Package evaluation of RegularizedLeastSquares on Julia 1.13.0-DEV.974 (7bbb213719*) started at 2025-08-12T19:12:48.474 ################################################################################ # Set-up # Installing PkgEval dependencies (TestEnv)... Set-up completed after 9.61s ################################################################################ # Installation # Installing RegularizedLeastSquares... Resolving package versions... Updating `~/.julia/environments/v1.13/Project.toml` [1e9c538a] + RegularizedLeastSquares v0.16.9 Updating `~/.julia/environments/v1.13/Manifest.toml` [7d9f7c33] + Accessors v0.1.42 [79e6a3ab] + Adapt v4.3.0 [66dad0bd] + AliasTables v1.1.3 [dce04be8] + ArgCheck v2.5.0 [4fba245c] + ArrayInterface v7.19.0 [198e06fe] + BangBang v0.4.4 [9718e550] + Baselet v0.1.1 [62783981] + BitTwiddlingConvenienceFunctions v0.1.6 [2a0fbf3d] + CPUSummary v0.2.7 [f70d9fcc] + CommonWorldInvalidations v1.0.0 [34da2185] + Compat v4.18.0 [a33af91c] + CompositionsBase v0.1.2 [187b0558] + ConstructionBase v1.6.0 [6add18c4] + ContextVariablesX v0.1.3 [adafc99b] + CpuId v0.3.1 [9a962f9c] + DataAPI v1.16.0 [864edb3b] + DataStructures v0.19.0 [e2d170a0] + DataValueInterfaces v1.0.0 [244e2a9f] + DefineSingletons v0.1.2 [ffbed154] + DocStringExtensions v0.9.5 [e2ba6199] + ExprTools v0.1.10 [cc61a311] + FLoops v0.2.2 [b9860ae5] + FLoopsBase v0.1.1 [9aa1b823] + FastClosures v0.3.2 [3e5b6fbb] + HostCPUFeatures v0.1.17 [615f187c] + IfElse v0.1.1 [22cec73e] + InitialValues v0.3.1 [3587e190] + InverseFunctions v0.1.17 [92d709cd] + IrrationalConstants v0.2.4 [42fd0dbc] + IterativeSolvers v0.9.4 [82899510] + IteratorInterfaceExtensions v1.0.0 [b14d175d] + JuliaVariables v0.2.4 [10f19ff3] + LayoutPointers v0.1.17 [a4a2c56f] + LinearOperatorCollection v2.1.0 [5c8ed15e] + LinearOperators v2.10.0 [2ab3a3ac] + LogExpFunctions v0.3.29 [d8e11817] + MLStyle v0.4.17 [1914dd2f] + MacroTools v0.5.16 [d125e4d3] + ManualMemory v0.1.8 [128add7d] + MicroCollections v0.2.0 [e1d29d7a] + Missings v1.2.0 [71a1bf82] + NameResolution v0.1.5 [bac558e1] + OrderedCollections v1.8.1 [aea7be01] + PrecompileTools v1.3.2 [21216c6a] + Preferences v1.5.0 [8162dcfd] + PrettyPrint v0.2.0 [43287f4e] + PtrArrays v1.3.0 [3cdcf5f2] + RecipesBase v1.3.4 [189a3867] + Reexport v1.2.2 [1e9c538a] + RegularizedLeastSquares v0.16.9 [ae029012] + Requires v1.3.1 [94e857df] + SIMDTypes v0.1.0 [efcf1570] + Setfield v1.1.2 [a2af1166] + SortingAlgorithms v1.2.2 [171d559e] + SplittablesBase v0.1.15 [aedffcd0] + Static v1.2.0 [0d7ed370] + StaticArrayInterface v1.8.0 [1e83bf80] + StaticArraysCore v1.4.3 [10745b16] + Statistics v1.11.1 [82ae8749] + StatsAPI v1.7.1 [2913bbd2] + StatsBase v0.34.6 [3783bdb8] + TableTraits v1.0.1 [bd369af6] + Tables v1.12.1 [a759f4b9] + TimerOutputs v0.5.29 [28d57a85] + Transducers v0.4.84 [3d5dd08c] + VectorizationBase v0.21.71 [56f22d72] + Artifacts v1.11.0 [2a0f44e3] + Base64 v1.11.0 [ade2ca70] + Dates v1.11.0 [8ba89e20] + Distributed v1.11.0 [9fa8497b] + Future v1.11.0 [b77e0a4c] + InteractiveUtils v1.11.0 [ac6e5ff7] + JuliaSyntaxHighlighting v1.12.0 [8f399da3] + Libdl v1.11.0 [37e2e46d] + LinearAlgebra v1.13.0 [56ddb016] + Logging v1.11.0 [d6f4376e] + Markdown v1.11.0 [de0858da] + Printf v1.11.0 [9a3f8284] + Random v1.11.0 [ea8e919c] + SHA v0.7.0 [9e88b42a] + Serialization v1.11.0 [6462fe0b] + Sockets v1.11.0 [2f01184e] + SparseArrays v1.13.0 [f489334b] + StyledStrings v1.11.0 [fa267f1f] + TOML v1.0.3 [8dfed614] + Test v1.11.0 [cf7118a7] + UUIDs v1.11.0 [4ec0a83e] + Unicode v1.11.0 [e66e0078] + CompilerSupportLibraries_jll v1.3.0+1 [4536629a] + OpenBLAS_jll v0.3.29+0 [bea87d4a] + SuiteSparse_jll v7.10.1+0 [8e850b90] + libblastrampoline_jll v5.13.1+0 Installation completed after 4.15s ################################################################################ # Precompilation # Precompiling PkgEval dependencies... Precompiling package dependencies... Precompilation completed after 115.52s ################################################################################ # Testing # Testing RegularizedLeastSquares Status `/tmp/jl_w4WYW2/Project.toml` [7a1cc6ca] FFTW v1.9.0 [cc61a311] FLoops v0.2.2 [42fd0dbc] IterativeSolvers v0.9.4 [27aeb0d3] JLArrays v0.2.0 [a4a2c56f] LinearOperatorCollection v2.1.0 [5c8ed15e] LinearOperators v2.10.0 [1e9c538a] RegularizedLeastSquares v0.16.9 [10745b16] Statistics v1.11.1 [2913bbd2] StatsBase v0.34.6 [3d5dd08c] VectorizationBase v0.21.71 [b77e0a4c] InteractiveUtils 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_w4WYW2/Manifest.toml` [621f4979] AbstractFFTs v1.5.0 [7d9f7c33] Accessors v0.1.42 [79e6a3ab] Adapt v4.3.0 [66dad0bd] AliasTables v1.1.3 [dce04be8] ArgCheck v2.5.0 [4fba245c] ArrayInterface v7.19.0 [a9b6321e] Atomix v1.1.2 [198e06fe] BangBang v0.4.4 [9718e550] Baselet v0.1.1 [62783981] BitTwiddlingConvenienceFunctions v0.1.6 [fa961155] CEnum v0.5.0 [2a0fbf3d] CPUSummary v0.2.7 [f70d9fcc] CommonWorldInvalidations v1.0.0 [34da2185] Compat v4.18.0 [a33af91c] CompositionsBase v0.1.2 [187b0558] ConstructionBase v1.6.0 [6add18c4] ContextVariablesX v0.1.3 [adafc99b] CpuId v0.3.1 [9a962f9c] DataAPI v1.16.0 [864edb3b] DataStructures v0.19.0 [e2d170a0] DataValueInterfaces v1.0.0 [244e2a9f] DefineSingletons v0.1.2 [ffbed154] DocStringExtensions v0.9.5 [e2ba6199] ExprTools v0.1.10 [7a1cc6ca] FFTW v1.9.0 [cc61a311] FLoops v0.2.2 [b9860ae5] FLoopsBase v0.1.1 [9aa1b823] FastClosures v0.3.2 [0c68f7d7] GPUArrays v11.2.3 [46192b85] GPUArraysCore v0.2.0 [076d061b] HashArrayMappedTries v0.2.0 [3e5b6fbb] HostCPUFeatures v0.1.17 [615f187c] IfElse v0.1.1 [22cec73e] InitialValues v0.3.1 [3587e190] InverseFunctions v0.1.17 [92d709cd] IrrationalConstants v0.2.4 [42fd0dbc] IterativeSolvers v0.9.4 [82899510] IteratorInterfaceExtensions v1.0.0 [27aeb0d3] JLArrays v0.2.0 [692b3bcd] JLLWrappers v1.7.1 [b14d175d] JuliaVariables v0.2.4 [63c18a36] KernelAbstractions v0.9.38 [929cbde3] LLVM v9.4.2 [10f19ff3] LayoutPointers v0.1.17 [a4a2c56f] LinearOperatorCollection v2.1.0 [5c8ed15e] LinearOperators v2.10.0 [2ab3a3ac] LogExpFunctions v0.3.29 [d8e11817] MLStyle v0.4.17 [1914dd2f] MacroTools v0.5.16 [d125e4d3] ManualMemory v0.1.8 [128add7d] MicroCollections v0.2.0 [e1d29d7a] Missings v1.2.0 [71a1bf82] NameResolution v0.1.5 [bac558e1] OrderedCollections v1.8.1 [aea7be01] PrecompileTools v1.3.2 [21216c6a] Preferences v1.5.0 [8162dcfd] PrettyPrint v0.2.0 [43287f4e] PtrArrays v1.3.0 [3cdcf5f2] RecipesBase v1.3.4 [189a3867] Reexport v1.2.2 [1e9c538a] RegularizedLeastSquares v0.16.9 [ae029012] Requires v1.3.1 [94e857df] SIMDTypes v0.1.0 [7e506255] ScopedValues v1.4.0 [efcf1570] Setfield v1.1.2 [a2af1166] SortingAlgorithms v1.2.2 [171d559e] SplittablesBase v0.1.15 [aedffcd0] Static v1.2.0 [0d7ed370] StaticArrayInterface v1.8.0 [90137ffa] StaticArrays v1.9.14 [1e83bf80] StaticArraysCore v1.4.3 [10745b16] Statistics v1.11.1 [82ae8749] StatsAPI v1.7.1 [2913bbd2] StatsBase v0.34.6 [3783bdb8] TableTraits v1.0.1 [bd369af6] Tables v1.12.1 [a759f4b9] TimerOutputs v0.5.29 [28d57a85] Transducers v0.4.84 [013be700] UnsafeAtomics v0.3.0 [3d5dd08c] VectorizationBase v0.21.71 [f5851436] FFTW_jll v3.3.11+0 [1d5cc7b8] IntelOpenMP_jll v2025.2.0+0 [dad2f222] LLVMExtra_jll v0.0.37+2 [856f044c] MKL_jll v2025.2.0+0 [1317d2d5] oneTBB_jll v2022.0.0+0 [0dad84c5] ArgTools v1.1.2 [56f22d72] Artifacts v1.11.0 [2a0f44e3] Base64 v1.11.0 [ade2ca70] Dates v1.11.0 [8ba89e20] Distributed v1.11.0 [f43a241f] Downloads v1.7.0 [7b1f6079] FileWatching v1.11.0 [9fa8497b] Future v1.11.0 [b77e0a4c] InteractiveUtils v1.11.0 [ac6e5ff7] JuliaSyntaxHighlighting v1.12.0 [4af54fe1] LazyArtifacts v1.11.0 [b27032c2] LibCURL v0.6.4 [76f85450] LibGit2 v1.11.0 [8f399da3] Libdl v1.11.0 [37e2e46d] LinearAlgebra v1.13.0 [56ddb016] Logging v1.11.0 [d6f4376e] Markdown v1.11.0 [ca575930] NetworkOptions v1.3.0 [44cfe95a] Pkg v1.13.0 [de0858da] Printf v1.11.0 [9a3f8284] Random v1.11.0 [ea8e919c] SHA v0.7.0 [9e88b42a] Serialization v1.11.0 [6462fe0b] Sockets v1.11.0 [2f01184e] SparseArrays v1.13.0 [f489334b] StyledStrings v1.11.0 [fa267f1f] TOML v1.0.3 [a4e569a6] Tar v1.10.0 [8dfed614] Test v1.11.0 [cf7118a7] UUIDs v1.11.0 [4ec0a83e] Unicode v1.11.0 [e66e0078] CompilerSupportLibraries_jll v1.3.0+1 [deac9b47] LibCURL_jll v8.15.0+1 [e37daf67] LibGit2_jll v1.9.1+0 [29816b5a] LibSSH2_jll v1.11.3+1 [14a3606d] MozillaCACerts_jll v2025.7.15 [4536629a] OpenBLAS_jll v0.3.29+0 [458c3c95] OpenSSL_jll v3.5.2+0 [efcefdf7] PCRE2_jll v10.45.0+0 [bea87d4a] SuiteSparse_jll v7.10.1+0 [83775a58] Zlib_jll v1.3.1+2 [3161d3a3] Zstd_jll v1.5.7+1 [8e850b90] libblastrampoline_jll v5.13.1+0 [8e850ede] nghttp2_jll v1.65.0+0 [3f19e933] p7zip_jll v17.5.0+2 Testing Running tests... Precompiling packages... 3348.0 ms ✓ LinearOperatorCollection → LinearOperatorFFTWExt 1 dependency successfully precompiled in 4 seconds. 47 already precompiled. Precompiling packages... Info Given JLArrays was explicitly requested, output will be shown live  WARNING: Constructor for type "BroadcastStyle" was extended in `JLArrays` without explicit qualification or import.  NOTE: Assumed "BroadcastStyle" refers to `Broadcast.BroadcastStyle`. This behavior is deprecated and may differ in future versions.  NOTE: This behavior may have differed in Julia versions prior to 1.12.  Hint: If you intended to create a new generic function of the same name, use `function BroadcastStyle end`.  Hint: To silence the warning, qualify `BroadcastStyle` as `Broadcast.BroadcastStyle` in the method signature or explicitly `import Broadcast: BroadcastStyle`. 9554.3 ms ✓ JLArrays 1 dependency successfully precompiled in 10 seconds. 54 already precompiled. 1 dependency had output during precompilation: ┌ JLArrays │ [Output was shown above] └ Precompiling packages... 2623.8 ms ✓ StaticArrayInterface → StaticArrayInterfaceStaticArraysExt 1 dependency successfully precompiled in 4 seconds. 20 already precompiled. Precompiling packages... 2661.2 ms ✓ Transducers → TransducersAdaptExt 1 dependency successfully precompiled in 3 seconds. 44 already precompiled. Precompiling packages... 3311.0 ms ✓ KernelAbstractions → SparseArraysExt 1 dependency successfully precompiled in 4 seconds. 29 already precompiled. Precompiling packages... 12335.3 ms ✓ LinearOperatorCollection → LinearOperatorGPUArraysExt 1 dependency successfully precompiled in 13 seconds. 64 already precompiled. Precompiling packages... 7762.0 ms ✓ LinearOperators → LinearOperatorsJLArraysExt 1 dependency successfully precompiled in 8 seconds. 64 already precompiled. WARNING: llvmcall with integer pointers is deprecated. Use actual pointers instead, replacing i32 or i64 with i8* or ptr in kaczmarz_update!(LinearAlgebra.Transpose{Base.Complex{Float32}, S}, V, Integer, Base.Complex{Float32}) where {S<:DenseArray{Base.Complex{Float32}, 2}, V<:DenseArray{Base.Complex{Float32}, 1}} at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/src/Kaczmarz.jl WARNING: llvmcall with integer pointers is deprecated. Use actual pointers instead, replacing i32 or i64 with i8* or ptr in kaczmarz_update!(LinearAlgebra.Transpose{Base.Complex{Float64}, S}, V, Integer, Base.Complex{Float64}) where {S<:DenseArray{Base.Complex{Float64}, 2}, V<:DenseArray{Base.Complex{Float64}, 1}} at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/src/Kaczmarz.jl test Kaczmarz update Float32: Error During Test at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testKaczmarz.jl:8 Got exception outside of a @test MethodError: kaczmarz_update!(::Transpose{Float32, JLArray{Float32, 2}}, ::JLArray{Float32, 1}, ::Int64, ::Float32) is ambiguous. Candidates: kaczmarz_update!(B::Transpose{T, S}, x::vecT, row, beta) where {T, S<:(GPUArraysCore.AbstractGPUArray{T}), vecT<:GPUArraysCore.AbstractGPUVector{T}} @ RegularizedLeastSquaresGPUArraysExt ~/.julia/packages/RegularizedLeastSquares/cuewt/ext/RegularizedLeastSquaresGPUArraysExt/Kaczmarz.jl:12 kaczmarz_update!(B::Transpose{T, S}, x::V, k::Integer, beta) where {T, S<:(DenseMatrix), V<:(DenseVector)} @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/Kaczmarz.jl:439 Possible fix, define kaczmarz_update!