907.47863247851 Iter 1: ncols 10, nrows 4, Δ 1.000000e+01, fx0 +1.154000e+05, m +1.127700e+05, fy +1.154000e+05, linerr +0.000000e+00, master time 0.0s, eval time 0.0s, time 0.0s Iter 2: ncols 10, nrows 4, Δ 2.000000e+01, fx0 +1.132200e+05, m +1.075100e+05, fy +1.132200e+05, linerr +0.000000e+00, master time 0.0s, eval time 0.0s, time 0.0s Iter 3: ncols 10, nrows 5, Δ 2.000000e+01, fx0 +1.132200e+05, m +1.085843e+05, fy +1.179067e+05, linerr +7.373333e+03, master time 0.0s, eval time 0.0s, time 0.0s Iter 4: ncols 10, nrows 5, Δ 2.000000e+01, fx0 +1.120343e+05, m +1.057803e+05, fy +1.120343e+05, linerr +7.373333e+03, master time 0.0s, eval time 0.0s, time 0.0s Iter 5: ncols 10, nrows 6, Δ 2.000000e+01, fx0 +1.120343e+05, m +1.068408e+05, fy +1.236170e+05, linerr +1.533333e+03, master time 0.0s, eval time 0.0s, time 0.0s Iter 6: ncols 10, nrows 6, Δ 2.000000e+01, fx0 +1.099075e+05, m +1.048408e+05, fy +1.099075e+05, linerr +1.533333e+03, master time 0.0s, eval time 0.0s, time 0.0s Iter 7: ncols 10, nrows 7, Δ 2.000000e+01, fx0 +1.099075e+05, m +1.061982e+05, fy +1.203166e+05, linerr +4.230838e+03, master time 0.0s, eval time 0.0s, time 0.0s Iter 8: ncols 10, nrows 8, Δ 2.000000e+01, fx0 +1.099075e+05, m +1.068147e+05, fy +1.106285e+05, linerr +2.248718e+03, master time 0.0s, eval time 0.0s, time 0.0s Iter 9: ncols 10, nrows 9, Δ 2.000000e+01, fx0 +1.099075e+05, m +1.074089e+05, fy +1.103801e+05, linerr +5.000000e+02, master time 0.0s, eval time 0.0s, time 0.0s Iter 10: ncols 10, nrows 10, Δ 2.000000e+01, fx0 +1.099075e+05, m +1.085577e+05, fy +1.103521e+05, linerr +1.182343e-11, master time 0.0s, eval time 0.0s, time 0.0s Iter 11: ncols 10, nrows 10, Δ 4.000000e+01, fx0 +1.085577e+05, m +1.083900e+05, fy +1.085577e+05, linerr +1.182343e-11, master time 0.0s, eval time 0.0s, time 0.0s Iter 12: ncols 10, nrows 10, Δ 8.000000e+01, fx0 +1.083900e+05, m +1.083900e+05, fy +1.083900e+05, linerr +1.182343e-11, master time 0.0s, eval time 0.0s, time 0.0s TERMINATION: Optimal DD.dual_objective_value(algo) = -108389.99999999983 DD.dual_solution(algo) = [92.05929487179412, 75.3926282051276, -11.607371794872407, -58.666666666666615, -70.0, 3.0000000000002043, -33.39262820512743, -5.39262820512765, 8.607371794872353] objval = 96480.08276953863 Iter 1: ncols 10, nrows 4, fx0 -9.643955e+04, fy -9.643955e+04, m -9.650136e+04, v -6.181184e+01, u 1.000000e-02, i +0, master time 0.0s, eval time 0.4s, time 0.4s Iter 2: ncols 10, nrows 5, fx0 -9.647631e+04, fy -9.647631e+04, m -9.648087e+04, v -4.560713e+00, u 1.000000e-02, i +1, master time 0.0s, eval time 0.4s, time 0.5s TERMINATION: Optimal: v = -4.560712941460998 DD.dual_objective_value(algo) = 96476.31169475346 DD.dual_solution(algo) = [39.66666666641418, 27.39130434758975, 27.69230769190068, -3.5003100555216256e-11, -3.312075185979184e-11, -5.801440684481256e-11, -39.66666666637917, -27.391304347556627, -27.692307691842668] Iter 1: ncols 10, nrows 4, Δ 1.000000e+01, fx0 -9.643955e+04, m -9.645850e+04, fy -9.643955e+04, linerr +0.000000e+00, master time 0.0s, eval time 0.0s, time 0.0s Iter 2: ncols 10, nrows 4, Δ 2.000000e+01, fx0 -9.645627e+04, m -9.649640e+04, fy -9.645627e+04, linerr +0.000000e+00, master time 0.0s, eval time 0.0s, time 0.1s Iter 3: ncols 10, nrows 4, Δ 4.000000e+01, fx0 -9.647634e+04, m -9.657220e+04, fy -9.647634e+04, linerr +0.000000e+00, master time 0.0s, eval time 0.1s, time 0.1s Iter 4: ncols 10, nrows 5, Δ 4.000000e+01, fx0 -9.647634e+04, m -9.651031e+04, fy -9.646298e+04, linerr +3.566555e+01, master time 0.0s, eval time 0.1s, time 0.1s Iter 5: ncols 10, nrows 6, Δ 4.000000e+01, fx0 -9.647634e+04, m -9.650856e+04, fy -9.644932e+04, linerr +3.423734e+01, master time 0.0s, eval time 0.1s, time 0.1s Iter 6: ncols 10, nrows 7, Δ 4.000000e+01, fx0 -9.647634e+04, m -9.650848e+04, fy -9.645079e+04, linerr +3.102638e+01, master time 0.0s, eval time 0.1s, time 0.1s Iter 7: ncols 10, nrows 8, Δ 4.000000e+01, fx0 -9.647634e+04, m -9.650668e+04, fy -9.646186e+04, linerr +1.986991e+01, master time 0.0s, eval time 0.2s, time 0.2s Iter 8: ncols 10, nrows 9, Δ 4.000000e+01, fx0 -9.647634e+04, m -9.650608e+04, fy -9.645727e+04, linerr +2.266249e+01, master time 0.0s, eval time 0.2s, time 0.2s Iter 9: ncols 10, nrows 10, Δ 4.000000e+01, fx0 -9.647634e+04, m -9.650486e+04, fy -9.646986e+04, linerr +9.472372e+00, master time 0.0s, eval time 0.2s, time 0.2s Iter 10: ncols 10, nrows 11, Δ 4.000000e+01, fx0 -9.647634e+04, m -9.649844e+04, fy -9.645030e+04, linerr +2.781169e+01, master time 0.0s, eval time 0.2s, time 0.2s Iter 11: ncols 10, nrows 12, Δ 4.000000e+01, fx0 -9.647634e+04, m -9.649815e+04, fy -9.646342e+04, linerr +1.630366e+01, master time 0.0s, eval time 0.2s, time 0.3s Iter 12: ncols 10, nrows 13, Δ 4.000000e+01, fx0 -9.647634e+04, m -9.649552e+04, fy -9.647548e+04, linerr +9.572999e+00, master time 0.0s, eval time 0.3s, time 0.3s Iter 13: ncols 10, nrows 14, Δ 3.332188e+01, fx0 -9.647634e+04, m -9.649176e+04, fy -9.645332e+04, linerr +2.733087e+01, master time 0.0s, eval time 0.3s, time 0.3s Iter 14: ncols 10, nrows 15, Δ 3.332188e+01, fx0 -9.647634e+04, m -9.649055e+04, fy -9.647104e+04, linerr +1.301842e+01, master time 0.0s, eval time 0.3s, time 0.3s Iter 15: ncols 10, nrows 16, Δ 3.332188e+01, fx0 -9.647634e+04, m -9.648880e+04, fy -9.646996e+04, linerr +1.715430e+01, master time 0.0s, eval time 0.3s, time 0.3s Iter 16: ncols 10, nrows 17, Δ 3.332188e+01, fx0 -9.647634e+04, m -9.648824e+04, fy -9.646966e+04, linerr +1.245536e+01, master time 0.0s, eval time 0.4s, time 0.4s Iter 17: ncols 10, nrows 18, Δ 3.332188e+01, fx0 -9.647634e+04, m -9.648797e+04, fy -9.647571e+04, linerr +1.118965e+01, master time 0.0s, eval time 0.4s, time 0.4s Iter 18: ncols 10, nrows 19, Δ 3.332188e+01, fx0 -9.647634e+04, m -9.648725e+04, fy -9.647202e+04, linerr +2.106329e+00, master time 0.0s, eval time 0.4s, time 0.4s Iter 19: ncols 10, nrows 19, Δ 3.332188e+01, fx0 -9.647820e+04, m -9.648725e+04, fy -9.647820e+04, linerr +2.106329e+00, master time 0.0s, eval time 0.4s, time 0.4s Iter 20: ncols 10, nrows 20, Δ 3.332188e+01, fx0 -9.647820e+04, m -9.648494e+04, fy -9.647820e+04, linerr +4.131311e-12, master time 0.0s, eval time 0.4s, time 0.5s Iter 21: ncols 10, nrows 21, Δ 3.332188e+01, fx0 -9.647820e+04, m -9.648433e+04, fy -9.647169e+04, linerr +1.325631e+01, master time 0.0s, eval time 0.5s, time 0.5s Iter 22: ncols 10, nrows 22, Δ 3.332188e+01, fx0 -9.647820e+04, m -9.648401e+04, fy -9.647627e+04, linerr +8.060647e+00, master time 0.0s, eval time 0.5s, time 0.5s Iter 23: ncols 10, nrows 23, Δ 3.332188e+01, fx0 -9.647820e+04, m -9.648392e+04, fy -9.647365e+04, linerr +1.036125e+01, master time 0.0s, eval time 0.5s, time 0.5s Iter 24: ncols 10, nrows 24, Δ 3.332188e+01, fx0 -9.647820e+04, m -9.648342e+04, fy -9.647785e+04, linerr +6.068858e+00, master time 0.0s, eval time 0.5s, time 0.5s Iter 25: ncols 10, nrows 25, Δ 3.332188e+01, fx0 -9.647820e+04, m -9.648317e+04, fy -9.647710e+04, linerr +6.320603e+00, master time 0.0s, eval time 0.5s, time 0.6s Iter 26: ncols 10, nrows 25, Δ 3.332188e+01, fx0 -9.647822e+04, m -9.648317e+04, fy -9.647822e+04, linerr +6.320603e+00, master time 0.0s, eval time 0.6s, time 0.6s Iter 27: ncols 10, nrows 26, Δ 3.332188e+01, fx0 -9.647822e+04, m -9.648304e+04, fy -9.647822e+04, linerr +1.592996e-11, master time 0.0s, eval time 0.6s, time 0.6s Iter 28: ncols 10, nrows 27, Δ 3.332188e+01, fx0 -9.647822e+04, m -9.648231e+04, fy -9.647811e+04, linerr +4.932022e+00, master time 0.0s, eval time 0.6s, time 0.6s Iter 29: ncols 10, nrows 27, Δ 3.332188e+01, fx0 -9.647929e+04, m -9.648231e+04, fy -9.647929e+04, linerr +4.932022e+00, master time 0.0s, eval time 0.6s, time 0.6s Iter 30: ncols 10, nrows 28, Δ 3.332188e+01, fx0 -9.647929e+04, m -9.648205e+04, fy -9.647929e+04, linerr +1.070051e-11, master time 0.0s, eval time 0.6s, time 0.7s Iter 31: ncols 10, nrows 28, Δ 3.332188e+01, fx0 -9.647935e+04, m -9.648205e+04, fy -9.647935e+04, linerr +1.070051e-11, master time 0.0s, eval time 0.7s, time 0.7s Iter 32: ncols 10, nrows 29, Δ 3.332188e+01, fx0 -9.647935e+04, m -9.648162e+04, fy -9.647935e+04, linerr +4.811461e-12, master time 0.0s, eval time 0.7s, time 0.7s Iter 33: ncols 10, nrows 30, Δ 3.332188e+01, fx0 -9.647935e+04, m -9.648130e+04, fy -9.647793e+04, linerr +3.687155e+00, master time 0.0s, eval time 0.7s, time 0.7s Iter 34: ncols 10, nrows 31, Δ 3.332188e+01, fx0 -9.647935e+04, m -9.648122e+04, fy -9.647733e+04, linerr +3.972094e+00, master time 0.0s, eval time 0.7s, time 0.7s Iter 35: ncols 10, nrows 31, Δ 3.332188e+01, fx0 -9.647944e+04, m -9.648122e+04, fy -9.647944e+04, linerr +3.972094e+00, master time 0.0s, eval time 0.8s, time 0.8s Iter 36: ncols 10, nrows 32, Δ 3.332188e+01, fx0 -9.647944e+04, m -9.648103e+04, fy -9.647944e+04, linerr +1.469048e-11, master time 0.0s, eval time 0.8s, time 0.8s Iter 37: ncols 10, nrows 33, Δ 3.332188e+01, fx0 -9.647944e+04, m -9.648098e+04, fy -9.647861e+04, linerr +2.422970e+00, master time 0.0s, eval time 0.8s, time 0.8s Iter 38: ncols 10, nrows 34, Δ 3.332188e+01, fx0 -9.647944e+04, m -9.648095e+04, fy -9.647943e+04, linerr +1.545074e+00, master time 0.0s, eval time 0.8s, time 0.8s Iter 39: ncols 10, nrows 35, Δ 3.332188e+01, fx0 -9.647944e+04, m -9.648088e+04, fy -9.647890e+04, linerr +2.056609e+00, master time 0.0s, eval time 0.8s, time 0.9s Iter 40: ncols 10, nrows 35, Δ 3.332188e+01, fx0 -9.647971e+04, m -9.648088e+04, fy -9.647971e+04, linerr +2.056609e+00, master time 0.0s, eval time 0.9s, time 0.9s Iter 41: ncols 10, nrows 36, Δ 3.332188e+01, fx0 -9.647971e+04, m -9.648083e+04, fy -9.647971e+04, linerr +3.230122e-12, master time 0.0s, eval time 0.9s, time 0.9s Iter 42: ncols 10, nrows 37, Δ 3.332188e+01, fx0 -9.647971e+04, m -9.648077e+04, fy -9.647951e+04, linerr +1.313628e+00, master time 0.0s, eval time 0.9s, time 0.9s Iter 43: ncols 10, nrows 37, Δ 3.332188e+01, fx0 -9.647982e+04, m -9.648077e+04, fy -9.647982e+04, linerr +1.313628e+00, master time 0.0s, eval time 0.9s, time 0.9s TERMINATION: Optimal DD.dual_objective_value(algo) = 96479.82361870949 DD.dual_solution(algo) = [39.499282405807506, 41.471060792083236, 53.119405184237614, 0.5900147430370666, -0.9727818711659495, 2.2167813460475756, -40.08929714884486, -40.498278920917286, -55.33618653028519] Test Summary: | Pass Total Time farmer | 10 10 2m06.2s Test Summary: | Pass Total Time combine_dict with 1 procs | 9 9 6.4s ┌ Warning: mpiexec() is deprecated, use the non-do-block form │ caller = ip:0x0 └ @ Core :-1 Test Summary: | Total Time combine_dict with 2 procs | 0 13.1s Test Summary: | Pass Total Time combine_dict with 2 procs | 18 18 14.2s Test Summary: | Test Summary: | Total Time combine_dict with 3 procs | 0 18.6s Test Summary: | Total Time combine_dict with 3 procs | 0 18.4s Pass Total Time combine_dict with 3 procs | 27 27 20.0s ****************************************************************************** This program contains Ipopt, a library for large-scale nonlinear optimization. Ipopt is released as open source code under the Eclipse Public License (EPL). For more information visit https://github.com/coin-or/Ipopt ****************************************************************************** Iter 1: ncols 10, nrows 4, fx0 +1.154000e+05, fy +1.154000e+05, m -1.216800e+06, v -1.332200e+06, u 1.000000e-02, i +0, master time 2.5s, eval time 16.1s, time 41.8s Iter 2: ncols 10, nrows 5, fx0 +1.154000e+05, fy +5.387233e+06, m -2.440467e+05, v -3.594467e+05, u 1.000000e-02, i -1, master time 2.5s, eval time 16.1s, time 44.4s Iter 3: ncols 10, nrows 6, fx0 +1.154000e+05, fy +3.332575e+06, m +6.418420e+04, v -5.121580e+04, u 1.000000e-02, i -2, master time 2.5s, eval time 16.1s, time 44.4s Iter 4: ncols 10, nrows 7, fx0 +1.154000e+05, fy +1.251737e+06, m +9.227554e+04, v -2.312446e+04, u 1.000000e-02, i -3, master time 2.5s, eval time 16.1s, time 44.4s Iter 5: ncols 10, nrows 8, fx0 +1.154000e+05, fy +2.326776e+05, m +9.327913e+04, v -2.212087e+04, u 1.000000e-02, i -4, master time 2.5s, eval time 16.1s, time 44.4s Iter 6: ncols 10, nrows 9, fx0 +1.154000e+05, fy +1.785821e+05, m +1.023305e+05, v -1.306945e+04, u 1.000000e-02, i -5, master time 2.5s, eval time 16.1s, time 44.4s Iter 7: ncols 10, nrows 10, fx0 +1.154000e+05, fy +1.527007e+05, m +1.029119e+05, v -1.248813e+04, u 1.000000e-02, i -6, master time 2.5s, eval time 16.1s, time 44.4s Iter 8: ncols 10, nrows 11, fx0 +1.154000e+05, fy +1.179714e+05, m +1.038162e+05, v -1.158385e+04, u 1.000000e-02, i -7, master time 2.5s, eval time 16.1s, time 44.4s Iter 9: ncols 10, nrows 12, fx0 +1.154000e+05, fy +2.056245e+05, m +1.044640e+05, v -1.093600e+04, u 1.000000e-02, i -8, master time 2.5s, eval time 16.1s, time 44.4s Iter 10: ncols 10, nrows 13, fx0 +1.154000e+05, fy +1.285070e+05, m +1.057059e+05, v -9.694098e+03, u 1.000000e-02, i -9, master time 2.5s, eval time 16.1s, time 44.4s Iter 11: ncols 10, nrows 14, fx0 +1.151550e+05, fy +1.151550e+05, m +1.060115e+05, v -9.143505e+03, u 1.000000e-02, i +1, master time 2.5s, eval time 16.1s, time 44.7s Iter 12: ncols 10, nrows 15, fx0 +1.118179e+05, fy +1.118179e+05, m +1.063641e+05, v -5.453794e+03, u 1.000000e-02, i +2, master time 2.6s, eval time 16.1s, time 44.7s Iter 13: ncols 10, nrows 16, fx0 +1.114122e+05, fy +1.114122e+05, m +1.065173e+05, v -4.894860e+03, u 1.000000e-02, i +3, master time 2.6s, eval time 16.1s, time 44.7s Iter 14: ncols 10, nrows 17, fx0 +1.108414e+05, fy +1.108414e+05, m +1.070019e+05, v -3.839479e+03, u 1.000000e-02, i +4, master time 2.6s, eval time 16.1s, time 44.7s Iter 15: ncols 10, nrows 18, fx0 +1.105321e+05, fy +1.105321e+05, m +1.074300e+05, v -3.102106e+03, u 5.000000e-03, i +1, master time 2.6s, eval time 16.1s, time 44.7s Removed 1 inactive cuts. Iter 16: ncols 10, nrows 18, fx0 +1.103100e+05, fy +1.103100e+05, m +1.077528e+05, v -2.557241e+03, u 5.000000e-03, i +2, master time 2.6s, eval time 16.1s, time 45.4s Removed 1 inactive cuts. Iter 17: ncols 10, nrows 18, fx0 +1.103100e+05, fy +1.106328e+05, m +1.083900e+05, v -1.920000e+03, u 5.000000e-03, i -1, master time 2.6s, eval time 16.1s, time 45.4s Iter 18: ncols 10, nrows 19, fx0 +1.083900e+05, fy +1.083900e+05, m +1.083900e+05, v -2.158958e-05, u 5.000000e-03, i +1, master time 2.6s, eval time 16.1s, time 45.4s TERMINATION: Optimal: v = -2.1589576315786156e-5 ****************************************************************************** This program contains Ipopt, a library for large-scale nonlinear optimization. Ipopt is released as open source code under the Eclipse Public License (EPL). For more information visit https://github.com/coin-or/Ipopt ****************************************************************************** Iter 1: ncols 10, nrows 4, fx0 +1.154000e+05, fy +1.154000e+05, m -1.216800e+06, v -1.332200e+06, u 1.000000e-02, i +0, master time 4.8s, eval time 33.8s, time 84.1s Iter 2: ncols 10, nrows 5, fx0 +1.154000e+05, fy +5.387233e+06, m -2.440467e+05, v -3.594467e+05, u 1.000000e-02, i -1, master time 4.8s, eval time 34.7s, time 91.4s Iter 3: ncols 10, nrows 6, fx0 +1.154000e+05, fy +3.332575e+06, m +6.418420e+04, v -5.121580e+04, u 1.000000e-02, i -2, master time 4.8s, eval time 35.4s, time 92.1s Iter 4: ncols 10, nrows 7, fx0 +1.154000e+05, fy +1.251737e+06, m +9.227554e+04, v -2.312446e+04, u 1.000000e-02, i -3, master time 4.8s, eval time 38.0s, time 94.8s Iter 5: ncols 10, nrows 8, fx0 +1.154000e+05, fy +2.326776e+05, m +9.327913e+04, v -2.212087e+04, u 1.000000e-02, i -4, master time 4.8s, eval time 42.0s, time 98.7s Iter 6: ncols 10, nrows 9, fx0 +1.154000e+05, fy +1.785821e+05, m +1.023305e+05, v -1.306945e+04, u 1.000000e-02, i -5, master time 4.9s, eval time 46.6s, time 103.4s Iter 7: ncols 10, nrows 10, fx0 +1.154000e+05, fy +1.527007e+05, m +1.029119e+05, v -1.248813e+04, u 1.000000e-02, i -6, master time 4.9s, eval time 48.2s, time 105.0s Iter 8: ncols 10, nrows 11, fx0 +1.154000e+05, fy +1.179714e+05, m +1.038162e+05, v -1.158385e+04, u 1.000000e-02, i -7, master time 4.9s, eval time 49.6s, time 106.3s Iter 9: ncols 10, nrows 12, fx0 +1.154000e+05, fy +2.056245e+05, m +1.044640e+05, v -1.093600e+04, u 1.000000e-02, i -8, master time 4.9s, eval time 51.4s, time 108.1s Iter 10: ncols 10, nrows 13, fx0 +1.154000e+05, fy +1.285070e+05, m +1.057059e+05, v -9.694098e+03, u 1.000000e-02, i -9, master time 4.9s, eval time 52.1s, time 108.8s Iter 11: ncols 10, nrows 14, fx0 +1.151550e+05, fy +1.151550e+05, m +1.060115e+05, v -9.143505e+03, u 1.000000e-02, i +1, master time 4.9s, eval time 56.7s, time 113.8s Iter 12: ncols 10, nrows 15, fx0 +1.118179e+05, fy +1.118179e+05, m +1.063641e+05, v -5.453794e+03, u 1.000000e-02, i +2, master time 4.9s, eval time 58.5s, time 115.5s Iter 13: ncols 10, nrows 16, fx0 +1.114122e+05, fy +1.114122e+05, m +1.065173e+05, v -4.894860e+03, u 1.000000e-02, i +3, master time 4.9s, eval time 58.7s, time 115.8s Iter 14: ncols 10, nrows 17, fx0 +1.108414e+05, fy +1.108414e+05, m +1.070019e+05, v -3.839479e+03, u 1.000000e-02, i +4, master time 4.9s, eval time 59.4s, time 116.5s Iter 15: ncols 10, nrows 18, fx0 +1.105321e+05, fy +1.105321e+05, m +1.074300e+05, v -3.102106e+03, u 5.000000e-03, i +1, master time 4.9s, eval time 63.0s, time 120.1s Removed 1 inactive cuts. Iter 16: ncols 10, nrows 18, fx0 +1.103100e+05, fy +1.103100e+05, m +1.077528e+05, v -2.557241e+03, u 5.000000e-03, i +2, master time 4.9s, eval time 65.7s, time 124.6s Removed 1 inactive cuts. Iter 17: ncols 10, nrows 18, fx0 +1.103100e+05, fy +1.106328e+05, m +1.083900e+05, v -1.920000e+03, u 5.000000e-03, i -1, master time 4.9s, eval time 68.6s, time 127.5s Iter 18: ncols 10, nrows 19, fx0 +1.083900e+05, fy +1.083900e+05, m +1.083900e+05, v -2.158960e-05, u 5.000000e-03, i +1, master time 4.9s, eval time 71.9s, time 130.8s TERMINATION: Optimal: v = -2.1589603195203942e-5 ****************************************************************************** This program contains Ipopt, a library for large-scale nonlinear optimization. Ipopt is released as open source code under the Eclipse Public License (EPL). For more information visit https://github.com/coin-or/Ipopt ****************************************************************************** Iter 1: ncols 10, nrows 4, fx0 +1.154000e+05, fy +1.154000e+05, m -1.216800e+06, v -1.332200e+06, u 1.000000e-02, i +0, master time 6.5s, eval time 52.7s, time 127.9s Iter 2: ncols 10, nrows 5, fx0 +1.154000e+05, fy +5.387233e+06, m -2.440467e+05, v -3.594467e+05, u 1.000000e-02, i -1, master time 6.5s, eval time 56.5s, time 142.1s Iter 3: ncols 10, nrows 6, fx0 +1.154000e+05, fy +3.332575e+06, m +6.418420e+04, v -5.121580e+04, u 1.000000e-02, i -2, master time 6.5s, eval time 58.9s, time 144.5s Iter 4: ncols 10, nrows 7, fx0 +1.154000e+05, fy +1.251737e+06, m +9.227554e+04, v -2.312446e+04, u 1.000000e-02, i -3, master time 6.5s, eval time 62.9s, time 148.5s Iter 5: ncols 10, nrows 8, fx0 +1.154000e+05, fy +2.326776e+05, m +9.327913e+04, v -2.212087e+04, u 1.000000e-02, i -4, master time 6.5s, eval time 