Package evaluation to test QuantumCollocation on Julia 1.14.0-DEV.2028 (45a2de3f7a*) started at 2026-04-13T03:27:38.381 ################################################################################ # Set-up # Installing PkgEval dependencies (TestEnv)... Activating project at `~/.julia/environments/v1.14` Set-up completed after 14.5s ################################################################################ # Installation # Installing QuantumCollocation... Resolving package versions... Updating `~/.julia/environments/v1.14/Project.toml` [0dc23a59] + QuantumCollocation v0.10.2 Updating `~/.julia/environments/v1.14/Manifest.toml` [47edcb42] + ADTypes v1.21.0 ⌃ [c29ec348] + AbstractDifferentiation v0.4.4 [7d9f7c33] + Accessors v0.1.44 [79e6a3ab] + Adapt v4.5.2 [66dad0bd] + AliasTables v1.1.3 [4fba245c] + ArrayInterface v7.23.0 [4c555306] + ArrayLayouts v1.12.2 [6e4b80f9] + BenchmarkTools v1.7.0 [62783981] + BitTwiddlingConvenienceFunctions v0.1.6 [70df07ce] + BracketingNonlinearSolve v1.12.1 [2a0fbf3d] + CPUSummary v0.2.7 [d360d2e6] + ChainRulesCore v1.26.1 [0b6fb165] + ChunkCodecCore v1.0.1 [4c0bbee4] + ChunkCodecLibZlib v1.0.0 [55437552] + ChunkCodecLibZstd v1.0.0 [fb6a15b2] + CloseOpenIntervals v0.1.13 [523fee87] + CodecBzip2 v0.8.5 [944b1d66] + CodecZlib v0.7.8 [38540f10] + CommonSolve v0.2.6 [bbf7d656] + CommonSubexpressions v0.3.1 [f70d9fcc] + CommonWorldInvalidations v1.0.0 [34da2185] + Compat v4.18.1 [a33af91c] + CompositionsBase v0.1.2 [95dc2771] + ComputePipeline v0.1.7 [2569d6c7] + ConcreteStructs v0.2.3 [187b0558] + ConstructionBase v1.6.0 [adafc99b] + CpuId v0.3.1 [a8cc5b0e] + Crayons v4.1.1 [9a962f9c] + DataAPI v1.16.0 [82cc6244] + DataInterpolations v8.10.0 [864edb3b] + DataStructures v0.19.4 [e2d170a0] + DataValueInterfaces v1.0.0 [2b5f629d] + DiffEqBase v6.215.0 [163ba53b] + DiffResults v1.1.0 [b552c78f] + DiffRules v1.15.1 [a0c0ee7d] + DifferentiationInterface v0.7.16 [c823fa1f] + DirectTrajOpt v0.8.10 [31c24e10] + Distributions v0.25.123 [ffbed154] + DocStringExtensions v0.9.5 [4e289a0a] + EnumX v1.0.7 [f151be2c] + EnzymeCore v0.8.19 [e24c0720] + ExponentialAction v0.2.10 [d4d017d3] + ExponentialUtilities v1.30.0 [e2ba6199] + ExprTools v0.1.10 [55351af7] + ExproniconLite v0.10.14 [7034ab61] + FastBroadcast v1.3.1 [9aa1b823] + FastClosures v0.3.2 [a4df4552] + FastPower v1.3.1 [5789e2e9] + FileIO v1.18.0 [1a297f60] + FillArrays v1.16.0 [64ca27bc] + FindFirstFunctions v1.8.0 [6a86dc24] + FiniteDiff v2.29.0 [f6369f11] + ForwardDiff v1.3.3 [069b7b12] + FunctionWrappers v1.1.3 [77dc65aa] + FunctionWrappersWrappers v1.4.0 [46192b85] + GPUArraysCore v0.2.0 [c145ed77] + GenericSchur v0.5.6 [076d061b] + HashArrayMappedTries v0.2.0 [34004b35] + HypergeometricFunctions v0.3.28 [615f187c] + IfElse v0.1.1 [3587e190] + InverseFunctions v0.1.17 [b6b21f68] + Ipopt v1.14.1 [92d709cd] + IrrationalConstants v0.2.6 [82899510] + IteratorInterfaceExtensions v1.0.0 [033835bb] + JLD2 v0.6.4 [692b3bcd] + JLLWrappers v1.7.1 [682c06a0] + JSON v1.5.0 [ae98c720] + Jieko v0.2.1 [b964fa9f] + LaTeXStrings v1.4.0 [10f19ff3] + LayoutPointers v0.1.17 [5078a376] + LazyArrays v2.9.6 [2ab3a3ac] + LogExpFunctions v0.3.29 [e6f89c97] + LoggingExtras v1.2.0 [1914dd2f] + MacroTools v0.5.16 [d125e4d3] + ManualMemory v0.1.8 [b8f27783] + MathOptInterface v1.50.1 [bb5d69b7] + MaybeInplace v0.1.4 [e1d29d7a] + Missings v1.2.0 [2e0e35c7] + Moshi v0.3.7 [46d2c3a1] + MuladdMacro v0.2.4 [d8a4904e] + MutableArithmetics v1.7.1 [77ba4419] + NaNMath v1.1.3 [538bc3a1] + NamedTrajectories v0.8.4 [be0214bd] + NonlinearSolveBase v2.24.0 [510215fc] + Observables v0.5.5 [bac558e1] + OrderedCollections v1.8.1 [bbf590c4] + OrdinaryDiffEqCore v3.30.0 [521117fe] + OrdinaryDiffEqLinear v1.12.0 [b1df2697] + OrdinaryDiffEqTsit5 v1.12.0 [90014a1f] + PDMats v0.11.37 [69de0a69] + Parsers v2.8.3 [5a402ddf] + PiccoloQuantumObjects v0.10.2 [f517fe37] + Polyester v0.7.19 [1d0040c9] + PolyesterWeave v0.2.2 [d236fae5] + PreallocationTools v1.2.0 [aea7be01] + PrecompileTools v1.3.3 [21216c6a] + Preferences v1.5.2 [08abe8d2] + PrettyTables v3.3.2 [92933f4c] + ProgressMeter v1.11.0 [43287f4e] + PtrArrays v1.4.0 [1fd47b50] + QuadGK v2.11.3 [0dc23a59] + QuantumCollocation v0.10.2 [3cdcf5f2] + RecipesBase v1.3.4 ⌅ [731186ca] + RecursiveArrayTools v3.54.0 [189a3867] + Reexport v1.2.2 [ae029012] + Requires v1.3.1 [79098fc4] + Rmath v0.9.0 [7e49a35a] + RuntimeGeneratedFunctions v0.5.18 [94e857df] + SIMDTypes v0.1.0 ⌅ [0bca4576] + SciMLBase v2.155.0 [19f34311] + SciMLJacobianOperators v0.1.13 [a6db7da4] + SciMLLogging v1.9.1 [c0aeaf25] + SciMLOperators v1.16.0 [431bcebd] + SciMLPublic v1.0.1 [53ae85a6] + SciMLStructures v1.10.0 [7e506255] + ScopedValues v1.6.0 [efcf1570] + Setfield v1.1.2 [a2af1166] + SortingAlgorithms v1.2.2 [276daf66] + SpecialFunctions v2.7.2 [aedffcd0] + Static v1.3.1 [0d7ed370] + StaticArrayInterface v1.9.0 [90137ffa] + StaticArrays v1.9.18 [1e83bf80] + StaticArraysCore v1.4.4 [10745b16] + Statistics v1.11.1 [82ae8749] + StatsAPI v1.8.0 [2913bbd2] + StatsBase v0.34.10 [4c63d2b9] + StatsFuns v1.5.2 [7792a7ef] + StrideArraysCore v0.5.8 [892a3eda] + StringManipulation v0.4.4 [ec057cc2] + StructUtils v2.7.1 [2efcf032] + SymbolicIndexingInterface v0.3.46 [3783bdb8] + TableTraits v1.0.1 [bd369af6] + Tables v1.12.1 [f8b46487] + TestItemRunner v1.1.5 [1c621080] + TestItems v1.0.0 [8290d209] + ThreadingUtilities v0.5.5 [a759f4b9] + TimerOutputs v0.5.29 [6dad8b7f] + TrajectoryIndexingUtils v0.1.0 [3bb67fe8] + TranscodingStreams v0.11.3 [781d530d] + TruncatedStacktraces v1.4.0 [ae81ac8f] + ASL_jll v0.1.3+0 [6e34b625] + Bzip2_jll v1.0.9+0 [e33a78d0] + Hwloc_jll v2.13.0+1 [9cc047cb] + Ipopt_jll v300.1400.1901+0 [94ce4f54] + Libiconv_jll v1.18.0+0 [d00139f3] + METIS_jll v5.1.3+0 [d7ed1dd3] + MUMPS_seq_jll v500.800.200+0 [656ef2d0] + OpenBLAS32_jll v0.3.30+0 [efe28fd5] + OpenSpecFun_jll v0.5.6+0 [f50d1b31] + Rmath_jll v0.5.1+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 [9fa8497b] + Future v1.11.0 [b77e0a4c] + InteractiveUtils v1.11.0 [ac6e5ff7] + JuliaSyntaxHighlighting v1.13.0 [b27032c2] + LibCURL v1.0.0 [76f85450] + LibGit2 v1.11.0 [8f399da3] + Libdl v1.11.0 [37e2e46d] + LinearAlgebra v1.13.0 [56ddb016] + Logging v1.11.0 [d6f4376e] + Markdown v1.11.0 [a63ad114] + Mmap v1.11.0 [ca575930] + NetworkOptions v1.3.0 [44cfe95a] + Pkg v1.14.0 [de0858da] + Printf v1.11.0 [9abbd945] + Profile v1.11.0 [3fa0cd96] + REPL v1.11.0 [9a3f8284] + Random v1.11.0 [ea8e919c] + SHA v1.0.0 [9e88b42a] + Serialization v1.11.0 [6462fe0b] + Sockets v1.11.0 [2f01184e] + SparseArrays v1.13.0 [f489334b] + StyledStrings v1.13.0 [4607b0f0] + SuiteSparse [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 v8.19.0+0 [e37daf67] + LibGit2_jll v1.9.2+0 [29816b5a] + LibSSH2_jll v1.11.3+1 [14a3606d] + MozillaCACerts_jll v2026.3.19 [4536629a] + OpenBLAS_jll v0.3.30+0 [05823500] + OpenLibm_jll v0.8.7+0 [458c3c95] + OpenSSL_jll v3.5.6+0 [efcefdf7] + PCRE2_jll v10.47.0+0 [bea87d4a] + SuiteSparse_jll v7.10.1+0 [83775a58] + Zlib_jll v1.3.2+0 [3161d3a3] + Zstd_jll v1.5.7+1 [8e850b90] + libblastrampoline_jll v5.15.0+0 [8e850ede] + nghttp2_jll v1.68.1+0 [3f19e933] + p7zip_jll v17.8.0+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 6.57s ################################################################################ # Precompilation # Precompiling PkgEval dependencies... Precompiling package dependencies... Precompiling project... 43981.5 ms ✓ QuantumCollocation 1 dependency successfully precompiled in 54 seconds. 273 already precompiled. Precompilation completed after 75.55s ################################################################################ # Testing # Testing QuantumCollocation Status `/tmp/jl_Xs2XaH/Project.toml` [c823fa1f] DirectTrajOpt v0.8.10 [31c24e10] Distributions v0.25.123 [e24c0720] ExponentialAction v0.2.10 [538bc3a1] NamedTrajectories v0.8.4 [5a402ddf] PiccoloQuantumObjects v0.10.2 [0dc23a59] QuantumCollocation v0.10.2 [189a3867] Reexport v1.2.2 [f8b46487] TestItemRunner v1.1.5 [1c621080] TestItems v1.0.0 [6dad8b7f] TrajectoryIndexingUtils v0.1.0 [8f399da3] Libdl v1.11.0 [37e2e46d] LinearAlgebra v1.13.0 [9a3f8284] Random v1.11.0 [2f01184e] SparseArrays v1.13.0 [8dfed614] Test v1.11.0 Status `/tmp/jl_Xs2XaH/Manifest.toml` [47edcb42] ADTypes v1.21.0 ⌃ [c29ec348] AbstractDifferentiation v0.4.4 [7d9f7c33] Accessors v0.1.44 [79e6a3ab] Adapt v4.5.2 [66dad0bd] AliasTables v1.1.3 [4fba245c] ArrayInterface v7.23.0 [4c555306] ArrayLayouts v1.12.2 [6e4b80f9] BenchmarkTools v1.7.0 [62783981] BitTwiddlingConvenienceFunctions v0.1.6 [70df07ce] BracketingNonlinearSolve v1.12.1 [2a0fbf3d] CPUSummary v0.2.7 [d360d2e6] ChainRulesCore v1.26.1 [0b6fb165] ChunkCodecCore v1.0.1 [4c0bbee4] ChunkCodecLibZlib v1.0.0 [55437552] ChunkCodecLibZstd v1.0.0 [fb6a15b2] CloseOpenIntervals v0.1.13 [523fee87] CodecBzip2 v0.8.5 [944b1d66] CodecZlib v0.7.8 [38540f10] CommonSolve v0.2.6 [bbf7d656] CommonSubexpressions v0.3.1 [f70d9fcc] CommonWorldInvalidations v1.0.0 [34da2185] Compat v4.18.1 [a33af91c] CompositionsBase v0.1.2 [95dc2771] ComputePipeline v0.1.7 [2569d6c7] ConcreteStructs v0.2.3 [187b0558] ConstructionBase v1.6.0 [adafc99b] CpuId v0.3.1 [a8cc5b0e] Crayons v4.1.1 [9a962f9c] DataAPI v1.16.0 [82cc6244] DataInterpolations v8.10.0 [864edb3b] DataStructures v0.19.4 [e2d170a0] DataValueInterfaces v1.0.0 [2b5f629d] DiffEqBase v6.215.0 [163ba53b] DiffResults v1.1.0 [b552c78f] DiffRules v1.15.1 [a0c0ee7d] DifferentiationInterface v0.7.16 [c823fa1f] DirectTrajOpt v0.8.10 [31c24e10] Distributions v0.25.123 [ffbed154] DocStringExtensions v0.9.5 [4e289a0a] EnumX v1.0.7 [f151be2c] EnzymeCore v0.8.19 [e24c0720] ExponentialAction v0.2.10 [d4d017d3] ExponentialUtilities v1.30.0 [e2ba6199] ExprTools v0.1.10 [55351af7] ExproniconLite v0.10.14 [7034ab61] FastBroadcast v1.3.1 [9aa1b823] FastClosures v0.3.2 [a4df4552] FastPower v1.3.1 [5789e2e9] FileIO v1.18.0 [1a297f60] FillArrays v1.16.0 [64ca27bc] FindFirstFunctions v1.8.0 [6a86dc24] FiniteDiff v2.29.0 [f6369f11] ForwardDiff v1.3.3 [069b7b12] FunctionWrappers v1.1.3 [77dc65aa] FunctionWrappersWrappers v1.4.0 [46192b85] GPUArraysCore v0.2.0 [c145ed77] GenericSchur v0.5.6 [076d061b] HashArrayMappedTries v0.2.0 [34004b35] HypergeometricFunctions v0.3.28 [615f187c] IfElse v0.1.1 [3587e190] InverseFunctions v0.1.17 [b6b21f68] Ipopt v1.14.1 [92d709cd] IrrationalConstants v0.2.6 [82899510] IteratorInterfaceExtensions v1.0.0 [033835bb] JLD2 v0.6.4 [692b3bcd] JLLWrappers v1.7.1 [682c06a0] JSON v1.5.0 [ae98c720] Jieko v0.2.1 [b964fa9f] LaTeXStrings v1.4.0 [10f19ff3] LayoutPointers v0.1.17 [5078a376] LazyArrays v2.9.6 [2ab3a3ac] LogExpFunctions v0.3.29 [e6f89c97] LoggingExtras v1.2.0 [1914dd2f] MacroTools v0.5.16 [d125e4d3] ManualMemory v0.1.8 [b8f27783] MathOptInterface v1.50.1 [bb5d69b7] MaybeInplace v0.1.4 [e1d29d7a] Missings v1.2.0 [2e0e35c7] Moshi v0.3.7 [46d2c3a1] MuladdMacro v0.2.4 [d8a4904e] MutableArithmetics v1.7.1 [77ba4419] NaNMath v1.1.3 [538bc3a1] NamedTrajectories v0.8.4 [be0214bd] NonlinearSolveBase v2.24.0 [510215fc] Observables v0.5.5 [bac558e1] OrderedCollections v1.8.1 [bbf590c4] OrdinaryDiffEqCore v3.30.0 [521117fe] OrdinaryDiffEqLinear v1.12.0 [b1df2697] OrdinaryDiffEqTsit5 v1.12.0 [90014a1f] PDMats v0.11.37 [69de0a69] Parsers v2.8.3 [5a402ddf] PiccoloQuantumObjects v0.10.2 [f517fe37] Polyester v0.7.19 [1d0040c9] PolyesterWeave v0.2.2 [d236fae5] PreallocationTools v1.2.0 [aea7be01] PrecompileTools v1.3.3 [21216c6a] Preferences v1.5.2 [08abe8d2] PrettyTables v3.3.2 [92933f4c] ProgressMeter v1.11.0 [43287f4e] PtrArrays v1.4.0 [1fd47b50] QuadGK v2.11.3 [0dc23a59] QuantumCollocation v0.10.2 [3cdcf5f2] RecipesBase v1.3.4 ⌅ [731186ca] RecursiveArrayTools v3.54.0 [189a3867] Reexport v1.2.2 [ae029012] Requires v1.3.1 [79098fc4] Rmath v0.9.0 [7e49a35a] RuntimeGeneratedFunctions v0.5.18 [94e857df] SIMDTypes v0.1.0 ⌅ [0bca4576] SciMLBase v2.155.0 [19f34311] SciMLJacobianOperators v0.1.13 [a6db7da4] SciMLLogging v1.9.1 [c0aeaf25] SciMLOperators v1.16.0 [431bcebd] SciMLPublic v1.0.1 [53ae85a6] SciMLStructures v1.10.0 [7e506255] ScopedValues v1.6.0 [efcf1570] Setfield v1.1.2 [a2af1166] SortingAlgorithms v1.2.2 [276daf66] SpecialFunctions v2.7.2 [aedffcd0] Static v1.3.1 [0d7ed370] StaticArrayInterface v1.9.0 [90137ffa] StaticArrays v1.9.18 [1e83bf80] StaticArraysCore v1.4.4 [10745b16] Statistics v1.11.1 [82ae8749] StatsAPI