(::Transpose{T, S}, ::V, ::Integer, ::Any) where {T, S<:GPUArraysCore.AbstractGPUMatrix{T}, V<:GPUArraysCore.AbstractGPUVector{T}} Stacktrace: [1] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testKaczmarz.jl:20 [inlined] [2] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [3] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testKaczmarz.jl:10 [inlined] [4] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [5] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testKaczmarz.jl:7 [inlined] [6] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [7] top-level scope @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testKaczmarz.jl:4 [8] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [9] top-level scope @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/runtests.jl:11 [10] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [11] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/runtests.jl:12 [inlined] [12] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [13] top-level scope @ none:6 [14] eval(m::Module, e::Any) @ Core ./boot.jl:489 [15] exec_options(opts::Base.JLOptions) @ Base ./client.jl:286 [16] _start() @ Base ./client.jl:553 test Kaczmarz update Float64: Error During Test at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testKaczmarz.jl:8 Got exception outside of a @test MethodError: kaczmarz_update!(::Transpose{Float64, JLArray{Float64, 2}}, ::JLArray{Float64, 1}, ::Int64, ::Float64) is ambiguous. Candidates: kaczmarz_update!(B::Transpose{T, S}, x::vecT, row, beta) where {T, S<:(GPUArraysCore.AbstractGPUArray{T}), vecT<:GPUArraysCore.AbstractGPUVector{T}} @ RegularizedLeastSquaresGPUArraysExt ~/.julia/packages/RegularizedLeastSquares/cuewt/ext/RegularizedLeastSquaresGPUArraysExt/Kaczmarz.jl:12 kaczmarz_update!(B::Transpose{T, S}, x::V, k::Integer, beta) where {T, S<:(DenseMatrix), V<:(DenseVector)} @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/Kaczmarz.jl:439 Possible fix, define kaczmarz_update!(::Transpose{T, S}, ::V, ::Integer, ::Any) where {T, S<:GPUArraysCore.AbstractGPUMatrix{T}, V<:GPUArraysCore.AbstractGPUVector{T}} Stacktrace: [1] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testKaczmarz.jl:20 [inlined] [2] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [3] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testKaczmarz.jl:10 [inlined] [4] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [5] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testKaczmarz.jl:7 [inlined] [6] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [7] top-level scope @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testKaczmarz.jl:4 [8] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [9] top-level scope @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/runtests.jl:11 [10] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [11] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/runtests.jl:12 [inlined] [12] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [13] top-level scope @ none:6 [14] eval(m::Module, e::Any) @ Core ./boot.jl:489 [15] exec_options(opts::Base.JLOptions) @ Base ./client.jl:286 [16] _start() @ Base ./client.jl:553 test Kaczmarz update ComplexF32: Error During Test at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testKaczmarz.jl:8 Got exception outside of a @test MethodError: kaczmarz_update!(::Transpose{ComplexF32, JLArray{ComplexF32, 2}}, ::JLArray{ComplexF32, 1}, ::Int64, ::ComplexF32) is ambiguous. Candidates: kaczmarz_update!(B::Transpose{T, S}, x::vecT, row, beta) where {T, S<:(GPUArraysCore.AbstractGPUArray{T}), vecT<:GPUArraysCore.AbstractGPUVector{T}} @ RegularizedLeastSquaresGPUArraysExt ~/.julia/packages/RegularizedLeastSquares/cuewt/ext/RegularizedLeastSquaresGPUArraysExt/Kaczmarz.jl:12 kaczmarz_update!(A::Transpose{ComplexF32, S}, b::V, k::Integer, beta::ComplexF32) where {S<:DenseMatrix{ComplexF32}, V<:DenseVector{ComplexF32}} @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/Kaczmarz.jl:459 Possible fix, define kaczmarz_update!(::Transpose{ComplexF32, S}, ::V, ::Integer, ::ComplexF32) where {S<:GPUArraysCore.AbstractGPUMatrix{ComplexF32}, V<:GPUArraysCore.AbstractGPUVector{ComplexF32}} Stacktrace: [1] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testKaczmarz.jl:20 [inlined] [2] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [3] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testKaczmarz.jl:10 [inlined] [4] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [5] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testKaczmarz.jl:7 [inlined] [6] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [7] top-level scope @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testKaczmarz.jl:4 [8] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [9] top-level scope @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/runtests.jl:11 [10] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [11] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/runtests.jl:12 [inlined] [12] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [13] top-level scope @ none:6 [14] eval(m::Module, e::Any) @ Core ./boot.jl:489 [15] exec_options(opts::Base.JLOptions) @ Base ./client.jl:286 [16] _start() @ Base ./client.jl:553 test Kaczmarz update ComplexF64: Error During Test at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testKaczmarz.jl:8 Got exception outside of a @test MethodError: kaczmarz_update!(::Transpose{ComplexF64, JLArray{ComplexF64, 2}}, ::JLArray{ComplexF64, 1}, ::Int64, ::ComplexF64) is ambiguous. Candidates: kaczmarz_update!(B::Transpose{T, S}, x::vecT, row, beta) where {T, S<:(GPUArraysCore.AbstractGPUArray{T}), vecT<:GPUArraysCore.AbstractGPUVector{T}} @ RegularizedLeastSquaresGPUArraysExt ~/.julia/packages/RegularizedLeastSquares/cuewt/ext/RegularizedLeastSquaresGPUArraysExt/Kaczmarz.jl:12 kaczmarz_update!(A::Transpose{ComplexF64, S}, b::V, k::Integer, beta::ComplexF64) where {S<:DenseMatrix{ComplexF64}, V<:DenseVector{ComplexF64}} @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/Kaczmarz.jl:459 Possible fix, define kaczmarz_update!