66.4s, time 152.0s Iter 6: ncols 10, nrows 9, fx0 +1.154000e+05, fy +1.785821e+05, m +1.023305e+05, v -1.306945e+04, u 1.000000e-02, i -5, master time 6.5s, eval time 71.0s, time 156.6s Iter 7: ncols 10, nrows 10, fx0 +1.154000e+05, fy +1.527007e+05, m +1.029119e+05, v -1.248813e+04, u 1.000000e-02, i -6, master time 6.5s, eval time 74.9s, time 160.5s Iter 8: ncols 10, nrows 11, fx0 +1.154000e+05, fy +1.179714e+05, m +1.038162e+05, v -1.158385e+04, u 1.000000e-02, i -7, master time 6.5s, eval time 78.3s, time 164.0s Iter 9: ncols 10, nrows 12, fx0 +1.154000e+05, fy +2.056245e+05, m +1.044640e+05, v -1.093600e+04, u 1.000000e-02, i -8, master time 6.5s, eval time 84.3s, time 170.0s Iter 10: ncols 10, nrows 13, fx0 +1.154000e+05, fy +1.285070e+05, m +1.057059e+05, v -9.694098e+03, u 1.000000e-02, i -9, master time 6.5s, eval time 92.0s, time 177.7s Iter 11: ncols 10, nrows 14, fx0 +1.151550e+05, fy +1.151550e+05, m +1.060115e+05, v -9.143505e+03, u 1.000000e-02, i +1, master time 6.5s, eval time 98.9s, time 185.2s Iter 12: ncols 10, nrows 15, fx0 +1.118179e+05, fy +1.118179e+05, m +1.063641e+05, v -5.453794e+03, u 1.000000e-02, i +2, master time 6.6s, eval time 101.7s, time 188.5s Iter 13: ncols 10, nrows 16, fx0 +1.114122e+05, fy +1.114122e+05, m +1.065173e+05, v -4.894860e+03, u 1.000000e-02, i +3, master time 6.6s, eval time 104.2s, time 191.0s Iter 14: ncols 10, nrows 17, fx0 +1.108414e+05, fy +1.108414e+05, m +1.070019e+05, v -3.839479e+03, u 1.000000e-02, i +4, master time 6.6s, eval time 107.2s, time 194.0s Iter 15: ncols 10, nrows 18, fx0 +1.105321e+05, fy +1.105321e+05, m +1.074300e+05, v -3.102106e+03, u 5.000000e-03, i +1, master time 6.6s, eval time 110.8s, time 197.7s Removed 1 inactive cuts. Iter 16: ncols 10, nrows 18, fx0 +1.103100e+05, fy +1.103100e+05, m +1.077528e+05, v -2.557241e+03, u 5.000000e-03, i +2, master time 6.6s, eval time 114.8s, time 203.4s Removed 1 inactive cuts. Iter 17: ncols 10, nrows 18, fx0 +1.103100e+05, fy +1.106328e+05, m +1.083900e+05, v -1.920000e+03, u 5.000000e-03, i -1, master time 6.6s, eval time 120.0s, time 208.5s Iter 18: ncols 10, nrows 19, fx0 +1.083900e+05, fy +1.083900e+05, m +1.083900e+05, v -2.158958e-05, u 5.000000e-03, i +1, master time 6.6s, eval time 129.1s, time 217.7s TERMINATION: Optimal: v = -2.1589576315786156e-5 Test Summary: | Total Time MPI tests | 0 18m13.8s Iter 1: ncols 145, nrows 64, fx0 +1.790400e+02, fy +1.790400e+02, m -2.329971e+07, v -2.329989e+07, u 1.000000e-02, i +0, master time 0.0s, eval time 0.0s, time 0.1s Iter 2: ncols 145, nrows 65, fx0 +1.790400e+02, fy +2.263019e+07, m -4.198654e+03, v -4.377694e+03, u 1.000000e-02, i -1, master time 0.0s, eval time 0.0s, time 0.1s Iter 3: ncols 145, nrows 66, fx0 +1.790400e+02, fy +2.830285e+05, m -3.033549e+02, v -4.823949e+02, u 1.000000e-02, i -2, master time 0.0s, eval time 0.0s, time 0.1s Iter 4: ncols 145, nrows 67, fx0 +1.790400e+02, fy +8.838308e+04, m +3.203016e+01, v -1.470098e+02, u 1.000000e-02, i -3, master time 0.0s, eval time 0.0s, time 0.1s Iter 5: ncols 145, nrows 68, fx0 +1.790400e+02, fy +5.382713e+04, m +1.707684e+02, v -8.271616e+00, u 1.000000e-02, i -4, master time 0.0s, eval time 0.0s, time 0.1s Iter 6: ncols 145, nrows 69, fx0 +1.790400e+02, fy +2.878457e+03, m +1.712475e+02, v -7.792494e+00, u 1.000000e-02, i -5, master time 0.0s, eval time 0.0s, time 0.2s Iter 7: ncols 145, nrows 70, fx0 +1.790400e+02, fy +2.942331e+03, m +1.717500e+02, v -7.290000e+00, u 1.000000e-02, i -6, master time 0.0s, eval time 0.0s, time 0.2s Iter 8: ncols 145, nrows 71, fx0 +1.744290e+02, fy +1.744290e+02, m +1.717500e+02, v -2.679043e+00, u 1.000000e-02, i +1, master time 0.1s, eval time 0.0s, time 0.2s Iter 9: ncols 145, nrows 72, fx0 +1.733392e+02, fy +1.733392e+02, m +1.717500e+02, v -1.589218e+00, u 1.000000e-02, i +2, master time 0.1s, eval time 0.1s, time 0.2s Iter 10: ncols 145, nrows 73, fx0 +1.723606e+02, fy +1.723606e+02, m +1.717500e+02, v -6.106426e-01, u 7.684817e-03, i +1, master time 0.1s, eval time 0.1s, time 0.2s Iter 11: ncols 145, nrows 74, fx0 +1.723224e+02, fy +1.723224e+02, m +1.717500e+02, v -5.723669e-01, u 7.684817e-03, i +2, master time 0.1s, eval time 0.1s, time 0.2s Iter 12: ncols 145, nrows 75, fx0 +1.723213e+02, fy +1.723213e+02, m +1.717500e+02, v -5.712731e-01, u 7.684817e-03, i +3, master time 0.1s, eval time 0.1s, time 0.2s Iter 13: ncols 145, nrows 76, fx0 +1.722287e+02, fy +1.722287e+02, m +1.717500e+02, v -4.786679e-01, u 7.684817e-03, i +4, master time 0.1s, eval time 0.1s, time 0.3s Iter 14: ncols 145, nrows 77, fx0 +1.721390e+02, fy +1.721390e+02, m +1.717500e+02, v -3.890023e-01, u 3.842409e-03, i +1, master time 0.1s, eval time 0.1s, time 0.3s Iter 15: ncols 145, nrows 78, fx0 +1.721390e+02, fy +1.722145e+02, m +1.717500e+02, v -3.890023e-01, u 3.842409e-03, i -1, master time 0.1s, eval time 0.1s, time 0.3s Iter 16: ncols 145, nrows 79, fx0 +1.721390e+02, fy +1.723546e+02, m +1.717500e+02, v -3.890023e-01, u 3.842409e-03, i -2, master time 0.1s, eval time 0.1s, time 0.3s Iter 17: ncols 145, nrows 80, fx0 +1.721390e+02, fy +1.727489e+02, m +1.717500e+02, v -3.890023e-01, u 3.842409e-03, i -3, master time 0.1s, eval time 0.1s, time 0.3s Iter 18: ncols 145, nrows 81, fx0 +1.721390e+02, fy +1.725416e+02, m +1.717500e+02, v -3.890023e-01, u 3.842409e-03, i -4, master time 0.2s, eval time 0.1s, time 0.3s Iter 19: ncols 145, nrows 82, fx0 +1.721390e+02, fy +1.725505e+02, m +1.717500e+02, v -3.890023e-01, u 3.842409e-03, i -5, master time 0.2s, eval time 0.1s, time 0.4s Iter 20: ncols 145, nrows 83, fx0 +1.721390e+02, fy +1.726267e+02, m +1.717500e+02, v -3.890023e-01, u 3.842409e-03, i -6, master time 0.2s, eval time 0.1s, time 0.4s Iter 21: ncols 145, nrows 84, fx0 +1.721390e+02, fy +1.727482e+02, m +1.717500e+02, v -3.890023e-01, u 3.842409e-03, i -7, master time 0.2s, eval time 0.1s, time 0.4s Iter 22: ncols 145, nrows 85, fx0 +1.721390e+02, fy +1.726898e+02, m +1.717500e+02, v -3.890023e-01, u 3.842409e-03, i -8, master time 0.2s, eval time 0.1s, time 0.4s Iter 23: ncols 145, nrows 86, fx0 +1.721390e+02, fy +1.726823e+02, m +1.717500e+02, v -3.890023e-01, u 3.842409e-03, i -9, master time 0.2s, eval time 0.1s, time 0.4s Iter 24: ncols 145, nrows 87, fx0 +1.721390e+02, fy +1.726918e+02, m +1.717500e+02, v -3.890023e-01, u 3.842409e-03, i -10, master time 0.2s, eval time 0.1s, time 0.4s Iter 25: ncols 145, nrows 88, fx0 +1.721390e+02, fy +1.726797e+02, m +1.717500e+02, v -3.890023e-01, u 3.842409e-03, i -11, master time 0.3s, eval time 0.1s, time 0.5s Iter 26: ncols 145, nrows 89, fx0 +1.721390e+02, fy +1.724896e+02, m +1.717500e+02, v -3.890023e-01, u 3.842409e-03, i -12, master time 0.3s, eval time 0.1s, time 0.5s Iter 27: ncols 145, nrows 90, fx0 +1.721390e+02, fy +1.725062e+02, m +1.717500e+02, v -3.890023e-01, u 3.842409e-03, i -13, master time 0.3s, eval time 0.1s, time 0.5s Iter 28: ncols 145, nrows 91, fx0 +1.718218e+02, fy +1.718218e+02, m +1.717500e+02, v -7.183520e-02, u 3.842409e-03, i +1, master time 0.3s, eval time 0.1s, time 0.5s Iter 29: ncols 145, nrows 92, fx0 +1.718218e+02, fy +1.720167e+02, m +1.717500e+02, v -7.183520e-02, u 3.842409e-03, i -1, master time 0.3s, eval time 0.1s, time 0.6s Iter 30: ncols 145, nrows 93, fx0 +1.718218e+02, fy +1.722533e+02, m +1.717500e+02, v -7.183520e-02, u 3.842409e-03, i -2, master time 0.4s, eval time 0.1s, time 0.6s Iter 31: ncols 145, nrows 94, fx0 +1.717588e+02, fy +1.717588e+02, m +1.717500e+02, v -8.771293e-03, u 3.842409e-03, i +1, master time 0.4s, eval time 0.1s, time 0.6s Iter 32: ncols 145, nrows 95, fx0 +1.717588e+02, fy +1.720134e+02, m +1.717500e+02, v -8.771334e-03, u 3.842409e-03, i -1, master time 0.4s, eval time 0.1s, time 0.6s Iter 33: ncols 145, nrows 96, fx0 +1.717509e+02, fy +1.717509e+02, m +1.717500e+02, v -8.994100e-04, u 3.842409e-03, i +1, master time 0.4s, eval time 0.1s, time 0.7s TERMINATION: Optimal: v = -0.0008994100002596007 DD.dual_objective_value(algo) = -171.75089942630765 DD.dual_solution(algo) = [1.0862792682836772e-22, 1.26451641316402e-18, -5.703370090959429e-19, 1.6459616912431024e-5, -0.001746549393942905, 0.0016249392516885408, 0.00039646889692529757, -0.0015155232051279853, 0.0011190543062526788, 0.0029301350736320704, -0.002447988127224463, -0.0005416464172295138, 0.0004073737732168705, -0.0015264280795708, 0.001119054306252679, 8.919344159839071e-19, -1.9686196649820055e-27, 6.548675819910413e-19, -0.0023543418542749345, 0.0030059735077764935, -0.0005416464172295138, 0.0004334176863506782, -0.0015524719927046083, 0.001119054306252679, 6.558222367884277e-28, -3.3433827399132524e-19, 6.086186012005119e-19, -0.0005922528362695681, 0.0011885640133908729, -0.0005416464172295138, -2.152492740344547e-20, -2.0899286495116184e-20, 3.591374258476062e-19, 0.0004621319486291893, -0.0015811862549833461, 0.0011190543062526788, -0.0026789982658262973, 0.0030520163648625337, -0.0003730181020842263, 7.166297909868829e-23, 0.0, 1.4030994593651463e-18, 6.990160736480936e-5, -0.0019111126444518855, 0.0019500892170955437, 0.0030612516446775462, -0.002688233541942878, -0.0003730181020842263, 0.0, 4.781634774316155e-19, -2.58268416451789e-19, -0.00013714081352883946, -0.001887656778809388, 0.001908597957157341, 0.0031568299833244855, -0.0027838118805902775, -0.0003730181020842263, -0.0022949225420924634, 0.0031931033225544437, -0.0006361993190524468, 0.0, 7.984438322238739e-19, 1.2123228911880668e-18, -0.00078021275434243, 0.0011532308570766476, -0.0003730181020842263, 0.0032529778450147303, -0.002614774608898914, -0.000579435702152503, 0.0, 0.0, -2.4363395570503443e-18, 0.0, 0.0, 2.554501954023284e-19, -0.0008062566674762459, 0.0011792747702104606, -0.0003730181020842263, -0.0027066964984131378, 0.0031769668021004683, -0.000579435702152503, -0.0026991921280694435, 0.0030722102308041103, -0.0003730181020842263, 7.166297909868595e-23, 0.0, 9.128894698120745e-19, 0.0032721163865409085, -0.0023867842743995173, -0.0006500297390318479, -0.0028057586128612585, 0.00317877671374626, -0.0003730181020842263, -1.0907854030464923e-22, 0.0, -9.611720615339012e-19, -0.00266248303622545, 0.0030529821579603333, -0.0006500297390318479, -0.0007685244477385912, 0.0011415425504727912, -0.0003730181020842263, 0.00017330674090484444, -0.0018091446260308872, 0.0017383071064575094, 0.0, 0.0, -9.992837558519345e-19, 0.0032474027815418017, -0.0028743846788075967, -0.0003730181020842263, 0.0, 6.457154136840243e-19, -9.110879616854723e-19, -0.0005354466963692676, 0.0012738388926960202, -0.0006361993190524468, -0.0008364712166559187, 0.0012094893193901346, -0.0003730181020842263, -0.0007195880875064327, 0.001246952432829334, -0.000579435702152503, 0.0, 0.0, -1.3973587729640592e-19, -0.002882516472148693, 0.0032555345748833454, -0.0003730181020842263, -1.0905816281743758e-22, 0.0, 2.2566627987890923e-18, -0.0006795349576802694, 0.001244914760891067, -0.0006500297390318479, 0.0030930538504530037, -0.0027200357477187953, -0.0003730181020842263, 0.0029675100519905755, -0.002579285436441076, -0.0006361993190524468, 0.0, 2.998977941246575e-19, 2.596104813787813e-19] Iter 1: ncols 145, nrows 64, Δ 1.000000e+01, fx0 +1.790400e+02, m -3.793274e+04, fy +1.790400e+02, linerr +0.000000e+00, master time 0.0s, eval time 0.0s, time 0.0s Iter 2: ncols 145, nrows 65, Δ 1.000000e+01, fx0 +1.790400e+02, m -6.241772e+03, fy +3.751066e+04, linerr +1.514563e+01, master time 0.0s, eval time 0.0s, time 0.0s Iter 3: ncols 145, nrows 66, Δ 2.500000e+00, fx0 +1.790400e+02, m -1.350476e+03, fy +3.820197e+04, linerr +9.541875e+00, master time 0.0s, eval time 0.0s, time 0.0s Iter 4: ncols 145, nrows 67, Δ 6.250000e-01, fx0 +1.790400e+02, m -2.040116e+02, fy +8.913219e+03, linerr +8.621250e+00, master time 0.0s, eval time 0.1s, time 0.2s Iter 5: ncols 145, nrows 68, Δ 1.644184e-01, fx0 +1.790400e+02, m +9.492311e+01, fy +2.508776e+03, linerr +1.188625e+01, master time 0.0s, eval time 0.1s, time 0.2s Iter 6: ncols 145, nrows 69, Δ 1.644184e-01, fx0 +1.790400e+02, m +1.222813e+02, fy +7.749047e+02, linerr +9.678750e+00, master time 0.0s, eval time 0.1s, time 0.2s Iter 7: ncols 145, nrows 70, Δ 1.644184e-01, fx0 +1.790400e+02, m +1.232574e+02, fy +7.214733e+02, linerr +8.603750e+00, master time 0.0s, eval time 0.1s, time 0.2s Iter 8: ncols 145, nrows 71, Δ 9.823625e-02, fx0 +1.790400e+02, m +1.470321e+02, fy +7.468809e+02, linerr +9.768750e+00, master time 0.0s, eval time 0.1s, time 0.2s Iter 9: ncols 145, nrows 72, Δ 9.823625e-02, fx0 +1.790400e+02, m +1.546111e+02, fy +5.382109e+02, linerr +9.226875e+00, master time 0.0s, eval time 0.1s, time 0.2s Iter 10: ncols 145, nrows 73, Δ 9.823625e-02, fx0 +1.790400e+02, m +1.584591e+02, fy +5.270619e+02, linerr +7.790625e+00, master time 0.0s, eval time 0.2s, time 0.2s Iter 11: ncols 145, nrows 74, Δ 5.996786e-02, fx0 +1.790400e+02, m +1.642606e+02, fy +5.222393e+02, linerr +9.957500e+00, master time 0.0s, eval time 0.2s, time 0.2s Iter 12: ncols 145, nrows 75, Δ 5.996786e-02, fx0 +1.790400e+02, m +1.654660e+02, fy +3.740190e+02, linerr +9.985625e+00, master time 0.0s, eval time 0.2s, time 0.2s Iter 13: ncols 145, nrows 76, Δ 5.996786e-02, fx0 +1.790400e+02, m +1.669497e+02, fy +3.754712e+02, linerr +1.151563e+01, master time 0.0s, eval time 0.2s, time 0.2s Iter 14: ncols 145, nrows 77, Δ 5.996786e-02, fx0 +1.790400e+02, m +1.674103e+02, fy +3.703544e+02, linerr +1.171000e+01, master time 0.0s, eval time 0.2s, time 0.2s Iter 15: ncols 145, nrows 78, Δ 5.446100e-02, fx0 +1.790400e+02, m +1.683435e+02, fy +3.925811e+02, linerr +1.044000e+01, master time 0.0s, eval time 0.2s, time 0.2s Iter 16: ncols 145, nrows 79, Δ 5.446100e-02, fx0 +1.790400e+02, m +1.685681e+02, fy +3.593705e+02, linerr +1.102063e+01, master time 0.0s, eval time 0.2s, time 0.2s Iter 17: ncols 145, nrows 80, Δ 5.446100e-02, fx0 +1.790400e+02, m +1.689444e+02, fy +3.633329e+02, linerr +9.126875e+00, master time 0.0s, eval time 0.2s, time 0.2s Iter 18: ncols 145, nrows 81, Δ 5.446100e-02, fx0 +1.790400e+02, m +1.690734e+02, fy +3.583425e+02, linerr +1.209500e+01, master time 0.0s, eval time 0.2s, time 0.2s Iter 19: ncols 145, nrows 82, Δ 5.446100e-02, fx0 +1.790400e+02, m +1.692264e+02, fy +3.606564e+02, linerr +1.012938e+01, master time 0.0s, eval time 0.2s, time 0.3s Iter 20: ncols 145, nrows 83, Δ 5.446100e-02, fx0 +1.790400e+02, m +1.693192e+02, fy +3.380483e+02, linerr +8.761250e+00, master time 0.0s, eval time 0.2s, time 0.3s Iter 21: ncols 145, nrows 84, Δ 5.446100e-02, fx0 +1.790400e+02, m +1.694673e+02, fy +3.541916e+02, linerr +1.127125e+01, master time 0.0s, eval time 0.2s, time 0.3s Iter 22: ncols 145, nrows 85, Δ 5.280914e-02, fx0 +1.790400e+02, m +1.695532e+02, fy +3.603094e+02, linerr +1.086187e+01, master time 0.0s, eval time 0.2s, time 0.3s Iter 23: ncols 145, nrows 86, Δ 5.280914e-02, fx0 +1.790400e+02, m +1.696255e+02, fy +3.607689e+02, linerr +9.668750e+00, master time 0.0s, eval time 0.2s, time 0.3s Iter 24: ncols 145, nrows 87, Δ 5.280914e-02, fx0 +1.790400e+02, m +1.696620e+02, fy +3.380141e+02, linerr +8.851875e+00, master time 0.0s, eval time 0.2s, time 0.3s Iter 25: ncols 145, nrows 88, Δ 5.280914e-02, fx0 +1.790400e+02, m +1.696881e+02, fy +3.350033e+02, linerr +9.563125e+00, master time 0.0s, eval time 0.2s, time 0.3s Iter 26: ncols 145, nrows 89, Δ 5.280914e-02, fx0 +1.790400e+02, m +1.697107e+02, fy +3.338999e+02, linerr +1.028250e+01, master time 0.0s, eval time 0.2s, time 0.3s Iter 27: ncols 145, nrows 90, Δ 5.280914e-02, fx0 +1.790400e+02, m +1.697256e+02, fy +3.320511e+02, linerr +1.041750e+01, master time 0.0s, eval time 0.2s, time 0.3s Iter 28: ncols 145, nrows 91, Δ 5.280914e-02, fx0 +1.790400e+02, m +1.697398e+02, fy +3.501974e+02, linerr +1.014313e+01, master time 0.0s, eval time 0.2s, time 0.3s Iter 29: ncols 145, nrows 92, Δ 5.280914e-02, fx0 +1.790400e+02, m +1.697478e+02, fy +3.459922e+02, linerr +9.663125e+00, master time 0.1s, eval time 0.2s, time 0.3s Iter 30: ncols 145, nrows 93, Δ 5.280914e-02, fx0 +1.790400e+02, m +1.697507e+02, fy +3.319557e+02, linerr +1.050250e+01, master time 0.1s, eval time 0.2s, time 0.3s Iter 31: ncols 145, nrows 94, Δ 5.280914e-02, fx0 +1.790400e+02, m +1.697543e+02, fy +3.315268e+02, linerr +7.917500e+00, master time 0.1s, eval time 0.2s, time 0.3s Iter 32: ncols 145, nrows 95, Δ 5.280914e-02, fx0 +1.790400e+02, m +1.697594e+02, fy +3.274247e+02, linerr +1.138687e+01, master time 0.1s, eval time 0.2s, time 0.4s Iter 33: ncols 145, nrows 96, Δ 5.280914e-02, fx0 +1.790400e+02, m +1.697613e+02, fy +3.129658e+02, linerr +1.003750e+01, master time 0.1s, eval time 0.2s, time 0.4s Iter 34: ncols 145, nrows 97, Δ 5.280914e-02, fx0 +1.790400e+02, m +1.697635e+02, fy +3.342280e+02, linerr +8.277500e+00, master time 0.1s, eval time 0.2s, time 0.4s Iter 35: ncols 145, nrows 98, Δ 5.280914e-02, fx0 +1.790400e+02, m +1.697675e+02, fy +3.059025e+02, linerr +8.890625e+00, master time 0.1s, eval time 0.2s, time 0.4s Iter 36: ncols 145, nrows 99, Δ 5.280914e-02, fx0 +1.790400e+02, m +1.697737e+02, fy +3.156662e+02, linerr +1.103000e+01, master time 0.1s, eval time 0.2s, time 0.4s Iter 37: ncols 145, nrows 100, Δ 5.280914e-02, fx0 +1.790400e+02, m +1.697783e+02, fy +3.174136e+02, linerr +1.026437e+01, master time 0.1s, eval time 0.2s, time 0.4s Iter 38: ncols 145, nrows 101, Δ 5.280914e-02, fx0 +1.790400e+02, m +1.697798e+02, fy +2.987902e+02, linerr +1.005813e+01, master time 0.1s, eval time 0.2s, time 0.4s Iter 39: ncols 145, nrows 102, Δ 5.280914e-02, fx0 +1.790400e+02, m +1.697822e+02, fy +3.123052e+02, linerr +9.891250e+00, master time 0.1s, eval time 0.3s, time 0.4s Iter 40: ncols 145, nrows 103, Δ 5.280914e-02, fx0 +1.790400e+02, m +1.697831e+02, fy +2.947476e+02, linerr +1.034500e+01, master time 0.1s, eval time 0.3s, time 0.4s Iter 41: ncols 145, nrows 104, Δ 5.280914e-02, fx0 +1.790400e+02, m +1.697853e+02, fy +2.810777e+02, linerr +1.024437e+01, master time 0.1s, eval time 0.3s, time 0.4s Iter 42: ncols 145, nrows 105, Δ 5.280914e-02, fx0 +1.790400e+02, m +1.697868e+02, fy +3.265206e+02, linerr +9.886875e+00, master time 0.1s, eval time 0.3s, time 0.4s Iter 43: ncols 145, nrows 106, Δ 5.280914e-02, fx0 +1.790400e+02, m +1.697877e+02, fy +2.780199e+02, linerr +1.081438e+01, master time 0.1s, eval time 0.3s, time 0.4s Iter 44: ncols 145, nrows 107, Δ 5.280914e-02, fx0 +1.790400e+02, m +1.697885e+02, fy +2.925291e+02, linerr +1.040188e+01, master time 0.1s, eval time 0.3s, time 0.5s Iter 45: ncols 145, nrows 108, Δ 5.280914e-02, fx0 +1.790400e+02, m +1.697890e+02, fy +2.880309e+02, linerr +1.144187e+01, master time 0.1s, eval time 0.3s, time 0.5s Iter 46: ncols 145, nrows 109, Δ 5.280914e-02, fx0 +1.790400e+02, m +1.697902e+02, fy +2.890171e+02, linerr +9.755000e+00, master time 0.1s, eval time 0.3s, time 0.5s Iter 47: ncols 145, nrows 110, Δ 5.280914e-02, fx0 +1.790400e+02, m +1.697924e+02, fy +2.811283e+02, linerr +9.891250e+00, master time 0.1s, eval time 0.3s, time 0.5s Iter 48: ncols 145, nrows 111, Δ 5.280914e-02, fx0 +1.790400e+02, m +1.697937e+02, fy +2.606127e+02, linerr +1.222125e+01, master time 0.1s, eval time 0.3s, time 0.5s Iter 49: ncols 145, nrows 112, Δ 5.280914e-02, fx0 +1.790400e+02, m +1.697943e+02, fy +2.697473e+02, linerr +9.655625e+00, master time 0.1s, eval time 0.3s, time 0.5s Iter 50: ncols 145, nrows 113, Δ 5.280914e-02, fx0 +1.790400e+02, m +1.697949e+02, fy +2.721137e+02, linerr +1.032375e+01, master time 0.1s, eval time 0.3s, time 0.5s Iter 51: ncols 145, nrows 114, Δ 5.280914e-02, fx0 +1.790400e+02, m +1.697952e+02, fy +2.710129e+02, linerr +1.073938e+01, master time 0.1s, eval time 0.3s, time 0.5s Iter 52: ncols 145, nrows 115, Δ 5.280914e-02, fx0 +1.790400e+02, m +1.697957e+02, fy +2.693111e+02, linerr +1.032125e+01, master time 0.1s, eval time 0.3s, time 0.5s Iter 53: ncols 145, nrows 116, Δ 5.280914e-02, fx0 +1.790400e+02, m +1.697958e+02, fy +2.719722e+02, linerr +1.143875e+01, master time 0.1s, eval time 0.3s, time 0.5s Iter 54: ncols 145, nrows 117, Δ 5.280914e-02, fx0 +1.790400e+02, m +1.697959e+02, fy +2.377305e+02, linerr +8.802500e+00, master time 0.1s, eval time 0.3s, time 0.5s Iter 55: ncols 145, nrows 118, Δ 5.280914e-02, fx0 +1.790400e+02, m +1.697959e+02, fy +2.397173e+02, linerr +8.742500e+00, master time 0.1s, eval time 0.3s, time 0.5s Iter 56: ncols 145, nrows 118, Δ 5.280914e-02, fx0 +1.778510e+02, m +1.697959e+02, fy +1.778510e+02, linerr +8.742500e+00, master time 0.1s, eval time 0.3s, time 0.5s Iter 57: ncols 145, nrows 119, Δ 5.280914e-02, fx0 +1.778510e+02, m +1.697960e+02, fy +1.778510e+02, linerr -2.131628e-14, master time 0.1s, eval time 0.3s, time 0.6s Iter 58: ncols 145, nrows 120, Δ 5.280914e-02, fx0 +1.778510e+02, m +1.697968e+02, fy +2.214937e+02, linerr +7.017595e+00, master time 0.1s, eval time 0.3s, time 0.6s Iter 59: ncols 145, nrows 121, Δ 5.280914e-02, fx0 +1.778510e+02, m +1.697969e+02, fy +2.460639e+02, linerr +1.152787e+01, master time 0.2s, eval time 0.3s, time 0.6s Iter 60: ncols 145, nrows 122, Δ 5.280914e-02, fx0 +1.778510e+02, m +1.697971e+02, fy +1.899433e+02, linerr +7.793310e+00, master time 0.2s, eval time 0.3s, time 0.6s Iter 61: ncols 145, nrows 123, Δ 5.280914e-02, fx0 +1.778510e+02, m +1.697973e+02, fy +1.893375e+02, linerr +7.436720e+00, master time 0.2s, eval time 0.3s, time 0.6s Iter 62: ncols 145, nrows 124, Δ 5.280914e-02, fx0 +1.778510e+02, m +1.697979e+02, fy +1.887744e+02, linerr +5.375749e+00, master time 0.2s, eval time 0.3s, time 0.6s Iter 63: ncols 145, nrows 125, Δ 5.280914e-02, fx0 +1.778510e+02, m +1.698006e+02, fy +1.897228e+02, linerr +8.794849e+00, master time 0.2s, eval time 0.3s, time 0.6s Iter 64: ncols 145, nrows 126, Δ 5.280914e-02, fx0 +1.778510e+02, m +1.698015e+02, fy +2.050551e+02, linerr +1.120779e+01, master time 0.2s, eval time 0.3s, time 0.6s Iter 65: ncols 145, nrows 127, Δ 5.280914e-02, fx0 +1.778510e+02, m +1.698024e+02, fy +1.976996e+02, linerr +6.383696e+00, master time 0.2s, eval time 0.3s, time 0.6s Iter 66: ncols 145, nrows 128, Δ 5.280914e-02, fx0 +1.778510e+02, m +1.698036e+02, fy +1.840842e+02, linerr +8.251888e+00, master time 0.2s, eval time 0.3s, time 0.6s Iter 67: ncols 145, nrows 129, Δ 5.280914e-02, fx0 +1.778510e+02, m +1.698051e+02, fy +1.951649e+02, linerr +1.030729e+01, master time 0.2s, eval time 0.3s, time 0.7s Iter 68: ncols 145, nrows 130, Δ 5.280914e-02, fx0 +1.778510e+02, m +1.698064e+02, fy +1.808374e+02, linerr +7.767665e+00, master time 0.2s, eval time 0.3s, time 0.7s Iter 69: ncols 145, nrows 131, Δ 5.280914e-02, fx0 +1.778510e+02, m +1.698078e+02, fy +1.884365e+02, linerr +1.195075e+01, master time 0.2s, eval time 0.4s, time 0.7s Iter 70: ncols 145, nrows 132, Δ 5.280914e-02, fx0 +1.778510e+02, m +1.698137e+02, fy +1.827993e+02, linerr +1.097302e+01, master time 0.2s, eval time 0.4s, time 0.7s Iter 71: ncols 145, nrows 133, Δ 5.280914e-02, fx0 +1.778510e+02, m +1.698192e+02, fy +2.001877e+02, linerr +9.868160e+00, master time 0.2s, eval time 0.4s, time 0.7s Iter 72: ncols 145, nrows 134, Δ 5.280914e-02, fx0 +1.778510e+02, m +1.698291e+02, fy +1.818046e+02, linerr +8.175021e+00, master time 0.2s, eval time 0.4s, time 0.7s Iter 73: ncols 145, nrows 135, Δ 5.280914e-02, fx0 +1.778510e+02, m +1.698439e+02, fy +1.981116e+02, linerr +7.354922e+00, master time 0.2s, eval time 0.4s, time 0.7s Iter 74: ncols 145, nrows 136, Δ 5.280914e-02, fx0 +1.778510e+02, m +1.698568e+02, fy +1.848759e+02, linerr +1.077482e+01, master time 0.2s, eval time 0.4s, time 0.7s Iter 75: ncols 145, nrows 137, Δ 5.280914e-02, fx0 +1.778510e+02, m +1.698623e+02, fy +1.857512e+02, linerr +7.585235e+00, master time 0.2s, eval time 0.4s, time 0.7s Iter 76: ncols 145, nrows 138, Δ 5.280914e-02, fx0 +1.778510e+02, m +1.698737e+02, fy +1.849736e+02, linerr +1.030244e+01, master time 0.2s, eval time 0.4s, time 0.7s Iter 77: ncols 145, nrows 139, Δ 5.280914e-02, fx0 +1.778510e+02, m +1.698773e+02, fy +1.801176e+02, linerr +6.635636e+00, master time 0.2s, eval time 0.4s, time 0.8s Iter 78: ncols 145, nrows 140, Δ 5.280914e-02, fx0 +1.778510e+02, m +1.698807e+02, fy +1.809011e+02, linerr +7.408775e+00, master time 0.2s, eval time 0.4s, time 0.8s Iter 79: ncols 145, nrows 141, Δ 5.280914e-02, fx0 +1.778510e+02, m +1.698891e+02, fy +1.811582e+02, linerr +7.585211e+00, master time 0.3s, eval time 0.4s, time 0.8s Iter 80: ncols 145, nrows 142, Δ 5.280914e-02, fx0 +1.778510e+02, m +1.699022e+02, fy +1.822980e+02, linerr +7.118147e+00, master time 0.3s, eval time 0.4s, time 0.8s Iter 81: ncols 145, nrows 143, Δ 5.280914e-02, fx0 +1.778510e+02, m +1.699203e+02, fy +1.883535e+02, linerr +8.997848e+00, master time 0.3s, eval time 0.4s, time 0.8s Iter 82: ncols 145, nrows 144, Δ 5.280914e-02, fx0 +1.778510e+02, m +1.699317e+02, fy +1.825574e+02, linerr +1.051872e+01, master time 0.3s, eval time 0.4s, time 0.8s Iter 83: ncols 145, nrows 145, Δ 5.280914e-02, fx0 +1.778510e+02, m +1.699713e+02, fy +1.823923e+02, linerr +9.094062e+00, master time 0.3s, eval time 0.4s, time 0.8s Iter 84: ncols 145, nrows 146, Δ 5.280914e-02, fx0 +1.778510e+02, m +1.699806e+02, fy +1.835525e+02, linerr +1.000226e+01, master time 0.3s, eval time 0.4s, time 0.8s Iter 85: ncols 145, nrows 147, Δ 5.280914e-02, fx0 +1.778510e+02, m +1.700111e+02, fy +1.805692e+02, linerr +1.018410e+01, master time 0.3s, eval time 0.4s, time 0.8s Iter 86: ncols 145, nrows 148, Δ 5.280914e-02, fx0 +1.778510e+02, m +1.700626e+02, fy +1.798315e+02, linerr +6.466744e+00, master time 0.3s, eval time 0.4s, time 0.9s Iter 87: ncols 145, nrows 149, Δ 5.280914e-02, fx0 +1.778510e+02, m +1.700875e+02, fy +1.798947e+02, linerr +7.630616e+00, master time 0.3s, eval time 0.4s, time 0.9s Iter 88: ncols 145, nrows 149, Δ 5.280914e-02, fx0 +1.769444e+02, m +1.700875e+02, fy +1.769444e+02, linerr +7.630616e+00, master time 0.3s, eval time 0.4s, time 0.9s Iter 89: ncols 145, nrows 150, Δ 5.280914e-02, fx0 +1.769444e+02, m +1.701231e+02, fy +1.769444e+02, linerr -5.329071e-15, master time 0.3s, eval time 0.4s, time 0.9s Iter 90: ncols 145, nrows 151, Δ 5.280914e-02, fx0 +1.769444e+02, m +1.701462e+02, fy +1.792125e+02, linerr +5.062186e+00, master time 0.3s, eval time 0.4s, time 0.9s Iter 91: ncols 145, nrows 152, Δ 5.280914e-02, fx0 +1.769444e+02, m +1.701526e+02, fy +1.782779e+02, linerr +4.455537e+00, master time 0.3s, eval time 0.4s, time 0.9s Iter 92: ncols 145, nrows 153, Δ 5.280914e-02, fx0 +1.769444e+02, m +1.701644e+02, fy +1.790387e+02, linerr +4.021267e+00, master time 0.3s, eval time 0.4s, time 0.9s Iter 93: ncols 145, nrows 154, Δ 5.280914e-02, fx0 +1.769444e+02, m +1.701809e+02, fy +1.785506e+02, linerr +6.849479e+00, master time 0.3s, eval time 0.4s, time 0.9s Iter 94: ncols 145, nrows 155, Δ 5.280914e-02, fx0 +1.769444e+02, m +1.701986e+02, fy +1.787647e+02, linerr +4.617787e+00, master time 0.3s, eval time 0.4s, time 0.9s Iter 95: ncols 145, nrows 156, Δ 5.280914e-02, fx0 +1.769444e+02, m +1.702288e+02, fy +1.816367e+02, linerr +8.927652e+00, master time 0.3s, eval time 0.4s, time 0.9s Iter 96: ncols 145, nrows 157, Δ 5.280914e-02, fx0 +1.769444e+02, m +1.702813e+02, fy +1.805224e+02, linerr +8.059037e+00, master time 0.3s, eval time 0.4s, time 0.9s Iter 97: ncols 145, nrows 158, Δ 5.280914e-02, fx0 +1.769444e+02, m +1.703185e+02, fy +1.800584e+02, linerr +8.272107e+00, master time 0.3s, eval time 0.4s, time 0.9s Iter 98: ncols 145, nrows 159, Δ 5.280914e-02, fx0 +1.769444e+02, m +1.703262e+02, fy +1.779100e+02, linerr +7.505094e+00, master time 0.3s, eval time 0.4s, time 1.0s Iter 99: ncols 145, nrows 159, Δ 5.280914e-02, fx0 +1.765296e+02, m +1.703262e+02, fy +1.765296e+02, linerr +7.505094e+00, master time 0.3s, eval time 0.5s, time 1.0s Iter 100: ncols 145, nrows 160, Δ 5.280914e-02, fx0 +1.765296e+02, m +1.703773e+02, fy +1.765296e+02, linerr +1.953993e-14, master time 0.3s, eval time 0.5s, time 1.0s Iter 101: ncols 145, nrows 161, Δ 5.280914e-02, fx0 +1.765296e+02, m +1.704075e+02, fy +1.768720e+02, linerr +4.894236e+00, master time 0.3s, eval time 0.5s, time 1.0s Iter 102: ncols 145, nrows 162, Δ 5.280914e-02, fx0 +1.765296e+02, m +1.704170e+02, fy +1.771096e+02, linerr +7.485888e+00, master time 0.3s, eval time 0.5s, time 1.0s Iter 103: ncols 145, nrows 163, Δ 5.280914e-02, fx0 +1.765296e+02, m +1.704262e+02, fy +1.804704e+02, linerr +6.958583e+00, master time 0.4s, eval time 0.5s, time 1.0s Iter 104: ncols 145, nrows 164, Δ 5.280914e-02, fx0 +1.765296e+02, m +1.704423e+02, fy +1.779814e+02, linerr +5.259228e+00, master time 0.4s, eval time 0.5s, time 1.0s Iter 105: ncols 145, nrows 165, Δ 5.280914e-02, fx0 +1.765296e+02, m +1.704716e+02, fy +1.783050e+02, linerr +7.572572e+00, master time 0.4s, eval time 0.5s, time 1.0s Iter 106: ncols 145, nrows 166, Δ 5.280914e-02, fx0 +1.765296e+02, m +1.704857e+02, fy +1.781045e+02, linerr +6.470053e+00, master time 0.4s, eval time 0.5s, time 1.0s Iter 107: ncols 145, nrows 167, Δ 5.280914e-02, fx0 +1.765296e+02, m +1.704936e+02, fy +1.789660e+02, linerr +4.442698e+00, master time 0.4s, eval time 0.5s, time 1.0s Iter 108: ncols 145, nrows 168, Δ 5.280914e-02, fx0 +1.765296e+02, m +1.704998e+02, fy +1.785726e+02, linerr +4.194713e+00, master time 0.4s, eval time 0.5s, time 1.0s Iter 109: ncols 145, nrows 168, Δ 5.280914e-02, fx0 +1.764839e+02, m +1.704998e+02, fy +1.764839e+02, linerr +4.194713e+00, master time 0.4s, eval time 0.5s, time 1.1s Iter 110: ncols 145, nrows 169, Δ 5.280914e-02, fx0 +1.764839e+02, m +1.705112e+02, fy +1.764839e+02, linerr -4.884981e-14, master time 0.4s, eval time 0.5s, time 1.1s Iter 111: ncols 145, nrows 170, Δ 5.280914e-02, fx0 +1.764839e+02, m +1.705202e+02, fy +1.790318e+02, linerr +5.195191e+00, master time 0.4s, eval time 0.5s, time 1.1s Iter 112: ncols 145, nrows 171, Δ 5.280914e-02, fx0 +1.764839e+02, m +1.705318e+02, fy +1.777430e+02, linerr +5.598761e+00, master time 0.4s, eval time 0.5s, time 1.1s Iter 113: ncols 145, nrows 172, Δ 5.280914e-02, fx0 +1.764839e+02, m +1.705429e+02, fy +1.775688e+02, linerr +7.508753e+00, master time 0.4s, eval time 0.5s, time 1.1s Iter 114: ncols 145, nrows 173, Δ 5.280914e-02, fx0 +1.764839e+02, m +1.705523e+02, fy +1.785811e+02, linerr +5.115043e+00, master time 0.4s, eval time 0.5s, time 1.1s Iter 115: ncols 145, nrows 174, Δ 5.280914e-02, fx0 +1.764839e+02, m +1.705619e+02, fy +1.780090e+02, linerr +6.206609e+00, master time 0.4s, eval time 0.5s, time 1.1s Iter 116: ncols 145, nrows 175, Δ 5.280914e-02, fx0 +1.764839e+02, m +1.705857e+02, fy +1.777143e+02, linerr +6.922091e+00, master time 0.4s, eval time 0.5s, time 1.1s Iter 117: ncols 145, nrows 176, Δ 5.280914e-02, fx0 +1.764839e+02, m +1.706010e+02, fy +1.768369e+02, linerr +8.241560e+00, master time 0.4s, eval time 0.5s, time 1.1s Iter 118: ncols 145, nrows 176, Δ 5.280914e-02, fx0 +1.757829e+02, m +1.706010e+02, fy +1.757829e+02, linerr +8.241560e+00, master time 0.4s, eval time 0.5s, time 1.1s Iter 119: ncols 145, nrows 177, Δ 5.280914e-02, fx0 +1.757829e+02, m +1.706166e+02, fy +1.757829e+02, linerr +2.042810e-14, master time 0.4s, eval time 0.5s, time 1.1s Iter 120: ncols 145, nrows 178, Δ 5.280914e-02, fx0 +1.757829e+02, m +1.706196e+02, fy +1.770152e+02, linerr +4.834418e+00, master time 0.4s, eval time 0.5s, time 1.2s Iter 121: ncols 145, nrows 179, Δ 5.280914e-02, fx0 +1.757829e+02, m +1.706239e+02, fy +1.764909e+02, linerr +4.353599e+00, master time 0.4s, eval time 0.5s, time 1.2s Iter 122: ncols 145, nrows 180, Δ 5.280914e-02, fx0 +1.757829e+02, m +1.706320e+02, fy +1.771128e+02, linerr +5.340047e+00, master time 0.4s, eval time 0.5s, time 1.2s Iter 123: ncols 145, nrows 181, Δ 5.280914e-02, fx0 +1.757829e+02, m +1.706392e+02, fy +1.763378e+02, linerr +7.166620e+00, master time 0.4s, eval time 0.5s, time 1.2s Iter 124: ncols 145, nrows 182, Δ 5.280914e-02, fx0 +1.757829e+02, m +1.706492e+02, fy +1.767328e+02, linerr +4.894288e+00, master time 0.5s, eval time 0.5s, time 1.2s Iter 125: ncols 145, nrows 183, Δ 5.280914e-02, fx0 +1.757829e+02, m +1.706527e+02, fy +1.771399e+02, linerr +5.960858e+00, master time 0.5s, eval time 0.5s, time 1.2s Iter 126: ncols 145, nrows 184, Δ 5.280914e-02, fx0 +1.757829e+02, m +1.706607e+02, fy +1.769621e+02, linerr +5.161172e+00, master time 0.5s, eval time 0.6s, time 1.2s Iter 127: ncols 145, nrows 184, Δ 5.280914e-02, fx0 +1.755877e+02, m +1.706607e+02, fy +1.755877e+02, linerr +5.161172e+00, master time 0.5s, eval time 0.6s, time 1.2s Iter 128: ncols 145, nrows 185, Δ 5.280914e-02, fx0 +1.755877e+02, m +1.706732e+02, fy +1.755877e+02, linerr -4.352074e-14, master time 0.5s, eval time 0.6s, time 1.3s Iter 129: ncols 145, nrows 186, Δ 5.280914e-02, fx0 +1.755877e+02, m +1.706904e+02, fy +1.759727e+02, linerr +4.506295e+00, master time 0.5s, eval time 0.6s, time 1.3s Iter 130: ncols 145, nrows 187, Δ 5.280914e-02, fx0 +1.755877e+02, m +1.707169e+02, fy +1.764246e+02, linerr +5.310378e+00, master time 0.5s, eval time 0.6s, time 1.3s Iter 131: ncols 145, nrows 188, Δ 5.280914e-02, fx0 +1.755877e+02, m +1.707472e+02, fy +1.780731e+02, linerr +6.466357e+00, master time 0.5s, eval time 0.6s, time 1.3s Iter 132: ncols 145, nrows 189, Δ 5.280914e-02, fx0 +1.755877e+02, m +1.707522e+02, fy +1.762176e+02, linerr +5.619096e+00, master time 0.5s, eval time 0.6s, time 1.3s Iter 133: ncols 145, nrows 190, Δ 5.280914e-02, fx0 +1.755877e+02, m +1.707590e+02, fy +1.772576e+02, linerr +7.003466e+00, master time 0.5s, eval time 0.6s, time 1.3s Iter 134: ncols 145, nrows 191, Δ 5.280914e-02, fx0 +1.755877e+02, m +1.707702e+02, fy +1.760448e+02, linerr +5.615884e+00, master time 0.5s, eval time 0.6s, time 1.3s Iter 135: ncols 145, nrows 192, Δ 5.280914e-02, fx0 +1.755877e+02, m +1.707828e+02, fy +1.767214e+02, linerr +6.082975e+00, master time 0.5s, eval time 0.6s, time 1.3s Iter 136: ncols 145, nrows 193, Δ 5.280914e-02, fx0 +1.755877e+02, m +1.707935e+02, fy +1.767496e+02, linerr +6.468921e+00, master time 0.5s, eval time 0.6s, time 1.3s Iter 137: ncols 145, nrows 194, Δ 5.280914e-02, fx0 +1.755877e+02, m +1.708082e+02, fy +1.756265e+02, linerr +6.531563e+00, master time 0.5s, eval time 0.6s, time 1.3s Iter 138: ncols 145, nrows 195, Δ 5.280914e-02, fx0 +1.755877e+02, m +1.708103e+02, fy +1.756977e+02, linerr +5.083709e+00, master time 0.5s, eval time 0.6s, time 1.3s Iter 139: ncols 145, nrows 195, Δ 5.280914e-02, fx0 +1.752754e+02, m +1.708103e+02, fy +1.752754e+02, linerr +5.083709e+00, master time 0.5s, eval time 0.6s, time 1.4s Iter 140: ncols 145, nrows 196, Δ 5.280914e-02, fx0 +1.752754e+02, m +1.708154e+02, fy +1.752754e+02, linerr +6.394885e-14, master time 0.5s, eval time 0.6s, time 1.4s Iter 141: ncols 145, nrows 197, Δ 5.280914e-02, fx0 +1.752754e+02, m +1.708197e+02, fy +1.767240e+02, linerr +4.679242e+00, master time 0.5s, eval time 0.6s, time 1.4s Iter 142: ncols 145, nrows 198, Δ 5.280914e-02, fx0 +1.752754e+02, m +1.708314e+02, fy +1.760242e+02, linerr +5.131726e+00, master time 0.5s, eval time 0.6s, time 1.4s Iter 143: ncols 145, nrows 199, Δ 5.280914e-02, fx0 +1.752754e+02, m +1.708430e+02, fy +1.754245e+02, linerr +4.619590e+00, master time 0.5s, eval time 0.7s, time 1.4s Iter 144: ncols 145, nrows 199, Δ 5.280914e-02, fx0 +1.749964e+02, m +1.708430e+02, fy +1.749964e+02, linerr +4.619590e+00, master time 0.5s, eval time 0.7s, time 1.5s Iter 145: ncols 145, nrows 200, Δ 5.280914e-02, fx0 +1.749964e+02, m +1.708456e+02, fy +1.749964e+02, linerr -2.486900e-14, master time 0.6s, eval time 0.7s, time 1.5s Iter 146: ncols 145, nrows 200, Δ 5.280914e-02, fx0 +1.744599e+02, m +1.708456e+02, fy +1.744599e+02, linerr -2.486900e-14, master time 0.6s, eval time 0.7s, time 1.5s Iter 147: ncols 145, nrows 201, Δ 5.280914e-02, fx0 +1.744599e+02, m +1.708527e+02, fy +1.744599e+02, linerr -2.273737e-13, master time 0.6s, eval time 0.7s, time 1.5s Iter 148: ncols 145, nrows 202, Δ 5.280914e-02, fx0 +1.744599e+02, m +1.708596e+02, fy +1.765470e+02, linerr +4.154021e+00, master time 0.6s, eval time 0.7s, time 1.5s Iter 149: ncols 145, nrows 203, Δ 5.280914e-02, fx0 +1.744599e+02, m +1.708645e+02, fy +1.759304e+02, linerr +2.565005e+00, master time 0.6s, eval time 0.7s, time 1.5s Iter 150: ncols 145, nrows 204, Δ 5.280914e-02, fx0 +1.744599e+02, m +1.708688e+02, fy +1.751448e+02, linerr +2.471367e+00, master time 0.6s, eval time 0.7s, time 1.5s Iter 151: ncols 145, nrows 205, Δ 5.280914e-02, fx0 +1.744599e+02, m +1.708729e+02, fy +1.755236e+02, linerr +3.147777e+00, master time 0.6s, eval time 0.7s, time 1.5s Iter 152: ncols 145, nrows 206, Δ 5.280914e-02, fx0 +1.744599e+02, m +1.708782e+02, fy +1.755138e+02, linerr +3.188239e+00, master time 0.6s, eval time 0.7s, time 1.5s Iter 153: ncols 145, nrows 207, Δ 5.280914e-02, fx0 +1.744599e+02, m +1.708856e+02, fy +1.755201e+02, linerr +4.156780e+00, master time 0.6s, eval time 0.7s, time 1.5s Iter 154: ncols 145, nrows 208, Δ 5.280914e-02, fx0 +1.744599e+02, m +1.708914e+02, fy +1.749181e+02, linerr +2.368297e+00, master time 0.6s, eval time 0.7s, time 1.5s Iter 155: ncols 145, nrows 209, Δ 5.280914e-02, fx0 +1.744599e+02, m +1.709101e+02, fy +1.748529e+02, linerr +3.312445e+00, master time 0.6s, eval time 0.7s, time 1.6s Iter 156: ncols 145, nrows 210, Δ 5.280914e-02, fx0 +1.744599e+02, m +1.709213e+02, fy +1.754264e+02, linerr +3.498177e+00, master time 0.6s, eval time 0.7s, time 1.6s Iter 157: ncols 145, nrows 211, Δ 5.280914e-02, fx0 +1.744599e+02, m +1.709405e+02, fy +1.754266e+02, linerr +2.482678e+00, master time 0.6s, eval time 0.7s, time 1.6s Iter 158: ncols 145, nrows 212, Δ 5.280914e-02, fx0 +1.744599e+02, m +1.709479e+02, fy +1.750879e+02, linerr +4.695013e+00, master time 0.6s, eval time 0.7s, time 1.6s Iter 159: ncols 145, nrows 213, Δ 5.280914e-02, fx0 +1.744599e+02, m +1.709622e+02, fy +1.752645e+02, linerr +3.147935e+00, master time 0.6s, eval time 0.7s, time 1.6s Iter 160: ncols 145, nrows 214, Δ 5.280914e-02, fx0 +1.744599e+02, m +1.709729e+02, fy +1.759886e+02, linerr +2.489864e+00, master time 0.6s, eval time 0.7s, time 1.6s Iter 161: ncols 145, nrows 215, Δ 5.280914e-02, fx0 +1.744599e+02, m +1.709803e+02, fy +1.764039e+02, linerr +4.786087e+00, master time 0.6s, eval