v1.8.0 [2913bbd2] StatsBase v0.34.10 [4c63d2b9] StatsFuns v1.5.2 [7792a7ef] StrideArraysCore v0.5.8 [892a3eda] StringManipulation v0.4.4 [ec057cc2] StructUtils v2.7.1 [2efcf032] SymbolicIndexingInterface v0.3.46 [3783bdb8] TableTraits v1.0.1 [bd369af6] Tables v1.12.1 [f8b46487] TestItemRunner v1.1.5 [1c621080] TestItems v1.0.0 [8290d209] ThreadingUtilities v0.5.5 [a759f4b9] TimerOutputs v0.5.29 [6dad8b7f] TrajectoryIndexingUtils v0.1.0 [3bb67fe8] TranscodingStreams v0.11.3 [781d530d] TruncatedStacktraces v1.4.0 [ae81ac8f] ASL_jll v0.1.3+0 [6e34b625] Bzip2_jll v1.0.9+0 [e33a78d0] Hwloc_jll v2.13.0+1 [9cc047cb] Ipopt_jll v300.1400.1901+0 [94ce4f54] Libiconv_jll v1.18.0+0 [d00139f3] METIS_jll v5.1.3+0 [d7ed1dd3] MUMPS_seq_jll v500.800.200+0 [656ef2d0] OpenBLAS32_jll v0.3.30+0 [efe28fd5] OpenSpecFun_jll v0.5.6+0 [f50d1b31] Rmath_jll v0.5.1+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 [9fa8497b] Future v1.11.0 [b77e0a4c] InteractiveUtils v1.11.0 [ac6e5ff7] JuliaSyntaxHighlighting v1.13.0 [b27032c2] LibCURL v1.0.0 [76f85450] LibGit2 v1.11.0 [8f399da3] Libdl v1.11.0 [37e2e46d] LinearAlgebra v1.13.0 [56ddb016] Logging v1.11.0 [d6f4376e] Markdown v1.11.0 [a63ad114] Mmap v1.11.0 [ca575930] NetworkOptions v1.3.0 [44cfe95a] Pkg v1.14.0 [de0858da] Printf v1.11.0 [9abbd945] Profile v1.11.0 [3fa0cd96] REPL v1.11.0 [9a3f8284] Random v1.11.0 [ea8e919c] SHA v1.0.0 [9e88b42a] Serialization v1.11.0 [6462fe0b] Sockets v1.11.0 [2f01184e] SparseArrays v1.13.0 [f489334b] StyledStrings v1.13.0 [4607b0f0] SuiteSparse [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 v8.19.0+0 [e37daf67] LibGit2_jll v1.9.2+0 [29816b5a] LibSSH2_jll v1.11.3+1 [14a3606d] MozillaCACerts_jll v2026.3.19 [4536629a] OpenBLAS_jll v0.3.30+0 [05823500] OpenLibm_jll v0.8.7+0 [458c3c95] OpenSSL_jll v3.5.6+0 [efcefdf7] PCRE2_jll v10.47.0+0 [bea87d4a] SuiteSparse_jll v7.10.1+0 [83775a58] Zlib_jll v1.3.2+0 [3161d3a3] Zstd_jll v1.5.7+1 [8e850b90] libblastrampoline_jll v5.15.0+0 [8e850ede] nghttp2_jll v1.68.1+0 [3f19e933] p7zip_jll v17.8.0+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... [test_integrator] Starting... [test_integrator] constraint_dim=80, datavec_len=132, global_len=0 [test_integrator] Testing evaluate!... [test_integrator] Computing analytic Jacobian... [test_integrator] Computing finite diff Jacobian... [test_integrator] Testing Jacobian... [test_integrator] Computing analytic Hessian... [test_integrator] Computing finite diff Hessian... [test_integrator] Testing Hessian... [test_integrator] Done! [test_integrator] Starting... [test_integrator] constraint_dim=40, datavec_len=88, global_len=0 [test_integrator] Testing evaluate!... [test_integrator] Computing analytic Jacobian... [test_integrator] Computing finite diff Jacobian... [test_integrator] Testing Jacobian... [test_integrator] Computing analytic Hessian... [test_integrator] Computing finite diff Hessian... [test_integrator] Testing Hessian... [test_integrator] Done! [test_integrator] Starting... [test_integrator] constraint_dim=80, datavec_len=220, global_len=0 [test_integrator] Testing evaluate!... [test_integrator] Computing analytic Jacobian... [test_integrator] Computing finite diff Jacobian... [test_integrator] Testing Jacobian... [test_integrator] Computing analytic Hessian... [test_integrator] Computing finite diff Hessian... [test_integrator] Testing Hessian... [test_integrator] Done! [test_integrator] Starting... [test_integrator] constraint_dim=80, datavec_len=220, global_len=0 [test_integrator] Testing evaluate!... [test_integrator] Computing analytic Jacobian... [test_integrator] Computing finite diff Jacobian... [test_integrator] Testing Jacobian... [test_integrator] Computing analytic Hessian... [test_integrator] Computing finite diff Hessian... [test_integrator] Testing Hessian... [test_integrator] Done! [test_integrator] Starting... [test_integrator] constraint_dim=40, datavec_len=132, global_len=0 [test_integrator] Testing evaluate!... [test_integrator] Computing analytic Jacobian... [test_integrator] Computing finite diff Jacobian... [test_integrator] Testing Jacobian... [test_integrator] Computing analytic Hessian... [test_integrator] Computing finite diff Hessian... [test_integrator] Testing Hessian... [test_integrator] Done! [test_integrator] Starting... [test_integrator] constraint_dim=40, datavec_len=132, global_len=0 [test_integrator] Testing evaluate!... [test_integrator] Computing analytic Jacobian... [test_integrator] Computing finite diff Jacobian... [test_integrator] Testing Jacobian... [test_integrator] Computing analytic Hessian... [test_integrator] Computing finite diff Hessian... [test_integrator] Testing Hessian... [test_integrator] Done! ┌ Warning: `Base.getindex(VA::AbstractVectorOfArray{T, N, A}, I::Int) where {T, N, A <: Union{AbstractArray, AbstractVectorOfArray}}` is deprecated, use `VA.u[I]` instead. │ caller = getindex at ensemble_trajectory.jl:109 [inlined] └ @ Core ~/.julia/packages/PiccoloQuantumObjects/vwXsF/src/quantum_trajectories/ensemble_trajectory.jl:109 [test_integrator] Starting... [test_integrator] constraint_dim=40, datavec_len=132, global_len=0 [test_integrator] Testing evaluate!... [test_integrator] Computing analytic Jacobian... [test_integrator] Computing finite diff Jacobian... [test_integrator] Testing Jacobian... [test_integrator] Computing analytic Hessian... [test_integrator] Computing finite diff Hessian... [test_integrator] Testing Hessian... [test_integrator] Done! [test_integrator] Starting... [test_integrator] constraint_dim=40, datavec_len=132, global_len=0 [test_integrator] Testing evaluate!... [test_integrator] Computing analytic Jacobian... [test_integrator] Computing finite diff Jacobian... [test_integrator] Testing Jacobian... [test_integrator] Computing analytic Hessian... [test_integrator] Computing finite diff Hessian... [test_integrator] Testing Hessian... [test_integrator] Done! [test_integrator] Starting... [test_integrator] constraint_dim=80, datavec_len=132, global_len=0 [test_integrator] Testing evaluate!... [test_integrator] Computing analytic Jacobian... [test_integrator] Computing finite diff Jacobian... [test_integrator] Testing Jacobian... [test_integrator] Computing analytic Hessian... [test_integrator] Computing finite diff Hessian... [test_integrator] Testing Hessian... [test_integrator] Done! [test_integrator] Starting... [test_integrator] constraint_dim=40, datavec_len=77, global_len=0 [test_integrator] Testing evaluate!... [test_integrator] Computing analytic Jacobian... [test_integrator] Computing finite diff Jacobian... [test_integrator] Testing Jacobian... [test_integrator] Computing analytic Hessian... [test_integrator] Computing finite diff Hessian... [test_integrator] Testing Hessian... [test_integrator] Done! ┌ Warning: `Base.getindex(VA::AbstractVectorOfArray{T, N, A}, I::Int) where {T, N, A <: Union{AbstractArray, AbstractVectorOfArray}}` is deprecated, use `VA.u[I]` instead. │ caller = getindex at ensemble_trajectory.jl:109 [inlined] └ @ Core ~/.julia/packages/PiccoloQuantumObjects/vwXsF/src/quantum_trajectories/ensemble_trajectory.jl:109 [test_integrator] Starting... [test_integrator] constraint_dim=40, datavec_len=132, global_len=0 [test_integrator] Testing evaluate!... [test_integrator] Computing analytic Jacobian... [test_integrator] Computing finite diff Jacobian... [test_integrator] Testing Jacobian... [test_integrator] Computing analytic Hessian... [test_integrator] Computing finite diff Hessian... [test_integrator] Testing Hessian... [test_integrator] Done! [test_integrator] Starting... [test_integrator] constraint_dim=40, datavec_len=132, global_len=0 [test_integrator] Testing evaluate!... [test_integrator] Computing analytic Jacobian... [test_integrator] Computing finite diff Jacobian... [test_integrator] Testing Jacobian... [test_integrator] Computing analytic Hessian... [test_integrator] Computing finite diff Hessian... [test_integrator] Testing Hessian... [test_integrator] Done! [test_integrator] Starting... [test_integrator] constraint_dim=80, datavec_len=209, global_len=0 [test_integrator] Testing evaluate!... [test_integrator] Computing analytic Jacobian... [test_integrator] Computing finite diff Jacobian... [test_integrator] Testing Jacobian... [test_integrator] Computing analytic Hessian... [test_integrator] Computing finite diff Hessian... [test_integrator] Testing Hessian... [test_integrator] Done! [test_integrator] Starting... [test_integrator] constraint_dim=80, datavec_len=209, global_len=0 [test_integrator] Testing evaluate!... [test_integrator] Computing analytic Jacobian... [test_integrator] Computing finite diff Jacobian... [test_integrator] Testing Jacobian... [test_integrator] Computing analytic Hessian... [test_integrator] Computing finite diff Hessian... [test_integrator] Testing Hessian... [test_integrator] Done! constructing SmoothPulseProblem for UnitaryTrajectory... applying timesteps_all_equal constraint: Δt ****************************************************************************** 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 ****************************************************************************** constructing MinimumTimeProblem from QuantumControlProblem{PiccoloQuantumObjects.QuantumTrajectories.UnitaryTrajectory{PiccoloQuantumObjects.Pulses.ZeroOrderPulse{DataInterpolations.ConstantInterpolation{Matrix{Float64}, Vector{Float64}, Vector{Union{}}, Float64}}, SciMLBase.ODESolution{ComplexF64, 3, Vector{Matrix{ComplexF64}}, Nothing, Nothing, Vector{Float64}, Vector{Vector{Matrix{ComplexF64}}}, Nothing, SciMLBase.ODEProblem{Matrix{ComplexF64}, Tuple{Float64, Float64}, true, SciMLBase.NullParameters, SciMLBase.ODEFunction{true, SciMLBase.FullSpecialize, SciMLOperators.MatrixOperator{ComplexF64, Matrix{ComplexF64}, SciMLOperators.FilterKwargs{Nothing, Val{()}}, SciMLOperators.FilterKwargs{PiccoloQuantumObjects.Rollouts.var"#update!#_construct_operator##2"{PiccoloQuantumObjects.QuantumSystems.QuantumSystem{PiccoloQuantumObjects.QuantumSystems.var"#26#27"{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}, Vector{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}}, Int64}, PiccoloQuantumObjects.QuantumSystems.var"#28#29"{Vector{SparseArrays.SparseMatrixCSC{Float64, Int64}}, Int64, SparseArrays.SparseMatrixCSC{Float64, Int64}}, @NamedTuple{}}}, Val{()}}}, LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, PiccoloQuantumObjects.Rollouts.PiccoloRolloutSystem{Union{Int64, AbstractVector{Int64}, CartesianIndex, CartesianIndices}}, Nothing, Nothing}, Base.Pairs{Symbol, Vector{Float64}, Nothing, @NamedTuple{tstops::Vector{Float64}, saveat::Vector{Float64}}}, SciMLBase.StandardODEProblem}, OrdinaryDiffEqLinear.MagnusGL4, OrdinaryDiffEqCore.InterpolationData{SciMLBase.ODEFunction{true, SciMLBase.FullSpecialize, SciMLOperators.MatrixOperator{ComplexF64, Matrix{ComplexF64}, SciMLOperators.FilterKwargs{Nothing, Val{()}}, SciMLOperators.FilterKwargs{PiccoloQuantumObjects.Rollouts.var"#update!#_construct_operator##2"{PiccoloQuantumObjects.QuantumSystems.QuantumSystem{PiccoloQuantumObjects.QuantumSystems.var"#26#27"{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}, Vector{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}}, Int64}, PiccoloQuantumObjects.QuantumSystems.var"#28#29"{Vector{SparseArrays.SparseMatrixCSC{Float64, Int64}}, Int64, SparseArrays.SparseMatrixCSC{Float64, Int64}}, @NamedTuple{}}}, Val{()}}}, LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, PiccoloQuantumObjects.Rollouts.PiccoloRolloutSystem{Union{Int64, AbstractVector{Int64}, CartesianIndex, CartesianIndices}}, Nothing, Nothing}, Vector{Matrix{ComplexF64}}, Vector{Float64}, Vector{Vector{Matrix{ComplexF64}}}, Nothing, OrdinaryDiffEqLinear.MagnusGL4Cache{Matrix{ComplexF64}, Matrix{ComplexF64}, Matrix{ComplexF64}, Nothing}, Nothing}, SciMLBase.DEStats, Nothing, Nothing, Nothing, Nothing}, Matrix{ComplexF64}}}... final fidelity constraint: 0.95 minimum-time weight D: 100.0 constructing SmoothPulseProblem for KetTrajectory... applying timesteps_all_equal constraint: Δt constructing MinimumTimeProblem from QuantumControlProblem{PiccoloQuantumObjects.QuantumTrajectories.KetTrajectory{PiccoloQuantumObjects.Pulses.ZeroOrderPulse{DataInterpolations.ConstantInterpolation{Matrix{Float64}, Vector{Float64}, Vector{Union{}}, Float64}}, SciMLBase.ODESolution{ComplexF64, 2, Vector{Vector{ComplexF64}}, Nothing, Nothing, Vector{Float64}, Vector{Vector{Vector{ComplexF64}}}, Nothing, SciMLBase.ODEProblem{Vector{ComplexF64}, Tuple{Float64, Float64}, true, SciMLBase.NullParameters, SciMLBase.ODEFunction{true, SciMLBase.FullSpecialize, SciMLOperators.MatrixOperator{ComplexF64, Matrix{ComplexF64}, SciMLOperators.FilterKwargs{Nothing, Val{()}}, SciMLOperators.FilterKwargs{PiccoloQuantumObjects.Rollouts.var"#update!