(::Transpose{ComplexF64, S}, ::V, ::Integer, ::ComplexF64) where {S<:GPUArraysCore.AbstractGPUMatrix{ComplexF64}, V<:GPUArraysCore.AbstractGPUVector{ComplexF64}} Stacktrace: [1] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testKaczmarz.jl:20 [inlined] [2] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [3] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testKaczmarz.jl:10 [inlined] [4] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [5] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testKaczmarz.jl:7 [inlined] [6] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [7] top-level scope @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testKaczmarz.jl:4 [8] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [9] top-level scope @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/runtests.jl:11 [10] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [11] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/runtests.jl:12 [inlined] [12] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [13] top-level scope @ none:6 [14] eval(m::Module, e::Any) @ Core ./boot.jl:489 [15] exec_options(opts::Base.JLOptions) @ Base ./client.jl:286 [16] _start() @ Base ./client.jl:553 Kaczmarz Tikhonov matrix: Error During Test at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testKaczmarz.jl:39 Got exception outside of a @test MethodError: dot_with_matrix_row(::Transpose{ComplexF64, JLArray{ComplexF64, 2}}, ::JLArray{ComplexF64, 1}, ::Int64) is ambiguous. Candidates: dot_with_matrix_row(B::Transpose{T, S}, x::GPUArraysCore.AbstractGPUVector{T}, k::Int64) where {T, S<:GPUArraysCore.AbstractGPUArray} @ RegularizedLeastSquaresGPUArraysExt ~/.julia/packages/RegularizedLeastSquares/cuewt/ext/RegularizedLeastSquaresGPUArraysExt/Utils.jl:42 dot_with_matrix_row(B::Transpose{T, S}, x::V, k::Int64) where {T<:Complex, S<:DenseMatrix{T}, V<:DenseVector{T}} @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/Utils.jl:64 Possible fix, define dot_with_matrix_row(::Transpose{T, S}, ::V, ::Int64) where {T<:Complex, S<:GPUArraysCore.AbstractGPUMatrix{T}, V<:GPUArraysCore.AbstractGPUVector{T}} Stacktrace: [1] iterate_row_index(solver::Kaczmarz{Transpose{ComplexF64, JLArray{ComplexF64, 2}}, L2Regularization{JLArray{Float64, 1}}, Float64, AbstractRegularization}, state::RegularizedLeastSquares.KaczmarzState{ComplexF64, JLArray{ComplexF64, 1}}, A::Transpose{ComplexF64, JLArray{ComplexF64, 2}}, row::Int64, index::Int64) @ RegularizedLeastSquaresGPUArraysExt ~/.julia/packages/RegularizedLeastSquares/cuewt/ext/RegularizedLeastSquaresGPUArraysExt/Kaczmarz.jl:2 [2] iterate(solver::Kaczmarz{Transpose{ComplexF64, JLArray{ComplexF64, 2}}, L2Regularization{JLArray{Float64, 1}}, Float64, AbstractRegularization}, state::RegularizedLeastSquares.KaczmarzState{ComplexF64, JLArray{ComplexF64, 1}}) @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/Kaczmarz.jl:263 [3] iterate(solver::Kaczmarz{Transpose{ComplexF64, JLArray{ComplexF64, 2}}, L2Regularization{JLArray{Float64, 1}}, Float64, AbstractRegularization}) @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/RegularizedLeastSquares.jl:190 [4] iterate @ ./iterators.jl:197 [inlined] [5] iterate @ ./iterators.jl:196 [inlined] [6] solve!(solver::Kaczmarz{Transpose{ComplexF64, JLArray{ComplexF64, 2}}, L2Regularization{JLArray{Float64, 1}}, Float64, AbstractRegularization}, b::JLArray{ComplexF64, 1}; callbacks::Function, kwargs::@Kwargs{}) @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/RegularizedLeastSquares.jl:111 [7] solve!(solver::Kaczmarz{Transpose{ComplexF64, JLArray{ComplexF64, 2}}, L2Regularization{JLArray{Float64, 1}}, Float64, AbstractRegularization}, b::JLArray{ComplexF64, 1}) @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/RegularizedLeastSquares.jl:102 [8] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testKaczmarz.jl:54 [inlined] [9] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [10] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testKaczmarz.jl:41 [inlined] [11] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [12] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testKaczmarz.jl:7 [inlined] [13] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [14] top-level scope @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testKaczmarz.jl:4 [15] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [16] top-level scope @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/runtests.jl:11 [17] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [18] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/runtests.jl:12 [inlined] [19] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [20] top-level scope @ none:6 [21] eval(m::Module, e::Any) @ Core ./boot.jl:489 [22] exec_options(opts::Base.JLOptions) @ Base ./client.jl:286 [23] _start() @ Base ./client.jl:553 [ Info: test L2-regularization [ Info: test L1-regularization [ Info: rel. L1 error : 0.0011220302195384059 vs 0.003914031436659023 [ Info: test L21-regularization [ Info: rel. L21 error : 0.0007747499587714187 vs 0.0030929973567180307 [ Info: test TV-regularization [ Info: rel. TV error : 0.010261963087016573 vs 0.04127503586682324 [ Info: test positivity-constraint [ Info: test realness-constraint [ Info: test nuclear norm regularization [ Info: rel. LR error : 0.01932675905926398 vs 0.0386903818350639 [ Info: test LLR regularization [ Info: rel. LLR error : 0.005295573043008795 vs 0.013467979891480759 [ Info: test Overlapping LLR regularization [ Info: rel. LLR error : 0.006647729244959813 vs 0.013467979891480759 [ Info: test LLR 3D regularization [ Info: rel. LLR 3D error : 0.004034859176560987 vs 0.013379388874147137 [ Info: test L2-regularization [ Info: test L1-regularization [ Info: rel. L1 error : 0.0011220302195384059 vs 0.003914031436659023 [ Info: test L21-regularization L21 Prox: Error During Test at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:303 Got exception outside of a @test This kernel is unavailable for backend CPU Stacktrace: [1] error(s::String) @ Base ./error.jl:44 [2] (::RegularizedLeastSquaresGPUArraysExt.var"#_proxL21_kernel#_proxL21_kernel##0"{RegularizedLeastSquaresGPUArraysExt.var"#gpu_proxL21_kernel#gpu_proxL21_kernel##0"})(dev::JLBackend, sz::KernelAbstractions.NDIteration.DynamicSize, range::KernelAbstractions.NDIteration.DynamicSize) @ RegularizedLeastSquaresGPUArraysExt ~/.julia/packages/KernelAbstractions/lGrz7/src/macros.jl:63 [3] (::RegularizedLeastSquaresGPUArraysExt.var"#proxL21_kernel#proxL21_kernel##0"{RegularizedLeastSquaresGPUArraysExt.var"#_proxL21_kernel#_proxL21_kernel##0"{RegularizedLeastSquaresGPUArraysExt.var"#gpu_proxL21_kernel#gpu_proxL21_kernel##0"}})(dev::JLBackend) @ RegularizedLeastSquaresGPUArraysExt ~/.julia/packages/KernelAbstractions/lGrz7/src/macros.jl:67 [4] proxL21!