time 0.7s, time 1.6s Iter 162: ncols 145, nrows 216, Δ 5.280914e-02, fx0 +1.744599e+02, m +1.709928e+02, fy +1.754388e+02, linerr +3.591326e+00, master time 0.6s, eval time 0.7s, time 1.6s Iter 163: ncols 145, nrows 217, Δ 5.280914e-02, fx0 +1.744599e+02, m +1.710079e+02, fy +1.748554e+02, linerr +3.039393e+00, master time 0.7s, eval time 0.7s, time 1.7s Iter 164: ncols 145, nrows 218, Δ 5.280914e-02, fx0 +1.744599e+02, m +1.710165e+02, fy +1.750309e+02, linerr +2.737073e+00, master time 0.7s, eval time 0.7s, time 1.7s Iter 165: ncols 145, nrows 218, Δ 5.280914e-02, fx0 +1.743296e+02, m +1.710165e+02, fy +1.743296e+02, linerr +2.737073e+00, master time 0.7s, eval time 0.7s, time 1.7s Iter 166: ncols 145, nrows 219, Δ 5.280914e-02, fx0 +1.743296e+02, m +1.710230e+02, fy +1.743296e+02, linerr -1.030287e-13, master time 0.7s, eval time 0.7s, time 1.7s Iter 167: ncols 145, nrows 219, Δ 5.280914e-02, fx0 +1.742919e+02, m +1.710230e+02, fy +1.742919e+02, linerr -1.030287e-13, master time 0.7s, eval time 0.7s, time 1.7s Iter 168: ncols 145, nrows 220, Δ 5.280914e-02, fx0 +1.742919e+02, m +1.710272e+02, fy +1.742919e+02, linerr +7.371881e-14, master time 0.7s, eval time 0.7s, time 1.7s Iter 169: ncols 145, nrows 221, Δ 5.280914e-02, fx0 +1.742919e+02, m +1.710302e+02, fy +1.745964e+02, linerr +4.114636e+00, master time 0.7s, eval time 0.7s, time 1.7s Iter 170: ncols 145, nrows 222, Δ 5.280914e-02, fx0 +1.742919e+02, m +1.710341e+02, fy +1.750114e+02, linerr +2.801686e+00, master time 0.7s, eval time 0.8s, time 1.7s Iter 171: ncols 145, nrows 223, Δ 5.280914e-02, fx0 +1.742919e+02, m +1.710428e+02, fy +1.744858e+02, linerr +2.204830e+00, master time 0.7s, eval time 0.8s, time 1.7s Iter 172: ncols 145, nrows 224, Δ 5.280914e-02, fx0 +1.742919e+02, m +1.710505e+02, fy +1.747491e+02, linerr +3.963729e+00, master time 0.7s, eval time 0.8s, time 1.7s Iter 173: ncols 145, nrows 225, Δ 5.280914e-02, fx0 +1.742919e+02, m +1.710550e+02, fy +1.744645e+02, linerr +2.384580e+00, master time 0.7s, eval time 0.8s, time 1.7s Iter 174: ncols 145, nrows 226, Δ 5.280914e-02, fx0 +1.742919e+02, m +1.710628e+02, fy +1.743404e+02, linerr +3.561719e+00, master time 0.7s, eval time 0.8s, time 1.8s Iter 175: ncols 145, nrows 227, Δ 5.280914e-02, fx0 +1.742919e+02, m +1.710702e+02, fy +1.746350e+02, linerr +1.831429e+00, master time 0.7s, eval time 0.8s, time 1.8s Iter 176: ncols 145, nrows 228, Δ 5.280914e-02, fx0 +1.742919e+02, m +1.710796e+02, fy +1.747657e+02, linerr +3.642977e+00, master time 0.7s, eval time 0.8s, time 1.8s Iter 177: ncols 145, nrows 229, Δ 5.280914e-02, fx0 +1.742919e+02, m +1.710826e+02, fy +1.744966e+02, linerr +3.731466e+00, master time 0.7s, eval time 0.8s, time 1.8s Iter 178: ncols 145, nrows 229, Δ 5.280914e-02, fx0 +1.739531e+02, m +1.710826e+02, fy +1.739531e+02, linerr +3.731466e+00, master time 0.7s, eval time 0.8s, time 1.8s Iter 179: ncols 145, nrows 230, Δ 5.280914e-02, fx0 +1.739531e+02, m +1.710892e+02, fy +1.739531e+02, linerr +3.996803e-14, master time 0.7s, eval time 0.8s, time 1.8s Iter 180: ncols 145, nrows 231, Δ 5.280914e-02, fx0 +1.739531e+02, m +1.710956e+02, fy +1.748685e+02, linerr +3.196161e+00, master time 0.7s, eval time 0.8s, time 1.8s Iter 181: ncols 145, nrows 232, Δ 5.280914e-02, fx0 +1.739531e+02, m +1.711059e+02, fy +1.742458e+02, linerr +2.556848e+00, master time 0.7s, eval time 0.8s, time 1.8s Iter 182: ncols 145, nrows 233, Δ 5.280914e-02, fx0 +1.739531e+02, m +1.711163e+02, fy +1.741992e+02, linerr +2.259333e+00, master time 0.7s, eval time 0.8s, time 1.8s Iter 183: ncols 145, nrows 234, Δ 5.280914e-02, fx0 +1.739531e+02, m +1.711329e+02, fy +1.742733e+02, linerr +2.403210e+00, master time 0.7s, eval time 0.8s, time 1.8s Iter 184: ncols 145, nrows 235, Δ 5.280914e-02, fx0 +1.739531e+02, m +1.711383e+02, fy +1.749926e+02, linerr +3.206452e+00, master time 0.7s, eval time 0.8s, time 1.8s Iter 185: ncols 145, nrows 236, Δ 5.280914e-02, fx0 +1.739531e+02, m +1.711506e+02, fy +1.750611e+02, linerr +2.541525e+00, master time 0.8s, eval time 0.8s, time 1.9s Iter 186: ncols 145, nrows 237, Δ 5.280914e-02, fx0 +1.739531e+02, m +1.711540e+02, fy +1.746564e+02, linerr +2.603771e+00, master time 0.8s, eval time 0.8s, time 1.9s Iter 187: ncols 145, nrows 238, Δ 5.280914e-02, fx0 +1.739531e+02, m +1.711546e+02, fy +1.744753e+02, linerr +2.422663e+00, master time 0.8s, eval time 0.8s, time 1.9s Iter 188: ncols 145, nrows 239, Δ 5.280914e-02, fx0 +1.739531e+02, m +1.711574e+02, fy +1.740816e+02, linerr +2.781578e+00, master time 0.8s, eval time 0.8s, time 1.9s Iter 189: ncols 145, nrows 240, Δ 5.280914e-02, fx0 +1.739531e+02, m +1.711589e+02, fy +1.745875e+02, linerr +3.899837e+00, master time 0.8s, eval time 0.8s, time 1.9s Iter 190: ncols 145, nrows 240, Δ 5.280914e-02, fx0 +1.737730e+02, m +1.711589e+02, fy +1.737730e+02, linerr +3.899837e+00, master time 0.8s, eval time 0.8s, time 1.9s Iter 191: ncols 145, nrows 241, Δ 5.280914e-02, fx0 +1.737730e+02, m +1.711610e+02, fy +1.737730e+02, linerr +1.776357e-15, master time 0.8s, eval time 0.8s, time 1.9s Iter 192: ncols 145, nrows 242, Δ 5.280914e-02, fx0 +1.737730e+02, m +1.711648e+02, fy +1.749056e+02, linerr +3.529120e+00, master time 0.8s, eval time 0.8s, time 1.9s Iter 193: ncols 145, nrows 243, Δ 5.280914e-02, fx0 +1.737730e+02, m +1.711686e+02, fy +1.738925e+02, linerr +1.881243e+00, master time 0.8s, eval time 0.8s, time 1.9s Iter 194: ncols 145, nrows 244, Δ 5.280914e-02, fx0 +1.737730e+02, m +1.711713e+02, fy +1.741405e+02, linerr +1.481776e+00, master time 0.8s, eval time 0.8s, time 1.9s Iter 195: ncols 145, nrows 245, Δ 5.280914e-02, fx0 +1.737730e+02, m +1.711750e+02, fy +1.740877e+02, linerr +2.409018e+00, master time 0.8s, eval time 0.8s, time 1.9s Iter 196: ncols 145, nrows 246, Δ 5.280914e-02, fx0 +1.737730e+02, m +1.711860e+02, fy +1.738776e+02, linerr +2.668376e+00, master time 0.8s, eval time 0.8s, time 2.0s Iter 197: ncols 145, nrows 246, Δ 5.280914e-02, fx0 +1.736651e+02, m +1.711860e+02, fy +1.736651e+02, linerr +2.668376e+00, master time 0.8s, eval time 0.8s, time 2.0s Iter 198: ncols 145, nrows 247, Δ 5.280914e-02, fx0 +1.736651e+02, m +1.712063e+02, fy +1.736651e+02, linerr -1.323386e-13, master time 0.8s, eval time 0.8s, time 2.0s Iter 199: ncols 145, nrows 247, Δ 5.280914e-02, fx0 +1.735752e+02, m +1.712063e+02, fy +1.735752e+02, linerr -1.323386e-13, master time 0.8s, eval time 0.8s, time 2.0s Iter 200: ncols 145, nrows 248, Δ 5.280914e-02, fx0 +1.735752e+02, m +1.712089e+02, fy +1.735752e+02, linerr -1.127987e-13, master time 0.8s, eval time 0.8s, time 2.0s Iter 201: ncols 145, nrows 248, Δ 5.280914e-02, fx0 +1.733044e+02, m +1.712089e+02, fy +1.733044e+02, linerr -1.127987e-13, master time 0.8s, eval time 0.9s, time 2.0s Iter 202: ncols 145, nrows 249, Δ 5.280914e-02, fx0 +1.733044e+02, m +1.712172e+02, fy +1.733044e+02, linerr -7.815970e-14, master time 0.8s, eval time 0.9s, time 2.0s Iter 203: ncols 145, nrows 250, Δ 5.280914e-02, fx0 +1.733044e+02, m +1.712268e+02, fy +1.737447e+02, linerr +1.278708e+00, master time 0.8s, eval time 0.9s, time 2.0s Iter 204: ncols 145, nrows 251, Δ 5.280914e-02, fx0 +1.733044e+02, m +1.712407e+02, fy +1.745220e+02, linerr +2.284533e+00, master time 0.8s, eval time 0.9s, time 2.0s Iter 205: ncols 145, nrows 252, Δ 5.280914e-02, fx0 +1.733044e+02, m +1.712441e+02, fy +1.738169e+02, linerr +1.518943e+00, master time 0.8s, eval time 0.9s, time 2.0s Iter 206: ncols 145, nrows 253, Δ 5.280914e-02, fx0 +1.733044e+02, m +1.712570e+02, fy +1.738721e+02, linerr +2.199498e+00, master time 0.8s, eval time 0.9s, time 2.0s Iter 207: ncols 145, nrows 254, Δ 5.280914e-02, fx0 +1.733044e+02, m +1.712609e+02, fy +1.740124e+02, linerr +1.682486e+00, master time 0.8s, eval time 0.9s, time 2.1s Iter 208: ncols 145, nrows 255, Δ 5.280914e-02, fx0 +1.733044e+02, m +1.712635e+02, fy +1.738666e+02, linerr +2.262572e+00, master time 0.9s, eval time 0.9s, time 2.1s Iter 209: ncols 145, nrows 256, Δ 5.280914e-02, fx0 +1.733044e+02, m +1.712699e+02, fy +1.744983e+02, linerr +2.137021e+00, master time 0.9s, eval time 0.9s, time 2.1s Iter 210: ncols 145, nrows 257, Δ 5.280914e-02, fx0 +1.733044e+02, m +1.712738e+02, fy +1.739590e+02, linerr +1.197341e+00, master time 0.9s, eval time 0.9s, time 2.1s Iter 211: ncols 145, nrows 258, Δ 5.280914e-02, fx0 +1.733044e+02, m +1.712806e+02, fy +1.746365e+02, linerr +1.509639e+00, master time 0.9s, eval time 0.9s, time 2.1s Iter 212: ncols 145, nrows 259, Δ 5.280914e-02, fx0 +1.733044e+02, m +1.712853e+02, fy +1.741986e+02, linerr +1.544653e+00, master time 0.9s, eval time 0.9s, time 2.1s Iter 213: ncols 145, nrows 260, Δ 5.280914e-02, fx0 +1.733044e+02, m +1.712885e+02, fy +1.743582e+02, linerr +3.460917e+00, master time 0.9s, eval time 0.9s, time 2.1s Iter 214: ncols 145, nrows 261, Δ 5.280914e-02, fx0 +1.733044e+02, m +1.712894e+02, fy +1.737250e+02, linerr +2.610735e+00, master time 0.9s, eval time 0.9s, time 2.1s Iter 215: ncols 145, nrows 262, Δ 5.280914e-02, fx0 +1.733044e+02, m +1.712939e+02, fy +1.738349e+02, linerr +1.578061e+00, master time 0.9s, eval time 0.9s, time 2.1s Iter 216: ncols 145, nrows 263, Δ 5.280914e-02, fx0 +1.733044e+02, m +1.712980e+02, fy +1.743766e+02, linerr +1.426806e+00, master time 0.9s, eval time 0.9s, time 2.1s Iter 217: ncols 145, nrows 264, Δ 5.280914e-02, fx0 +1.733044e+02, m +1.713109e+02, fy +1.738812e+02, linerr +2.150100e+00, master time 0.9s, eval time 0.9s, time 2.2s Iter 218: ncols 145, nrows 265, Δ 5.280914e-02, fx0 +1.733044e+02, m +1.713178e+02, fy +1.741466e+02, linerr +2.187580e+00, master time 0.9s, eval time 0.9s, time 2.2s Iter 219: ncols 145, nrows 266, Δ 5.280914e-02, fx0 +1.733044e+02, m +1.713212e+02, fy +1.737130e+02, linerr +2.892771e+00, master time 0.9s, eval time 0.9s, time 2.2s Iter 220: ncols 145, nrows 267, Δ 5.280914e-02, fx0 +1.733044e+02, m +1.713218e+02, fy +1.733190e+02, linerr +2.004685e+00, master time 0.9s, eval time 0.9s, time 2.2s Iter 221: ncols 145, nrows 268, Δ 5.280914e-02, fx0 +1.733044e+02, m +1.713249e+02, fy +1.735276e+02, linerr +1.672526e+00, master time 0.9s, eval time 0.9s, time 2.2s Iter 222: ncols 145, nrows 269, Δ 5.280914e-02, fx0 +1.733044e+02, m +1.713297e+02, fy +1.735746e+02, linerr +2.093008e+00, master time 0.9s, eval time 0.9s, time 2.2s Iter 223: ncols 145, nrows 270, Δ 5.280914e-02, fx0 +1.733044e+02, m +1.713326e+02, fy +1.736794e+02, linerr +2.006436e+00, master time 0.9s, eval time 0.9s, time 2.2s Iter 224: ncols 145, nrows 271, Δ 5.280914e-02, fx0 +1.733044e+02, m +1.713342e+02, fy +1.735385e+02, linerr +2.326381e+00, master time 0.9s, eval time 0.9s, time 2.2s Iter 225: ncols 145, nrows 271, Δ 5.280914e-02, fx0 +1.729785e+02, m +1.713342e+02, fy +1.729785e+02, linerr +2.326381e+00, master time 0.9s, eval time 0.9s, time 2.2s Iter 226: ncols 145, nrows 272, Δ 5.280914e-02, fx0 +1.729785e+02, m +1.713384e+02, fy +1.729785e+02, linerr -5.151435e-14, master time 0.9s, eval time 0.9s, time 2.2s Iter 227: ncols 145, nrows 273, Δ 5.280914e-02, fx0 +1.729785e+02, m +1.713406e+02, fy +1.735190e+02, linerr +1.360706e+00, master time 1.0s, eval time 0.9s, time 2.3s Iter 228: ncols 145, nrows 274, Δ 5.280914e-02, fx0 +1.729785e+02, m +1.713420e+02, fy +1.730498e+02, linerr +1.348259e+00, master time 1.0s, eval time 0.9s, time 2.3s Iter 229: ncols 145, nrows 275, Δ 5.280914e-02, fx0 +1.729785e+02, m +1.713425e+02, fy +1.732143e+02, linerr +1.835956e+00, master time 1.0s, eval time 0.9s, time 2.3s Iter 230: ncols 145, nrows 276, Δ 5.280914e-02, fx0 +1.729785e+02, m +1.713431e+02, fy +1.737396e+02, linerr +1.231570e+00, master time 1.0s, eval time 0.9s, time 2.3s Iter 231: ncols 145, nrows 277, Δ 5.280914e-02, fx0 +1.729785e+02, m +1.713440e+02, fy +1.734579e+02, linerr +1.081566e+00, master time 1.0s, eval time 1.0s, time 2.3s Iter 232: ncols 145, nrows 278, Δ 5.280914e-02, fx0 +1.729785e+02, m +1.713496e+02, fy +1.735963e+02, linerr +1.100966e+00, master time 1.0s, eval time 1.0s, time 2.3s Iter 233: ncols 145, nrows 279, Δ 5.280914e-02, fx0 +1.729785e+02, m +1.713523e+02, fy +1.736749e+02, linerr +1.779421e+00, master time 1.0s, eval time 1.0s, time 2.3s Iter 234: ncols 145, nrows 280, Δ 5.280914e-02, fx0 +1.729785e+02, m +1.713596e+02, fy +1.739235e+02, linerr +1.530245e+00, master time 1.0s, eval time 1.0s, time 2.3s Iter 235: ncols 145, nrows 281, Δ 5.280914e-02, fx0 +1.729785e+02, m +1.713630e+02, fy +1.732821e+02, linerr +1.091407e+00, master time 1.0s, eval time 1.0s, time 2.3s Iter 236: ncols 145, nrows 282, Δ 5.280914e-02, fx0 +1.729785e+02, m +1.713656e+02, fy +1.733046e+02, linerr +1.356241e+00, master time 1.0s, eval time 1.0s, time 2.4s Iter 237: ncols 145, nrows 283, Δ 5.280914e-02, fx0 +1.729785e+02, m +1.713698e+02, fy +1.732317e+02, linerr +1.272252e+00, master time 1.0s, eval time 1.0s, time 2.4s Iter 238: ncols 145, nrows 284, Δ 5.280914e-02, fx0 +1.729785e+02, m +1.713780e+02, fy +1.731213e+02, linerr +8.819319e-01, master time 1.0s, eval time 1.0s, time 2.4s Iter 239: ncols 145, nrows 285, Δ 5.280914e-02, fx0 +1.729785e+02, m +1.713834e+02, fy +1.736518e+02, linerr +1.799195e+00, master time 1.0s, eval time 1.0s, time 2.4s Iter 240: ncols 145, nrows 286, Δ 5.280914e-02, fx0 +1.729785e+02, m +1.713881e+02, fy +1.737418e+02, linerr +1.049626e+00, master time 1.0s, eval time 1.0s, time 2.4s Iter 241: ncols 145, nrows 287, Δ 5.280914e-02, fx0 +1.729785e+02, m +1.713948e+02, fy +1.733358e+02, linerr +2.463991e+00, master time 1.0s, eval time 1.0s, time 2.4s Iter 242: ncols 145, nrows 288, Δ 5.280914e-02, fx0 +1.729785e+02, m +1.714025e+02, fy +1.736677e+02, linerr +1.449921e+00, master time 1.0s, eval time 1.0s, time 2.4s Iter 243: ncols 145, nrows 289, Δ 5.280914e-02, fx0 +1.729785e+02, m +1.714038e+02, fy +1.734117e+02, linerr +3.018262e+00, master time 1.0s, eval time 1.0s, time 2.4s Iter 244: ncols 145, nrows 290, Δ 5.280914e-02, fx0 +1.729785e+02, m +1.714067e+02, fy +1.733593e+02, linerr +1.530520e+00, master time 1.0s, eval time 1.0s, time 2.4s Iter 245: ncols 145, nrows 291, Δ 5.280914e-02, fx0 +1.729785e+02, m +1.714073e+02, fy +1.730351e+02, linerr +1.210649e+00, master time 1.1s, eval time 1.0s, time 2.4s Iter 246: ncols 145, nrows 292, Δ 5.280914e-02, fx0 +1.729785e+02, m +1.714087e+02, fy +1.732408e+02, linerr +1.434221e+00, master time 1.1s, eval time 1.0s, time 2.5s Iter 247: ncols 145, nrows 292, Δ 5.280914e-02, fx0 +1.729698e+02, m +1.714087e+02, fy +1.729698e+02, linerr +1.434221e+00, master time 1.1s, eval time 1.0s, time 2.5s Iter 248: ncols 145, nrows 293, Δ 5.280914e-02, fx0 +1.729698e+02, m +1.714134e+02, fy +1.729698e+02, linerr +2.309264e-14, master time 1.1s, eval time 1.0s, time 2.5s Iter 249: ncols 145, nrows 294, Δ 5.280914e-02, fx0 +1.729698e+02, m +1.714157e+02, fy +1.733297e+02, linerr +9.818406e-01, master time 1.1s, eval time 1.0s, time 2.5s Iter 250: ncols 145, nrows 295, Δ 5.280914e-02, fx0 +1.729698e+02, m +1.714251e+02, fy +1.734024e+02, linerr +1.159768e+00, master time 1.1s, eval time 1.0s, time 2.5s Iter 251: ncols 145, nrows 296, Δ 5.280914e-02, fx0 +1.729698e+02, m +1.714320e+02, fy +1.734443e+02, linerr +1.044420e+00, master time 1.1s, eval time 1.0s, time 2.5s Iter 252: ncols 145, nrows 297, Δ 5.280914e-02, fx0 +1.729698e+02, m +1.714360e+02, fy +1.734811e+02, linerr +1.862657e+00, master time 1.1s, eval time 1.0s, time 2.5s Iter 253: ncols 145, nrows 298, Δ 5.280914e-02, fx0 +1.729698e+02, m +1.714416e+02, fy +1.730890e+02, linerr +8.705208e-01, master time 1.1s, eval time 1.0s, time 2.5s Iter 254: ncols 145, nrows 299, Δ 5.280914e-02, fx0 +1.729698e+02, m +1.714466e+02, fy +1.740731e+02, linerr +2.300444e+00, master time 1.1s, eval time 1.0s, time 2.5s Iter 255: ncols 145, nrows 300, Δ 5.280914e-02, fx0 +1.729698e+02, m +1.714559e+02, fy +1.732619e+02, linerr +8.509288e-01, master time 1.1s, eval time 1.0s, time 2.6s Iter 256: ncols 145, nrows 301, Δ 5.280914e-02, fx0 +1.729698e+02, m +1.714611e+02, fy +1.735103e+02, linerr +1.701409e+00, master time 1.1s, eval time 1.0s, time 2.6s Iter 257: ncols 145, nrows 302, Δ 5.280914e-02, fx0 +1.729698e+02, m +1.714683e+02, fy +1.734578e+02, linerr +1.001284e+00, master time 1.1s, eval time 1.0s, time 2.6s Iter 258: ncols 145, nrows 303, Δ 5.280914e-02, fx0 +1.729698e+02, m +1.714793e+02, fy +1.735085e+02, linerr +1.180503e+00, master time 1.1s, eval time 1.0s, time 2.6s Iter 259: ncols 145, nrows 304, Δ 5.280914e-02, fx0 +1.729698e+02, m +1.714829e+02, fy +1.737921e+02, linerr +1.579127e+00, master time 1.1s, eval time 1.0s, time 2.6s Iter 260: ncols 145, nrows 305, Δ 5.280914e-02, fx0 +1.729698e+02, m +1.714851e+02, fy +1.731875e+02, linerr +8.722783e-01, master time 1.1s, eval time 1.1s, time 2.6s Iter 261: ncols 145, nrows 306, Δ 5.280914e-02, fx0 +1.729698e+02, m +1.714901e+02, fy +1.736139e+02, linerr +2.153415e+00, master time 1.1s, eval time 1.1s, time 2.6s Iter 262: ncols 145, nrows 307, Δ 5.280914e-02, fx0 +1.729698e+02, m +1.714924e+02, fy +1.737514e+02, linerr +1.442193e+00, master time 1.2s, eval time 1.1s, time 2.6s Iter 263: ncols 145, nrows 308, Δ 5.280914e-02, fx0 +1.729698e+02, m +1.714940e+02, fy +1.738948e+02, linerr +2.455068e+00, master time 1.2s, eval time 1.1s, time 2.6s Iter 264: ncols 145, nrows 309, Δ 5.280914e-02, fx0 +1.729698e+02, m +1.714958e+02, fy +1.732807e+02, linerr +2.067833e+00, master time 1.2s, eval time 1.1s, time 2.7s Iter 265: ncols 145, nrows 310, Δ 5.280914e-02, fx0 +1.729698e+02, m +1.714978e+02, fy +1.740166e+02, linerr +1.401382e+00, master time 1.2s, eval time 1.1s, time 2.7s Iter 266: ncols 145, nrows 311, Δ 5.280914e-02, fx0 +1.729698e+02, m +1.715019e+02, fy +1.736074e+02, linerr +1.509022e+00, master time 1.2s, eval time 1.1s, time 2.7s Iter 267: ncols 145, nrows 312, Δ 5.280914e-02, fx0 +1.729698e+02, m +1.715022e+02, fy +1.734355e+02, linerr +3.776187e+00, master time 1.2s, eval time 1.1s, time 2.7s Iter 268: ncols 145, nrows 313, Δ 5.280914e-02, fx0 +1.729698e+02, m +1.715053e+02, fy +1.731941e+02, linerr +1.666528e+00, master time 1.2s, eval time 1.1s, time 2.7s Iter 269: ncols 145, nrows 314, Δ 5.280914e-02, fx0 +1.729698e+02, m +1.715092e+02, fy +1.732478e+02, linerr +1.140346e+00, master time 1.2s, eval time 1.1s, time 2.7s Iter 270: ncols 145, nrows 315, Δ 5.280914e-02, fx0 +1.729698e+02, m +1.715119e+02, fy +1.732393e+02, linerr +1.696066e+00, master time 1.2s, eval time 1.1s, time 2.7s Iter 271: ncols 145, nrows 316, Δ 5.280914e-02, fx0 +1.729698e+02, m +1.715137e+02, fy +1.733714e+02, linerr +1.694354e+00, master time 1.2s, eval time 1.1s, time 2.7s Iter 272: ncols 145, nrows 317, Δ 5.280914e-02, fx0 +1.729698e+02, m +1.715178e+02, fy +1.731225e+02, linerr +1.195619e+00, master time 1.2s, eval time 1.1s, time 2.7s Iter 273: ncols 145, nrows 317, Δ 5.280914e-02, fx0 +1.729653e+02, m +1.715178e+02, fy +1.729653e+02, linerr +1.195619e+00, master time 1.2s, eval time 1.1s, time 2.7s Iter 274: ncols 145, nrows 318, Δ 5.280914e-02, fx0 +1.729653e+02, m +1.715248e+02, fy +1.729653e+02, linerr -4.884981e-14, master time 1.2s, eval