#_construct_operator##2"{PiccoloQuantumObjects.QuantumSystems.QuantumSystem{PiccoloQuantumObjects.QuantumSystems.var"#26#27"{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}, Vector{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}}, Int64}, PiccoloQuantumObjects.QuantumSystems.var"#28#29"{Vector{SparseArrays.SparseMatrixCSC{Float64, Int64}}, Int64, SparseArrays.SparseMatrixCSC{Float64, Int64}}, @NamedTuple{}}}, Val{()}}}, LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, PiccoloQuantumObjects.Rollouts.PiccoloRolloutSystem{Union{Int64, AbstractVector{Int64}, CartesianIndex, CartesianIndices}}, Nothing, Nothing}, Base.Pairs{Symbol, Vector{Float64}, Nothing, @NamedTuple{tstops::Vector{Float64}, saveat::Vector{Float64}}}, SciMLBase.StandardODEProblem}, OrdinaryDiffEqLinear.MagnusGL4, OrdinaryDiffEqCore.InterpolationData{SciMLBase.ODEFunction{true, SciMLBase.FullSpecialize, SciMLOperators.MatrixOperator{ComplexF64, Matrix{ComplexF64}, SciMLOperators.FilterKwargs{Nothing, Val{()}}, SciMLOperators.FilterKwargs{PiccoloQuantumObjects.Rollouts.var"#update!#_construct_operator##2"{PiccoloQuantumObjects.QuantumSystems.QuantumSystem{PiccoloQuantumObjects.QuantumSystems.var"#26#27"{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}, Vector{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}}, Int64}, PiccoloQuantumObjects.QuantumSystems.var"#28#29"{Vector{SparseArrays.SparseMatrixCSC{Float64, Int64}}, Int64, SparseArrays.SparseMatrixCSC{Float64, Int64}}, @NamedTuple{}}}, Val{()}}}, LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, PiccoloQuantumObjects.Rollouts.PiccoloRolloutSystem{Union{Int64, AbstractVector{Int64}, CartesianIndex, CartesianIndices}}, Nothing, Nothing}, Vector{Vector{ComplexF64}}, Vector{Float64}, Vector{Vector{Vector{ComplexF64}}}, Nothing, OrdinaryDiffEqLinear.MagnusGL4Cache{Vector{ComplexF64}, Vector{ComplexF64}, Matrix{ComplexF64}, Nothing}, Nothing}, SciMLBase.DEStats, Nothing, Nothing, Nothing, Nothing}}}... final fidelity constraint: 0.9 minimum-time weight D: 50.0 constructing SmoothPulseProblem for UnitaryTrajectory... applying timesteps_all_equal constraint: Δt constructing MinimumTimeProblem from QuantumControlProblem{PiccoloQuantumObjects.QuantumTrajectories.UnitaryTrajectory{PiccoloQuantumObjects.Pulses.ZeroOrderPulse{DataInterpolations.ConstantInterpolation{Matrix{Float64}, Vector{Float64}, Vector{Union{}}, Float64}}, SciMLBase.ODESolution{ComplexF64, 3, Vector{Matrix{ComplexF64}}, Nothing, Nothing, Vector{Float64}, Vector{Vector{Matrix{ComplexF64}}}, Nothing, SciMLBase.ODEProblem{Matrix{ComplexF64}, Tuple{Float64, Float64}, true, SciMLBase.NullParameters, SciMLBase.ODEFunction{true, SciMLBase.FullSpecialize, SciMLOperators.MatrixOperator{ComplexF64, Matrix{ComplexF64}, SciMLOperators.FilterKwargs{Nothing, Val{()}}, SciMLOperators.FilterKwargs{PiccoloQuantumObjects.Rollouts.var"#update!#_construct_operator##2"{PiccoloQuantumObjects.QuantumSystems.QuantumSystem{PiccoloQuantumObjects.QuantumSystems.var"#26#27"{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}, Vector{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}}, Int64}, PiccoloQuantumObjects.QuantumSystems.var"#28#29"{Vector{SparseArrays.SparseMatrixCSC{Float64, Int64}}, Int64, SparseArrays.SparseMatrixCSC{Float64, Int64}}, @NamedTuple{}}}, Val{()}}}, LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, PiccoloQuantumObjects.Rollouts.PiccoloRolloutSystem{Union{Int64, AbstractVector{Int64}, CartesianIndex, CartesianIndices}}, Nothing, Nothing}, Base.Pairs{Symbol, Vector{Float64}, Nothing, @NamedTuple{tstops::Vector{Float64}, saveat::Vector{Float64}}}, SciMLBase.StandardODEProblem}, OrdinaryDiffEqLinear.MagnusGL4, OrdinaryDiffEqCore.InterpolationData{SciMLBase.ODEFunction{true, SciMLBase.FullSpecialize, SciMLOperators.MatrixOperator{ComplexF64, Matrix{ComplexF64}, SciMLOperators.FilterKwargs{Nothing, Val{()}}, SciMLOperators.FilterKwargs{PiccoloQuantumObjects.Rollouts.var"#update!#_construct_operator##2"{PiccoloQuantumObjects.QuantumSystems.QuantumSystem{PiccoloQuantumObjects.QuantumSystems.var"#26#27"{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}, Vector{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}}, Int64}, PiccoloQuantumObjects.QuantumSystems.var"#28#29"{Vector{SparseArrays.SparseMatrixCSC{Float64, Int64}}, Int64, SparseArrays.SparseMatrixCSC{Float64, Int64}}, @NamedTuple{}}}, Val{()}}}, LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, PiccoloQuantumObjects.Rollouts.PiccoloRolloutSystem{Union{Int64, AbstractVector{Int64}, CartesianIndex, CartesianIndices}}, Nothing, Nothing}, Vector{Matrix{ComplexF64}}, Vector{Float64}, Vector{Vector{Matrix{ComplexF64}}}, Nothing, OrdinaryDiffEqLinear.MagnusGL4Cache{Matrix{ComplexF64}, Matrix{ComplexF64}, Matrix{ComplexF64}, Nothing}, Nothing}, SciMLBase.DEStats, Nothing, Nothing, Nothing, Nothing}, Matrix{ComplexF64}}}... final fidelity constraint: 0.95 minimum-time weight D: 100.0 constructing SmoothPulseProblem for UnitaryTrajectory... applying timesteps_all_equal constraint: Δt ┌ Warning: Trajectory has timestep variable :Δt but no bounds on it. │ Adding default lower bound of 0 to prevent negative timesteps. │ │ Recommended: Add explicit bounds when creating the trajectory: │ NamedTrajectory(...; Δt_bounds=(min, max)) │ Example: │ NamedTrajectory(qtraj, N; Δt_bounds=(1e-3, 0.5)) │ │ Or use timesteps_all_equal=true in problem options to fix timesteps. └ @ DirectTrajOpt.Problems ~/.julia/packages/DirectTrajOpt/rJgT4/src/problems.jl:66 constructing MinimumTimeProblem from QuantumControlProblem{PiccoloQuantumObjects.QuantumTrajectories.UnitaryTrajectory{PiccoloQuantumObjects.Pulses.ZeroOrderPulse{DataInterpolations.ConstantInterpolation{Matrix{Float64}, Vector{Float64}, Vector{Union{}}, Float64}}, SciMLBase.ODESolution{ComplexF64, 3, Vector{Matrix{ComplexF64}}, Nothing, Nothing, Vector{Float64}, Vector{Vector{Matrix{ComplexF64}}}, Nothing, SciMLBase.ODEProblem{Matrix{ComplexF64}, Tuple{Float64, Float64}, true, SciMLBase.NullParameters, SciMLBase.ODEFunction{true, SciMLBase.FullSpecialize, SciMLOperators.MatrixOperator{ComplexF64, Matrix{ComplexF64}, SciMLOperators.FilterKwargs{Nothing, Val{()}}, SciMLOperators.FilterKwargs{PiccoloQuantumObjects.Rollouts.var"#update!#_construct_operator##2"{PiccoloQuantumObjects.QuantumSystems.QuantumSystem{PiccoloQuantumObjects.QuantumSystems.var"#26#27"{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}, Vector{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}}, Int64}, PiccoloQuantumObjects.QuantumSystems.var"#28#29"{Vector{SparseArrays.SparseMatrixCSC{Float64, Int64}}, Int64, SparseArrays.SparseMatrixCSC{Float64, Int64}}, @NamedTuple{}}}, Val{()}}}, LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, PiccoloQuantumObjects.Rollouts.PiccoloRolloutSystem{Union{Int64, AbstractVector{Int64}, CartesianIndex, CartesianIndices}}, Nothing, Nothing}, Base.Pairs{Symbol, Vector{Float64}, Nothing, @NamedTuple{tstops::Vector{Float64}, saveat::Vector{Float64}}}, SciMLBase.StandardODEProblem}, OrdinaryDiffEqLinear.MagnusGL4, OrdinaryDiffEqCore.InterpolationData{SciMLBase.ODEFunction{true, SciMLBase.FullSpecialize, SciMLOperators.MatrixOperator{ComplexF64, Matrix{ComplexF64}, SciMLOperators.FilterKwargs{Nothing, Val{()}}, SciMLOperators.FilterKwargs{PiccoloQuantumObjects.Rollouts.var"#update!#_construct_operator##2"{PiccoloQuantumObjects.QuantumSystems.QuantumSystem{PiccoloQuantumObjects.QuantumSystems.var"#26#27"{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}, Vector{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}}, Int64}, PiccoloQuantumObjects.QuantumSystems.var"#28#29"{Vector{SparseArrays.SparseMatrixCSC{Float64, Int64}}, Int64, SparseArrays.SparseMatrixCSC{Float64, Int64}}, @NamedTuple{}}}, Val{()}}}, LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, PiccoloQuantumObjects.Rollouts.PiccoloRolloutSystem{Union{Int64, AbstractVector{Int64}, CartesianIndex, CartesianIndices}}, Nothing, Nothing}, Vector{Matrix{ComplexF64}}, Vector{Float64}, Vector{Vector{Matrix{ComplexF64}}}, Nothing, OrdinaryDiffEqLinear.MagnusGL4Cache{Matrix{ComplexF64}, Matrix{ComplexF64}, Matrix{ComplexF64}, Nothing}, Nothing}, SciMLBase.DEStats, Nothing, Nothing, Nothing, Nothing}, Matrix{ComplexF64}}}... final fidelity constraint: 0.99 minimum-time weight D: 100.0 constructing SmoothPulseProblem for KetTrajectory... applying timesteps_all_equal constraint: Δt constructing MinimumTimeProblem from QuantumControlProblem{PiccoloQuantumObjects.QuantumTrajectories.KetTrajectory{PiccoloQuantumObjects.Pulses.ZeroOrderPulse{DataInterpolations.ConstantInterpolation{Matrix{Float64}, Vector{Float64}, Vector{Union{}}, Float64}}, SciMLBase.ODESolution{ComplexF64, 2, Vector{Vector{ComplexF64}}, Nothing, Nothing, Vector{Float64}, Vector{Vector{Vector{ComplexF64}}}, Nothing, SciMLBase.ODEProblem{Vector{ComplexF64}, Tuple{Float64, Float64}, true, SciMLBase.NullParameters, SciMLBase.ODEFunction{true, SciMLBase.FullSpecialize, SciMLOperators.MatrixOperator{ComplexF64, Matrix{ComplexF64}, SciMLOperators.FilterKwargs{Nothing, Val{()}}, SciMLOperators.FilterKwargs{PiccoloQuantumObjects.Rollouts.var"#update!#_construct_operator##2"{PiccoloQuantumObjects.QuantumSystems.QuantumSystem{PiccoloQuantumObjects.QuantumSystems.var"#26#27"{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}, Vector{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}}, Int64}, PiccoloQuantumObjects.QuantumSystems.var"#28#29"{Vector{SparseArrays.SparseMatrixCSC{Float64, Int64}}, Int64, SparseArrays.SparseMatrixCSC{Float64, Int64}}, @NamedTuple{}}}, Val{()}}}, LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, PiccoloQuantumObjects.Rollouts.PiccoloRolloutSystem{Union{Int64, AbstractVector{Int64}, CartesianIndex, CartesianIndices}}, Nothing, Nothing}, Base.Pairs{Symbol, Vector{Float64}, Nothing, @NamedTuple{tstops::Vector{Float64}, saveat::Vector{Float64}}}, SciMLBase.StandardODEProblem}, OrdinaryDiffEqLinear.MagnusGL4, OrdinaryDiffEqCore.InterpolationData{SciMLBase.ODEFunction{true, SciMLBase.FullSpecialize, SciMLOperators.MatrixOperator{ComplexF64, Matrix{ComplexF64}, SciMLOperators.FilterKwargs{Nothing, Val{()}}, SciMLOperators.FilterKwargs{PiccoloQuantumObjects.Rollouts.var"#update!#_construct_operator##2"{PiccoloQuantumObjects.QuantumSystems.QuantumSystem{PiccoloQuantumObjects.QuantumSystems.var"#26#27"{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}, Vector{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}}, Int64}, PiccoloQuantumObjects.QuantumSystems.var"#28#29"{Vector{SparseArrays.SparseMatrixCSC{Float64, Int64}}, Int64, SparseArrays.SparseMatrixCSC{Float64, Int64}}, @NamedTuple{}}}, Val{()}}}, LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, PiccoloQuantumObjects.Rollouts.PiccoloRolloutSystem{Union{Int64, AbstractVector{Int64}, CartesianIndex, CartesianIndices}}, Nothing, Nothing}, Vector{Vector{ComplexF64}}, Vector{Float64}, Vector{Vector{Vector{ComplexF64}}}, Nothing, OrdinaryDiffEqLinear.MagnusGL4Cache{Vector{ComplexF64}, Vector{ComplexF64}, Matrix{ComplexF64}, Nothing}, Nothing}, SciMLBase.DEStats, Nothing, Nothing, Nothing, Nothing}}}... final fidelity constraint: 0.99 minimum-time weight D: 100.0 constructing SmoothPulseProblem for UnitaryTrajectory... applying timesteps_all_equal constraint: Δt constructing SamplingProblem... using 2 systems constructing MinimumTimeProblem from QuantumControlProblem{PiccoloQuantumObjects.QuantumTrajectories.SamplingTrajectory{PiccoloQuantumObjects.Pulses.ZeroOrderPulse{DataInterpolations.ConstantInterpolation{Matrix{Float64}, Vector{Float64}, Vector{Union{}}, Float64}}, PiccoloQuantumObjects.QuantumTrajectories.UnitaryTrajectory{PiccoloQuantumObjects.Pulses.ZeroOrderPulse{DataInterpolations.ConstantInterpolation{Matrix{Float64}, Vector{Float64}, Vector{Union{}}, Float64}}, SciMLBase.ODESolution{ComplexF64, 3, Vector{Matrix{ComplexF64}}, Nothing, Nothing, Vector{Float64}, Vector{Vector{Matrix{ComplexF64}}}, Nothing, SciMLBase.ODEProblem{Matrix{ComplexF64}, Tuple{Float64, Float64}, true, SciMLBase.NullParameters, SciMLBase.ODEFunction{true, SciMLBase.FullSpecialize, SciMLOperators.MatrixOperator{ComplexF64, Matrix{ComplexF64}, SciMLOperators.FilterKwargs{Nothing, Val{()}}, SciMLOperators.FilterKwargs{PiccoloQuantumObjects.Rollouts.var"#update!