(x::JLArray{ComplexF64, 1}, λ::Float64, slices::Int64) @ RegularizedLeastSquaresGPUArraysExt ~/.julia/packages/RegularizedLeastSquares/cuewt/ext/RegularizedLeastSquaresGPUArraysExt/ProxL21.jl:9 [5] prox!(reg::L21Regularization{Float64}, x::JLArray{ComplexF64, 1}, λ::Float64) @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/proximalMaps/ProxL21.jl:27 [6] prox!(regType::Type{L21Regularization}, x::JLArray{ComplexF64, 1}, λ::Float64; kwargs::@Kwargs{slices::Int64}) @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/Regularization/Regularization.jl:39 [7] kwcall(::@NamedTuple{slices::Int64}, ::typeof(prox!), regType::Type{L21Regularization}, x::JLArray{ComplexF64, 1}, λ::Float64) @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/Regularization/Regularization.jl:39 [8] testL21Prox(N::Int64; numPeaks::Int64, numSlices::Int64, noisySlices::Int64, σ::Float64, arrayType::Type{JLArray}) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:62 [9] kwcall(::@NamedTuple{arrayType::UnionAll}, ::typeof(testL21Prox), N::Int64) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:44 [10] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [11] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:303 [inlined] [12] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [13] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:301 [inlined] [14] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [15] top-level scope @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:299 [16] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [17] top-level scope @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/runtests.jl:11 [18] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [19] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/runtests.jl:13 [inlined] [20] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [21] top-level scope @ none:6 [22] eval(m::Module, e::Any) @ Core ./boot.jl:489 [23] exec_options(opts::Base.JLOptions) @ Base ./client.jl:286 [24] _start() @ Base ./client.jl:553 [ Info: test TV-regularization TV Prox: Error During Test at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:304 Got exception outside of a @test This kernel is unavailable for backend CPU Stacktrace: [1] error(s::String) @ Base ./error.jl:44 [2] _grad_t_kernel_1!(dev::JLBackend, sz::KernelAbstractions.NDIteration.DynamicSize, range::KernelAbstractions.NDIteration.DynamicSize) @ LinearOperatorGPUArraysExt ~/.julia/packages/KernelAbstractions/lGrz7/src/macros.jl:63 [3] grad_t_kernel_1!(dev::JLBackend) @ LinearOperatorGPUArraysExt ~/.julia/packages/KernelAbstractions/lGrz7/src/macros.jl:67 [4] grad_t!(res::JLArray{ComplexF64, 1}, g::JLArray{ComplexF64, 1}, shape::Tuple{Int64, Int64}, dirs::Vector{CartesianIndex{2}}, dims::UnitRange{Int64}, dim_ends::Vector{Int64}, tmp::JLArray{ComplexF64, 1}) @ LinearOperatorGPUArraysExt ~/.julia/packages/LinearOperatorCollection/qbON0/ext/LinearOperatorGPUArraysExt/GradientOp.jl:53 [5] (::LinearOperatorCollection.var"#27#28"{Tuple{Int64, Int64}, UnitRange{Int64}, JLArray{ComplexF64, 1}, Vector{Int64}, Vector{CartesianIndex{2}}})(res::JLArray{ComplexF64, 1}, x::JLArray{ComplexF64, 1}) @ LinearOperatorCollection ~/.julia/packages/LinearOperatorCollection/qbON0/src/GradientOp.jl:39 [6] prod3!(res::JLArray{ComplexF64, 1}, prod!::LinearOperatorCollection.var"#27#28"{Tuple{Int64, Int64}, UnitRange{Int64}, JLArray{ComplexF64, 1}, Vector{Int64}, Vector{CartesianIndex{2}}}, v::JLArray{ComplexF64, 1}, α::Float64, β::Int64, Mv5::JLArray{ComplexF64, 1}) @ LinearOperators ~/.julia/packages/LinearOperators/Xuihm/src/operations.jl:17 [7] mul!(res::JLArray{ComplexF64, 1}, op::TransposeLinearOperator{ComplexF64, LinearOperator{ComplexF64, Int64, LinearOperatorCollection.var"#25#26"{Tuple{Int64, Int64}, UnitRange{Int64}, Vector{Int64}, Vector{CartesianIndex{2}}}, LinearOperatorCollection.var"#27#28"{Tuple{Int64, Int64}, UnitRange{Int64}, JLArray{ComplexF64, 1}, Vector{Int64}, Vector{CartesianIndex{2}}}, LinearOperatorCollection.var"#29#30"{Tuple{Int64, Int64}, UnitRange{Int64}, JLArray{ComplexF64, 1}, Vector{Int64}, Vector{CartesianIndex{2}}}, JLArray{ComplexF64, 1}}}, v::JLArray{ComplexF64, 1}, α::Float64, β::Int64) @ LinearOperators ~/.julia/packages/LinearOperators/Xuihm/src/adjtrans.jl:183 [8] proxTV!(x::JLArray{ComplexF64, 1}, λ::Float64, p::RegularizedLeastSquares.TVParams{ComplexF64, JLArray{ComplexF64, 1}, LinearOperator{ComplexF64, Int64, LinearOperatorCollection.var"#25#26"{Tuple{Int64, Int64}, UnitRange{Int64}, Vector{Int64}, Vector{CartesianIndex{2}}}, LinearOperatorCollection.var"#27#28"{Tuple{Int64, Int64}, UnitRange{Int64}, JLArray{ComplexF64, 1}, Vector{Int64}, Vector{CartesianIndex{2}}}, LinearOperatorCollection.var"#29#30"{Tuple{Int64, Int64}, UnitRange{Int64}, JLArray{ComplexF64, 1}, Vector{Int64}, Vector{CartesianIndex{2}}}, JLArray{ComplexF64, 1}}}; iterationsTV::Int64, kwargs::@Kwargs{}) @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/proximalMaps/ProxTV.jl:108 [9] kwcall(::@NamedTuple{iterationsTV::Int64}, ::typeof(RegularizedLeastSquares.proxTV!), x::JLArray{ComplexF64, 1}, λ::Float64, p::RegularizedLeastSquares.TVParams{ComplexF64, JLArray{ComplexF64, 1}, LinearOperator{ComplexF64, Int64, LinearOperatorCollection.var"#25#26"{Tuple{Int64, Int64}, UnitRange{Int64}, Vector{Int64}, Vector{CartesianIndex{2}}}, LinearOperatorCollection.var"#27#28"{Tuple{Int64, Int64}, UnitRange{Int64}, JLArray{ComplexF64, 1}, Vector{Int64}, Vector{CartesianIndex{2}}}, LinearOperatorCollection.var"#29#30"{Tuple{Int64, Int64}, UnitRange{Int64}, JLArray{ComplexF64, 1}, Vector{Int64}, Vector{CartesianIndex{2}}}, JLArray{ComplexF64, 1}}}) @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/proximalMaps/ProxTV.jl:89 [10] proxTV!(reg::TVRegularization{Float64, 2, Int64}, x::JLArray{ComplexF64, 1}, λ::Float64, shape::Tuple{Int64, Int64}, dims::UnitRange{Int64}; iterationsTV::Int64, kwargs::@Kwargs{}) @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/proximalMaps/ProxTV.jl:86 [11] proxTV! @ ~/.julia/packages/RegularizedLeastSquares/cuewt/src/proximalMaps/ProxTV.jl:82 [inlined] [12] proxTV!