time 1.1s, time 2.8s Iter 275: ncols 145, nrows 319, Δ 5.280914e-02, fx0 +1.729653e+02, m +1.715275e+02, fy +1.734942e+02, linerr +1.773961e+00, master time 1.2s, eval time 1.1s, time 2.8s Iter 276: ncols 145, nrows 320, Δ 5.280914e-02, fx0 +1.729653e+02, m +1.715312e+02, fy +1.734852e+02, linerr +2.082126e+00, master time 1.2s, eval time 1.1s, time 2.8s Iter 277: ncols 145, nrows 321, Δ 5.280914e-02, fx0 +1.729653e+02, m +1.715351e+02, fy +1.733745e+02, linerr +1.531533e+00, master time 1.2s, eval time 1.1s, time 2.8s Iter 278: ncols 145, nrows 322, Δ 5.280914e-02, fx0 +1.729653e+02, m +1.715395e+02, fy +1.732179e+02, linerr +2.069174e+00, master time 1.2s, eval time 1.1s, time 2.8s Iter 279: ncols 145, nrows 323, Δ 5.280914e-02, fx0 +1.729653e+02, m +1.715448e+02, fy +1.731088e+02, linerr +1.719827e+00, master time 1.2s, eval time 1.1s, time 2.8s Iter 280: ncols 145, nrows 324, Δ 5.280914e-02, fx0 +1.729653e+02, m +1.715494e+02, fy +1.732432e+02, linerr +1.292715e+00, master time 1.2s, eval time 1.1s, time 2.8s Iter 281: ncols 145, nrows 325, Δ 5.280914e-02, fx0 +1.729653e+02, m +1.715525e+02, fy +1.729814e+02, linerr +1.796366e+00, master time 1.3s, eval time 1.1s, time 2.8s Iter 282: ncols 145, nrows 326, Δ 5.280914e-02, fx0 +1.729653e+02, m +1.715640e+02, fy +1.730120e+02, linerr +2.153347e+00, master time 1.3s, eval time 1.1s, time 2.8s Iter 283: ncols 145, nrows 327, Δ 5.280914e-02, fx0 +1.729653e+02, m +1.715694e+02, fy +1.739963e+02, linerr +1.661308e+00, master time 1.3s, eval time 1.1s, time 2.9s Iter 284: ncols 145, nrows 328, Δ 5.280914e-02, fx0 +1.729653e+02, m +1.715698e+02, fy +1.738135e+02, linerr +2.245336e+00, master time 1.3s, eval time 1.1s, time 2.9s Iter 285: ncols 145, nrows 329, Δ 5.280914e-02, fx0 +1.729653e+02, m +1.715720e+02, fy +1.733205e+02, linerr +1.436892e+00, master time 1.3s, eval time 1.1s, time 2.9s Iter 286: ncols 145, nrows 330, Δ 5.280914e-02, fx0 +1.729653e+02, m +1.715731e+02, fy +1.733626e+02, linerr +1.870362e+00, master time 1.3s, eval time 1.1s, time 2.9s Iter 287: ncols 145, nrows 331, Δ 5.280914e-02, fx0 +1.729653e+02, m +1.715740e+02, fy +1.733728e+02, linerr +2.148449e+00, master time 1.3s, eval time 1.1s, time 2.9s Iter 288: ncols 145, nrows 332, Δ 5.280914e-02, fx0 +1.729653e+02, m +1.715758e+02, fy +1.733042e+02, linerr +1.678403e+00, master time 1.3s, eval time 1.1s, time 2.9s Iter 289: ncols 145, nrows 333, Δ 5.280914e-02, fx0 +1.729653e+02, m +1.715778e+02, fy +1.736583e+02, linerr +1.947091e+00, master time 1.3s, eval time 1.1s, time 2.9s Iter 290: ncols 145, nrows 334, Δ 5.280914e-02, fx0 +1.729653e+02, m +1.715806e+02, fy +1.731218e+02, linerr +1.192053e+00, master time 1.3s, eval time 1.2s, time 2.9s Iter 291: ncols 145, nrows 335, Δ 5.280914e-02, fx0 +1.729653e+02, m +1.715812e+02, fy +1.734618e+02, linerr +1.491006e+00, master time 1.3s, eval time 1.2s, time 3.0s Iter 292: ncols 145, nrows 335, Δ 5.280914e-02, fx0 +1.729495e+02, m +1.715812e+02, fy +1.729495e+02, linerr +1.491006e+00, master time 1.3s, eval time 1.2s, time 3.0s Iter 293: ncols 145, nrows 336, Δ 5.280914e-02, fx0 +1.729495e+02, m +1.715829e+02, fy +1.729495e+02, linerr +1.403322e-13, master time 1.3s, eval time 1.2s, time 3.0s Iter 294: ncols 145, nrows 337, Δ 5.280914e-02, fx0 +1.729495e+02, m +1.715851e+02, fy +1.733105e+02, linerr +8.021179e-01, master time 1.3s, eval time 1.2s, time 3.0s Iter 295: ncols 145, nrows 338, Δ 5.280914e-02, fx0 +1.729495e+02, m +1.715893e+02, fy +1.733489e+02, linerr +5.964072e-01, master time 1.3s, eval time 1.2s, time 3.0s Iter 296: ncols 145, nrows 339, Δ 5.280914e-02, fx0 +1.729495e+02, m +1.715934e+02, fy +1.734112e+02, linerr +1.293445e+00, master time 1.4s, eval time 1.2s, time 3.0s Iter 297: ncols 145, nrows 340, Δ 5.280914e-02, fx0 +1.729495e+02, m +1.715983e+02, fy +1.729608e+02, linerr +8.083639e-01, master time 1.4s, eval time 1.2s, time 3.0s Iter 298: ncols 145, nrows 341, Δ 5.280914e-02, fx0 +1.729495e+02, m +1.716063e+02, fy +1.737263e+02, linerr +9.837290e-01, master time 1.4s, eval time 1.2s, time 3.1s Iter 299: ncols 145, nrows 342, Δ 5.280914e-02, fx0 +1.729495e+02, m +1.716096e+02, fy +1.737765e+02, linerr +2.387691e+00, master time 1.4s, eval time 1.2s, time 3.1s Iter 300: ncols 145, nrows 343, Δ 5.280914e-02, fx0 +1.729495e+02, m +1.716115e+02, fy +1.731528e+02, linerr +1.729512e+00, master time 1.4s, eval time 1.2s, time 3.1s Iter 301: ncols 145, nrows 344, Δ 5.280914e-02, fx0 +1.729495e+02, m +1.716139e+02, fy +1.732092e+02, linerr +9.435046e-01, master time 1.4s, eval time 1.2s, time 3.1s Iter 302: ncols 145, nrows 345, Δ 5.280914e-02, fx0 +1.729495e+02, m +1.716159e+02, fy +1.729937e+02, linerr +2.007361e+00, master time 1.4s, eval time 1.2s, time 3.1s Iter 303: ncols 145, nrows 346, Δ 5.280914e-02, fx0 +1.729495e+02, m +1.716165e+02, fy +1.730387e+02, linerr +1.686038e+00, master time 1.4s, eval time 1.2s, time 3.1s Iter 304: ncols 145, nrows 347, Δ 5.280914e-02, fx0 +1.729495e+02, m +1.716187e+02, fy +1.731887e+02, linerr +6.874439e-01, master time 1.4s, eval time 1.2s, time 3.1s Iter 305: ncols 145, nrows 348, Δ 5.280914e-02, fx0 +1.729495e+02, m +1.716221e+02, fy +1.731363e+02, linerr +2.006761e+00, master time 1.4s, eval time 1.2s, time 3.1s Iter 306: ncols 145, nrows 349, Δ 5.280914e-02, fx0 +1.729495e+02, m +1.716256e+02, fy +1.731290e+02, linerr +9.161277e-01, master time 1.4s, eval time 1.2s, time 3.1s Iter 307: ncols 145, nrows 350, Δ 5.280914e-02, fx0 +1.729495e+02, m +1.716279e+02, fy +1.736013e+02, linerr +1.300188e+00, master time 1.4s, eval time 1.2s, time 3.2s Iter 308: ncols 145, nrows 350, Δ 5.280914e-02, fx0 +1.729143e+02, m +1.716279e+02, fy +1.729143e+02, linerr +1.300188e+00, master time 1.4s, eval time 1.2s, time 3.2s Iter 309: ncols 145, nrows 351, Δ 5.280914e-02, fx0 +1.729143e+02, m +1.716311e+02, fy +1.729143e+02, linerr +7.549517e-14, master time 1.4s, eval time 1.2s, time 3.2s Iter 310: ncols 145, nrows 351, Δ 5.280914e-02, fx0 +1.729026e+02, m +1.716311e+02, fy +1.729026e+02, linerr +7.549517e-14, master time 1.4s, eval time 1.2s, time 3.2s Iter 311: ncols 145, nrows 352, Δ 5.280914e-02, fx0 +1.729026e+02, m +1.716340e+02, fy +1.729026e+02, linerr -3.819167e-14, master time 1.5s, eval time 1.2s, time 3.2s Iter 312: ncols 145, nrows 353, Δ 5.280914e-02, fx0 +1.729026e+02, m +1.716372e+02, fy +1.736470e+02, linerr +1.288490e+00, master time 1.5s, eval time 1.2s, time 3.2s Iter 313: ncols 145, nrows 354, Δ 5.280914e-02, fx0 +1.729026e+02, m +1.716397e+02, fy +1.731922e+02, linerr +8.587499e-01, master time 1.5s, eval time 1.3s, time 3.2s Iter 314: ncols 145, nrows 355, Δ 5.280914e-02, fx0 +1.729026e+02, m +1.716430e+02, fy +1.732958e+02, linerr +1.968991e+00, master time 1.5s, eval time 1.3s, time 3.2s Iter 315: ncols 145, nrows 356, Δ 5.280914e-02, fx0 +1.729026e+02, m +1.716448e+02, fy +1.735382e+02, linerr +1.357510e+00, master time 1.5s, eval time 1.3s, time 3.2s Iter 316: ncols 145, nrows 357, Δ 5.280914e-02, fx0 +1.729026e+02, m +1.716484e+02, fy +1.730972e+02, linerr +9.571753e-01, master time 1.5s, eval time 1.3s, time 3.3s Iter 317: ncols 145, nrows 358, Δ 5.280914e-02, fx0 +1.729026e+02, m +1.716534e+02, fy +1.732748e+02, linerr +1.084282e+00, master time 1.5s, eval time 1.3s, time 3.3s Iter 318: ncols 145, nrows 359, Δ 5.280914e-02, fx0 +1.729026e+02, m +1.716584e+02, fy +1.732386e+02, linerr +1.731650e+00, master time 1.5s, eval time 1.3s, time 3.3s Iter 319: ncols 145, nrows 360, Δ 5.280914e-02, fx0 +1.729026e+02, m +1.716603e+02, fy +1.735474e+02, linerr +2.937076e+00, master time 1.5s, eval time 1.3s, time 3.3s Iter 320: ncols 145, nrows 361, Δ 5.280914e-02, fx0 +1.729026e+02, m +1.716636e+02, fy +1.730323e+02, linerr +1.119429e+00, master time 1.5s, eval time 1.3s, time 3.3s Iter 321: ncols 145, nrows 362, Δ 5.280914e-02, fx0 +1.729026e+02, m +1.716647e+02, fy +1.733177e+02, linerr +1.628952e+00, master time 1.5s, eval time 1.3s, time 3.3s Iter 322: ncols 145, nrows 363, Δ 5.280914e-02, fx0 +1.729026e+02, m +1.716651e+02, fy +1.734773e+02, linerr +1.306710e+00, master time 1.5s, eval time 1.3s, time 3.3s Iter 323: ncols 145, nrows 364, Δ 5.280914e-02, fx0 +1.729026e+02, m +1.716655e+02, fy +1.730592e+02, linerr +1.596830e+00, master time 1.5s, eval time 1.3s, time 3.3s Iter 324: ncols 145, nrows 365, Δ 5.280914e-02, fx0 +1.729026e+02, m +1.716658e+02, fy +1.730079e+02, linerr +1.829820e+00, master time 1.5s, eval time 1.3s, time 3.3s Iter 325: ncols 145, nrows 365, Δ 5.280914e-02, fx0 +1.728891e+02, m +1.716658e+02, fy +1.728891e+02, linerr +1.829820e+00, master time 1.5s, eval time 1.3s, time 3.4s Iter 326: ncols 145, nrows 366, Δ 5.280914e-02, fx0 +1.728891e+02, m +1.716672e+02, fy +1.728891e+02, linerr +5.240253e-14, master time 1.5s, eval time 1.3s, time 3.4s Iter 327: ncols 145, nrows 367, Δ 5.280914e-02, fx0 +1.728891e+02, m +1.716698e+02, fy +1.731529e+02, linerr +1.174838e+00, master time 1.6s, eval time 1.3s, time 3.4s Iter 328: ncols 145, nrows 368, Δ 5.280914e-02, fx0 +1.728891e+02, m +1.716704e+02, fy +1.730728e+02, linerr +9.965823e-01, master time 1.6s, eval time 1.3s, time 3.4s Iter 329: ncols 145, nrows 369, Δ 5.280914e-02, fx0 +1.728891e+02, m +1.716706e+02, fy +1.730076e+02, linerr +2.278635e+00, master time 1.6s, eval time 1.3s, time 3.4s Iter 330: ncols 145, nrows 370, Δ 5.280914e-02, fx0 +1.728891e+02, m +1.716712e+02, fy +1.729401e+02, linerr +1.124976e+00, master time 1.6s, eval time 1.3s, time 3.4s Iter 331: ncols 145, nrows 371, Δ 5.280914e-02, fx0 +1.728891e+02, m +1.716746e+02, fy +1.730122e+02, linerr +1.037030e+00, master time 1.6s, eval time 1.3s, time 3.4s Iter 332: ncols 145, nrows 372, Δ 5.280914e-02, fx0 +1.728891e+02, m +1.716763e+02, fy +1.730169e+02, linerr +9.127269e-01, master time 1.6s, eval time 1.3s, time 3.4s Iter 333: ncols 145, nrows 373, Δ 5.280914e-02, fx0 +1.728891e+02, m +1.716796e+02, fy +1.729807e+02, linerr +5.057340e-01, master time 1.6s, eval time 1.3s, time 3.4s Iter 334: ncols 145, nrows 374, Δ 5.280914e-02, fx0 +1.728891e+02, m +1.716812e+02, fy +1.733706e+02, linerr +1.486554e+00, master time 1.6s, eval time 1.3s, time 3.5s Iter 335: ncols 145, nrows 375, Δ 5.280914e-02, fx0 +1.728891e+02, m +1.716818e+02, fy +1.731892e+02, linerr +1.421407e+00, master time 1.6s, eval time 1.3s, time 3.5s Iter 336: ncols 145, nrows 376, Δ 5.280914e-02, fx0 +1.728891e+02, m +1.716819e+02, fy +1.732271e+02, linerr +1.263152e+00, master time 1.6s, eval time 1.3s, time 3.5s Iter 337: ncols 145, nrows 377, Δ 5.280914e-02, fx0 +1.728891e+02, m +1.716820e+02, fy +1.732595e+02, linerr +1.918154e+00, master time 1.6s, eval time 1.3s, time 3.5s Iter 338: ncols 145, nrows 378, Δ 5.280914e-02, fx0 +1.728891e+02, m +1.716822e+02, fy +1.729253e+02, linerr +1.280561e+00, master time 1.6s, eval time 1.3s, time 3.5s Iter 339: ncols 145, nrows 379, Δ 5.280914e-02, fx0 +1.728891e+02, m +1.716827e+02, fy +1.729558e+02, linerr +1.256080e+00, master time 1.6s, eval time 1.3s, time 3.5s Iter 340: ncols 145, nrows 380, Δ 5.280914e-02, fx0 +1.728891e+02, m +1.716828e+02, fy +1.730712e+02, linerr +1.926869e+00, master time 1.6s, eval time 1.3s, time 3.5s Iter 341: ncols 145, nrows 381, Δ 5.280914e-02, fx0 +1.728891e+02, m +1.716828e+02, fy +1.731406e+02, linerr +1.483848e+00, master time 1.7s, eval time 1.3s, time 3.5s Iter 342: ncols 145, nrows 382, Δ 5.280914e-02, fx0 +1.728891e+02, m +1.716829e+02, fy +1.731188e+02, linerr +2.034012e+00, master time 1.7s, eval time 1.3s, time 3.6s Iter 343: ncols 145, nrows 383, Δ 5.280914e-02, fx0 +1.728891e+02, m +1.716833e+02, fy +1.732086e+02, linerr +1.377379e+00, master time 1.7s, eval time 1.4s, time 3.6s Iter 344: ncols 145, nrows 384, Δ 5.280914e-02, fx0 +1.728891e+02, m +1.716838e+02, fy +1.729752e+02, linerr +1.340736e+00, master time 1.7s, eval time 1.4s, time 3.6s Iter 345: ncols 145, nrows 385, Δ 5.280914e-02, fx0 +1.728891e+02, m +1.716846e+02, fy +1.729268e+02, linerr +1.815067e+00, master time 1.7s, eval time 1.4s, time 3.6s Iter 346: ncols 145, nrows 386, Δ 5.280914e-02, fx0 +1.728891e+02, m +1.716858e+02, fy +1.731222e+02, linerr +2.571489e+00, master time 1.7s, eval time 1.4s, time 3.6s Iter 347: ncols 145, nrows 386, Δ 5.280914e-02, fx0 +1.728537e+02, m +1.716858e+02, fy +1.728537e+02, linerr +2.571489e+00, master time 1.7s, eval time 1.4s, time 3.6s Iter 348: ncols 145, nrows 387, Δ 5.280914e-02, fx0 +1.728537e+02, m +1.716867e+02, fy +1.728537e+02, linerr +1.092459e-13, master time 1.7s, eval time 1.4s, time 3.6s Iter 349: ncols 145, nrows 387, Δ 5.280914e-02, fx0 +1.727695e+02, m +1.716867e+02, fy +1.727695e+02, linerr +1.092459e-13, master time 1.7s, eval time 1.4s, time 3.6s Iter 350: ncols 145, nrows 388, Δ 5.280914e-02, fx0 +1.727695e+02, m +1.716882e+02, fy +1.727695e+02, linerr -5.684342e-14, master time 1.7s, eval time 1.4s, time 3.6s Iter 351: ncols 145, nrows 389, Δ 5.280914e-02, fx0 +1.727695e+02, m +1.716923e+02, fy +1.729242e+02, linerr +8.618595e-01, master time 1.7s, eval time 1.4s, time 3.6s Iter 352: ncols 145, nrows 390, Δ 5.280914e-02, fx0 +1.727695e+02, m +1.716935e+02, fy +1.731801e+02, linerr +5.583826e-01, master time 1.7s, eval time 1.4s, time 3.7s Iter 353: ncols 145, nrows 390, Δ 5.280914e-02, fx0 +1.726339e+02, m +1.716935e+02, fy +1.726339e+02, linerr +5.583826e-01, master time 1.7s, eval time 1.4s, time 3.7s Iter 354: ncols 145, nrows 391, Δ 5.280914e-02, fx0 +1.726339e+02, m +1.716963e+02, fy +1.726339e+02, linerr -1.332268e-13, master time 1.7s, eval time 1.4s, time 3.7s Iter 355: ncols 145, nrows 392, Δ 5.280914e-02, fx0 +1.726339e+02, m +1.716989e+02, fy +1.726998e+02, linerr +4.083599e-01, master time 1.7s, eval time 1.4s, time 3.7s Iter 356: ncols 145, nrows 393, Δ 5.280914e-02, fx0 +1.726339e+02, m +1.717010e+02, fy +1.728128e+02, linerr +7.982589e-01, master time 1.7s, eval time 1.4s, time 3.7s Iter 357: ncols 145, nrows 394, Δ 5.280914e-02, fx0 +1.726339e+02, m +1.717011e+02, fy +1.729378e+02, linerr +8.148643e-01, master time 1.7s, eval time 1.4s, time 3.7s Iter 358: ncols 145, nrows 395, Δ 5.280914e-02, fx0 +1.726339e+02, m +1.717048e+02, fy +1.728186e+02, linerr +9.954308e-01, master time 1.7s, eval time 1.4s, time 3.7s Iter 359: ncols 145, nrows 396, Δ 5.280914e-02, fx0 +1.726339e+02, m +1.717063e+02, fy +1.728804e+02, linerr +1.197624e+00, master time 1.8s, eval time 1.4s, time 3.7s Iter 360: ncols 145, nrows 397, Δ 5.280914e-02, fx0 +1.726339e+02, m +1.717067e+02, fy +1.728166e+02, linerr +1.152476e+00, master time 1.8s, eval time 1.4s, time 3.7s Iter 361: ncols 145, nrows 398, Δ 5.280914e-02, fx0 +1.726339e+02, m +1.717072e+02, fy +1.728403e+02, linerr +3.926361e-01, master time 1.8s, eval time 1.4s, time 3.8s Iter 362: ncols 145, nrows 399, Δ 5.280914e-02, fx0 +1.726339e+02, m +1.717081e+02, fy +1.727521e+02, linerr +4.243624e-01, master time 1.8s, eval time 1.4s, time 3.8s Iter 363: ncols 145, nrows 400, Δ 5.280914e-02, fx0 +1.726339e+02, m +1.717096e+02, fy +1.731337e+02, linerr +1.275773e+00, master time 1.8s, eval time 1.4s, time 3.8s Iter 364: ncols 145, nrows 401, Δ 5.280914e-02, fx0 +1.726339e+02, m +1.717125e+02, fy +1.728447e+02, linerr +9.332975e-01, master time 1.8s, eval time 1.4s, time 3.8s Iter 365: ncols 145, nrows 402, Δ 5.280914e-02, fx0 +1.726339e+02, m +1.717135e+02, fy +1.728674e+02, linerr +9.451098e-01, master time 1.8s, eval time 1.4s, time 3.8s Iter 366: ncols 145, nrows 403, Δ 5.280914e-02, fx0 +1.726339e+02, m +1.717135e+02, fy +1.727596e+02, linerr +1.606871e+00, master time 1.8s, eval time 1.4s, time 3.8s Iter 367: ncols 145, nrows 404, Δ 5.280914e-02, fx0 +1.726339e+02, m +1.717135e+02, fy +1.727152e+02, linerr +1.015024e+00, master time 1.8s, eval time 1.4s, time 3.8s Iter 368: ncols 145, nrows 405, Δ 5.280914e-02, fx0 +1.726339e+02, m +1.717136e+02, fy +1.726945e+02, linerr +8.830083e-01, master time 1.8s, eval time 1.4s, time 3.8s Iter 369: ncols 145, nrows 405, Δ 5.280914e-02, fx0 +1.724733e+02, m +1.717136e+02, fy +1.724733e+02, linerr +8.830083e-01, master time 1.8s, eval time 1.4s, time 3.8s Iter 370: ncols 145, nrows 406, Δ 5.280914e-02, fx0 +1.724733e+02, m +1.717136e+02, fy +1.724733e+02, linerr -1.776357e-14, master time 1.8s, eval time 1.4s, time 3.8s Iter 371: ncols 145, nrows 406, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717136e+02, fy +1.724567e+02, linerr -1.776357e-14, master time 1.8s, eval time 1.4s, time 3.9s Iter 372: ncols 145, nrows 407, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717139e+02, fy +1.724567e+02, linerr +6.039613e-14, master time 1.8s, eval time 1.4s, time 3.9s Iter 373: ncols 145, nrows 408, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717143e+02, fy +1.728326e+02, linerr +5.656784e-01, master time 1.8s, eval time 1.4s, time 3.9s Iter 374: ncols 145, nrows 409, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717224e+02, fy +1.727627e+02, linerr +6.541929e-01, master time 1.8s, eval time 1.5s, time 3.9s Iter 375: ncols 145, nrows 410, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717252e+02, fy +1.729526e+02, linerr +8.655616e-01, master time 1.8s, eval time 1.5s, time 3.9s Iter 376: ncols 145, nrows 411, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717270e+02, fy +1.728260e+02, linerr +9.403360e-01, master time 1.8s, eval time 1.5s, time 3.9s Iter 377: ncols 145, nrows 412, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717306e+02, fy +1.725431e+02, linerr +6.061967e-01, master time 1.9s, eval time 1.5s, time 3.9s Iter 378: ncols 145, nrows 413, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717317e+02, fy +1.733676e+02, linerr +1.227869e+00, master time 1.9s, eval time 1.5s, time 3.9s Iter 379: ncols 145, nrows 414, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717348e+02, fy +1.729628e+02, linerr +9.443073e-01, master time 1.9s, eval time 1.5s, time 3.9s Iter 380: ncols 145, nrows 415, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717384e+02, fy +1.732133e+02, linerr +4.616433e-01, master time 1.9s, eval time 1.5s, time 4.0s Iter 381: ncols 145, nrows 416, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717388e+02, fy +1.729593e+02, linerr +9.063170e-01, master time 1.9s, eval time 1.5s, time 4.0s Iter 382: ncols 145, nrows 417, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717389e+02, fy +1.734892e+02, linerr +1.288686e+00, master time 1.9s, eval time 1.5s, time 4.0s Iter 383: ncols 145, nrows 418, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717394e+02, fy +1.728750e+02, linerr +1.015235e+00, master time 1.9s, eval time 1.5s, time 4.0s Iter 384: ncols 145, nrows 419, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717394e+02, fy +1.728557e+02, linerr +7.805817e-01, master time 1.9s, eval time 1.5s, time 4.0s Iter 385: ncols 145, nrows 420, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717394e+02, fy +1.726130e+02, linerr +8.799260e-01, master time 1.9s, eval time 1.5s, time 4.0s Iter 386: ncols 145, nrows 421, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717395e+02, fy +1.725925e+02, linerr +6.146459e-01, master