#_construct_operator##2"{PiccoloQuantumObjects.QuantumSystems.QuantumSystem{PiccoloQuantumObjects.QuantumSystems.var"#26#27"{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}, Vector{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}}, Int64}, PiccoloQuantumObjects.QuantumSystems.var"#28#29"{Vector{SparseArrays.SparseMatrixCSC{Float64, Int64}}, Int64, SparseArrays.SparseMatrixCSC{Float64, Int64}}, @NamedTuple{}}}, Val{()}}}, LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, PiccoloQuantumObjects.Rollouts.PiccoloRolloutSystem{Union{Int64, AbstractVector{Int64}, CartesianIndex, CartesianIndices}}, Nothing, Nothing}, Base.Pairs{Symbol, Vector{Float64}, Nothing, @NamedTuple{tstops::Vector{Float64}, saveat::Vector{Float64}}}, SciMLBase.StandardODEProblem}, OrdinaryDiffEqLinear.MagnusGL4, OrdinaryDiffEqCore.InterpolationData{SciMLBase.ODEFunction{true, SciMLBase.FullSpecialize, SciMLOperators.MatrixOperator{ComplexF64, Matrix{ComplexF64}, SciMLOperators.FilterKwargs{Nothing, Val{()}}, SciMLOperators.FilterKwargs{PiccoloQuantumObjects.Rollouts.var"#update!#_construct_operator##2"{PiccoloQuantumObjects.QuantumSystems.QuantumSystem{PiccoloQuantumObjects.QuantumSystems.var"#26#27"{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}, Vector{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}}, Int64}, PiccoloQuantumObjects.QuantumSystems.var"#28#29"{Vector{SparseArrays.SparseMatrixCSC{Float64, Int64}}, Int64, SparseArrays.SparseMatrixCSC{Float64, Int64}}, @NamedTuple{}}}, Val{()}}}, LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, PiccoloQuantumObjects.Rollouts.PiccoloRolloutSystem{Union{Int64, AbstractVector{Int64}, CartesianIndex, CartesianIndices}}, Nothing, Nothing}, Vector{Matrix{ComplexF64}}, Vector{Float64}, Vector{Vector{Matrix{ComplexF64}}}, Nothing, OrdinaryDiffEqLinear.MagnusGL4Cache{Matrix{ComplexF64}, Matrix{ComplexF64}, Matrix{ComplexF64}, Nothing}, Nothing}, SciMLBase.DEStats, Nothing, Nothing, Nothing, Nothing}, Matrix{ComplexF64}}}}... final fidelity constraint: 0.9 minimum-time weight D: 50.0 constructing SmoothPulseProblem for KetTrajectory... applying timesteps_all_equal constraint: Δt constructing SamplingProblem... using 2 systems constructing MinimumTimeProblem from QuantumControlProblem{PiccoloQuantumObjects.QuantumTrajectories.SamplingTrajectory{PiccoloQuantumObjects.Pulses.ZeroOrderPulse{DataInterpolations.ConstantInterpolation{Matrix{Float64}, Vector{Float64}, Vector{Union{}}, Float64}}, PiccoloQuantumObjects.QuantumTrajectories.KetTrajectory{PiccoloQuantumObjects.Pulses.ZeroOrderPulse{DataInterpolations.ConstantInterpolation{Matrix{Float64}, Vector{Float64}, Vector{Union{}}, Float64}}, SciMLBase.ODESolution{ComplexF64, 2, Vector{Vector{ComplexF64}}, Nothing, Nothing, Vector{Float64}, Vector{Vector{Vector{ComplexF64}}}, Nothing, SciMLBase.ODEProblem{Vector{ComplexF64}, Tuple{Float64, Float64}, true, SciMLBase.NullParameters, SciMLBase.ODEFunction{true, SciMLBase.FullSpecialize, SciMLOperators.MatrixOperator{ComplexF64, Matrix{ComplexF64}, SciMLOperators.FilterKwargs{Nothing, Val{()}}, SciMLOperators.FilterKwargs{PiccoloQuantumObjects.Rollouts.var"#update!#_construct_operator##2"{PiccoloQuantumObjects.QuantumSystems.QuantumSystem{PiccoloQuantumObjects.QuantumSystems.var"#26#27"{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}, Vector{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}}, Int64}, PiccoloQuantumObjects.QuantumSystems.var"#28#29"{Vector{SparseArrays.SparseMatrixCSC{Float64, Int64}}, Int64, SparseArrays.SparseMatrixCSC{Float64, Int64}}, @NamedTuple{}}}, Val{()}}}, LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, PiccoloQuantumObjects.Rollouts.PiccoloRolloutSystem{Union{Int64, AbstractVector{Int64}, CartesianIndex, CartesianIndices}}, Nothing, Nothing}, Base.Pairs{Symbol, Vector{Float64}, Nothing, @NamedTuple{tstops::Vector{Float64}, saveat::Vector{Float64}}}, SciMLBase.StandardODEProblem}, OrdinaryDiffEqLinear.MagnusGL4, OrdinaryDiffEqCore.InterpolationData{SciMLBase.ODEFunction{true, SciMLBase.FullSpecialize, SciMLOperators.MatrixOperator{ComplexF64, Matrix{ComplexF64}, SciMLOperators.FilterKwargs{Nothing, Val{()}}, SciMLOperators.FilterKwargs{PiccoloQuantumObjects.Rollouts.var"#update!#_construct_operator##2"{PiccoloQuantumObjects.QuantumSystems.QuantumSystem{PiccoloQuantumObjects.QuantumSystems.var"#26#27"{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}, Vector{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}}, Int64}, PiccoloQuantumObjects.QuantumSystems.var"#28#29"{Vector{SparseArrays.SparseMatrixCSC{Float64, Int64}}, Int64, SparseArrays.SparseMatrixCSC{Float64, Int64}}, @NamedTuple{}}}, Val{()}}}, LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, PiccoloQuantumObjects.Rollouts.PiccoloRolloutSystem{Union{Int64, AbstractVector{Int64}, CartesianIndex, CartesianIndices}}, Nothing, Nothing}, Vector{Vector{ComplexF64}}, Vector{Float64}, Vector{Vector{Vector{ComplexF64}}}, Nothing, OrdinaryDiffEqLinear.MagnusGL4Cache{Vector{ComplexF64}, Vector{ComplexF64}, Matrix{ComplexF64}, Nothing}, Nothing}, SciMLBase.DEStats, Nothing, Nothing, Nothing, Nothing}}}}... final fidelity constraint: 0.85 minimum-time weight D: 30.0 constructing SmoothPulseProblem for MultiKetTrajectory (2 states)... ┌ Warning: `Base.getindex(VA::AbstractVectorOfArray{T, N, A}, I::Int) where {T, N, A <: Union{AbstractArray, AbstractVectorOfArray}}` is deprecated, use `VA.u[I]` instead. │ caller = getindex at ensemble_trajectory.jl:109 [inlined] └ @ Core ~/.julia/packages/PiccoloQuantumObjects/vwXsF/src/quantum_trajectories/ensemble_trajectory.jl:109 applying timesteps_all_equal constraint: Δt ┌ Warning: `Base.getindex(VA::AbstractVectorOfArray{T, N, A}, I::Int) where {T, N, A <: Union{AbstractArray, AbstractVectorOfArray}}` is deprecated, use `VA.u[I]` instead. │ caller = getindex at ensemble_trajectory.jl:109 [inlined] └ @ Core ~/.julia/packages/PiccoloQuantumObjects/vwXsF/src/quantum_trajectories/ensemble_trajectory.jl:109 constructing MinimumTimeProblem from QuantumControlProblem{PiccoloQuantumObjects.QuantumTrajectories.MultiKetTrajectory{PiccoloQuantumObjects.Pulses.ZeroOrderPulse{DataInterpolations.ConstantInterpolation{Matrix{Float64}, Vector{Float64}, Vector{Union{}}, Float64}}, SciMLBase.EnsembleSolution{ComplexF64, 3, Vector{SciMLBase.ODESolution{ComplexF64, 2, Vector{Vector{ComplexF64}}, Nothing, Nothing, Vector{Float64}, Vector{Vector{Vector{ComplexF64}}}, Nothing, SciMLBase.ODEProblem{Vector{ComplexF64}, Tuple{Float64, Float64}, true, SciMLBase.NullParameters, SciMLBase.ODEFunction{true, SciMLBase.FullSpecialize, SciMLOperators.MatrixOperator{ComplexF64, Matrix{ComplexF64}, SciMLOperators.FilterKwargs{Nothing, Val{()}}, SciMLOperators.FilterKwargs{PiccoloQuantumObjects.Rollouts.var"#update!#_construct_operator##2"{PiccoloQuantumObjects.QuantumSystems.QuantumSystem{PiccoloQuantumObjects.QuantumSystems.var"#26#27"{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}, Vector{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}}, Int64}, PiccoloQuantumObjects.QuantumSystems.var"#28#29"{Vector{SparseArrays.SparseMatrixCSC{Float64, Int64}}, Int64, SparseArrays.SparseMatrixCSC{Float64, Int64}}, @NamedTuple{}}}, Val{()}}}, LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, PiccoloQuantumObjects.Rollouts.PiccoloRolloutSystem{Union{Int64, AbstractVector{Int64}, CartesianIndex, CartesianIndices}}, Nothing, Nothing}, Base.Pairs{Symbol, Vector{Float64}, Nothing, @NamedTuple{tstops::Vector{Float64}, saveat::Vector{Float64}}}, SciMLBase.StandardODEProblem}, OrdinaryDiffEqLinear.MagnusGL4, OrdinaryDiffEqCore.InterpolationData{SciMLBase.ODEFunction{true, SciMLBase.FullSpecialize, SciMLOperators.MatrixOperator{ComplexF64, Matrix{ComplexF64}, SciMLOperators.FilterKwargs{Nothing, Val{()}}, SciMLOperators.FilterKwargs{PiccoloQuantumObjects.Rollouts.var"#update!#_construct_operator##2"{PiccoloQuantumObjects.QuantumSystems.QuantumSystem{PiccoloQuantumObjects.QuantumSystems.var"#26#27"{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}, Vector{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}}, Int64}, PiccoloQuantumObjects.QuantumSystems.var"#28#29"{Vector{SparseArrays.SparseMatrixCSC{Float64, Int64}}, Int64, SparseArrays.SparseMatrixCSC{Float64, Int64}}, @NamedTuple{}}}, Val{()}}}, LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, PiccoloQuantumObjects.Rollouts.PiccoloRolloutSystem{Union{Int64, AbstractVector{Int64}, CartesianIndex, CartesianIndices}}, Nothing, Nothing}, Vector{Vector{ComplexF64}}, Vector{Float64}, Vector{Vector{Vector{ComplexF64}}}, Nothing, OrdinaryDiffEqLinear.MagnusGL4Cache{Vector{ComplexF64}, Vector{ComplexF64}, Matrix{ComplexF64}, Nothing}, Nothing}, SciMLBase.DEStats, Nothing, Nothing, Nothing, Nothing}}}}}... final fidelity constraint: 0.9 minimum-time weight D: 50.0 constructing SmoothPulseProblem for UnitaryTrajectory... applying timesteps_all_equal constraint: Δt constructing MinimumTimeProblem from QuantumControlProblem{PiccoloQuantumObjects.QuantumTrajectories.UnitaryTrajectory{PiccoloQuantumObjects.Pulses.ZeroOrderPulse{DataInterpolations.ConstantInterpolation{Matrix{Float64}, Vector{Float64}, Vector{Union{}}, Float64}}, SciMLBase.ODESolution{ComplexF64, 3, Vector{Matrix{ComplexF64}}, Nothing, Nothing, Vector{Float64}, Vector{Vector{Matrix{ComplexF64}}}, Nothing, SciMLBase.ODEProblem{Matrix{ComplexF64}, Tuple{Float64, Float64}, true, SciMLBase.NullParameters, SciMLBase.ODEFunction{true, SciMLBase.FullSpecialize, SciMLOperators.MatrixOperator{ComplexF64, Matrix{ComplexF64}, SciMLOperators.FilterKwargs{Nothing, Val{()}}, SciMLOperators.FilterKwargs{PiccoloQuantumObjects.Rollouts.var"#update!#_construct_operator##2"{PiccoloQuantumObjects.QuantumSystems.QuantumSystem{PiccoloQuantumObjects.QuantumSystems.var"#10#11"{typeof(Main.var"##166".H)}, PiccoloQuantumObjects.QuantumSystems.var"#12#13"{typeof(Main.var"##166".H)}, @NamedTuple{}}}, Val{()}}}, LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, PiccoloQuantumObjects.Rollouts.PiccoloRolloutSystem{Union{Int64, AbstractVector{Int64}, CartesianIndex, CartesianIndices}}, Nothing, Nothing}, Base.Pairs{Symbol, Vector{Float64}, Nothing, @NamedTuple{tstops::Vector{Float64}, saveat::Vector{Float64}}}, SciMLBase.StandardODEProblem}, OrdinaryDiffEqLinear.MagnusGL4, OrdinaryDiffEqCore.InterpolationData{SciMLBase.ODEFunction{true, SciMLBase.FullSpecialize, SciMLOperators.MatrixOperator{ComplexF64, Matrix{ComplexF64}, SciMLOperators.FilterKwargs{Nothing, Val{()}}, SciMLOperators.FilterKwargs{PiccoloQuantumObjects.Rollouts.var"#update!#_construct_operator##2"{PiccoloQuantumObjects.QuantumSystems.QuantumSystem{PiccoloQuantumObjects.QuantumSystems.var"#10#11"{typeof(Main.var"##166".H)}, PiccoloQuantumObjects.QuantumSystems.var"#12#13"{typeof(Main.var"##166".H)}, @NamedTuple{}}}, Val{()}}}, LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, PiccoloQuantumObjects.Rollouts.PiccoloRolloutSystem{Union{Int64, AbstractVector{Int64}, CartesianIndex, CartesianIndices}}, Nothing, Nothing}, Vector{Matrix{ComplexF64}}, Vector{Float64}, Vector{Vector{Matrix{ComplexF64}}}, Nothing, OrdinaryDiffEqLinear.MagnusGL4Cache{Matrix{ComplexF64}, Matrix{ComplexF64}, Matrix{ComplexF64}, Nothing}, Nothing}, SciMLBase.DEStats, Nothing, Nothing, Nothing, Nothing}, Matrix{ComplexF64}}}... final fidelity constraint: 0.85 minimum-time weight D: 50.0 constructing SmoothPulseProblem for KetTrajectory... applying timesteps_all_equal constraint: Δt constructing MinimumTimeProblem from QuantumControlProblem{PiccoloQuantumObjects.QuantumTrajectories.KetTrajectory{PiccoloQuantumObjects.Pulses.ZeroOrderPulse{DataInterpolations.ConstantInterpolation{Matrix{Float64}, Vector{Float64}, Vector{Union{}}, Float64}}, SciMLBase.ODESolution{ComplexF64, 2, Vector{Vector{ComplexF64}}, Nothing, Nothing, Vector{Float64}, Vector{Vector{Vector{ComplexF64}}}, Nothing, SciMLBase.ODEProblem{Vector{ComplexF64}, Tuple{Float64, Float64}, true, SciMLBase.NullParameters, SciMLBase.ODEFunction{true, SciMLBase.FullSpecialize, SciMLOperators.MatrixOperator{ComplexF64, Matrix{ComplexF64}, SciMLOperators.FilterKwargs{Nothing, Val{()}}, SciMLOperators.FilterKwargs{PiccoloQuantumObjects.Rollouts.var"#update!