(reg::TVRegularization{Float64, 2, Int64}, x::JLArray{ComplexF64, 1}, λ::Float64; shape::Tuple{Int64, Int64}, dims::UnitRange{Int64}, kwargs::@Kwargs{iterationsTV::Int64}) @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/proximalMaps/ProxTV.jl:67 [13] kwcall(::@NamedTuple{shape::Tuple{Int64, Int64}, dims::UnitRange{Int64}, iterationsTV::Int64}, ::typeof(RegularizedLeastSquares.proxTV!), reg::TVRegularization{Float64, 2, Int64}, x::JLArray{ComplexF64, 1}, λ::Float64) @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/proximalMaps/ProxTV.jl:66 [14] prox!(reg::TVRegularization{Float64, 2, Int64}, x::JLArray{ComplexF64, 1}, λ::Float64) @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/proximalMaps/ProxTV.jl:64 [15] prox! @ ~/.julia/packages/RegularizedLeastSquares/cuewt/src/Regularization/Regularization.jl:39 [inlined] [16] testTVprox(N::Int64; numEdges::Int64, σ::Float64, arrayType::Type{JLArray}) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:94 [17] kwcall(::@NamedTuple{arrayType::UnionAll}, ::typeof(testTVprox), N::Int64) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:75 [18] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [19] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:304 [inlined] [20] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [21] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:301 [inlined] [22] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [23] top-level scope @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:299 [24] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [25] top-level scope @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/runtests.jl:11 [26] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [27] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/runtests.jl:13 [inlined] [28] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [29] top-level scope @ none:6 [30] eval(m::Module, e::Any) @ Core ./boot.jl:489 [31] exec_options(opts::Base.JLOptions) @ Base ./client.jl:286 [32] _start() @ Base ./client.jl:553 TV Prox Directional: Error During Test at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:305 Got exception outside of a @test This kernel is unavailable for backend CPU Stacktrace: [1] error(s::String) @ Base ./error.jl:44 [2] _grad_t_kernel_1!(dev::JLBackend, sz::KernelAbstractions.NDIteration.DynamicSize, range::KernelAbstractions.NDIteration.DynamicSize) @ LinearOperatorGPUArraysExt ~/.julia/packages/KernelAbstractions/lGrz7/src/macros.jl:63 [3] grad_t_kernel_1!(dev::JLBackend) @ LinearOperatorGPUArraysExt ~/.julia/packages/KernelAbstractions/lGrz7/src/macros.jl:67 [4] grad_t!(res::JLArray{ComplexF64, 1}, g::JLArray{ComplexF64, 1}, shape::Tuple{Int64, Int64}, di::CartesianIndex{2}) @ LinearOperatorGPUArraysExt ~/.julia/packages/LinearOperatorCollection/qbON0/ext/LinearOperatorGPUArraysExt/GradientOp.jl:27 [5] #37 @ ~/.julia/packages/LinearOperatorCollection/qbON0/src/GradientOp.jl:53 [inlined] [6] prod3!(res::JLArray{ComplexF64, 1}, prod!::LinearOperatorCollection.var"#37#38"{Tuple{Int64, Int64}, CartesianIndex{2}}, v::JLArray{ComplexF64, 1}, α::Float64, β::Int64, Mv5::JLArray{ComplexF64, 1}) @ LinearOperators ~/.julia/packages/LinearOperators/Xuihm/src/operations.jl:17 [7] mul!(res::JLArray{ComplexF64, 1}, op::TransposeLinearOperator{ComplexF64, LinearOperator{ComplexF64, Int64, LinearOperatorCollection.var"#35#36"{Tuple{Int64, Int64}, CartesianIndex{2}}, LinearOperatorCollection.var"#37#38"{Tuple{Int64, Int64}, CartesianIndex{2}}, LinearOperatorCollection.var"#39#40"{Tuple{Int64, Int64}, CartesianIndex{2}}, JLArray{ComplexF64, 1}}}, v::JLArray{ComplexF64, 1}, α::Float64, β::Int64) @ LinearOperators ~/.julia/packages/LinearOperators/Xuihm/src/adjtrans.jl:183 [8] proxTV!(x::JLArray{ComplexF64, 1}, λ::Float64, p::RegularizedLeastSquares.TVParams{ComplexF64, JLArray{ComplexF64, 1}, LinearOperator{ComplexF64, Int64, LinearOperatorCollection.var"#35#36"{Tuple{Int64, Int64}, CartesianIndex{2}}, LinearOperatorCollection.var"#37#38"{Tuple{Int64, Int64}, CartesianIndex{2}}, LinearOperatorCollection.var"#39#40"{Tuple{Int64, Int64}, CartesianIndex{2}}, JLArray{ComplexF64, 1}}}; iterationsTV::Int64, kwargs::@Kwargs{}) @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/proximalMaps/ProxTV.jl:108 [9] kwcall(::@NamedTuple{iterationsTV::Int64}, ::typeof(RegularizedLeastSquares.proxTV!), x::JLArray{ComplexF64, 1}, λ::Float64, p::RegularizedLeastSquares.TVParams{ComplexF64, JLArray{ComplexF64, 1}, LinearOperator{ComplexF64, Int64, LinearOperatorCollection.var"#35#36"{Tuple{Int64, Int64}, CartesianIndex{2}}, LinearOperatorCollection.var"#37#38"{Tuple{Int64, Int64}, CartesianIndex{2}}, LinearOperatorCollection.var"#39#40"{Tuple{Int64, Int64}, CartesianIndex{2}}, JLArray{ComplexF64, 1}}}) @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/proximalMaps/ProxTV.jl:89 [10] proxTV!(reg::TVRegularization{Float64, 2, Int64}, x::JLArray{ComplexF64, 1}, λ::Float64, shape::Tuple{Int64, Int64}, dims::Int64; iterationsTV::Int64, kwargs::@Kwargs{}) @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/proximalMaps/ProxTV.jl:86 [11] proxTV! @ ~/.julia/packages/RegularizedLeastSquares/cuewt/src/proximalMaps/ProxTV.jl:82 [inlined] [12] proxTV!(reg::TVRegularization{Float64, 2, Int64}, x::JLArray{ComplexF64, 1}, λ::Float64; shape::Tuple{Int64, Int64}, dims::Int64, kwargs::@Kwargs{iterationsTV::Int64}) @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/proximalMaps/ProxTV.jl:67 [13] kwcall(::@NamedTuple{shape::Tuple{Int64, Int64}, dims::Int64, iterationsTV::Int64}, ::typeof(RegularizedLeastSquares.proxTV!), reg::TVRegularization{Float64, 2, Int64}, x::JLArray{ComplexF64, 1}, λ::Float64) @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/proximalMaps/ProxTV.jl:66 [14] prox!