time 1.9s, eval time 1.5s, time 4.0s Iter 387: ncols 145, nrows 422, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717399e+02, fy +1.727894e+02, linerr +7.049248e-01, master time 1.9s, eval time 1.5s, time 4.0s Iter 388: ncols 145, nrows 423, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717404e+02, fy +1.727011e+02, linerr +6.790529e-01, master time 1.9s, eval time 1.5s, time 4.1s Iter 389: ncols 145, nrows 424, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717404e+02, fy +1.730099e+02, linerr +6.794593e-01, master time 1.9s, eval time 1.5s, time 4.1s Iter 390: ncols 145, nrows 425, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717407e+02, fy +1.727501e+02, linerr +5.499464e-01, master time 2.0s, eval time 1.5s, time 4.1s Iter 391: ncols 145, nrows 426, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717409e+02, fy +1.728941e+02, linerr +9.149843e-01, master time 2.0s, eval time 1.5s, time 4.1s Iter 392: ncols 145, nrows 427, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717411e+02, fy +1.727942e+02, linerr +9.536221e-01, master time 2.0s, eval time 1.5s, time 4.1s Iter 393: ncols 145, nrows 428, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717431e+02, fy +1.726340e+02, linerr +4.909629e-01, master time 2.0s, eval time 1.5s, time 4.1s Iter 394: ncols 145, nrows 429, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717441e+02, fy +1.730000e+02, linerr +7.596620e-01, master time 2.0s, eval time 1.5s, time 4.1s Iter 395: ncols 145, nrows 430, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717447e+02, fy +1.729080e+02, linerr +7.371631e-01, master time 2.0s, eval time 1.5s, time 4.1s Iter 396: ncols 145, nrows 431, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717447e+02, fy +1.730620e+02, linerr +1.884410e+00, master time 2.0s, eval time 1.5s, time 4.2s Iter 397: ncols 145, nrows 432, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717447e+02, fy +1.728892e+02, linerr +1.542745e+00, master time 2.0s, eval time 1.5s, time 4.2s Iter 398: ncols 145, nrows 433, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717448e+02, fy +1.728601e+02, linerr +1.458713e+00, master time 2.0s, eval time 1.5s, time 4.2s Iter 399: ncols 145, nrows 434, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717454e+02, fy +1.726423e+02, linerr +9.607849e-01, master time 2.0s, eval time 1.5s, time 4.2s Iter 400: ncols 145, nrows 435, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717454e+02, fy +1.726455e+02, linerr +1.200603e+00, master time 2.0s, eval time 1.5s, time 4.2s Iter 401: ncols 145, nrows 436, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717467e+02, fy +1.725929e+02, linerr +7.288294e-01, master time 2.0s, eval time 1.5s, time 4.2s Iter 402: ncols 145, nrows 437, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717474e+02, fy +1.728983e+02, linerr +5.835857e-01, master time 2.0s, eval time 1.5s, time 4.2s Iter 403: ncols 145, nrows 438, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717488e+02, fy +1.726111e+02, linerr +4.065704e-01, master time 2.1s, eval time 1.5s, time 4.2s Iter 404: ncols 145, nrows 439, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717488e+02, fy +1.731810e+02, linerr +1.291079e+00, master time 2.1s, eval time 1.6s, time 4.3s Iter 405: ncols 145, nrows 440, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717489e+02, fy +1.730861e+02, linerr +1.473468e+00, master time 2.1s, eval time 1.6s, time 4.3s Iter 406: ncols 145, nrows 441, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717490e+02, fy +1.730965e+02, linerr +1.040192e+00, master time 2.1s, eval time 1.6s, time 4.3s Iter 407: ncols 145, nrows 442, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717496e+02, fy +1.728493e+02, linerr +6.059945e-01, master time 2.1s, eval time 1.6s, time 4.3s Iter 408: ncols 145, nrows 443, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717496e+02, fy +1.732231e+02, linerr +1.501416e+00, master time 2.1s, eval time 1.6s, time 4.3s Iter 409: ncols 145, nrows 444, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717498e+02, fy +1.729083e+02, linerr +5.194968e-01, master time 2.1s, eval time 1.6s, time 4.3s Iter 410: ncols 145, nrows 445, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717498e+02, fy +1.731681e+02, linerr +8.771385e-01, master time 2.1s, eval time 1.6s, time 4.3s Iter 411: ncols 145, nrows 446, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717498e+02, fy +1.730493e+02, linerr +1.032519e+00, master time 2.1s, eval time 1.6s, time 4.3s Iter 412: ncols 145, nrows 447, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717499e+02, fy +1.727562e+02, linerr +7.999469e-01, master time 2.1s, eval time 1.6s, time 4.4s Iter 413: ncols 145, nrows 448, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717500e+02, fy +1.725975e+02, linerr +7.128298e-01, master time 2.1s, eval time 1.6s, time 4.4s Iter 414: ncols 145, nrows 449, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717500e+02, fy +1.728623e+02, linerr +7.333968e-01, master time 2.1s, eval time 1.6s, time 4.4s Iter 415: ncols 145, nrows 450, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717500e+02, fy +1.726834e+02, linerr +4.681167e-01, master time 2.2s, eval time 1.6s, time 4.4s Iter 416: ncols 145, nrows 451, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717500e+02, fy +1.736351e+02, linerr +1.800856e+00, master time 2.2s, eval time 1.6s, time 4.4s Iter 417: ncols 145, nrows 452, Δ 5.280914e-02, fx0 +1.724567e+02, m +1.717500e+02, fy +1.730000e+02, linerr +6.765657e-01, master time 2.2s, eval time 1.6s, time 4.4s Iter 418: ncols 145, nrows 452, Δ 1.056183e-01, fx0 +1.717500e+02, m +1.717500e+02, fy +1.717500e+02, linerr +6.765657e-01, master time 2.2s, eval time 1.6s, time 4.4s TERMINATION: Optimal DD.dual_objective_value(algo) = -171.74999999999991 DD.dual_solution(algo) = [0.0, 0.0, 0.0, -0.5944395934804481, -0.5778173637851763, -0.6134493231757205, -1.4703877410483412, -1.4906849707436136, -1.4771534842800957, 0.05143992864554689, 0.04456150301733451, 0.04865585427375623, 1.4689763215110447, 1.4685422471392586, 1.470491403914423, 0.0, 0.0, 0.0, 1.000928016323618, 0.9752589797362892, 1.0312595529109445, 1.3433912581305114, 1.3724352947178398, 1.353890451141061, 0.0, 0.0, 0.0, -0.45792835148871686, -0.44200311896844735, -0.46646608400898026, 0.0, 0.0, 0.0, 1.4493463070810049, 1.433158574560736, 1.4439503962409144, -1.4339870409341102, -1.4059620771770027, -1.4371009257960117, 0.0, 0.0, 0.0, -0.2402093316043718, -0.2644842953614782, -0.23826348619007914, -1.4866613639802435, -1.4110396971926402, -1.4278445120343273, 0.0, 0.0, 0.0, 0.9311104643470175, 0.8479887975594133, 0.9078848249103367, 1.5115663800547474, 1.3739368942306378, 1.4045212244137733, -1.509430504431468, -1.372251018607358, -1.466091509156763, 0.0, 0.0, 0.0, -1.438289073886925, -1.4286241546925749, -1.460840552007075, -0.2623038923393515, -0.27590631153370226, -0.2590389731450024, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, -1.4167222369061518, -1.395855221785106, -1.4654119388552587, -0.6507716858225733, -0.6637637009436184, -0.6324421707015281, -1.2904647968947316, -1.4139493627979267, -1.276744289572155, 0.0, 0.0, 0.0, 1.3963642102899925, 1.5199612761931878, 1.4351757322577248, 1.382335907991595, 1.5143851659848986, 1.3676637682145578, 0.0, 0.0, 0.0, -1.361360058372293, -1.4817093163655983, -1.4040889777033945, -1.433640636470936, -1.4394436548996965, -1.4201002601371584, 0.2648994660541271, 0.2706274844828882, 0.25655894762536535, 0.0, 0.0, 0.0, 1.4748360745346307, 1.3877326630931137, 1.4070889767467827, 0.0, 0.0, 0.0, -0.9273251531640326, -0.8445342417225163, -0.9046906826835264, 1.4312465668108154, 1.4143926509241793, 1.4738681814667276, 0.6481761121077976, 0.6690425279944324, 0.6349221962211652, 0.0, 0.0, 0.0, 1.417911048996295, 1.4049463931490795, 1.4193515663126541, 0.0, 0.0, 0.0, 0.2052051796866722, 0.22623233553388883, 0.20717673163574882, -1.5094569749892055, -1.3839707445111833, -1.3756300057688122, 1.5056451932484831, 1.368796462770461, 1.4628973669299528, 0.0, 0.0, 0.0] Iter 1: ncols 124, nrows 64, fx0 +1.585000e+03, fy +1.585000e+03, m -2.314864e+08, v -2.314880e+08, u 1.000000e-02, i +0, master time 0.0s, eval time 0.0s, time 0.0s Iter 2: ncols 124, nrows 65, fx0 +1.585000e+03, fy +2.656208e+08, m -8.363955e+07, v -8.364113e+07, u 1.000000e-02, i -1, master time 0.0s, eval time 0.0s, time 0.0s Iter 3: ncols 124, nrows 66, fx0 +1.585000e+03, fy +1.820392e+08, m -3.090705e+07, v -3.090864e+07, u 1.000000e-02, i -2, master time 0.0s, eval time 0.0s, time 0.1s Iter 4: ncols 124, nrows 67, fx0 +1.585000e+03, fy +1.194976e+08, m -1.319628e+07, v -1.319786e+07, u 1.000000e-02, i -3, master time 0.0s, eval time 0.0s, time 0.1s Iter 5: ncols 124, nrows 68, fx0 +1.585000e+03, fy +2.277301e+06, m -3.593308e+05, v -3.609158e+05, u 1.000000e-02, i -4, master time 0.0s, eval time 0.0s, time 0.1s Iter 6: ncols 124, nrows 69, fx0 +1.585000e+03, fy +2.551670e+06, m -2.870025e+05, v -2.885875e+05, u 1.000000e-02, i -5, master time 0.0s, eval time 0.0s, time 0.1s Iter 7: ncols 124, nrows 70, fx0 +1.585000e+03, fy +4.984227e+06, m -1.343649e+05, v -1.359499e+05, u 1.000000e-02, i -6, master time 0.0s, eval time 0.0s, time 0.1s Iter 8: ncols 124, nrows 71, fx0 +1.585000e+03, fy +6.481879e+06, m -6.196990e+04, v -6.355490e+04, u 1.000000e-02, i -7, master time 0.1s, eval time 0.0s, time 0.1s Iter 9: ncols 124, nrows 72, fx0 +1.585000e+03, fy +2.152805e+06, m -5.120132e+04, v -5.278632e+04, u 1.000000e-02, i -8, master time 0.1s, eval time 0.0s, time 0.1s Iter 10: ncols 124, nrows 73, fx0 +1.585000e+03, fy +2.068324e+06, m -4.178277e+04, v -4.336777e+04, u 1.000000e-02, i -9, master time 0.1s, eval time 0.0s, time 0.1s Iter 11: ncols 124, nrows 74, fx0 +1.585000e+03, fy +1.560591e+06, m -2.714849e+04, v -2.873349e+04, u 1.000000e-02, i -10, master time 0.1s, eval time 0.0s, time 0.1s Iter 12: ncols 124, nrows 75, fx0 +1.585000e+03, fy +1.354871e+06, m -2.241998e+04, v -2.400498e+04, u 1.000000e-02, i -11, master time 0.1s, eval time 0.1s, time 0.2s Iter 13: ncols 124, nrows 76, fx0 +1.585000e+03, fy +9.200432e+05, m -1.751706e+04, v -1.910206e+04, u 1.000000e-02, i -12, master time 0.1s, eval time 0.1s, time 0.2s Iter 14: ncols 124, nrows 77, fx0 +1.585000e+03, fy +5.879634e+05, m -1.542186e+04, v -1.700686e+04, u 1.000000e-02, i -13, master time 0.1s, eval time 0.1s, time 0.2s Iter 15: ncols 124, nrows 78, fx0 +1.585000e+03, fy +6.369712e+05, m -1.302893e+04, v -1.461393e+04, u 1.000000e-02, i -14, master time 0.1s, eval time 0.1s, time 0.2s Iter 16: ncols 124, nrows 79, fx0 +1.585000e+03, fy +6.440779e+05, m -1.019574e+04, v -1.178074e+04, u 1.000000e-02, i -15, master time 0.1s, eval time 0.1s, time 0.2s Iter 17: ncols 124, nrows 80, fx0 +1.585000e+03, fy +6.756315e+05, m -8.250822e+03, v -9.835822e+03, u 1.000000e-02, i -16, master time 0.2s, eval time 0.1s, time 0.2s Iter 18: ncols 124, nrows 81, fx0 +1.585000e+03, fy +5.814031e+05, m -4.459145e+03, v -6.044145e+03, u 1.000000e-02, i -17, master time 0.2s, eval time 0.1s, time 0.3s Iter 19: ncols 124, nrows 82, fx0 +1.585000e+03, fy +4.513616e+05, m -3.668428e+03, v -5.253428e+03, u 1.000000e-02, i -18, master time 0.2s, eval time 0.1s, time 0.3s Iter 20: ncols 124, nrows 83, fx0 +1.585000e+03, fy +2.556920e+05, m -2.921942e+03, v -4.506942e+03, u 1.000000e-02, i -19, master time 0.2s, eval time 0.1s, time 0.3s Iter 21: ncols 124, nrows 84, fx0 +1.585000e+03, fy +2.899307e+05, m -1.837493e+03, v -3.422493e+03, u 1.000000e-02, i -20, master time 0.2s, eval time 0.1s, time 0.3s Iter 22: ncols 124, nrows 85, fx0 +1.585000e+03, fy +1.955612e+05, m -1.591116e+03, v -3.176116e+03, u 1.000000e-02, i -21, master time 0.2s, eval time 0.1s, time 0.3s Iter 23: ncols 124, nrows 86, fx0 +1.585000e+03, fy +1.662863e+05, m -1.114418e+03, v -2.699418e+03, u 1.000000e-02, i -22, master time 0.2s, eval time 0.1s, time 0.4s Iter 24: ncols 124, nrows 87, fx0 +1.585000e+03, fy +1.052407e+05, m -8.507654e+02, v -2.435765e+03, u 1.000000e-02, i -23, master time 0.3s, eval time 0.1s, time 0.4s Iter 25: ncols 124, nrows 88, fx0 +1.585000e+03, fy +9.324705e+04, m -7.007820e+02, v -2.285782e+03, u 1.000000e-02, i -24, master time 0.3s, eval time 0.1s, time 0.4s Iter 26: ncols 124, nrows 89, fx0 +1.585000e+03, fy +1.090192e+05, m -3.770005e+02, v -1.962000e+03, u 1.000000e-02, i -25, master time 0.3s, eval time 0.1s, time 0.4s Iter 27: ncols 124, nrows 90, fx0 +1.585000e+03, fy +1.097628e+05, m -2.046460e+02, v -1.789646e+03, u 1.000000e-02, i -26, master time 0.3s, eval time 0.1s, time 0.4s Iter 28: ncols 124, nrows 91, fx0 +1.585000e+03, fy +5.035944e+04, m -1.698715e+02, v -1.754871e+03, u 1.000000e-02, i -27, master time 0.3s, eval time 0.1s, time 0.5s Iter 29: ncols 124, nrows 92, fx0 +1.585000e+03, fy +4.225325e+04, m -2.326905e+01, v -1.608269e+03, u 1.000000e-02, i -28, master time 0.3s, eval time 0.1s, time 0.5s Iter 30: ncols 124, nrows 93, fx0 +1.585000e+03, fy +6.169383e+04, m +7.308346e+01, v -1.511917e+03, u 1.000000e-02, i -29, master time 0.4s, eval time 0.1s, time 0.5s Iter 31: ncols 124, nrows 94, fx0 +1.585000e+03, fy +3.720921e+04, m +1.286719e+02, v -1.456328e+03, u 1.000000e-02, i -30, master time 0.4s, eval time 0.1s, time 0.5s Iter 32: ncols 124, nrows 95, fx0 +1.585000e+03, fy +3.758655e+04, m +1.562077e+02, v -1.428792e+03, u 1.000000e-02, i -31, master time 0.4s, eval time 0.1s, time 0.5s Iter 33: ncols 124, nrows 96, fx0 +1.585000e+03, fy +1.809664e+04, m +1.632438e+02, v -1.421756e+03, u 1.000000e-02, i -32, master time 0.4s, eval time 0.2s, time 0.6s Iter 34: ncols 124, nrows 97, fx0 +1.585000e+03, fy +1.225057e+04, m +1.687340e+02, v -1.416266e+03, u 1.000000e-02, i -33, master time 0.4s, eval time 0.2s, time 0.6s Iter 35: ncols 124, nrows 98, fx0 +1.585000e+03, fy +3.182946e+03, m +1.691216e+02, v -1.415878e+03, u 1.000000e-02, i -34, master time 0.4s, eval time 0.2s, time 0.6s Iter 36: ncols 124, nrows 99, fx0 +1.585000e+03, fy +3.057617e+03, m +1.694218e+02, v -1.415578e+03, u 1.000000e-02, i -35, master time 0.5s, eval time 0.2s, time 0.7s Iter 37: ncols 124, nrows 100, fx0 +2.143380e+02, fy +2.143380e+02, m +1.694218e+02, v -4.491624e+01, u 1.000000e-02, i +1, master time 0.5s, eval time 0.2s, time 0.7s Iter 38: ncols 124, nrows 101, fx0 +2.143380e+02, fy +2.147661e+02, m +1.694218e+02, v -4.491624e+01, u 1.000000e-02, i -1, master time 0.5s, eval time 0.2s, time 0.7s Iter 39: ncols 124, nrows 102, fx0 +2.143380e+02, fy +2.633640e+02, m +1.694290e+02, v -4.490903e+01, u 1.000000e-02, i -2, master time 0.5s, eval time 0.2s, time 0.7s Iter 40: ncols 124, nrows 103, fx0 +1.990475e+02, fy +1.990475e+02, m +1.694290e+02, v -2.961855e+01, u 1.000000e-02, i +1, master time 0.5s, eval time 0.2s, time 0.8s Iter 41: ncols 124, nrows 104, fx0 +1.990475e+02, fy +2.460445e+02, m +1.694822e+02, v -2.956531e+01, u 1.000000e-02, i -1, master time 0.6s, eval time 0.2s, time 0.8s Iter 42: ncols 124, nrows 105, fx0 +1.990475e+02, fy +1.996418e+02, m +1.694822e+02, v -2.956531e+01, u 1.000000e-02, i -2, master time 0.6s, eval time 0.2s, time 0.8s Iter 43: ncols 124, nrows 106, fx0 +1.990475e+02, fy +2.263966e+02, m +1.695601e+02, v -2.948748e+01, u 1.000000e-02, i -3, master time 0.6s, eval time 0.2s, time 0.8s Iter 44: ncols 124, nrows 107, fx0 +1.990475e+02, fy +3.380812e+02, m +1.696618e+02, v -2.938569e+01, u 1.000000e-02, i -4, master time 0.6s, eval time 0.2s, time 0.8s Iter 45: ncols 124, nrows 108, fx0 +1.990475e+02, fy +2.401163e+02, m +1.696618e+02, v -2.938569e+01, u 1.000000e-02, i -5, master time 0.6s, eval time 0.2s, time 0.9s Iter 46: ncols 124, nrows 109, fx0 +1.990475e+02, fy +5.135656e+02, m +1.696635e+02, v -2.938399e+01, u 1.000000e-02, i -6, master time 0.6s, eval time 0.2s, time 0.9s Iter 47: ncols 124, nrows 110, fx0 +1.972090e+02, fy +1.972090e+02, m +1.697251e+02, v -2.748391e+01, u 1.000000e-02, i +1, master time 0.7s, eval time 0.2s, time 0.9s Iter 48: ncols 124, nrows 111, fx0 +1.972090e+02, fy +1.982116e+02, m +1.697251e+02, v -2.748391e+01, u 1.000000e-02, i -1, master time 0.7s, eval time 0.2s, time 0.9s Iter 49: ncols 124, nrows 112, fx0 +1.972090e+02, fy +2.542189e+02, m +1.697347e+02, v -2.747431e+01, u 1.000000e-02, i -2, master time 0.7s, eval time 0.2s, time 1.0s Iter 50: ncols 124, nrows 113, fx0 +1.972090e+02, fy +1.988724e+02, m +1.697491e+02, v -2.745995e+01, u 1.000000e-02, i -3, master time 0.7s, eval time 0.2s, time 1.0s Iter 51: ncols 124, nrows 114, fx0 +1.972090e+02, fy +2.080175e+02, m +1.697669e+02, v -2.744212e+01, u 1.000000e-02, i -4, master time 0.8s, eval time 0.2s, time 1.0s Iter 52: ncols 124, nrows 115, fx0 +1.972090e+02, fy +2.021673e+02, m +1.697669e+02, v -2.744212e+01, u 1.000000e-02, i -5, master time 0.8s, eval time 0.2s, time 1.1s Iter 53: ncols 124, nrows 116, fx0 +1.972090e+02, fy +2.616503e+02, m +1.697838e+02, v -2.742525e+01, u 1.000000e-02, i -6, master time 0.8s, eval time 0.2s, time 1.1s Iter 54: ncols 124, nrows 117, fx0 +1.972090e+02, fy +1.977335e+02, m +1.698015e+02, v -2.740750e+01, u 1.000000e-02, i -7, master time 0.9s, eval time 0.2s, time 1.1s Iter 55: ncols 124, nrows 118, fx0 +1.972090e+02, fy +2.253346e+02, m +1.698015e+02, v -2.740750e+01, u 1.000000e-02, i -8, master time 0.9s, eval time 0.2s, time 1.1s Iter 56: ncols 124, nrows 119, fx0 +1.972090e+02, fy +3.180219e+02, m +1.698650e+02, v -2.734409e+01, u 1.000000e-02, i -9, master time 0.9s, eval time 0.2s, time 1.2s Iter 57: ncols 124, nrows 120, fx0 +1.972090e+02, fy +2.200953e+02, m +1.698917e+02, v -2.731735e+01, u 1.000000e-02, i -10, master time 0.9s, eval time 0.2s, time 1.2s Iter 58: ncols 124, nrows 121, fx0 +1.972090e+02, fy +2.311228e+02, m +1.698965e+02, v -2.731251e+01, u 1.000000e-02, i -11, master time 1.0s, eval time 0.2s, time 1.2s Iter 59: ncols 124, nrows 122, fx0 +1.972090e+02, fy +2.289587e+02, m +1.699889e+02, v -2.722017e+01, u 1.000000e-02, i -12, master time 1.0s, eval time 0.2s, time 1.3s Iter 60: ncols 124, nrows 123, fx0 +1.972090e+02, fy +2.190164e+02, m +1.700490e+02, v -2.716009e+01, u 1.000000e-02, i -13, master time 1.0s, eval time 0.2s, time 1.3s Iter 61: ncols 124, nrows 124, fx0 +1.972090e+02, fy +2.098444e+02, m +1.700869e+02, v -2.712219e+01, u 1.000000e-02, i -14, master time 1.0s, eval time 0.2s, time 1.3s Iter 62: ncols 124, nrows 125, fx0 +1.972090e+02, fy +2.076954e+02, m +1.701343e+02, v -2.707471e+01, u 1.000000e-02, i -15, master time 1.1s, eval time 0.2s, time 1.4s Iter 63: ncols 124, nrows 126, fx0 +1.972090e+02, fy +2.205236e+02, m +1.701795e+02, v -2.702952e+01, u 1.000000e-02, i -16, master time 1.1s, eval time 0.2s, time 1.4s Iter 64: ncols 124, nrows 127, fx0 +1.972090e+02, fy +2.067801e+02, m +1.702031e+02, v -2.700598e+01, u 1.000000e-02, i -17, master time 1.1s, eval time 0.2s, time 1.4s Iter 65: ncols 124, nrows 128, fx0 +1.972090e+02, fy +2.072110e+02, m +1.702500e+02, v -2.695903e+01, u 1.000000e-02, i -18, master time 