#_construct_operator##2"{PiccoloQuantumObjects.QuantumSystems.QuantumSystem{PiccoloQuantumObjects.QuantumSystems.var"#10#11"{typeof(Main.var"##167".H)}, PiccoloQuantumObjects.QuantumSystems.var"#12#13"{typeof(Main.var"##167".H)}, @NamedTuple{}}}, Val{()}}}, LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, PiccoloQuantumObjects.Rollouts.PiccoloRolloutSystem{Union{Int64, AbstractVector{Int64}, CartesianIndex, CartesianIndices}}, Nothing, Nothing}, Base.Pairs{Symbol, Vector{Float64}, Nothing, @NamedTuple{tstops::Vector{Float64}, saveat::Vector{Float64}}}, SciMLBase.StandardODEProblem}, OrdinaryDiffEqLinear.MagnusGL4, OrdinaryDiffEqCore.InterpolationData{SciMLBase.ODEFunction{true, SciMLBase.FullSpecialize, SciMLOperators.MatrixOperator{ComplexF64, Matrix{ComplexF64}, SciMLOperators.FilterKwargs{Nothing, Val{()}}, SciMLOperators.FilterKwargs{PiccoloQuantumObjects.Rollouts.var"#update!#_construct_operator##2"{PiccoloQuantumObjects.QuantumSystems.QuantumSystem{PiccoloQuantumObjects.QuantumSystems.var"#10#11"{typeof(Main.var"##167".H)}, PiccoloQuantumObjects.QuantumSystems.var"#12#13"{typeof(Main.var"##167".H)}, @NamedTuple{}}}, Val{()}}}, LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, PiccoloQuantumObjects.Rollouts.PiccoloRolloutSystem{Union{Int64, AbstractVector{Int64}, CartesianIndex, CartesianIndices}}, Nothing, Nothing}, Vector{Vector{ComplexF64}}, Vector{Float64}, Vector{Vector{Vector{ComplexF64}}}, Nothing, OrdinaryDiffEqLinear.MagnusGL4Cache{Vector{ComplexF64}, Vector{ComplexF64}, Matrix{ComplexF64}, Nothing}, Nothing}, SciMLBase.DEStats, Nothing, Nothing, Nothing, Nothing}}}... final fidelity constraint: 0.85 minimum-time weight D: 50.0 constructing SmoothPulseProblem for MultiKetTrajectory (2 states)... ┌ Warning: `Base.getindex(VA::AbstractVectorOfArray{T, N, A}, I::Int) where {T, N, A <: Union{AbstractArray, AbstractVectorOfArray}}` is deprecated, use `VA.u[I]` instead. │ caller = getindex at ensemble_trajectory.jl:109 [inlined] └ @ Core ~/.julia/packages/PiccoloQuantumObjects/vwXsF/src/quantum_trajectories/ensemble_trajectory.jl:109 applying timesteps_all_equal constraint: Δt ┌ Warning: `Base.getindex(VA::AbstractVectorOfArray{T, N, A}, I::Int) where {T, N, A <: Union{AbstractArray, AbstractVectorOfArray}}` is deprecated, use `VA.u[I]` instead. │ caller = getindex at ensemble_trajectory.jl:109 [inlined] └ @ Core ~/.julia/packages/PiccoloQuantumObjects/vwXsF/src/quantum_trajectories/ensemble_trajectory.jl:109 constructing MinimumTimeProblem from QuantumControlProblem{PiccoloQuantumObjects.QuantumTrajectories.MultiKetTrajectory{PiccoloQuantumObjects.Pulses.ZeroOrderPulse{DataInterpolations.ConstantInterpolation{Matrix{Float64}, Vector{Float64}, Vector{Union{}}, Float64}}, SciMLBase.EnsembleSolution{ComplexF64, 3, Vector{SciMLBase.ODESolution{ComplexF64, 2, Vector{Vector{ComplexF64}}, Nothing, Nothing, Vector{Float64}, Vector{Vector{Vector{ComplexF64}}}, Nothing, SciMLBase.ODEProblem{Vector{ComplexF64}, Tuple{Float64, Float64}, true, SciMLBase.NullParameters, SciMLBase.ODEFunction{true, SciMLBase.FullSpecialize, SciMLOperators.MatrixOperator{ComplexF64, Matrix{ComplexF64}, SciMLOperators.FilterKwargs{Nothing, Val{()}}, SciMLOperators.FilterKwargs{PiccoloQuantumObjects.Rollouts.var"#update!#_construct_operator##2"{PiccoloQuantumObjects.QuantumSystems.QuantumSystem{PiccoloQuantumObjects.QuantumSystems.var"#10#11"{typeof(Main.var"##168".H)}, PiccoloQuantumObjects.QuantumSystems.var"#12#13"{typeof(Main.var"##168".H)}, @NamedTuple{}}}, Val{()}}}, LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, PiccoloQuantumObjects.Rollouts.PiccoloRolloutSystem{Union{Int64, AbstractVector{Int64}, CartesianIndex, CartesianIndices}}, Nothing, Nothing}, Base.Pairs{Symbol, Vector{Float64}, Nothing, @NamedTuple{tstops::Vector{Float64}, saveat::Vector{Float64}}}, SciMLBase.StandardODEProblem}, OrdinaryDiffEqLinear.MagnusGL4, OrdinaryDiffEqCore.InterpolationData{SciMLBase.ODEFunction{true, SciMLBase.FullSpecialize, SciMLOperators.MatrixOperator{ComplexF64, Matrix{ComplexF64}, SciMLOperators.FilterKwargs{Nothing, Val{()}}, SciMLOperators.FilterKwargs{PiccoloQuantumObjects.Rollouts.var"#update!#_construct_operator##2"{PiccoloQuantumObjects.QuantumSystems.QuantumSystem{PiccoloQuantumObjects.QuantumSystems.var"#10#11"{typeof(Main.var"##168".H)}, PiccoloQuantumObjects.QuantumSystems.var"#12#13"{typeof(Main.var"##168".H)}, @NamedTuple{}}}, Val{()}}}, LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, PiccoloQuantumObjects.Rollouts.PiccoloRolloutSystem{Union{Int64, AbstractVector{Int64}, CartesianIndex, CartesianIndices}}, Nothing, Nothing}, Vector{Vector{ComplexF64}}, Vector{Float64}, Vector{Vector{Vector{ComplexF64}}}, Nothing, OrdinaryDiffEqLinear.MagnusGL4Cache{Vector{ComplexF64}, Vector{ComplexF64}, Matrix{ComplexF64}, Nothing}, Nothing}, SciMLBase.DEStats, Nothing, Nothing, Nothing, Nothing}}}}}... final fidelity constraint: 0.8 minimum-time weight D: 50.0 constructing SmoothPulseProblem for KetTrajectory... applying timesteps_all_equal constraint: Δt constructing SamplingProblem... using 2 systems constructing MinimumTimeProblem from QuantumControlProblem{PiccoloQuantumObjects.QuantumTrajectories.SamplingTrajectory{PiccoloQuantumObjects.Pulses.ZeroOrderPulse{DataInterpolations.ConstantInterpolation{Matrix{Float64}, Vector{Float64}, Vector{Union{}}, Float64}}, PiccoloQuantumObjects.QuantumTrajectories.KetTrajectory{PiccoloQuantumObjects.Pulses.ZeroOrderPulse{DataInterpolations.ConstantInterpolation{Matrix{Float64}, Vector{Float64}, Vector{Union{}}, Float64}}, SciMLBase.ODESolution{ComplexF64, 2, Vector{Vector{ComplexF64}}, Nothing, Nothing, Vector{Float64}, Vector{Vector{Vector{ComplexF64}}}, Nothing, SciMLBase.ODEProblem{Vector{ComplexF64}, Tuple{Float64, Float64}, true, SciMLBase.NullParameters, SciMLBase.ODEFunction{true, SciMLBase.FullSpecialize, SciMLOperators.MatrixOperator{ComplexF64, Matrix{ComplexF64}, SciMLOperators.FilterKwargs{Nothing, Val{()}}, SciMLOperators.FilterKwargs{PiccoloQuantumObjects.Rollouts.var"#update!#_construct_operator##2"{PiccoloQuantumObjects.QuantumSystems.QuantumSystem{PiccoloQuantumObjects.QuantumSystems.var"#10#11"{typeof(Main.var"##169".H1)}, PiccoloQuantumObjects.QuantumSystems.var"#12#13"{typeof(Main.var"##169".H1)}, @NamedTuple{}}}, Val{()}}}, LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, PiccoloQuantumObjects.Rollouts.PiccoloRolloutSystem{Union{Int64, AbstractVector{Int64}, CartesianIndex, CartesianIndices}}, Nothing, Nothing}, Base.Pairs{Symbol, Vector{Float64}, Nothing, @NamedTuple{tstops::Vector{Float64}, saveat::Vector{Float64}}}, SciMLBase.StandardODEProblem}, OrdinaryDiffEqLinear.MagnusGL4, OrdinaryDiffEqCore.InterpolationData{SciMLBase.ODEFunction{true, SciMLBase.FullSpecialize, SciMLOperators.MatrixOperator{ComplexF64, Matrix{ComplexF64}, SciMLOperators.FilterKwargs{Nothing, Val{()}}, SciMLOperators.FilterKwargs{PiccoloQuantumObjects.Rollouts.var"#update!#_construct_operator##2"{PiccoloQuantumObjects.QuantumSystems.QuantumSystem{PiccoloQuantumObjects.QuantumSystems.var"#10#11"{typeof(Main.var"##169".H1)}, PiccoloQuantumObjects.QuantumSystems.var"#12#13"{typeof(Main.var"##169".H1)}, @NamedTuple{}}}, Val{()}}}, LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, PiccoloQuantumObjects.Rollouts.PiccoloRolloutSystem{Union{Int64, AbstractVector{Int64}, CartesianIndex, CartesianIndices}}, Nothing, Nothing}, Vector{Vector{ComplexF64}}, Vector{Float64}, Vector{Vector{Vector{ComplexF64}}}, Nothing, OrdinaryDiffEqLinear.MagnusGL4Cache{Vector{ComplexF64}, Vector{ComplexF64}, Matrix{ComplexF64}, Nothing}, Nothing}, SciMLBase.DEStats, Nothing, Nothing, Nothing, Nothing}}}}... final fidelity constraint: 0.6 minimum-time weight D: 50.0 constructing SmoothPulseProblem for UnitaryTrajectory... applying timesteps_all_equal constraint: Δt constructing SamplingProblem... using 2 systems constructing SmoothPulseProblem for UnitaryTrajectory... applying timesteps_all_equal constraint: Δt constructing SamplingProblem... using 2 systems This is Ipopt version 3.14.19, running with linear solver MUMPS 5.8.2. Number of nonzeros in equality constraint Jacobian...: 29666 Number of nonzeros in inequality constraint Jacobian.: 0 Number of nonzeros in Lagrangian Hessian.............: 26679 Total number of variables............................: 933 variables with only lower bounds: 50 variables with lower and upper bounds: 834 variables with only upper bounds: 0 Total number of equality constraints.................: 833 Total number of inequality constraints...............: 0 inequality constraints with only lower bounds: 0 inequality constraints with lower and upper bounds: 0 inequality constraints with only upper bounds: 0 iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls 0 1.9864381e+02 2.07e-02 4.30e+00 0.0 0.00e+00 - 0.00e+00 0.00e+00 0 1 1.9827085e+02 1.40e-02 3.89e+01 -0.3 5.00e-01 2.0 1.00e+00 3.27e-01f 1 2 9.0223025e+01 1.91e-01 7.44e+02 0.7 3.04e+00 1.5 4.41e-01 3.10e-01f 1 3 1.3678568e+02 5.36e-02 5.55e+02 0.7 5.02e-01 2.9 9.03e-01 1.00e+00h 1 4 1.1908281e+02 1.06e-01 1.84e+03 1.1 5.09e-01 2.4 1.00e+00 1.00e+00f 1 5 1.1529749e+02 7.31e-03 1.04e+03 0.9 1.98e-01 3.7 9.96e-01 1.00e+00f 1 6 1.1577934e+02 2.63e-04 1.42e+02 0.5 2.01e-02 3.2 1.00e+00 1.00e+00f 1 7 1.1163985e+02 2.69e-04 2.34e+01 -0.7 4.11e-02 2.7 1.00e+00 1.00e+00f 1 8 9.8279110e+01 3.43e-03 2.38e+01 -1.9 1.31e-01 2.3 1.00e+00 1.00e+00f 1 9 6.9243385e+01 2.87e-02 2.00e+01 -2.4 4.44e-01 1.8 1.00e+00 7.00e-01f 1 iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls 10 6.8848764e+01 2.74e-02 1.30e+01 -3.2 7.13e-02 2.2 1.00e+00 4.71e-02f 1 Number of Iterations....: 10 (scaled) (unscaled) Objective...............: 6.8848764493367497e+01 6.8848764493367497e+01 Dual infeasibility......: 1.3042213981375868e+01 1.3042213981375868e+01 Constraint violation....: 2.7393778626196241e-02 2.7393778626196241e-02 Variable bound violation: 0.0000000000000000e+00 0.0000000000000000e+00 Complementarity.........: 1.5050960178130445e-02 1.5050960178130445e-02 Overall NLP error.......: 1.3042213981375868e+01 1.3042213981375868e+01 Number of objective function evaluations = 11 Number of objective gradient evaluations = 11 Number of equality constraint evaluations = 11 Number of inequality constraint evaluations = 0 Number of equality constraint Jacobian evaluations = 11 Number of inequality constraint Jacobian evaluations = 0 Number of Lagrangian Hessian evaluations = 10 Total seconds in IPOPT = 5.553 EXIT: Maximum Number of Iterations Exceeded. constructing SmoothPulseProblem for KetTrajectory... applying timesteps_all_equal constraint: Δt constructing SamplingProblem... using 2 systems constructing SmoothPulseProblem for UnitaryTrajectory... applying timesteps_all_equal constraint: Δt constructing SamplingProblem... using 3 systems constructing SmoothPulseProblem for UnitaryTrajectory... applying timesteps_all_equal constraint: Δt constructing SamplingProblem... using 2 systems constructing MinimumTimeProblem from QuantumControlProblem{PiccoloQuantumObjects.QuantumTrajectories.SamplingTrajectory{PiccoloQuantumObjects.Pulses.ZeroOrderPulse{DataInterpolations.ConstantInterpolation{Matrix{Float64}, Vector{Float64}, Vector{Union{}}, Float64}}, PiccoloQuantumObjects.QuantumTrajectories.UnitaryTrajectory{PiccoloQuantumObjects.Pulses.ZeroOrderPulse{DataInterpolations.ConstantInterpolation{Matrix{Float64}, Vector{Float64}, Vector{Union{}}, Float64}}, SciMLBase.ODESolution{ComplexF64, 3, Vector{Matrix{ComplexF64}}, Nothing, Nothing, Vector{Float64}, Vector{Vector{Matrix{ComplexF64}}}, Nothing, SciMLBase.ODEProblem{Matrix{ComplexF64}, Tuple{Float64, Float64}, true, SciMLBase.NullParameters, SciMLBase.ODEFunction{true, SciMLBase.FullSpecialize, SciMLOperators.MatrixOperator{ComplexF64, Matrix{ComplexF64}, SciMLOperators.FilterKwargs{Nothing, Val{()}}, SciMLOperators.FilterKwargs{PiccoloQuantumObjects.Rollouts.var"#update!