(reg::TVRegularization{Float64, 2, Int64}, x::JLArray{ComplexF64, 1}, λ::Float64) @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/proximalMaps/ProxTV.jl:64 [15] kwcall(::@NamedTuple{shape::Tuple{Int64, Int64}, dims::Int64}, ::typeof(prox!), regType::Type{TVRegularization}, x::JLArray{ComplexF64, 1}, λ::Float64) @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/Regularization/Regularization.jl:39 [16] testDirectionalTVprox(N::Int64; numEdges::Int64, σ::Float64, T::Type, arrayType::Type{JLArray}) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:118 [17] kwcall(::@NamedTuple{arrayType::UnionAll}, ::typeof(testDirectionalTVprox), N::Int64) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:106 [18] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [19] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:305 [inlined] [20] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [21] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:301 [inlined] [22] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [23] top-level scope @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:299 [24] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [25] top-level scope @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/runtests.jl:11 [26] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [27] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/runtests.jl:13 [inlined] [28] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [29] top-level scope @ none:6 [30] eval(m::Module, e::Any) @ Core ./boot.jl:489 [31] exec_options(opts::Base.JLOptions) @ Base ./client.jl:286 [32] _start() @ Base ./client.jl:553 [ Info: test positivity-constraint [ Info: test realness-constraint [ Info: test nuclear norm regularization Nuclear Prox: Error During Test at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:309 Got exception outside of a @test Scalar indexing is disallowed. Invocation of getindex resulted in scalar indexing of a GPU array. This is typically caused by calling an iterating implementation of a method. Such implementations *do not* execute on the GPU, but very slowly on the CPU, and therefore should be avoided. If you want to allow scalar iteration, use `allowscalar` or `@allowscalar` to enable scalar iteration globally or for the operations in question. Stacktrace: [1] error(s::String) @ Base ./error.jl:44 [2] errorscalar(op::String) @ GPUArraysCore ~/.julia/packages/GPUArraysCore/aNaXo/src/GPUArraysCore.jl:151 [3] _assertscalar(op::String, behavior::GPUArraysCore.ScalarIndexing) @ GPUArraysCore ~/.julia/packages/GPUArraysCore/aNaXo/src/GPUArraysCore.jl:124 [4] assertscalar(op::String) @ GPUArraysCore ~/.julia/packages/GPUArraysCore/aNaXo/src/GPUArraysCore.jl:112 [5] getindex @ ~/.julia/packages/GPUArrays/u6tui/src/host/indexing.jl:50 [inlined] [6] _count_svdvals(S::JLArray{Float64, 1}, atol::Int64, rtol::Int64) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.13/LinearAlgebra/src/svd.jl:137 [7] svd!(A::JLArray{ComplexF64, 2}; full::Bool, alg::LinearAlgebra.DivideAndConquer, atol::Int64, rtol::Int64) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.13/LinearAlgebra/src/svd.jl:107 [8] svd! @ /opt/julia/share/julia/stdlib/v1.13/LinearAlgebra/src/svd.jl:100 [inlined] [9] #svd#122 @ /opt/julia/share/julia/stdlib/v1.13/LinearAlgebra/src/svd.jl:194 [inlined] [10] svd(A::JLArray{ComplexF64, 2}) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.13/LinearAlgebra/src/svd.jl:193 [11] prox!(reg::NuclearRegularization{Float64}, x::JLArray{ComplexF64, 1}, λ::Float64) @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/proximalMaps/ProxNuclear.jl:27 [12] prox! @ ~/.julia/packages/RegularizedLeastSquares/cuewt/src/Regularization/Regularization.jl:39 [inlined] [13] testNuclear(N::Int64, rank::Int64; σ::Float64, arrayType::Type{JLArray}) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:186 [14] kwcall(::@NamedTuple{arrayType::UnionAll}, ::typeof(testNuclear), N::Int64, rank::Int64) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:167 [15] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [16] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:309 [inlined] [17] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [18] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:301 [inlined] [19] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [20] top-level scope @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:299 [21] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [22] top-level scope @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/runtests.jl:11 [23] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [24] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/runtests.jl:13 [inlined] [25] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [26] top-level scope @ none:6 [27] eval(m::Module, e::Any) @ Core ./boot.jl:489 [28] exec_options(opts::Base.JLOptions) @ Base ./client.jl:286 [29] _start() @ Base ./client.jl:553 [ Info: test LLR regularization LLR Prox: JLArray: Error During Test at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:310 Got exception outside of a @test Scalar indexing is disallowed. Invocation of getindex resulted in scalar indexing of a GPU array. This is typically caused by calling an iterating implementation of a method. Such implementations *do not* execute on the GPU, but very slowly on the CPU, and therefore should be avoided. If you want to allow scalar iteration, use `allowscalar` or `@allowscalar` to enable scalar iteration globally or for the operations in question. Stacktrace: [1] error(s::String) @ Base ./error.jl:44 [2] errorscalar(op::String) @ GPUArraysCore ~/.julia/packages/GPUArraysCore/aNaXo/src/GPUArraysCore.jl:151 [3] _assertscalar(op::String, behavior::GPUArraysCore.ScalarIndexing) @ GPUArraysCore ~/.julia/packages/GPUArraysCore/aNaXo/src/GPUArraysCore.jl:124 [4] assertscalar(op::String) @ GPUArraysCore ~/.julia/packages/GPUArraysCore/aNaXo/src/GPUArraysCore.jl:112 [5] getindex @ ~/.julia/packages/GPUArrays/u6tui/src/host/indexing.jl:50 [inlined] [6] _count_svdvals(S::JLArray{Float64, 1}, atol::Int64, rtol::Int64) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.13/LinearAlgebra/src/svd.jl:137 [7] svd!(A::JLArray{ComplexF64, 2}; full::Bool, alg::LinearAlgebra.DivideAndConquer, atol::Int64, rtol::Int64) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.13/LinearAlgebra/src/svd.jl:107 [8] svd! @ /opt/julia/share/julia/stdlib/v1.13/LinearAlgebra/src/svd.jl:100 [inlined] [9] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/src/proximalMaps/ProxLLR.jl:81 [inlined] [10] #reducing_function#285#proxLLRNonOverlapping!