1.1s, eval time 0.2s, time 1.4s Iter 66: ncols 124, nrows 129, fx0 +1.972090e+02, fy +2.109513e+02, m +1.702848e+02, v -2.692424e+01, u 1.000000e-02, i -19, master time 1.2s, eval time 0.2s, time 1.5s Iter 67: ncols 124, nrows 130, fx0 +1.972090e+02, fy +2.117783e+02, m +1.702965e+02, v -2.691253e+01, u 1.000000e-02, i -20, master time 1.2s, eval time 0.2s, time 1.5s Iter 68: ncols 124, nrows 131, fx0 +1.972090e+02, fy +2.012059e+02, m +1.703155e+02, v -2.689359e+01, u 1.000000e-02, i -21, master time 1.2s, eval time 0.2s, time 1.5s Iter 69: ncols 124, nrows 132, fx0 +1.959627e+02, fy +1.959627e+02, m +1.703238e+02, v -2.563890e+01, u 1.000000e-02, i +1, master time 1.3s, eval time 0.2s, time 1.6s Iter 70: ncols 124, nrows 133, fx0 +1.937509e+02, fy +1.937509e+02, m +1.703642e+02, v -2.338672e+01, u 1.000000e-02, i +2, master time 1.3s, eval time 0.2s, time 1.6s Iter 71: ncols 124, nrows 134, fx0 +1.937509e+02, fy +1.945231e+02, m +1.703824e+02, v -2.336847e+01, u 1.000000e-02, i -1, master time 1.3s, eval time 0.2s, time 1.6s Iter 72: ncols 124, nrows 135, fx0 +1.825070e+02, fy +1.825070e+02, m +1.703952e+02, v -1.211175e+01, u 1.000000e-02, i +1, master time 1.3s, eval time 0.2s, time 1.7s Iter 73: ncols 124, nrows 136, fx0 +1.825070e+02, fy +1.929201e+02, m +1.704310e+02, v -1.207599e+01, u 1.000000e-02, i -1, master time 1.4s, eval time 0.2s, time 1.7s Iter 74: ncols 124, nrows 137, fx0 +1.825070e+02, fy +1.931014e+02, m +1.704418e+02, v -1.206520e+01, u 1.000000e-02, i -2, master time 1.4s, eval time 0.3s, time 1.8s Iter 75: ncols 124, nrows 138, fx0 +1.825070e+02, fy +1.881395e+02, m +1.704610e+02, v -1.204603e+01, u 1.000000e-02, i -3, master time 1.4s, eval time 0.3s, time 1.8s Iter 76: ncols 124, nrows 139, fx0 +1.825070e+02, fy +1.854298e+02, m +1.704770e+02, v -1.202996e+01, u 1.000000e-02, i -4, master time 1.5s, eval time 0.3s, time 1.8s Iter 77: ncols 124, nrows 140, fx0 +1.825070e+02, fy +1.910203e+02, m +1.704858e+02, v -1.202114e+01, u 1.000000e-02, i -5, master time 1.5s, eval time 0.3s, time 1.9s Iter 78: ncols 124, nrows 141, fx0 +1.825070e+02, fy +1.851710e+02, m +1.705001e+02, v -1.200686e+01, u 1.000000e-02, i -6, master time 1.5s, eval time 0.3s, time 1.9s Iter 79: ncols 124, nrows 142, fx0 +1.825070e+02, fy +1.922872e+02, m +1.705045e+02, v -1.200251e+01, u 1.000000e-02, i -7, master time 1.6s, eval time 0.3s, time 1.9s Iter 80: ncols 124, nrows 143, fx0 +1.825070e+02, fy +1.850131e+02, m +1.705115e+02, v -1.199550e+01, u 1.000000e-02, i -8, master time 1.6s, eval time 0.3s, time 2.0s Iter 81: ncols 124, nrows 144, fx0 +1.825070e+02, fy +1.882402e+02, m +1.705143e+02, v -1.199267e+01, u 1.000000e-02, i -9, master time 1.7s, eval time 0.3s, time 2.0s Iter 82: ncols 124, nrows 145, fx0 +1.825070e+02, fy +1.831655e+02, m +1.705171e+02, v -1.198993e+01, u 1.000000e-02, i -10, master time 1.7s, eval time 0.3s, time 2.1s Iter 83: ncols 124, nrows 146, fx0 +1.825070e+02, fy +1.857508e+02, m +1.705203e+02, v -1.198671e+01, u 1.000000e-02, i -11, master time 1.7s, eval time 0.3s, time 2.1s Iter 84: ncols 124, nrows 147, fx0 +1.825070e+02, fy +1.846800e+02, m +1.705316e+02, v -1.197535e+01, u 1.000000e-02, i -12, master time 1.8s, eval time 0.3s, time 2.1s Iter 85: ncols 124, nrows 148, fx0 +1.825070e+02, fy +1.867385e+02, m +1.705360e+02, v -1.197096e+01, u 1.000000e-02, i -13, master time 1.8s, eval time 0.3s, time 2.2s Iter 86: ncols 124, nrows 149, fx0 +1.825070e+02, fy +1.886255e+02, m +1.705511e+02, v -1.195586e+01, u 1.000000e-02, i -14, master time 1.8s, eval time 0.3s, time 2.2s Iter 87: ncols 124, nrows 150, fx0 +1.825070e+02, fy +1.832485e+02, m +1.705606e+02, v -1.194636e+01, u 1.000000e-02, i -15, master time 1.9s, eval time 0.3s, time 2.3s Iter 88: ncols 124, nrows 151, fx0 +1.796717e+02, fy +1.796717e+02, m +1.705699e+02, v -9.101800e+00, u 1.000000e-02, i +1, master time 1.9s, eval time 0.3s, time 2.3s Iter 89: ncols 124, nrows 152, fx0 +1.796717e+02, fy +1.820963e+02, m +1.705812e+02, v -9.090507e+00, u 1.000000e-02, i -1, master time 2.0s, eval time 0.3s, time 2.3s Iter 90: ncols 124, nrows 153, fx0 +1.796717e+02, fy +1.844691e+02, m +1.705872e+02, v -9.084549e+00, u 1.000000e-02, i -2, master time 2.0s, eval time 0.3s, time 2.4s Iter 91: ncols 124, nrows 154, fx0 +1.796717e+02, fy +1.805635e+02, m +1.705891e+02, v -9.082619e+00, u 1.000000e-02, i -3, master time 2.0s, eval time 0.3s, time 2.4s Iter 92: ncols 124, nrows 155, fx0 +1.796717e+02, fy +1.806013e+02, m +1.706000e+02, v -9.071769e+00, u 1.000000e-02, i -4, master time 2.1s, eval time 0.3s, time 2.5s Iter 93: ncols 124, nrows 156, fx0 +1.796717e+02, fy +1.808108e+02, m +1.706265e+02, v -9.045272e+00, u 1.000000e-02, i -5, master time 2.1s, eval time 0.3s, time 2.5s Iter 94: ncols 124, nrows 157, fx0 +1.796717e+02, fy +1.861104e+02, m +1.706617e+02, v -9.010011e+00, u 1.000000e-02, i -6, master time 2.1s, eval time 0.3s, time 2.6s Iter 95: ncols 124, nrows 158, fx0 +1.796717e+02, fy +1.814679e+02, m +1.706778e+02, v -8.993977e+00, u 1.000000e-02, i -7, master time 2.2s, eval time 0.3s, time 2.6s Iter 96: ncols 124, nrows 159, fx0 +1.796717e+02, fy +1.809491e+02, m +1.706871e+02, v -8.984632e+00, u 1.000000e-02, i -8, master time 2.2s, eval time 0.3s, time 2.6s Iter 97: ncols 124, nrows 160, fx0 +1.796717e+02, fy +1.802887e+02, m +1.707142e+02, v -8.957544e+00, u 1.000000e-02, i -9, master time 2.3s, eval time 0.3s, time 2.7s Iter 98: ncols 124, nrows 161, fx0 +1.796717e+02, fy +1.819637e+02, m +1.707277e+02, v -8.944049e+00, u 1.000000e-02, i -10, master time 2.3s, eval time 0.3s, time 2.7s Iter 99: ncols 124, nrows 162, fx0 +1.796717e+02, fy +1.816910e+02, m +1.707417e+02, v -8.930018e+00, u 1.000000e-02, i -11, master time 2.4s, eval time 0.3s, time 2.8s Iter 100: ncols 124, nrows 163, fx0 +1.796717e+02, fy +1.817525e+02, m +1.707440e+02, v -8.927773e+00, u 1.000000e-02, i -12, master time 2.4s, eval time 0.3s, time 2.8s Iter 101: ncols 124, nrows 164, fx0 +1.794959e+02, fy +1.794959e+02, m +1.707514e+02, v -8.744447e+00, u 1.000000e-02, i +1, master time 2.5s, eval time 0.3s, time 2.9s Iter 102: ncols 124, nrows 165, fx0 +1.794959e+02, fy +1.819986e+02, m +1.707536e+02, v -8.742223e+00, u 1.000000e-02, i -1, master time 2.5s, eval time 0.3s, time 3.0s Iter 103: ncols 124, nrows 166, fx0 +1.794959e+02, fy +1.796451e+02, m +1.707624e+02, v -8.733494e+00, u 1.000000e-02, i -2, master time 2.6s, eval time 0.3s, time 3.0s Iter 104: ncols 124, nrows 167, fx0 +1.790129e+02, fy +1.790129e+02, m +1.707634e+02, v -8.249464e+00, u 1.000000e-02, i +1, master time 2.6s, eval time 0.3s, time 3.1s Iter 105: ncols 124, nrows 168, fx0 +1.784946e+02, fy +1.784946e+02, m +1.707645e+02, v -7.730157e+00, u 1.000000e-02, i +2, master time 2.7s, eval time 0.3s, time 3.1s Iter 106: ncols 124, nrows 169, fx0 +1.770679e+02, fy +1.770679e+02, m +1.708138e+02, v -6.254097e+00, u 1.000000e-02, i +3, master time 2.7s, eval time 0.3s, time 3.2s Iter 107: ncols 124, nrows 170, fx0 +1.726095e+02, fy +1.726095e+02, m +1.708284e+02, v -1.781086e+00, u 5.742432e-03, i +1, master time 2.8s, eval time 0.3s, time 3.3s Iter 108: ncols 124, nrows 171, fx0 +1.726095e+02, fy +1.727283e+02, m +1.708306e+02, v -1.778935e+00, u 5.742432e-03, i -1, master time 2.8s, eval time 0.3s, time 3.3s Iter 109: ncols 124, nrows 172, fx0 +1.726095e+02, fy +1.761509e+02, m +1.708306e+02, v -1.778928e+00, u 5.742432e-03, i -2, master time 2.9s, eval time 0.3s, time 3.4s Iter 110: ncols 124, nrows 173, fx0 +1.726095e+02, fy +1.759391e+02, m +1.708316e+02, v -1.777903e+00, u 5.742432e-03, i -3, master time 3.0s, eval time 0.3s, time 3.4s Iter 111: ncols 124, nrows 174, fx0 +1.726095e+02, fy +1.738469e+02, m +1.708330e+02, v -1.776491e+00, u 5.742432e-03, i -4, master time 3.0s, eval time 0.3s, time 3.5s Iter 112: ncols 124, nrows 175, fx0 +1.726095e+02, fy +1.733566e+02, m +1.708351e+02, v -1.774350e+00, u 5.742432e-03, i -5, master time 3.1s, eval time 0.3s, time 3.6s Iter 113: ncols 124, nrows 176, fx0 +1.726095e+02, fy +1.741412e+02, m +1.708355e+02, v -1.774011e+00, u 5.742432e-03, i -6, master time 3.1s, eval time 0.3s, time 3.6s Iter 114: ncols 124, nrows 177, fx0 +1.726095e+02, fy +1.733023e+02, m +1.708372e+02, v -1.772322e+00, u 5.742432e-03, i -7, master time 3.2s, eval time 0.4s, time 3.7s Iter 115: ncols 124, nrows 178, fx0 +1.726095e+02, fy +1.729954e+02, m +1.708507e+02, v -1.758839e+00, u 5.742432e-03, i -8, master time 3.3s, eval time 0.4s, time 3.8s Iter 116: ncols 124, nrows 179, fx0 +1.726095e+02, fy +1.731977e+02, m +1.708678e+02, v -1.741722e+00, u 5.742432e-03, i -9, master time 3.3s, eval time 0.4s, time 3.8s Iter 117: ncols 124, nrows 180, fx0 +1.726095e+02, fy +1.736399e+02, m +1.708833e+02, v -1.726180e+00, u 5.742432e-03, i -10, master time 3.4s, eval time 0.4s, time 3.9s Iter 118: ncols 124, nrows 181, fx0 +1.726095e+02, fy +1.737487e+02, m +1.708881e+02, v -1.721406e+00, u 5.742432e-03, i -11, master time 3.4s, eval time 0.4s, time 3.9s Iter 119: ncols 124, nrows 182, fx0 +1.726095e+02, fy +1.744513e+02, m +1.708928e+02, v -1.716680e+00, u 5.742432e-03, i -12, master time 3.5s, eval time 0.4s, time 4.0s Iter 120: ncols 124, nrows 183, fx0 +1.726095e+02, fy +1.746799e+02, m +1.708990e+02, v -1.710461e+00, u 5.742432e-03, i -13, master time 3.6s, eval time 0.4s, time 4.1s Iter 121: ncols 124, nrows 184, fx0 +1.726095e+02, fy +1.744712e+02, m +1.709016e+02, v -1.707940e+00, u 5.742432e-03, i -14, master time 3.6s, eval time 0.4s, time 4.2s Iter 122: ncols 124, nrows 185, fx0 +1.726095e+02, fy +1.729154e+02, m +1.709094e+02, v -1.700104e+00, u 5.742432e-03, i -15, master time 3.7s, eval time 0.4s, time 4.2s Iter 123: ncols 124, nrows 186, fx0 +1.726095e+02, fy +1.739287e+02, m +1.709176e+02, v -1.691918e+00, u 5.742432e-03, i -16, master time 3.8s, eval time 0.4s, time 4.3s Iter 124: ncols 124, nrows 187, fx0 +1.726095e+02, fy +1.733481e+02, m +1.709198e+02, v -1.689715e+00, u 5.742432e-03, i -17, master time 3.8s, eval time 0.4s, time 4.4s Iter 125: ncols 124, nrows 188, fx0 +1.726095e+02, fy +1.731397e+02, m +1.709314e+02, v -1.678127e+00, u 5.742432e-03, i -18, master time 3.9s, eval time 0.4s, time 4.4s Removed 1 inactive cuts. Iter 126: ncols 124, nrows 188, fx0 +1.726095e+02, fy +1.733234e+02, m +1.709351e+02, v -1.674411e+00, u 5.742432e-03, i -19, master time 4.0s, eval time 0.4s, time 4.5s Removed 1 inactive cuts. Iter 127: ncols 124, nrows 188, fx0 +1.726095e+02, fy +1.739143e+02, m +1.709375e+02, v -1.672025e+00, u 5.742432e-03, i -20, master time 4.0s, eval time 0.4s, time 4.6s Removed 1 inactive cuts. Iter 128: ncols 124, nrows 188, fx0 +1.726095e+02, fy +1.726407e+02, m +1.709441e+02, v -1.665422e+00, u 5.742432e-03, i -21, master time 4.1s, eval time 0.4s, time 4.7s Removed 1 inactive cuts. Iter 129: ncols 124, nrows 188, fx0 +1.726095e+02, fy +1.735727e+02, m +1.709541e+02, v -1.655432e+00, u 5.742432e-03, i -22, master time 4.2s, eval time 0.4s, time 4.7s Removed 1 inactive cuts. Iter 130: ncols 124, nrows 188, fx0 +1.726095e+02, fy +1.731063e+02, m +1.709631e+02, v -1.646370e+00, u 5.742432e-03, i -23, master time 4.2s, eval time 0.4s, time 4.8s Removed 1 inactive cuts. Iter 131: ncols 124, nrows 188, fx0 +1.726095e+02, fy +1.746191e+02, m +1.709661e+02, v -1.643347e+00, u 5.742432e-03, i -24, master time 4.3s, eval time 0.4s, time 4.9s Removed 1 inactive cuts. Iter 132: ncols 124, nrows 188, fx0 +1.726095e+02, fy +1.728064e+02, m +1.709713e+02, v -1.638155e+00, u 5.742432e-03, i -25, master time 4.4s, eval time 0.4s, time 4.9s Removed 1 inactive cuts. Iter 133: ncols 124, nrows 188, fx0 +1.726095e+02, fy +1.733672e+02, m +1.709884e+02, v -1.621093e+00, u 5.742432e-03, i -26, master time 4.4s, eval time 0.4s, time 5.0s Removed 1 inactive cuts. Iter 134: ncols 124, nrows 188, fx0 +1.726095e+02, fy +1.728516e+02, m +1.709962e+02, v -1.613313e+00, u 5.742432e-03, i -27, master time 4.5s, eval time 0.4s, time 5.1s Removed 1 inactive cuts. Iter 135: ncols 124, nrows 188, fx0 +1.726095e+02, fy +1.733364e+02, m +1.710006e+02, v -1.608846e+00, u 5.742432e-03, i -28, master time 4.5s, eval time 0.4s, time 5.1s Removed 1 inactive cuts. Iter 136: ncols 124, nrows 188, fx0 +1.726095e+02, fy +1.733888e+02, m +1.710055e+02, v -1.604029e+00, u 5.742432e-03, i -29, master time 4.6s, eval time 0.4s, time 5.2s Removed 1 inactive cuts. Iter 137: ncols 124, nrows 188, fx0 +1.726095e+02, fy +1.737860e+02, m +1.710063e+02, v -1.603183e+00, u 5.742432e-03, i -30, master time 4.7s, eval time 0.4s, time 5.3s Removed 1 inactive cuts. Iter 138: ncols 124, nrows 188, fx0 +1.726095e+02, fy +1.730404e+02, m +1.710092e+02, v -1.600334e+00, u 5.742432e-03, i -31, master time 4.7s, eval time 0.4s, time 5.3s Removed 1 inactive cuts. Iter 139: ncols 124, nrows 188, fx0 +1.726095e+02, fy +1.733014e+02, m +1.710172e+02, v -1.592297e+00, u 5.742432e-03, i -32, master time 4.8s, eval time 0.4s, time 5.4s Removed 1 inactive cuts. Iter 140: ncols 124, nrows 188, fx0 +1.726095e+02, fy +1.730654e+02, m +1.710307e+02, v -1.578818e+00, u 5.742432e-03, i -33, master time 4.8s, eval time 0.4s, time 5.5s Removed 1 inactive cuts. Iter 141: ncols 124, nrows 188, fx0 +1.726095e+02, fy +1.735856e+02, m +1.710390e+02, v -1.570532e+00, u 5.742432e-03, i -34, master time 4.9s, eval time 0.4s, time 5.5s Removed 1 inactive cuts. Iter 142: ncols 124, nrows 188, fx0 +1.726095e+02, fy +1.729888e+02, m +1.710465e+02, v -1.563001e+00, u 5.742432e-03, i -35, master time 5.0s, eval time 0.4s, time 5.6s Removed 1 inactive cuts. Iter 143: ncols 124, nrows 188, fx0 +1.726095e+02, fy +1.743309e+02, m +1.710526e+02, v -1.556940e+00, u 5.742432e-03, i -36, master time 5.1s, eval time 0.4s, time 5.7s Removed 1 inactive cuts. Iter 144: ncols 124, nrows 188, fx0 +1.726095e+02, fy +1.730255e+02, m +1.710555e+02, v -1.554028e+00, u 5.742432e-03, i -37, master time 5.1s, eval time 0.4s, time 5.8s Removed 1 inactive cuts. Iter 145: ncols 124, nrows 188, fx0 +1.726095e+02, fy +1.728892e+02, m +1.710592e+02, v -1.550265e+00, u 5.742432e-03, i -38, master time 5.2s, eval time 0.4s, time 5.8s Removed 1 inactive cuts. Iter 146: ncols 124, nrows 188, fx0 +1.726095e+02, fy +1.735719e+02, m +1.710613e+02, v -1.548205e+00, u 5.742432e-03, i -39, master time 5.2s, eval time 0.4s, time 5.9s Removed 1 inactive cuts. Iter 147: ncols 124, nrows 188, fx0 +1.726095e+02, fy +1.741360e+02, m +1.710682e+02, v -1.541326e+00, u 5.742432e-03, i -40, master time 5.3s, eval time 0.4s, time 6.0s Removed 1 inactive cuts. Iter 148: ncols 124, nrows 188, fx0 +1.726095e+02, fy +1.737819e+02, m +1.710765e+02, v -1.532996e+00, u 5.742432e-03, i -41, master time 5.4s, eval time 0.4s, time 6.0s Removed 1 inactive cuts. Iter 149: ncols 124, nrows 188, fx0 +1.726095e+02, fy +1.733077e+02, m +1.710816e+02, v -1.527857e+00, u 5.742432e-03, i -42, master time 5.4s, eval time 0.4s, time 6.1s Removed 1 inactive cuts. Iter 150: ncols 124, nrows 188, fx0 +1.726095e+02, fy +1.734228e+02, m +1.710825e+02, v -1.526959e+00, u 5.742432e-03, i -43, master time 5.5s, eval time 0.4s, time 6.2s Removed 1 inactive cuts. Iter 151: ncols 124, nrows 188, fx0 +1.726095e+02, fy +1.732477e+02, m +1.710844e+02, v -1.525077e+00, u 5.742432e-03, i -44, master time 5.6s, eval time 0.4s, time 6.3s Removed 1 inactive cuts. Iter 152: ncols 124, nrows 188, fx0 +1.726095e+02, fy +1.730014e+02, m +1.710872e+02, v -1.522320e+00, u 5.742432e-03, i -45, master time 5.6s, eval time 0.4s, time 6.5s Removed 1 inactive cuts. Iter 153: ncols 124, nrows 188, fx0 +1.726095e+02, fy +1.727818e+02, m +1.710881e+02, v -1.521390e+00, u 5.742432e-03, i -46, master time 5.7s, eval time 0.4s, time 6.5s Removed 1 inactive cuts. Iter 154: ncols 124, nrows 188, fx0 +1.726095e+02, fy +1.734696e+02, m +1.710884e+02, v -1.521112e+00, u 5.742432e-03, i -47, master time 5.8s, eval time 0.4s, time 6.6s Removed 1 inactive cuts. Iter 155: ncols 124, nrows 188, fx0 +1.726095e+02, fy +1.735201e+02, m +1.710889e+02, v -1.520595e+00, u 5.742432e-03, i -48, master time 5.8s, eval time 0.5s, time 6.7s Removed 1 inactive cuts. Iter 156: ncols 124, nrows 188, fx0 +1.726095e+02, fy +1.730559e+02, m +1.710907e+02, v -1.518823e+00, u 5.742432e-03, i -49, master time 5.9s, eval time 0.5s, time 6.7s Removed 1 inactive cuts. Iter 157: ncols 124, nrows 188, fx0 +1.726095e+02, fy +1.729068e+02, m +1.710989e+02, v -1.510594e+00, u 5.742432e-03, i -50, master time 5.9s, eval time 0.5s, time 6.8s Removed 1 inactive cuts. Iter 158: ncols 124, nrows 188, fx0 +1.726095e+02, fy +1.735240e+02, m +1.711010e+02, v -1.508489e+00, u 5.742432e-03, i -51, master time 6.0s, eval time 0.5s, time 6.8s Removed 1 inactive cuts. Iter 159: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.723229e+02, m +1.711146e+02, v -1.208213e+00, u 5.742432e-03, i +1, master time 6.1s, eval time 0.5s, time 6.9s Removed 1 inactive cuts. Iter 160: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.739051e+02, m +1.711260e+02, v -1.196836e+00, u 5.742432e-03, i -1, master time 6.1s, eval time 0.5s, time 7.0s Removed 1 inactive cuts. Iter 161: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.734137e+02, m +1.711307e+02, v -1.192193e+00, u 5.742432e-03, i -2, master time 6.2s, eval time 0.5s, time 7.1s Removed 1 inactive cuts. Iter 162: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.727165e+02, m +1.711520e+02, v -1.170813e+00, u 5.742432e-03, i -3, master time 6.2s, eval time 0.5s, time 7.1s Removed 1 inactive cuts. Iter 163: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.730505e+02, m +1.711576e+02, v -1.165239e+00, u 5.742432e-03, i -4, master time 6.3s, eval time 0.5s, time 7.2s Removed 1 inactive cuts. Iter 164: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.729327e+02, m +1.711648e+02, v -1.158093e+00, u 5.742432e-03, i -5, master time 6.4s, eval time 0.5s, time 7.2s Removed 1 inactive cuts. Iter 165: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.733281e+02, m +1.711787e+02, v -1.144175e+00, u 5.742432e-03, i -6, master time 6.4s, eval time 0.5s, time 7.3s Removed 1 inactive cuts. Iter 166: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.733691e+02, m +1.711836e+02, v -1.139305e+00, u 5.742432e-03, i -7, master time 6.5s, eval time 0.5s, time 7.4s Removed 1 inactive cuts. Iter 167: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.730808e+02, m +1.712013e+02, v -1.121561e+00, u 5.742432e-03, i -8, master time 6.5s, eval time 0.5s, time 7.4s Removed 1 inactive cuts. Iter 168: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.732793e+02, m +1.712238e+02, v -1.099102e+00, u 5.742432e-03, i -9, master time 6.6s, eval time 0.5s, time 7.5s Removed 1 inactive cuts. Iter 169: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.747876e+02, m +1.712369e+02, v -1.085945e+00, u 5.742432e-03, i -10, master time 6.7s, eval time 0.5s, time 7.6s Removed 1 inactive cuts. Iter 170: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.735934e+02, m +1.712402e+02, v -1.082693e+00, u 5.742432e-03, i -11, master time 6.7s, eval time 