#_construct_operator##2"{PiccoloQuantumObjects.QuantumSystems.QuantumSystem{PiccoloQuantumObjects.QuantumSystems.var"#26#27"{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}, Vector{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}}, Int64}, PiccoloQuantumObjects.QuantumSystems.var"#28#29"{Vector{SparseArrays.SparseMatrixCSC{Float64, Int64}}, Int64, SparseArrays.SparseMatrixCSC{Float64, Int64}}, @NamedTuple{}}}, Val{()}}}, LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, PiccoloQuantumObjects.Rollouts.PiccoloRolloutSystem{Union{Int64, AbstractVector{Int64}, CartesianIndex, CartesianIndices}}, Nothing, Nothing}, Base.Pairs{Symbol, Vector{Float64}, Nothing, @NamedTuple{tstops::Vector{Float64}, saveat::Vector{Float64}}}, SciMLBase.StandardODEProblem}, OrdinaryDiffEqLinear.MagnusGL4, OrdinaryDiffEqCore.InterpolationData{SciMLBase.ODEFunction{true, SciMLBase.FullSpecialize, SciMLOperators.MatrixOperator{ComplexF64, Matrix{ComplexF64}, SciMLOperators.FilterKwargs{Nothing, Val{()}}, SciMLOperators.FilterKwargs{PiccoloQuantumObjects.Rollouts.var"#update!#_construct_operator##2"{PiccoloQuantumObjects.QuantumSystems.QuantumSystem{PiccoloQuantumObjects.QuantumSystems.var"#26#27"{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}, Vector{SparseArrays.SparseMatrixCSC{ComplexF64, Int64}}, Int64}, PiccoloQuantumObjects.QuantumSystems.var"#28#29"{Vector{SparseArrays.SparseMatrixCSC{Float64, Int64}}, Int64, SparseArrays.SparseMatrixCSC{Float64, Int64}}, @NamedTuple{}}}, Val{()}}}, LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, PiccoloQuantumObjects.Rollouts.PiccoloRolloutSystem{Union{Int64, AbstractVector{Int64}, CartesianIndex, CartesianIndices}}, Nothing, Nothing}, Vector{Matrix{ComplexF64}}, Vector{Float64}, Vector{Vector{Matrix{ComplexF64}}}, Nothing, OrdinaryDiffEqLinear.MagnusGL4Cache{Matrix{ComplexF64}, Matrix{ComplexF64}, Matrix{ComplexF64}, Nothing}, Nothing}, SciMLBase.DEStats, Nothing, Nothing, Nothing, Nothing}, Matrix{ComplexF64}}}}... final fidelity constraint: 0.9 minimum-time weight D: 50.0 added GlobalBoundsConstraint for :δ with bounds 0.5 constructing SplinePulseProblem with PiccoloQuantumObjects.Pulses.LinearSplinePulse{DataInterpolations.LinearInterpolation{Matrix{Float64}, Vector{Float64}, Vector{Union{}}, Vector{Vector{Float64}}, Float64}}... applying timesteps_all_equal constraint: Δt added DerivativeIntegrator for LinearSplinePulse constructing SplinePulseProblem with PiccoloQuantumObjects.Pulses.CubicSplinePulse{DataInterpolations.CubicHermiteSpline{Matrix{Float64}, Vector{Float64}, Vector{Union{}}, Matrix{Float64}, Vector{Vector{Float64}}, Float64}}... applying timesteps_all_equal constraint: Δt constructing SplinePulseProblem with PiccoloQuantumObjects.Pulses.CubicSplinePulse{DataInterpolations.CubicHermiteSpline{Matrix{Float64}, Vector{Float64}, Vector{Union{}}, Matrix{Float64}, Vector{Vector{Float64}}, Float64}}... set du bounds to ±5.0 for CubicSplinePulse applying timesteps_all_equal constraint: Δt constructing SplinePulseProblem with PiccoloQuantumObjects.Pulses.CubicSplinePulse{DataInterpolations.CubicHermiteSpline{Matrix{Float64}, Vector{Float64}, Vector{Union{}}, Matrix{Float64}, Vector{Vector{Float64}}, Float64}}... applying timesteps_all_equal constraint: Δt constructing SplinePulseProblem with PiccoloQuantumObjects.Pulses.LinearSplinePulse{DataInterpolations.LinearInterpolation{Matrix{Float64}, Vector{Float64}, Vector{Union{}}, Vector{Vector{Float64}}, Float64}}... applying timesteps_all_equal constraint: Δt added DerivativeIntegrator for LinearSplinePulse constructing SplinePulseProblem for MultiKetTrajectory with PiccoloQuantumObjects.Pulses.LinearSplinePulse{DataInterpolations.LinearInterpolation{Matrix{Float64}, Vector{Float64}, Vector{Union{}}, Vector{Vector{Float64}}, Float64}}... with 2 state transfers applying timesteps_all_equal constraint: Δt added DerivativeIntegrator for LinearSplinePulse constructing SplinePulseProblem with PiccoloQuantumObjects.Pulses.LinearSplinePulse{DataInterpolations.LinearInterpolation{Matrix{Float64}, Vector{Float64}, Vector{Union{}}, Vector{Vector{Float64}}, Float64}}... applying timesteps_all_equal constraint: Δt added DerivativeIntegrator for LinearSplinePulse constructing SamplingProblem... using 2 systems constructing SplinePulseProblem with PiccoloQuantumObjects.Pulses.CubicSplinePulse{DataInterpolations.CubicHermiteSpline{Matrix{Float64}, Vector{Float64}, Vector{Union{}}, Matrix{Float64}, Vector{Vector{Float64}}, Float64}}... applying timesteps_all_equal constraint: Δt constructing SmoothPulseProblem for KetTrajectory... applying timesteps_all_equal constraint: Δt This is Ipopt version 3.14.19, running with linear solver MUMPS 5.8.2. Number of nonzeros in equality constraint Jacobian...: 9580 Number of nonzeros in inequality constraint Jacobian.: 0 Number of nonzeros in Lagrangian Hessian.............: 10762 Total number of variables............................: 591 variables with only lower bounds: 50 variables with lower and upper bounds: 392 variables with only upper bounds: 0 Total number of equality constraints.................: 490 Total number of inequality constraints...............: 0 inequality constraints with only lower bounds: 0 inequality constraints with lower and upper bounds: 0 inequality constraints with only upper bounds: 0 iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls 0 3.7084428e+01 2.63e+01 1.26e+00 0.0 0.00e+00 - 0.00e+00 0.00e+00 0 1 2.9077993e-01 9.99e+00 1.88e+02 -0.0 1.47e+01 - 1.58e-01 6.20e-01f 1 2 1.2241601e+01 5.77e+00 5.37e+02 0.4 5.67e+00 2.0 9.26e-01 4.22e-01f 1 3 1.4315597e+01 1.60e+00 1.46e+02 0.3 3.29e+00 1.5 8.15e-01 7.23e-01h 1 4 1.1389347e+01 2.25e-03 1.14e+02 -0.3 9.21e-01 1.0 9.99e-01 1.00e+00f 1 5 1.5073338e+00 2.62e-03 2.90e+01 -1.3 2.19e-01 0.6 7.56e-01 1.00e+00f 1 6 1.7327159e-01 1.52e-03 1.93e+02 -1.6 1.83e-01 0.1 9.97e-01 6.39e-01f 1 7 1.9422410e+00 1.02e-02 8.98e+01 0.2 1.22e+01 -0.4 9.28e-01 1.31e-01f 1 8 7.0004161e+00 2.91e-03 2.00e+01 0.1 8.52e-01 - 7.20e-01 1.00e+00f 1 9 7.5099919e+00 1.60e-03 2.53e+00 0.1 3.48e-01 0.0 1.00e+00 1.00e+00f 1 iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls 10 1.5895643e+00 6.76e-03 1.71e+02 -0.6 2.82e-01 -0.4 9.08e-01 9.53e-01f 1 11 3.9869534e+00 1.53e-02 1.66e+02 -0.6 9.54e-01 - 1.33e-01 1.00e+00F 1 12 2.2900253e+00 8.65e-04 5.17e+00 -0.6 1.57e-01 0.9 1.00e+00 1.00e+00h 1 13 1.0496434e-01 1.10e-03 1.67e+02 -1.3 1.30e-01 0.4 9.78e-01 9.01e-01f 1 14 3.1390656e+00 6.22e-02 4.25e+02 -0.3 8.61e-01 -0.1 3.70e-02 1.00e+00F 1 15 1.0477267e+00 9.97e-04 4.53e+01 -1.2 1.93e-01 1.3 6.65e-01 1.00e+00h 1 16 1.6591893e-01 6.43e-05 3.76e-01 -1.2 4.59e-02 0.8 1.00e+00 1.00e+00f 1 17 9.3580888e-02 9.80e-05 1.51e+02 -2.3 4.84e-02 0.3 9.95e-01 1.00e+00f 1 18 7.4938315e-02 1.63e-05 1.50e+02 -2.9 2.03e-02 -0.2 1.00e+00 1.00e+00f 1 19 2.7923752e-02 6.97e-05 1.48e+02 -4.0 2.37e-02 1.2 1.00e+00 1.00e+00f 1 iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls 20 8.2917007e-03 3.55e-05 7.38e+01 -4.0 1.00e-02 0.7 1.00e+00 5.00e-01f 2 21 1.0053894e-02 3.86e-06 2.56e-01 -4.0 9.21e-03 1.1 1.00e+00 1.00e+00h 1 22 1.2949253e-03 2.42e-06 1.47e+02 -4.0 8.49e-03 0.6 1.00e+00 1.00e+00h 1 23 9.0124840e-03 1.12e-06 1.47e+02 -4.0 6.10e-03 0.2 1.00e+00 1.00e+00h 1 24 7.3504628e-03 2.59e-07 1.33e-01 -4.0 2.51e-03 1.5 1.00e+00 1.00e+00h 1 25 3.4881285e-03 4.31e-07 3.69e-02 -4.0 3.60e-03 1.0 1.00e+00 1.00e+00f 1 26 1.3579278e-03 6.81e-07 1.47e+02 -4.0 4.61e-03 0.5 1.00e+00 1.00e+00h 1 27 2.4605599e-03 2.33e-07 1.47e+02 -4.0 2.80e-03 0.1 1.00e+00 1.00e+00h 1 28 1.9284578e-03 9.44e-08 8.04e-02 -4.0 1.48e-03 1.4 1.00e+00 1.00e+00h 1 29 1.2147865e-03 9.34e-08 1.40e-02 -4.0 1.72e-03 0.9 1.00e+00 1.00e+00h 1 iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls 30 1.0078148e-03 1.10e-07 1.47e+02 -4.0 1.91e-03 0.4 1.00e+00 1.00e+00h 1 31 1.0749342e-03 4.59e-08 1.47e+02 -4.0 1.01e-03 -0.0 1.00e+00 1.00e+00h 1 32 9.7480114e-04 2.35e-08 3.99e-02 -4.1 6.96e-04 1.3 1.00e+00 1.00e+00h 1 33 9.1108595e-04 1.16e-08 3.85e-03 -4.0 6.01e-04 0.8 1.00e+00 1.00e+00h 1 34 9.0290460e-04 1.33e-08 1.47e+02 -4.0 5.69e-04 0.3 1.00e+00 1.00e+00h 1 35 9.0398634e-04 1.03e-08 1.47e+02 -4.1 5.47e-04 -0.1 1.00e+00 1.00e+00h 1 36 8.9217507e-04 4.77e-09 2.14e-02 -4.1 2.65e-04 1.2 1.00e+00 1.00e+00h 1 37 8.9163813e-04 1.04e-09 7.04e-04 -4.0 1.39e-04 0.7 1.00e+00 1.00e+00h 1 38 8.9114316e-04 1.97e-09 1.47e+02 -4.0 2.80e-04 0.2 1.00e+00 1.00e+00h 1 39 8.9149092e-04 5.21e-09 1.47e+02 -4.1 6.83e-04 -0.2 1.00e+00 1.00e+00h 1 iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls 40 8.9183422e-04 2.33e-12 6.75e-04 -4.1 7.17e-06 2.0 1.00e+00 1.00e+00h 1 41 8.9156468e-04 1.51e-11 5.16e-04 -4.0 1.61e-05 1.5 1.00e+00 1.00e+00h 1 42 8.9105840e-04 8.50e-11 4.40e-04 -4.0 4.13e-05 1.0 1.00e+00 1.00e+00h 1 43 8.9055323e-04 3.47e-10 4.50e-04 -4.0 1.27e-04 0.6 1.00e+00 1.00e+00h 1 44 8.9034503e-04 1.76e-09 1.47e+02 -4.0 3.83e-04 0.1 1.00e+00 1.00e+00h 1 45 7.6233498e-04 3.01e-02 1.47e+02 -4.1 4.48e-01 - 9.36e-01 1.00e+00f 1 46 1.0053108e+00 2.12e-03 2.25e+01 -4.0 1.32e-01 1.4 1.00e+00 1.00e+00h 1 47 2.8340213e-01 2.42e-04 5.50e-01 -4.1 4.60e-02 0.9 1.00e+00 1.00e+00f 1 48 1.2893102e-01 3.12e-04 1.44e+02 -4.1 5.71e-02 0.4 9.27e-01 1.00e+00f 1 49 2.5961851e-03 1.69e-04 7.17e+01 -4.1 2.55e-02 -0.0 1.00e+00 5.00e-01f 2 iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls 50 4.6497212e-02 1.24e-05 6.38e-01 -4.1 1.15e-02 1.3 1.00e+00 1.00e+00h 1 51 6.7022508e-03 1.84e-05 9.29e-02 -4.1 1.40e-02 0.8 1.00e+00 1.00e+00f 1 52 7.5629934e-03 1.46e-05 1.43e+02 -4.1 1.24e-02 0.3 1.00e+00 1.00e+00h 1 53 4.8048077e-03 1.86e-06 1.43e+02 -4.1 4.66e-03 -0.1 1.00e+00 1.00e+00h 1 54 1.3925007e-03 2.86e-06 1.42e+02 -4.1 5.22e-03 1.2 1.00e+00 1.00e+00h 1 55 3.0555415e-03 5.16e-07 1.42e+02 -4.1 2.37e-03 0.7 1.00e+00 1.00e+00h 1 56 1.7461563e-03 2.14e-06 1.42e+02 -4.1 4.48e-03 1.1 1.00e+00 1.00e+00h 1 57 1.5594968e-03 1.93e-07 1.42e+02 -4.1 1.45e-03 0.7 1.00e+00 1.00e+00h 1 58 1.2316592e-03 1.02e-06 1.42e+02 -4.1 3.01e-03 1.1 1.00e+00 1.00e+00h 1 59 1.0144869e-03 5.42e-08 1.42e+02 -4.1 7.04e-04 0.6 1.00e+00 1.00e+00h 1 iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls 60 1.0177780e-03 1.47e-09 9.99e-03 -4.1 1.13e-04 1.9 1.00e+00 1.00e+00h 1 61 9.4606039e-04 7.83e-09 7.68e-03 -4.1 2.60e-04 1.5 1.00e+00 1.00e+00h 1 62 8.2338228e-04 3.22e-08 5.18e-03 -4.1 5.26e-04 1.0 1.00e+00 1.00e+00h 1 63 7.6616579e-04 4.90e-08 1.42e+02 -4.0 6.45e-04 0.5 1.00e+00 1.00e+00h 1 64 7.9576579e-04 1.59e-08 1.42e+02 -4.0 4.22e-04 0.0 1.00e+00 1.00e+00h 1 65 7.7962709e-04 5.53e-09 1.50e-02 -4.1 2.27e-04 1.4 1.00e+00 1.00e+00h 1 66 7.6018634e-04 6.55e-09 1.89e-03 -4.0 2.43e-04 0.9 1.00e+00 1.00e+00h 1 67 7.5458933e-04 7.56e-09 1.42e+02 -4.0 2.58e-04 0.4 1.00e+00 1.00e+00h 1 68 7.5717381e-04 2.04e-09 1.42e+02 -4.1 1.77e-04 -0.1 1.00e+00 1.00e+00h 1 69 7.5408813e-04 1.24e-09 6.32e-03 -4.1 1.17e-04 1.3 1.00e+00 1.00e+00h 1 iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls 70 7.5242605e-04 7.55e-10 5.28e-04 -4.0 8.58e-05 0.8 1.00e+00 1.00e+00h 1 71 7.5187219e-04 6.90e-10 1.42e+02 -4.0 1.22e-04 0.3 1.00e+00 1.00e+00h 1 72 7.6129990e-04 5.02e-04 1.34e+02 -4.1 2.70e+00 - 2.98e-01 5.24e-02f 4 73 1.3444224e-02 2.88e-05 1.42e+02 -4.1 2.18e-02 -0.2 1.00e+00 1.00e+00h 1 74 9.2815747e-04 3.50e-07 1.42e+02 -4.1 1.94e-03 1.2 1.00e+00 1.00e+00h 1 75 9.6976829e-04 3.55e-08 1.42e+02 -4.1 5.92e-04 0.7 1.00e+00 1.00e+00h 1 76 7.8840758e-04 8.85e-10 2.86e-01 -4.1 1.69e-03 1.1 1.00e+00 1.00e+00H 1 77 7.6150424e-04 1.48e-08 1.42e+02 -4.1 4.04e-04 0.6 1.00e+00 1.00e+00h 1 78 7.7433133e-04 6.73e-09 1.42e+02 -4.1 2.76e-04 0.2 1.00e+00 1.00e+00h 1 79 7.7049402e-04 1.28e-09 1.03e-02 -4.1 1.18e-04 1.5 1.00e+00 1.00e+00h 1 iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls 80 7.6317842e-04 2.37e-09 1.65e-03 -4.1 1.61e-04 1.0 1.00e+00 1.00e+00h 1 81 7.6022341e-04 3.54e-09 1.42e+02 -4.1 1.98e-04 0.5 1.00e+00 1.00e+00h 1 82 7.6109023e-04 1.21e-09 1.42e+02 -4.1 2.01e-04 0.1 1.00e+00 1.00e+00h 1 83 7.6019120e-04 3.39e-10 5.42e-03 -4.1 6.05e-05 1.4 1.00e+00 1.00e+00h 1 84 7.5925329e-04 3.96e-10 5.34e-04 -4.1 6.60e-05 0.9 1.00e+00 1.00e+00h 1 85 7.5909541e-04 4.21e-10 1.42e+02 -4.0 7.03e-05 0.4 1.00e+00 1.00e+00h 1 86 7.3665386e-04 1.51e-02 