0.5s, time 7.7s Removed 1 inactive cuts. Iter 171: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.735872e+02, m +1.712427e+02, v -1.080151e+00, u 5.742432e-03, i -12, master time 6.8s, eval time 0.5s, time 7.7s Removed 1 inactive cuts. Iter 172: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.736718e+02, m +1.712514e+02, v -1.071494e+00, u 5.742432e-03, i -13, master time 6.9s, eval time 0.5s, time 7.8s Removed 1 inactive cuts. Iter 173: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.738017e+02, m +1.712566e+02, v -1.066279e+00, u 5.742432e-03, i -14, master time 6.9s, eval time 0.5s, time 7.9s Removed 1 inactive cuts. Iter 174: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.736134e+02, m +1.712742e+02, v -1.048710e+00, u 5.742432e-03, i -15, master time 7.0s, eval time 0.5s, time 7.9s Removed 1 inactive cuts. Iter 175: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.734892e+02, m +1.712850e+02, v -1.037882e+00, u 5.742432e-03, i -16, master time 7.1s, eval time 0.5s, time 8.0s Removed 1 inactive cuts. Iter 176: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.736402e+02, m +1.712962e+02, v -1.026676e+00, u 5.742432e-03, i -17, master time 7.1s, eval time 0.5s, time 8.1s Removed 1 inactive cuts. Iter 177: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.744590e+02, m +1.713141e+02, v -1.008797e+00, u 5.742432e-03, i -18, master time 7.2s, eval time 0.5s, time 8.1s Removed 1 inactive cuts. Iter 178: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.738033e+02, m +1.713200e+02, v -1.002880e+00, u 5.742432e-03, i -19, master time 7.2s, eval time 0.5s, time 8.2s Removed 1 inactive cuts. Iter 179: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.734351e+02, m +1.713295e+02, v -9.933816e-01, u 5.742432e-03, i -20, master time 7.3s, eval time 0.5s, time 8.3s Removed 1 inactive cuts. Iter 180: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.731435e+02, m +1.713308e+02, v -9.920544e-01, u 5.742432e-03, i -21, master time 7.4s, eval time 0.5s, time 8.4s Removed 1 inactive cuts. Iter 181: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.732518e+02, m +1.713325e+02, v -9.903283e-01, u 5.742432e-03, i -22, master time 7.4s, eval time 0.5s, time 8.4s Removed 1 inactive cuts. Iter 182: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.731868e+02, m +1.713370e+02, v -9.858318e-01, u 5.742432e-03, i -23, master time 7.5s, eval time 0.5s, time 8.5s Removed 1 inactive cuts. Iter 183: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.729814e+02, m +1.713410e+02, v -9.818554e-01, u 5.742432e-03, i -24, master time 7.6s, eval time 0.5s, time 8.5s Removed 1 inactive cuts. Iter 184: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.728967e+02, m +1.713489e+02, v -9.739680e-01, u 5.742432e-03, i -25, master time 7.6s, eval time 0.5s, time 8.6s Removed 1 inactive cuts. Iter 185: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.736279e+02, m +1.713616e+02, v -9.612983e-01, u 5.742432e-03, i -26, master time 7.7s, eval time 0.5s, time 8.7s Removed 1 inactive cuts. Iter 186: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.730788e+02, m +1.713721e+02, v -9.507574e-01, u 5.742432e-03, i -27, master time 7.8s, eval time 0.5s, time 8.8s Removed 1 inactive cuts. Iter 187: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.737628e+02, m +1.713748e+02, v -9.480106e-01, u 5.742432e-03, i -28, master time 7.8s, eval time 0.5s, time 8.8s Removed 1 inactive cuts. Iter 188: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.730087e+02, m +1.713915e+02, v -9.313119e-01, u 5.742432e-03, i -29, master time 7.9s, eval time 0.5s, time 8.9s Removed 1 inactive cuts. Iter 189: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.738632e+02, m +1.713966e+02, v -9.262511e-01, u 5.742432e-03, i -30, master time 8.0s, eval time 0.5s, time 9.0s Removed 1 inactive cuts. Iter 190: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.741100e+02, m +1.714138e+02, v -9.090904e-01, u 5.742432e-03, i -31, master time 8.0s, eval time 0.5s, time 9.1s Removed 1 inactive cuts. Iter 191: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.731867e+02, m +1.714373e+02, v -8.855939e-01, u 5.742432e-03, i -32, master time 8.1s, eval time 0.5s, time 9.1s Removed 1 inactive cuts. Iter 192: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.731446e+02, m +1.714484e+02, v -8.745080e-01, u 5.742432e-03, i -33, master time 8.2s, eval time 0.5s, time 9.2s Removed 1 inactive cuts. Iter 193: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.734039e+02, m +1.714525e+02, v -8.703134e-01, u 5.742432e-03, i -34, master time 8.2s, eval time 0.5s, time 9.3s Removed 1 inactive cuts. Iter 194: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.734615e+02, m +1.714658e+02, v -8.570415e-01, u 5.742432e-03, i -35, master time 8.3s, eval time 0.5s, time 9.3s Removed 1 inactive cuts. Iter 195: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.730553e+02, m +1.714732e+02, v -8.496173e-01, u 5.742432e-03, i -36, master time 8.3s, eval time 0.5s, time 9.4s Removed 1 inactive cuts. Iter 196: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.735967e+02, m +1.714906e+02, v -8.322345e-01, u 5.742432e-03, i -37, master time 8.4s, eval time 0.5s, time 9.4s Removed 1 inactive cuts. Iter 197: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.736116e+02, m +1.714950e+02, v -8.278357e-01, u 5.742432e-03, i -38, master time 8.4s, eval time 0.5s, time 9.5s Removed 1 inactive cuts. Iter 198: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.738528e+02, m +1.715051e+02, v -8.177518e-01, u 5.742432e-03, i -39, master time 8.5s, eval time 0.6s, time 9.6s Removed 1 inactive cuts. Iter 199: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.737177e+02, m +1.715101e+02, v -8.127836e-01, u 5.742432e-03, i -40, master time 8.6s, eval time 0.6s, time 9.6s Removed 1 inactive cuts. Iter 200: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.730862e+02, m +1.715110e+02, v -8.118229e-01, u 5.742432e-03, i -41, master time 8.6s, eval time 0.6s, time 9.7s Removed 1 inactive cuts. Iter 201: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.736110e+02, m +1.715272e+02, v -7.956835e-01, u 5.742432e-03, i -42, master time 8.7s, eval time 0.6s, time 9.8s Removed 1 inactive cuts. Iter 202: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.731882e+02, m +1.715333e+02, v -7.895674e-01, u 5.742432e-03, i -43, master time 8.7s, eval time 0.6s, time 9.8s Removed 1 inactive cuts. Iter 203: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.730444e+02, m +1.715464e+02, v -7.764153e-01, u 5.742432e-03, i -44, master time 8.8s, eval time 0.6s, time 9.9s Removed 1 inactive cuts. Iter 204: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.736009e+02, m +1.715538e+02, v -7.690672e-01, u 5.742432e-03, i -45, master time 8.8s, eval time 0.6s, time 10.0s Removed 1 inactive cuts. Iter 205: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.730915e+02, m +1.715538e+02, v -7.690672e-01, u 5.742432e-03, i -46, master time 8.9s, eval time 0.6s, time 10.0s Removed 1 inactive cuts. Iter 206: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.729925e+02, m +1.715599e+02, v -7.629908e-01, u 5.742432e-03, i -47, master time 9.0s, eval time 0.6s, time 10.1s Removed 1 inactive cuts. Iter 207: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.734119e+02, m +1.715700e+02, v -7.528568e-01, u 5.742432e-03, i -48, master time 9.0s, eval time 0.6s, time 10.2s Removed 1 inactive cuts. Iter 208: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.731518e+02, m +1.715976e+02, v -7.252571e-01, u 5.742432e-03, i -49, master time 9.1s, eval time 0.6s, time 10.2s Removed 1 inactive cuts. Iter 209: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.741017e+02, m +1.716230e+02, v -6.998682e-01, u 5.742432e-03, i -50, master time 9.2s, eval time 0.6s, time 10.3s Removed 1 inactive cuts. Iter 210: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.740370e+02, m +1.716517e+02, v -6.711809e-01, u 5.742432e-03, i -51, master time 9.2s, eval time 0.6s, time 10.4s Removed 1 inactive cuts. Iter 211: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.740296e+02, m +1.716586e+02, v -6.642340e-01, u 5.742432e-03, i -52, master time 9.3s, eval time 0.6s, time 10.4s Removed 1 inactive cuts. Iter 212: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.737107e+02, m +1.716648e+02, v -6.580100e-01, u 5.742432e-03, i -53, master time 9.4s, eval time 0.6s, time 10.5s Removed 1 inactive cuts. Iter 213: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.743219e+02, m +1.716862e+02, v -6.366238e-01, u 5.742432e-03, i -54, master time 9.4s, eval time 0.6s, time 10.6s Removed 1 inactive cuts. Iter 214: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.741377e+02, m +1.716918e+02, v -6.310593e-01, u 5.742432e-03, i -55, master time 9.5s, eval time 0.6s, time 10.7s Removed 1 inactive cuts. Iter 215: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.731343e+02, m +1.717017e+02, v -6.211238e-01, u 5.742432e-03, i -56, master time 9.5s, eval time 0.6s, time 10.7s Removed 1 inactive cuts. Iter 216: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.732934e+02, m +1.717130e+02, v -6.098433e-01, u 5.742432e-03, i -57, master time 9.6s, eval time 0.6s, time 10.8s Removed 1 inactive cuts. Iter 217: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.736848e+02, m +1.717142e+02, v -6.086626e-01, u 5.742432e-03, i -58, master time 9.7s, eval time 0.6s, time 10.9s Removed 1 inactive cuts. Iter 218: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.745484e+02, m +1.717143e+02, v -6.085523e-01, u 5.742432e-03, i -59, master time 9.7s, eval time 0.6s, time 10.9s Removed 1 inactive cuts. Iter 219: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.733278e+02, m +1.717148e+02, v -6.080288e-01, u 5.742432e-03, i -60, master time 9.8s, eval time 0.6s, time 11.0s Removed 1 inactive cuts. Iter 220: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.735363e+02, m +1.717156e+02, v -6.072424e-01, u 5.742432e-03, i -61, master time 9.8s, eval time 0.6s, time 11.0s Removed 1 inactive cuts. Iter 221: ncols 124, nrows 188, fx0 +1.723229e+02, fy +1.731210e+02, m +1.717500e+02, v -5.728598e-01, u 5.742432e-03, i -62, master time 9.9s, eval time 0.6s, time 11.1s Removed 1 inactive cuts. Iter 222: ncols 124, nrows 188, fx0 +1.718271e+02, fy +1.718271e+02, m +1.717500e+02, v -7.706128e-02, u 5.742432e-03, i +1, master time 10.1s, eval time 0.6s, time 11.4s Removed 1 inactive cuts. Iter 223: ncols 124, nrows 188, fx0 +1.718271e+02, fy +1.721140e+02, m +1.717500e+02, v -7.706127e-02, u 5.742432e-03, i -1, master time 10.2s, eval time 0.6s, time 11.4s Removed 1 inactive cuts. Iter 224: ncols 124, nrows 188, fx0 +1.717500e+02, fy +1.717500e+02, m +1.717500e+02, v 2.280211e-07, u 5.742432e-03, i +1, master time 10.3s, eval time 0.6s, time 11.5s TERMINATION: Optimal: v = 2.2802107210673398e-7 DD.dual_objective_value(algo) = -171.7499998847684 DD.dual_solution(algo) = [-4.021353371846292e-26, -4.021353371846292e-26, -1.0831738515646076e-19, 0.061837500755600676, 0.05816250120928567, 0.06397869105341429, -0.2546250027245164, -0.24675000278551631, -0.25591476421365716, 0.2677500044619112, 0.25987500300870664, 0.27407886888206845, -1.102500016618155, -1.1025000130274127, -1.0891464691547064, -4.021353371846292e-26, -4.021353371846292e-26, 1.8977904997643548e-20, 0.06547500061847136, 0.058162501209284276, 0.06397869105341428, -4.021353371846292e-26, -4.021353371846292e-26, -2.3396653874977912e-20, 0.06183750075582083, 0.06521250017451402, 0.06397869105341428, -4.021353371846292e-26, -4.021353371846292e-26, 2.899322867001281e-20, 0.06547500059462358, 0.06521250019243234, 0.06397869105341428, -4.021353371846292e-26, -4.021353371846292e-26, 6.7482865435400966e-21, 0.061837500267122265, 0.06558750019940716, 0.06396714044381535, -4.021353371846292e-26, -4.021353371846292e-26, 7.731478523063053e-26, 0.0656625010540683, 0.05816250193036239, 0.06398418259338617, -0.27037500386746766, -0.24675000210879422, -0.25593673037354464, 0.2835000055351231, 0.25987500104839095, 0.269489275147285, -4.021353371846292e-26, -4.021353371846292e-26, -1.4928005875263258e-19, 0.06566250105401547, 0.06521249914643731, 0.06398418259338616, 0.0, -4.021353371846292e-26, -7.30903755380115e-27, 0.06952500033843793, 0.06558750062554257, 0.06374189701732423, -4.0504223474197517e-26, 0.0, 5.680253462660167e-20, 0.06566250014973347, 0.07353750054459227, 0.06374189701732423, -0.2703750009474156, -0.2782500023328384, -0.2549675880747463, 0.28350000278983783, 0.29137500584959436, 0.2774876319114067, -4.043251622486799e-26, -4.0501603756352e-26, 1.2919446294180874e-20, 0.06547500072278448, 0.06558750019967859, 0.06396714044381009, -4.050366417196941e-26, 0.0, 8.85316051409937e-20, 0.06183750027741927, 0.07353750019818706, 0.06396714044360505, -4.0503667696188225e-26, -4.050595233862626e-26, 2.578533637978388e-20, 0.06566250012126897, 0.06558750061106533, 0.06374189702277351, 0.0, -4.057704312752604e-26, -1.9729931544124164e-19, 0.06952500089105124, 0.06521249914606525, 0.06398418259338616, 0.0, 0.0, -1.0296742939281443e-19, 0.06952500033797529, 0.07353750055163821, 0.06374189701732418, -4.0504520011831637e-26, 0.0, -1.1507782180209164e-20, 0.06547500077205864, 0.07353750020089861, 0.06396714044379638, -0.2546250020393847, -0.27825000079817125, -0.25586856177502687, 0.2677500038312829, 0.29137500312072057, 0.2680906932139461, 0.0, -4.057562922817332e-26, 1.4782717837986851e-19, 0.06952500086833263, 0.05816250188592922, 0.06398418259338616] Test Summary: | Pass Total Time investment | 3 3 29.3s Found new best primal bound: -86600.0 Found new best primal bound: -107240.0 Found new best primal bound: -107701.0 Iter 1: ncols 10, nrows 4, Δ 1.000000e+01, fx0 +1.154000e+05, m +1.127700e+05, fy +1.154000e+05, linerr +0.000000e+00, master time 0.0s, eval time 0.0s, time 0.0s Iter 2: ncols 10, nrows 4, Δ 2.000000e+01, fx0 +1.132200e+05, m +1.075100e+05, fy +1.132200e+05, linerr +0.000000e+00, master time 0.0s, eval time 0.0s, time 0.0s Iter 3: ncols 10, nrows 5, Δ 2.000000e+01, fx0 +1.132200e+05, m +1.085843e+05, fy +1.179067e+05, linerr +7.373333e+03, master time 0.0s, eval time 0.0s, time 0.0s Iter 4: ncols 10, nrows 5, Δ 2.000000e+01, fx0 +1.120343e+05, m +1.057803e+05, fy +1.120343e+05, linerr +7.373333e+03, master time 0.0s, eval time 0.0s, time 0.0s Iter 5: ncols 10, nrows 6, Δ 2.000000e+01, fx0 +1.120343e+05, m +1.068408e+05, fy +1.236170e+05, linerr +1.533333e+03, master time 0.0s, eval time 0.0s, time 0.0s Iter 6: ncols 10, nrows 6, Δ 2.000000e+01, fx0 +1.099075e+05, m +1.048408e+05, fy +1.099075e+05, linerr +1.533333e+03, master time 0.0s, eval time 0.0s, time 0.0s Iter 7: ncols 10, nrows 7, Δ 2.000000e+01, fx0 +1.099075e+05, m +1.061982e+05, fy +1.203166e+05, linerr +4.230838e+03, master time 0.0s, eval time 0.0s, time 0.0s Iter 8: ncols 10, nrows 8, Δ 2.000000e+01, fx0 +1.099075e+05, m +1.068147e+05, fy +1.106285e+05, linerr +2.248718e+03, master time 0.0s, eval time 0.0s, time 0.0s Iter 9: ncols 10, nrows 9, Δ 2.000000e+01, fx0 +1.099075e+05, m +1.070639e+05, fy +1.103801e+05, linerr +1.317949e+03, master time 0.0s, eval time 0.0s, time 0.0s Iter 10: ncols 10, nrows 10, Δ 2.000000e+01, fx0 +1.099075e+05, m +1.074089e+05, fy +1.108599e+05, linerr +5.000000e+02, master time 0.0s, eval time 0.0s, time 0.0s Iter 11: ncols 10, nrows 11, Δ 2.000000e+01, fx0 +1.099075e+05, m +1.076592e+05, fy +1.103521e+05, linerr +8.179487e+02, master time 0.0s, eval time 0.0s, time 0.0s Iter 12: ncols 10, nrows 12, Δ 2.000000e+01, fx0 +1.099075e+05, m +1.085577e+05, fy +1.109620e+05, linerr -2.364686e-11, master time 0.0s, eval time 0.0s, time 0.0s Iter 13: ncols 10, nrows 12, Δ 4.000000e+01, fx0 +1.085577e+05, m +1.083900e+05, fy +1.085577e+05, linerr -2.364686e-11, master time 0.0s, eval time 0.0s, time 0.0s Iter 14: ncols 10, nrows 12, Δ 8.000000e+01, fx0 +1.083900e+05, m +1.083900e+05, fy +1.083900e+05, linerr -2.364686e-11, master time 0.0s, eval time 0.0s, time 0.0s TERMINATION: Optimal DD.primal_objective_value(algo) = -107701.0 DD.primal_solution(algo) = Dict{Any, Float64}("x1" => 183.0, "x2" => 67.0, "x3" => 250.0) Found new best primal bound: -103479.33333333334 Found new best primal bound: -103479.33333333337 Iter 1: ncols 10, nrows 4, Δ 1.000000e+01, fx0 +1.154000e+05, m +1.127700e+05, fy +1.154000e+05, linerr +0.000000e+00, master time 0.0s, eval time 0.0s, time 0.0s Found new best primal bound: -107342.0 Iter 2: ncols 10, nrows 4, Δ 2.000000e+01, fx0 +1.132200e+05, m +1.075100e+05, fy +1.132200e+05, linerr +0.000000e+00, master time 0.0s, eval time 0.0s, time 0.0s Iter 3: ncols 10, nrows 5, Δ 2.000000e+01, fx0 +1.132200e+05, m +1.085843e+05, fy +1.179067e+05, linerr +7.373333e+03, master time 0.0s, eval time 0.0s, time 0.0s Found new best primal bound: -107342.00000000001 Iter 4: ncols 10, nrows 5, Δ 2.000000e+01, fx0 +1.120343e+05, m +1.057803e+05, fy +1.120343e+05, linerr +7.373333e+03, master time 0.0s, eval time 0.0s, time 0.0s Iter 5: ncols 10, nrows 6, Δ 2.000000e+01, fx0 +1.120343e+05, m +1.068408e+05, fy +1.236170e+05, linerr +1.533333e+03, master time 0.0s, eval time 0.0s, time 0.0s Iter 6: ncols 10, nrows 6, Δ 2.000000e+01, fx0 +1.099075e+05, m +1.048408e+05, fy +1.099075e+05, linerr +1.533333e+03, master time 0.0s, eval time 0.0s, time 0.0s Iter 7: ncols 10, nrows 7, Δ 2.000000e+01, fx0 +1.099075e+05, m +1.061982e+05, fy +1.203166e+05, linerr +4.230838e+03, master time 0.0s, eval time 0.0s, time 0.0s Iter 8: ncols 10, nrows 8, Δ 2.000000e+01, fx0 +1.099075e+05, m +1.068147e+05, fy +1.106285e+05, linerr +2.248718e+03, master time 0.0s, eval time 0.0s, time 0.0s Iter 9: ncols 10, nrows 9, Δ 2.000000e+01, fx0 +1.099075e+05, m +1.070639e+05, fy +1.103801e+05, linerr +1.317949e+03, master time 0.0s, eval time 0.0s, time 0.0s Iter 10: ncols 10, nrows 10, Δ 2.000000e+01, fx0 +1.099075e+05, m +1.074089e+05, fy +1.108599e+05, linerr +5.000000e+02, master time 0.0s, eval time 0.0s, time 0.0s Iter 11: ncols 10, nrows 11, Δ 2.000000e+01, fx0 +1.099075e+05, m +1.076592e+05, fy +1.103521e+05, linerr +8.179487e+02, master time 0.0s, eval time 0.0s, time 0.0s Iter 12: ncols 10, nrows 12, Δ 2.000000e+01, fx0 +1.099075e+05, m +1.085577e+05, fy +1.109620e+05, linerr -9.094947e-12, master time 0.0s, eval time 0.0s, time 0.0s Iter 13: ncols 10, nrows 12, Δ 4.000000e+01, fx0 +1.085577e+05, m +1.083900e+05, fy +1.085577e+05, linerr -9.094947e-12, master time 0.0s, eval time 0.0s, time 0.0s Iter 14: ncols 10, nrows 12, Δ 8.000000e+01, fx0 +1.083900e+05, m +1.083900e+05, fy +1.083900e+05, linerr -9.094947e-12, master time 0.0s, eval time 0.0s, time 0.0s TERMINATION: Optimal DD.primal_objective_value(algo) = -107342.00000000001 DD.primal_solution(algo) = Dict{Any, Float64}("x1" => 134.0, "x2" => 82.0, "x3" => 283.0) Test Summary: | Pass Total Time Heuristics | 2 2 5.6s Testing DualDecomposition tests passed Testing completed after 1302.78s PkgEval succeeded after 1400.18s