1.08e+02 -4.1 1.40e+00 - 6.01e-01 2.36e-01f 3 87 4.3948119e-01 6.35e-04 1.47e+02 -4.0 7.24e-02 0.9 1.00e+00 1.00e+00h 1 88 7.2543464e-02 4.76e-05 2.05e+00 -4.1 1.91e-02 1.3 1.00e+00 1.00e+00f 1 89 1.6305384e-02 3.50e-05 1.11e-01 -4.1 1.74e-02 0.8 1.00e+00 1.00e+00f 1 iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls 90 1.2408433e-02 3.14e-05 1.47e+02 -4.1 1.65e-02 0.3 1.00e+00 1.00e+00h 1 91 9.6391043e-03 4.67e-06 1.47e+02 -4.1 6.69e-03 -0.1 1.00e+00 1.00e+00h 1 92 2.2075311e-03 4.55e-06 4.78e-01 -4.1 6.26e-03 1.2 1.00e+00 1.00e+00h 1 93 9.1250012e-04 1.73e-06 1.95e-02 -4.1 3.85e-03 0.7 1.00e+00 1.00e+00h 1 94 1.1861704e-03 1.13e-06 1.47e+02 -4.1 3.11e-03 0.2 1.00e+00 1.00e+00h 1 95 9.3222730e-04 1.12e-07 1.47e+02 -4.1 1.05e-03 -0.3 1.00e+00 1.00e+00h 1 96 9.6525621e-04 1.39e-09 1.02e-02 -4.1 1.10e-04 2.0 1.00e+00 1.00e+00h 1 97 9.0617129e-04 7.88e-09 8.35e-03 -4.1 2.61e-04 1.5 1.00e+00 1.00e+00h 1 98 8.0020927e-04 3.48e-08 5.83e-03 -4.1 5.48e-04 1.0 1.00e+00 1.00e+00h 1 99 7.3710264e-04 6.02e-08 1.47e+02 -4.1 7.17e-04 0.6 1.00e+00 1.00e+00h 1 iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls 100 7.7250749e-04 2.17e-08 1.47e+02 -4.0 4.71e-04 0.1 1.00e+00 1.00e+00h 1 Number of Iterations....: 100 (scaled) (unscaled) Objective...............: 7.7250749365784482e-04 7.7250749365784482e-04 Dual infeasibility......: 1.4708732618131569e+02 1.4708732618131569e+02 Constraint violation....: 2.1718230880374279e-08 2.1718230880374279e-08 Variable bound violation: 0.0000000000000000e+00 0.0000000000000000e+00 Complementarity.........: 1.0001865062540729e-04 1.0001865062540729e-04 Overall NLP error.......: 1.4708732618131569e+02 1.4708732618131569e+02 Number of objective function evaluations = 115 Number of objective gradient evaluations = 101 Number of equality constraint evaluations = 115 Number of inequality constraint evaluations = 0 Number of equality constraint Jacobian evaluations = 101 Number of inequality constraint Jacobian evaluations = 0 Number of Lagrangian Hessian evaluations = 100 Total seconds in IPOPT = 58.070 EXIT: Maximum Number of Iterations Exceeded. constructing SmoothPulseProblem for UnitaryTrajectory... applying timesteps_all_equal constraint: Δt This is Ipopt version 3.14.19, running with linear solver MUMPS 5.8.2. Number of nonzeros in equality constraint Jacobian...: 18904 Number of nonzeros in inequality constraint Jacobian.: 0 Number of nonzeros in Lagrangian Hessian.............: 18984 Total number of variables............................: 787 variables with only lower bounds: 50 variables with lower and upper bounds: 588 variables with only upper bounds: 0 Total number of equality constraints.................: 686 Total number of inequality constraints...............: 0 inequality constraints with only lower bounds: 0 inequality constraints with lower and upper bounds: 0 inequality constraints with only upper bounds: 0 iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls 0 5.6058561e+01 6.13e+00 1.60e+00 0.0 0.00e+00 - 0.00e+00 0.00e+00 0 1 4.7913057e+01 2.59e+00 1.37e+01 -0.5 3.73e+00 - 2.24e-01 5.77e-01f 1 2 2.3926808e+01 2.09e+00 3.04e+01 -1.8 7.51e+00 - 3.11e-02 1.92e-01f 1 3 1.2416225e+01 1.31e+00 6.05e+01 -0.3 3.77e+00 - 1.96e-01 3.76e-01f 1 4 1.8172647e+01 5.18e-04 7.99e+01 0.1 7.99e-01 2.0 7.56e-01 1.00e+00f 1 5 1.0796920e+01 5.07e-04 2.97e+01 -0.2 7.66e-01 - 8.52e-01 1.00e+00f 1 6 5.8577278e+00 9.96e-04 7.12e+00 -0.7 4.83e-01 - 9.98e-01 1.00e+00f 1 7 1.2457952e+00 1.81e-03 4.08e+00 -1.3 8.03e-01 - 9.95e-01 1.00e+00f 1 8 1.1362085e+00 1.68e-04 2.49e-01 -1.9 2.17e-01 - 9.98e-01 1.00e+00h 1 9 6.0394271e-01 8.05e-05 1.56e-01 -2.8 1.92e-01 - 9.99e-01 1.00e+00f 1 iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls 10 4.6738406e-01 1.86e-05 3.30e-02 -4.0 9.54e-02 - 1.00e+00 1.00e+00f 1 11 4.4730164e-01 6.62e-06 1.55e-03 -4.0 1.67e-01 - 1.00e+00 1.00e+00h 1 12 4.4647583e-01 4.37e-09 4.57e-06 -4.0 2.53e-03 - 1.00e+00 1.00e+00h 1 13 4.4646514e-01 4.20e-13 1.34e-08 -4.0 3.20e-05 - 1.00e+00 1.00e+00h 1 14 4.4646514e-01 5.83e-16 1.01e-09 -4.0 3.92e-08 - 1.00e+00 1.00e+00h 1 Number of Iterations....: 14 (scaled) (unscaled) Objective...............: 4.4646514482649685e-01 4.4646514482649685e-01 Dual infeasibility......: 1.0057045122906227e-09 1.0057045122906227e-09 Constraint violation....: 5.8286708792820718e-16 5.8286708792820718e-16 Variable bound violation: 0.0000000000000000e+00 0.0000000000000000e+00 Complementarity.........: 1.0000000000001265e-04 1.0000000000001265e-04 Overall NLP error.......: 1.0057045122906227e-09 1.0057045122906227e-09 Number of objective function evaluations = 15 Number of objective gradient evaluations = 15 Number of equality constraint evaluations = 15 Number of inequality constraint evaluations = 0 Number of equality constraint Jacobian evaluations = 15 Number of inequality constraint Jacobian evaluations = 0 Number of Lagrangian Hessian evaluations = 14 Total seconds in IPOPT = 45.145 EXIT: Optimal Solution Found. constructing SmoothPulseProblem for KetTrajectory... applying timesteps_all_equal constraint: Δt constructing SmoothPulseProblem for UnitaryTrajectory... applying timesteps_all_equal constraint: Δt constructing SamplingProblem... using 2 systems This is Ipopt version 3.14.19, running with linear solver MUMPS 5.8.2. Number of nonzeros in equality constraint Jacobian...: 29666 Number of nonzeros in inequality constraint Jacobian.: 0 Number of nonzeros in Lagrangian Hessian.............: 26679 Total number of variables............................: 933 variables with only lower bounds: 50 variables with lower and upper bounds: 834 variables with only upper bounds: 0 Total number of equality constraints.................: 833 Total number of inequality constraints...............: 0 inequality constraints with only lower bounds: 0 inequality constraints with lower and upper bounds: 0 inequality constraints with only upper bounds: 0 iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls 0 1.9956271e+02 7.29e-02 2.17e+00 0.0 0.00e+00 - 0.00e+00 0.00e+00 0 1 1.9958910e+02 2.15e-02 1.62e+02 -0.4 4.56e-01 2.0 9.42e-01 7.93e-01f 1 2 1.9870556e+02 6.48e-03 2.00e+02 -0.1 1.28e-01 2.4 1.00e+00 1.00e+00f 1 3 1.9852191e+02 5.18e-05 4.55e+01 -0.5 8.23e-03 2.9 9.32e-01 1.00e+00h 1 4 1.9806678e+02 1.15e-04 3.67e+00 -2.0 1.55e-02 2.4 1.00e+00 1.00e+00f 1 5 1.9395376e+02 4.02e-03 6.87e+00 -3.2 8.70e-02 1.9 1.00e+00 1.00e+00f 1 6 1.9179263e+02 7.26e-04 6.66e+00 -4.0 3.35e-02 2.3 1.00e+00 1.00e+00f 1 7 1.8409067e+02 6.13e-03 9.42e+00 -4.0 1.77e-01 1.8 1.00e+00 4.97e-01f 1 8 1.8399907e+02 6.03e-03 9.43e+00 -4.0 5.59e-02 2.3 1.00e+00 1.57e-02f 1 9 1.8331660e+02 5.71e-03 4.61e+01 -4.0 2.25e-01 1.8 1.00e+00 5.31e-02f 1 iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls 10 1.5011001e+02 1.04e-01 3.37e+02 -3.1 6.46e+00 1.3 1.00e+00 9.68e-02f 1 11 1.4935487e+02 1.01e-01 4.44e+01 -3.3 2.82e-01 1.7 1.00e+00 2.22e-02f 1 12 1.3792440e+02 1.93e-03 1.24e+01 -3.0 8.38e-02 2.2 1.00e+00 1.00e+00f 1 13 1.2908068e+02 1.46e-03 1.68e+01 -3.3 1.30e-01 1.7 1.00e+00 3.50e-01f 1 14 1.2766208e+02 1.44e-03 3.07e+01 -3.5 3.93e-01 1.2 1.00e+00 1.94e-02f 1 15 1.2048678e+02 1.82e-03 1.39e+01 -4.0 1.36e-01 1.6 1.00e+00 2.77e-01f 1 16 1.1117473e+02 2.27e-03 1.92e+01 -3.7 4.54e-01 1.2 1.00e+00 1.18e-01f 1 17 1.1080756e+02 2.24e-03 1.87e+01 -4.0 1.39e-01 1.6 1.00e+00 1.47e-02f 1 18 3.9906088e+01 7.89e-02 2.64e+01 -4.0 3.76e-01 1.1 1.00e+00 8.56e-01f 1 19 4.0204833e+01 7.39e-02 2.47e+01 -3.6 1.12e-01 1.5 1.00e+00 6.30e-02h 1 iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls 20 3.7966217e+01 6.20e-02 3.11e+01 -3.8 2.49e-01 1.1 1.00e+00 1.61e-01f 1 21 2.4983201e+01 4.07e-02 3.67e+01 -4.0 3.13e-01 0.6 1.00e+00 3.45e-01f 1 22 2.4962690e+01 4.02e-02 2.95e+01 -3.7 1.29e-01 1.0 1.00e+00 1.22e-02h 1 23 1.5289286e+01 2.27e-02 1.33e+01 -3.9 2.13e-01 0.5 1.00e+00 6.77e-01f 1 24 1.5407246e+01 2.21e-02 1.40e+01 -4.0 6.99e-02 1.0 1.00e+00 2.95e-02h 1 25 1.4620519e+01 7.93e-03 8.49e+00 -2.0 1.90e-01 0.5 9.66e-01 5.80e-01f 1 26 1.5865290e+01 1.04e-03 7.87e-01 -2.2 6.70e-02 0.9 1.00e+00 1.00e+00h 1 27 1.0563669e+01 7.31e-03 6.89e+00 -1.4 2.16e-01 0.4 8.22e-01 1.00e+00f 1 28 9.1132553e+00 1.92e-03 3.11e+00 -1.6 5.83e-02 0.9 9.93e-01 1.00e+00f 1 29 5.4988812e+00 4.02e-03 1.11e+00 -1.6 1.72e-01 0.4 9.72e-01 1.00e+00f 1 iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls 30 4.6705068e+00 4.11e-04 1.00e+00 -2.1 4.09e-02 0.8 9.94e-01 1.00e+00f 1 31 2.9897951e+00 1.30e-03 7.50e-01 -2.5 8.37e-02 0.3 9.98e-01 7.56e-01f 1 32 6.5467543e-01 1.36e-02 2.67e+00 -2.0 2.12e-01 -0.1 1.00e+00 8.29e-01f 1 33 8.1856562e-01 1.06e-02 2.05e+01 -1.3 3.98e-01 0.3 9.83e-01 2.23e-01f 1 34 9.3490306e-01 1.77e-03 3.20e-01 -1.7 5.16e-02 0.7 1.00e+00 1.00e+00h 1 35 4.6538984e-01 6.67e-04 1.67e+00 -3.3 5.77e-02 0.2 9.08e-01 1.00e+00f 1 36 4.0458020e-01 7.81e-05 1.01e-01 -3.8 1.45e-02 0.7 1.00e+00 1.00e+00h 1 37 1.8946877e-01 3.71e-04 1.75e-01 -4.0 2.91e-02 0.2 1.00e+00 1.00e+00f 1 38 1.1989549e-01 3.86e-04 1.34e-01 -4.0 7.63e-02 -0.3 1.00e+00 4.41e-01h 1 39 6.9745571e-02 7.98e-04 5.81e-01 -4.0 1.92e-01 -0.8 1.00e+00 3.07e-01h 1 iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls 40 1.9061937e-02 2.65e-03 2.91e-01 -4.0 7.18e-02 -0.4 1.00e+00 1.00e+00h 1 41 2.4701024e-02 1.60e-04 5.99e-02 -4.0 1.91e-02 0.1 1.00e+00 1.00e+00h 1 42 1.3848757e-02 6.71e-04 9.92e-02 -4.0 3.54e-02 -0.4 1.00e+00 1.00e+00h 1 43 1.0243736e-02 2.84e-03 2.35e+01 -4.0 2.47e+00 -0.9 2.44e-04 4.49e-05H 1 44 1.1557481e-02 9.81e-04 4.15e-01 -4.0 4.16e-02 -0.5 1.00e+00 1.00e+00h 1 45 1.0306689e-02 8.30e-04 6.41e+01 -4.0 1.98e-01 -0.9 1.24e-02 1.05e-03H 1 46 1.0834588e-02 2.37e-04 1.51e-01 -4.0 2.37e-02 -0.5 1.00e+00 1.00e+00h 1 47 1.1299531e-02 2.03e-03 8.96e+00 -4.0 4.63e-02 -1.0 1.00e+00 1.00e+00H 1 48 1.0317698e-02 3.67e-07 3.54e-02 -4.1 2.01e-03 1.2 1.00e+00 1.00e+00h 1 49 1.0336572e-02 2.89e-07 2.82e-02 -4.0 8.46e-04 0.8 1.00e+00 1.00e+00h 1 iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls 50 1.0386681e-02 2.27e-06 2.93e-02 -4.0 2.44e-03 0.3 1.00e+00 1.00e+00h 1 51 1.0348401e-02 1.10e-05 5.16e-02 -4.1 5.77e-03 -0.2 1.00e+00 1.00e+00h 1 52 1.0257522e-02 7.08e-05 5.62e-02 -4.1 1.47e-02 -0.7 1.00e+00 1.00e+00h 1 53 1.0200379e-02 4.04e-04 1.92e-01 -4.0 3.26e-02 -1.1 1.00e+00 1.00e+00h 1 54 1.0146951e-02 5.49e-05 3.90e-03 -4.0 1.38e-02 -0.7 1.00e+00 1.00e+00h 1 55 9.9737321e-03 2.76e-04 9.81e-02 -4.0 3.16e-02 -1.2 1.00e+00 1.00e+00h 1 56 9.9215827e-03 3.82e-05 4.44e-03 -4.0 1.21e-02 -0.8 1.00e+00 1.00e+00h 1 57 9.7534776e-03 2.20e-04 7.48e-02 -4.0 3.11e-02 -1.2 1.00e+00 1.00e+00h 1 58 9.6997372e-03 2.86e-05 2.43e-03 -4.0 1.17e-02 -0.8 1.00e+00 1.00e+00h 1 59 9.5333019e-03 1.71e-04 5.72e-02 -4.0 3.11e-02 -1.3 1.00e+00 1.00e+00h 1 iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls 60 9.5053028e-03 1.04e-02 1.43e+00 -3.7 1.63e-01 -1.8 1.00e+00 1.00e+00h 1 61 9.0663190e-03 2.11e-05 4.91e-02 -4.0 6.25e-03 0.5 1.00e+00 1.00e+00h 1 62 9.0670145e-03 2.20e-07 1.16e-03 -4.0 1.21e-03 -0.0 1.00e+00 1.00e+00h 1 63 9.0295358e-03 1.05e-06 1.42e-02 -4.0 3.61e-03 -0.5 1.00e+00 1.00e+00h 1 64 8.9546289e-03 1.04e-05 3.03e-02 -4.0 1.07e-02 -1.0 1.00e+00 1.00e+00h 1 65 8.7720038e-03 8.45e-05 5.26e-02 -4.0 3.04e-02 -1.4 1.00e+00 1.00e+00h 1 66 8.2444795e-03 1.96e-02 1.92e+00 -4.0 2.48e-01 -1.9 1.00e+00 1.00e+00h 1 67 8.2072141e-03 2.13e-04 1.13e-01 -4.0 2.63e-02 0.3 1.00e+00 1.00e+00h 1 68 8.1180697e-03 7.30e-07 4.87e-02 -4.0 1.40e-03 -0.2 1.00e+00 1.00e+00h 1 69 8.1104833e-03 1.85e-06 2.57e-02 -4.0 4.34e-03 -0.6 1.00e+00 1.00e+00h 1 iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls 70 8.0864862e-03 1.95e-05 1.44e-01 -4.0 1.29e-02 -1.1 1.00e+00 1.00e+00h 1 71 8.0800429e-03 2.78e-06 1.57e-02 -4.0 4.86e-03 -0.7 1.00e+00 1.00e+00h 1 72 8.0219018e-03 1.91e-05 1.37e-03 -4.0 1.42e-02 -1.2 1.00e+00 1.00e+00h 1 73 7.8372436e-03 2.16e-04 1.56e-01 -4.0 3.87e-02 -1.6 1.00e+00 1.00e+00h 1 74 7.7724760e-03 3.24e-05 1.86e-02 -4.0 1.28e-02 -1.2 1.00e+00 1.00e+00h 1 75 7.6197536e-03 2.22e-04 8.14e-02 -4.0 3.28e-02 -1.7 1.00e+00 1.00e+00h 1 76 7.5537145e-03 3.65e-05 1.99e-02 -4.0 1.13e-02 -1.3 1.00e+00 1.00e+00h 1 77 7.3924626e-03 2.35e-04 6.28e-02 -4.0 2.43e-02 -1.7 1.00e+00 1.00e+00h 1 78 7.3347416e-03 2.21e-05 1.14e-02 -4.0 8.04e-03 -1.3 1.00e+00 1.00e+00h 1 79 7.1954364e-03 1.56e-04 5.00e-02 -4.0 2.56e-02 -1.8 1.00e+00 1.00e+00h 1 iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls 80 7.1379393e-03 2.42e-05 2.04e-02 -4.0 9.51e-03 -1.4 1.00e+00 1.00e+00h 1 81 7.0013651e-03 1.91e-04 2.21e-02 -4.0 2.91e-02 -1.9 1.00e+00 1.00e+00h 1 82 6.7256638e-03 5.08e-04 2.05e-01 -4.0 7.39e-02 -2.3 1.00e+00 1.00e+00h 1 83 6.7060852e-03 2.95e-06 4.82e-04 -4.0 2.89e-03 -1.0 1.00e+00 1.00e+00h 1 84 6.6826376e-03 3.03e-05 7.54e-02 -4.0 9.82e-03 -1.5 1.00e+00 1.00e+00h 1 85 6.6655132e-03 4.34e-06 4.33e-03 -4.0 3.62e-03 -1.1 1.00e+00 1.00e+00h 1 86 6.6233171e-03 3.50e-05 2.13e-03 -4.0 1.06e-02 -1.5 1.00e+00 1.00e+00h 1 87 6.4926877e-03 3.12e-04 2.08e-01 -4.0 3.01e-02 -2.0 1.00e+00 1.00e+00h 1 88 6.4865392e-03 5.76e-07 9.03e-04 -4.0 1.10e-03 -0.7 1.00e+00 1.00e+00h 1 89 6.4890587e-03 4.23e-06 3.32e-02 -4.0 3.82e-03 -1.2 1.00e+00 1.00e+00h 1 iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls 90 6.3400348e-03 3.51e-05 1.89e-02 -4.1 9.18e-03 -1.6 1.00e+00 1.00e+00h 1 91 6.3042255e-03 3.34e-04 3.35e-01 -4.0 3.08e-02 -2.1 1.00e+00 1.00e+00h 1 92 6.2942926e-03 8.35e-07 2.04e-03 -4.0 1.26e-03 -0.8 1.00e+00 1.00e+00h 1 93 6.2977179e-03 5.11e-06 3.94e-02 -4.0 3.99e-03 -1.3 1.00e+00 1.00e+00h 1 94 6.1445492e-03 7.25e-05 2.10e-02 -4.1 1.38e-02 -1.7 1.00e+00 1.00e+00h 1 95 6.1120093e-03 3.57e-04 2.95e-01 -4.0 3.47e-02 -2.2 1.00e+00 1.00e+00h 1 96 6.1008097e-03 1.27e-06 2.24e-03 -4.0 1.65e-03 -0.9 1.00e+00 1.00e+00h 1 97 6.0992310e-03 8.90e-06 3.29e-02 -4.0 5.51e-03 -1.4 1.00e+00 1.00e+00h 1 98 6.0397405e-03 1.98e-04 5.54e-02 -4.0 2.35e-02 -1.8 1.00e+00 1.00e+00h 1 99 6.0158849e-03 6.66e-06 1.39e-02 -4.0 6.44e-03 -1.4 1.00e+00 1.00e+00h 1 iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls 100 5.9664094e-03 9.11e-05 3.13e-02 -4.0 2.00e-02 -1.9 1.00e+00 1.00e+00h 1 101 5.9404308e-03 1.34e-05 1.17e-02 -4.0 8.26e-03 -1.5 1.00e+00 1.00e+00h 1 102 5.8765107e-03 1.02e-04 2.37e-02 -4.0 2.40e-02 -1.9 1.00e+00 1.00e+00h 1 103 5.8511872e-03 1.39e-05 4.16e-03 -4.0 8.79e-03 -1.5 1.00e+00 1.00e+00h 1 104 5.7868970e-03 1.64e-04 2.73e-02 -4.0 2.89e-02 -2.0 1.00e+00 1.00e+00h 1 105 5.7552827e-03 2.85e-05 9.79e-03 -4.0 1.15e-02 -1.6 1.00e+00 1.00e+00h 1 106 5.6676579e-03 2.75e-04 5.12e-02 -4.0 3.59e-02 -2.0 1.00e+00 1.00e+00h 1 107 5.6331169e-03 2.58e-05 3.04e-03 -4.0 1.18e-02 -1.6 1.00e+00 1.00e+00h 1 108 5.5470917e-03 4.16e-04 9.60e-02 -4.0 4.18e-02 -2.1 1.00e+00 1.00e+00h 1 109 5.5036218e-03 9.76e-05 1.11e-02 -4.0 1.79e-02 -1.7 1.00e+00 1.00e+00h 1 iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls 110 5.3690950e-03 6.96e-04 1.56e-01 -4.0 5.38e-02 -2.1 1.00e+00 1.00e+00h 1 111 5.3576320e-03 1.39e-06 1.40e-03 -4.0 1.97e-03 -0.8 1.00e+00 1.00e+00h 1 112 5.3565474e-03 1.38e-05 4.65e-02 -4.0 7.06e-03 -1.3 1.00e+00 1.00e+00h 1 113 5.2996128e-03 1.59e-04 4.09e-02 -4.0 2.18e-02 -1.8 1.00e+00 1.00e+00h 1 114 5.1272167e-03 2.18e-03 7.73e-02 -4.0 1.01e-01 -2.2 1.00e+00 1.00e+00h 1 115 5.0672504e-03 5.98e-04 6.04e-03 -4.0 4.71e-02 -1.8 1.00e+00 1.00e+00h 1 116 5.0215321e-03 2.82e-03 1.38e+00 -4.0 5.83e-01 -2.3 8.48e-01 1.79e-01h 2 117 5.0138247e-03 2.91e-06 9.47e-04 -4.0 4.29e-03 -1.0 1.00e+00 1.00e+00h 1 118 4.9803242e-03 3.36e-05 2.01e-02 -4.0 8.43e-03 -1.4 1.00e+00 1.00e+00h 1 119 4.9103722e-03 4.63e-04 1.44e-01 -4.0 3.51e-02 -1.9 1.00e+00 1.00e+00h 1 iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls 120 4.8828552e-03 6.97e-05 3.99e-03 -4.0 1.17e-02 -1.5 1.00e+00 1.00e+00h 1 121 4.7899581e-03 1.97e-04 3.22e-01 -4.0 2.40e-02 -2.0 1.00e+00 1.00e+00h 1 122 4.7895137e-03 4.19e-07 4.41e-03 -4.0 1.01e-03 -0.6 1.00e+00 1.00e+00h 1 123 4.7870785e-03 4.66e-06 1.57e-02 -4.0 3.26e-03 -1.1 1.00e+00 1.00e+00h 1 124 4.7545704e-03 3.09e-05 1.89e-02 -4.0 1.00e-02 -1.6 1.00e+00 1.00e+00h 1 125 4.6728010e-03 4.60e-04 7.50e-02 -4.0 2.97e-02 -2.1 1.00e+00 1.00e+00h 1 126 4.6479937e-03 2.14e-05 8.72e-03 -4.0 1.01e-02 -1.6 1.00e+00 1.00e+00h 1 127 4.5543770e-03 3.63e-04 2.88e-01 -4.0 3.40e-02 -2.1 1.00e+00 1.00e+00h 1 128 4.5519181e-03 9.23e-07 3.90e-03 -4.0 1.53e-03 -0.8 1.00e+00 1.00e+00h 1 129 4.5561910e-03 5.51e-06 2.75e-02 -4.0 4.57e-03 -1.3 1.00e+00 1.00e+00h 1 iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls 130 4.4307800e-03 5.45e-05 1.28e-02 -4.1 1.32e-02 -1.8 1.00e+00 1.00e+00h 1 131 4.4373285e-03 5.71e-04 3.11e-02 -4.0 4.28e-02 -2.2 1.00e+00 1.00e+00h 1 132 4.3128906e-03 6.67e-05 3.83e-03 -4.1 1.43e-02 -1.8 1.00e+00 1.00e+00h 1 133 4.3410442e-03 3.92e-04 1.44e-01 -4.0 3.92e-02 -2.3 1.00e+00 1.00e+00h 1 134 4.2462406e-03 9.67e-07 1.74e-03 -4.1 1.61e-03 -1.0 1.00e+00 1.00e+00h 1 135 4.2974052e-03 6.47e-06 6.79e-02 -4.0 5.51e-03 -1.4 1.00e+00 1.00e+00h 1 136 4.2269738e-03 1.15e-06 1.66e-02 -4.1 1.84e-03 -1.0 1.00e+00 1.00e+00h 1 137 4.2945655e-03 8.29e-06 1.89e-02 -4.0 5.78e-03 -1.5 1.00e+00 1.00e+00h 1 138 4.1630457e-03 1.12e-04 1.66e-02 -4.1 2.04e-02 -2.0 1.00e+00 1.00e+00h 1 139 4.1927739e-03 1.21e-03 1.52e-01 -4.0 5.96e-02 -2.4 1.00e+00 1.00e+00h 1 iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls 140 4.0985372e-03 5.49e-06 1.18e-03 -4.1 3.47e-03 -1.1 1.00e+00 1.00e+00h 1 141 4.1592110e-03 1.65e-05 5.30e-02 -4.0 7.59e-03 -1.6 1.00e+00 1.00e+00h 1 142 4.0803605e-03 1.57e-06 1.73e-02 -4.1 2.80e-03 -1.2 1.00e+00 1.00e+00h 1 143 4.1481906e-03 2.20e-05 2.23e-02 -4.0 9.36e-03 -1.6 1.00e+00 1.00e+00h 1 144 3.9932275e-03 6.06e-04 2.80e-02 -4.1 4.42e-02 -2.1 1.00e+00 1.00e+00h 1 145 4.0701568e-03 1.62e-05 1.20e-02 -4.0 1.02e-02 -1.7 1.00e+00 1.00e+00h 1 146 4.0335901e-03 5.49e-04 7.52e-02 -4.0 4.53e-02 -2.2 1.00e+00 1.00e+00h 1 147 4.0308959e-03 5.31e-07 1.88e-04 -4.0 1.27e-03 -0.8 1.00e+00 1.00e+00h 1 148 4.0283927e-03 6.03e-06 2.02e-03 -4.0 5.01e-03 -1.3 1.00e+00 1.00e+00h 1 149 4.0156190e-03 6.08e-05 2.82e-03 -4.0 1.53e-02 -1.8 1.00e+00 1.00e+00h 1 iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls 150 3.9775772e-03 5.29e-04 2.63e-02 -4.0 4.52e-02 -2.3 1.00e+00 1.00e+00h 1 Number of Iterations....: 150 (scaled) (unscaled) Objective...............: 3.9775771569471449e-03 3.9775771569471449e-03 Dual infeasibility......: 2.6286497477109837e-02 2.6286497477109837e-02 Constraint violation....: 5.2894088782060034e-04 5.2894088782060034e-04 Variable bound violation: 0.0000000000000000e+00 0.0000000000000000e+00 Complementarity.........: 1.0000000000000002e-04 1.0000000000000002e-04 Overall NLP error.......: 2.6286497477109837e-02 2.6286497477109837e-02 Number of objective function evaluations = 157 Number of objective gradient evaluations = 151 Number of equality constraint evaluations = 157 Number of inequality constraint evaluations = 0 Number of equality constraint Jacobian evaluations = 151 Number of inequality constraint Jacobian evaluations = 0 Number of Lagrangian Hessian evaluations = 150 Total seconds in IPOPT = 84.494 EXIT: Maximum Number of Iterations Exceeded. constructing SmoothPulseProblem for KetTrajectory... applying timesteps_all_equal constraint: Δt constructing SamplingProblem... using 2 systems constructing SmoothPulseProblem for MultiKetTrajectory (2 states)... ┌ Warning: `Base.getindex(VA::AbstractVectorOfArray{T, N, A}, I::Int) where {T, N, A <: Union{AbstractArray, AbstractVectorOfArray}}` is deprecated, use `VA.u[I]` instead. │ caller = getindex at ensemble_trajectory.jl:109 [inlined] └ @ Core ~/.julia/packages/PiccoloQuantumObjects/vwXsF/src/quantum_trajectories/ensemble_trajectory.jl:109 applying timesteps_all_equal constraint: Δt constructing SmoothPulseProblem for UnitaryTrajectory... applying timesteps_all_equal constraint: Δt constructing SamplingProblem... using 2 systems constructing SmoothPulseProblem for UnitaryTrajectory... constructing SmoothPulseProblem for UnitaryTrajectory... applying timesteps_all_equal constraint: Δt initializing optimizer... building evaluator: 1 integrators, 0 nonlinear constraints dynamics constraints: 40, nonlinear constraints: 0 integrator 1 jacobian structure: 0.054s jacobian structure: 560 nonzeros (0.054s) integrator 1 hessian structure: 0.048s computing objective hessian structure (QuadraticRegularizer)... objective hessian structure: 0.086s hessian structure: 798 nonzeros (0.134s) linear index maps built (0.0s) evaluator ready (total: 0.189s) evaluator created (0.189s) NL constraint bounds extracted (0.0s) NLP block data built (0.0s) Ipopt optimizer configured (0.0s) variables set (0.115s) applying constraint: initial value of ψ̃ applying constraint: initial value of u applying constraint: final value of u applying constraint: bounds on ψ̃ applying constraint: bounds on u applying constraint: bounds on Δt applying constraint: time consistency constraint (t_{k+1} = t_k + Δt_k) applying constraint: initial time t₁ = 0 linear constraints added: 8 (2.839s) optimizer initialization complete (total: 3.143s) This is Ipopt version 3.14.19, running with linear solver MUMPS 5.8.2. Number of nonzeros in equality constraint Jacobian...: 561 Number of nonzeros in inequality constraint Jacobian.: 0 Number of nonzeros in Lagrangian Hessian.............: 715 Total number of variables............................: 70 variables with only lower bounds: 11 variables with lower and upper bounds: 49 variables with only upper bounds: 0 Total number of equality constraints.................: 50 Total number of inequality constraints...............: 0 inequality constraints with only lower bounds: 0 inequality constraints with lower and upper bounds: 0 inequality constraints with only upper bounds: 0 iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls 0 0.0000000e+00 1.00e-02 1.00e+00 0.0 0.00e+00 - 0.00e+00 0.00e+00 0 Number of Iterations....: 0 (scaled) (unscaled) Objective...............: 0.0000000000000000e+00 0.0000000000000000e+00 Dual infeasibility......: 1.0000000000000000e+00 1.0000000000000000e+00 Constraint violation....: 9.9999901000000779e-03 9.9999901000000779e-03 Variable bound violation: 0.0000000000000000e+00 0.0000000000000000e+00 Complementarity.........: 2.0000000199999999e+00 2.0000000199999999e+00 Overall NLP error.......: 1.9999000199999999e+00 1.9999000199999999e+00 Number of objective function evaluations = 1 Number of objective gradient evaluations = 1 Number of equality constraint evaluations = 1 Number of inequality constraint evaluations = 0 Number of equality constraint Jacobian evaluations = 1 Number of inequality constraint Jacobian evaluations = 0 Number of Lagrangian Hessian evaluations = 0 Total seconds in IPOPT = 12.488 EXIT: Maximum Number of Iterations Exceeded. initializing optimizer... building evaluator: 1 integrators, 0 nonlinear constraints dynamics constraints: 40, nonlinear constraints: 0 integrator 1 jacobian structure: 0.0s jacobian structure: 560 nonzeros (0.0s) integrator 1 hessian structure: 0.0s computing objective hessian structure (QuadraticRegularizer)... objective hessian structure: 0.0s hessian structure: 798 nonzeros (0.0s) linear index maps built (0.0s) evaluator ready (total: 0.001s) evaluator created (0.001s) NL constraint bounds extracted (0.0s) NLP block data built (0.0s) Ipopt optimizer configured (0.0s) variables set (0.0s) applying constraint: initial value of ψ̃ applying constraint: initial value of u applying constraint: final value of u applying constraint: bounds on ψ̃ applying constraint: bounds on u applying constraint: bounds on Δt applying constraint: time consistency constraint (t_{k+1} = t_k + Δt_k) applying constraint: initial time t₁ = 0 linear constraints added: 8 (0.0s) optimizer initialization complete (total: 0.002s) This is Ipopt version 3.14.19, running with linear solver MUMPS 5.8.2. Number of nonzeros in equality constraint Jacobian...: 561 Number of nonzeros in inequality constraint Jacobian.: 0 Number of nonzeros in Lagrangian Hessian.............: 715 Number of Iterations....: 0 Number of objective function evaluations = 0 Number of objective gradient evaluations = 1 Number of equality constraint evaluations = 0 Number of inequality constraint evaluations = 0 Number of equality constraint Jacobian evaluations = 1 Number of inequality constraint Jacobian evaluations = 0 Number of Lagrangian Hessian evaluations = 0 Total seconds in IPOPT = 0.002 EXIT: Invalid number in NLP function or derivative detected. Test Summary: | Pass Broken Total Time Package | 221 4 225 33m20.8s Testing QuantumCollocation tests passed Testing completed after 2055.7s PkgEval succeeded after 2183.95s