##3 @ ~/.julia/packages/FLoops/GN1Bm/src/reduce.jl:817 [inlined] [11] (::InitialValues.AdjoinIdentity{RegularizedLeastSquares.var"##reducing_function#285#proxLLRNonOverlapping!##3"{Float64, Int64, CartesianIndices{2, Tuple{Base.OneTo{Int64}, Base.OneTo{Int64}}}, Tuple{Int64, Int64}, Vector{JLArray{ComplexF64, 2}}, JLArray{ComplexF64, 3}}})(x::Tuple{}, y::Tuple{Int64, CartesianIndex{2}}) @ InitialValues ~/.julia/packages/InitialValues/OWP8V/src/InitialValues.jl:306 [12] next @ ~/.julia/packages/Transducers/fnznF/src/combinators.jl:290 [inlined] [13] next @ ~/.julia/packages/Transducers/fnznF/src/core.jl:287 [inlined] [14] macro expansion @ ~/.julia/packages/Transducers/fnznF/src/core.jl:181 [inlined] [15] __foldl__(rf::Transducers.BottomRF{Transducers.AdHocRF{RegularizedLeastSquares.var"##oninit_function#284#proxLLRNonOverlapping!##2", typeof(identity), InitialValues.AdjoinIdentity{RegularizedLeastSquares.var"##reducing_function#285#proxLLRNonOverlapping!##3"{Float64, Int64, CartesianIndices{2, Tuple{Base.OneTo{Int64}, Base.OneTo{Int64}}}, Tuple{Int64, Int64}, Vector{JLArray{ComplexF64, 2}}, JLArray{ComplexF64, 3}}}, typeof(identity), typeof(identity), RegularizedLeastSquares.var"##combine_function#286#proxLLRNonOverlapping!##4"}}, init::Tuple{}, coll::Base.Iterators.Enumerate{CartesianIndices{2, Tuple{StepRange{Int64, Int64}, StepRange{Int64, Int64}}}}) @ Transducers ~/.julia/packages/Transducers/fnznF/src/processes.jl:157 [16] foldl_basecase @ ~/.julia/packages/Transducers/fnznF/src/processes.jl:361 [inlined] [17] _reduce_basecase(rf::Transducers.BottomRF{Transducers.AdHocRF{RegularizedLeastSquares.var"##oninit_function#284#proxLLRNonOverlapping!##2", typeof(identity), InitialValues.AdjoinIdentity{RegularizedLeastSquares.var"##reducing_function#285#proxLLRNonOverlapping!##3"{Float64, Int64, CartesianIndices{2, Tuple{Base.OneTo{Int64}, Base.OneTo{Int64}}}, Tuple{Int64, Int64}, Vector{JLArray{ComplexF64, 2}}, JLArray{ComplexF64, 3}}}, typeof(identity), typeof(identity), RegularizedLeastSquares.var"##combine_function#286#proxLLRNonOverlapping!##4"}}, init::Transducers.InitOf{Transducers.DefaultInitOf}, reducible::Transducers.SizedReducible{Base.Iterators.Enumerate{CartesianIndices{2, Tuple{StepRange{Int64, Int64}, StepRange{Int64, Int64}}}}, Int64}) @ Transducers ~/.julia/packages/Transducers/fnznF/src/threading_utils.jl:58 [18] _reduce(ctx::Transducers.CancellableDACContext, rf::Transducers.BottomRF{Transducers.AdHocRF{RegularizedLeastSquares.var"##oninit_function#284#proxLLRNonOverlapping!##2", typeof(identity), InitialValues.AdjoinIdentity{RegularizedLeastSquares.var"##reducing_function#285#proxLLRNonOverlapping!##3"{Float64, Int64, CartesianIndices{2, Tuple{Base.OneTo{Int64}, Base.OneTo{Int64}}}, Tuple{Int64, Int64}, Vector{JLArray{ComplexF64, 2}}, JLArray{ComplexF64, 3}}}, typeof(identity), typeof(identity), RegularizedLeastSquares.var"##combine_function#286#proxLLRNonOverlapping!##4"}}, init::Transducers.InitOf{Transducers.DefaultInitOf}, reducible::Transducers.SizedReducible{Base.Iterators.Enumerate{CartesianIndices{2, Tuple{StepRange{Int64, Int64}, StepRange{Int64, Int64}}}}, Int64}) @ Transducers ~/.julia/packages/Transducers/fnznF/src/reduce.jl:139 [19] _transduce_assoc_nocomplete @ ~/.julia/packages/Transducers/fnznF/src/reduce.jl:131 [inlined] [20] transduce_assoc(xform::Transducers.IdentityTransducer, step::Transducers.AdHocRF{RegularizedLeastSquares.var"##oninit_function#284#proxLLRNonOverlapping!##2", typeof(identity), RegularizedLeastSquares.var"##reducing_function#285#proxLLRNonOverlapping!##3"{Float64, Int64, CartesianIndices{2, Tuple{Base.OneTo{Int64}, Base.OneTo{Int64}}}, Tuple{Int64, Int64}, Vector{JLArray{ComplexF64, 2}}, JLArray{ComplexF64, 3}}, typeof(identity), typeof(identity), RegularizedLeastSquares.var"##combine_function#286#proxLLRNonOverlapping!##4"}, init::Transducers.InitOf{Transducers.DefaultInitOf}, coll0::Base.Iterators.Enumerate{CartesianIndices{2, Tuple{StepRange{Int64, Int64}, StepRange{Int64, Int64}}}}; simd::Val{false}, basesize::Nothing, stoppable::Nothing, nestlevel::Nothing) @ Transducers ~/.julia/packages/Transducers/fnznF/src/reduce.jl:108 [21] kwcall(::@NamedTuple{simd::Val{false}}, ::typeof(Transducers.transduce_assoc), xform::Transducers.IdentityTransducer, step::Transducers.AdHocRF{RegularizedLeastSquares.var"##oninit_function#284#proxLLRNonOverlapping!##2", typeof(identity), RegularizedLeastSquares.var"##reducing_function#285#proxLLRNonOverlapping!##3"{Float64, Int64, CartesianIndices{2, Tuple{Base.OneTo{Int64}, Base.OneTo{Int64}}}, Tuple{Int64, Int64}, Vector{JLArray{ComplexF64, 2}}, JLArray{ComplexF64, 3}}, typeof(identity), typeof(identity), RegularizedLeastSquares.var"##combine_function#286#proxLLRNonOverlapping!##4"}, init::Transducers.InitOf{Transducers.DefaultInitOf}, coll0::Base.Iterators.Enumerate{CartesianIndices{2, Tuple{StepRange{Int64, Int64}, StepRange{Int64, Int64}}}}) @ Transducers ~/.julia/packages/Transducers/fnznF/src/reduce.jl:84 [22] transduce(xf::Transducers.IdentityTransducer, rf::Function, init::Transducers.InitOf{Transducers.DefaultInitOf}, coll::Base.Iterators.Enumerate{CartesianIndices{2, Tuple{StepRange{Int64, Int64}, StepRange{Int64, Int64}}}}, exc::Transducers.ThreadedEx{@NamedTuple{simd::Val{false}}}) @ Transducers ~/.julia/packages/Transducers/fnznF/src/executors.jl:152 [23] transduce(xf::Transducers.IdentityTransducer, rf::Function, init::Transducers.InitOf{Transducers.DefaultInitOf}, coll::Base.Iterators.Enumerate{CartesianIndices{2, Tuple{StepRange{Int64, Int64}, StepRange{Int64, Int64}}}}, exc::Transducers.PreferParallel{@NamedTuple{simd::Val{false}}}) @ Transducers ~/.julia/packages/Transducers/fnznF/src/executors.jl:164 [24] _fold @ ~/.julia/packages/FLoops/GN1Bm/src/reduce.jl:851 [inlined] [25] _fold @ ~/.julia/packages/FLoops/GN1Bm/src/reduce.jl:849 [inlined] [26] macro expansion @ ~/.julia/packages/FLoops/GN1Bm/src/reduce.jl:829 [inlined] [27] proxLLRNonOverlapping!(reg::LLRRegularization{Float64, 2, Int64}, x::JLArray{ComplexF64, 1}, λ::Float64) @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/proximalMaps/ProxLLR.jl:75 [28] prox! @ ~/.julia/packages/RegularizedLeastSquares/cuewt/src/proximalMaps/ProxLLR.jl:34 [inlined] [29] prox! @ ~/.julia/packages/RegularizedLeastSquares/cuewt/src/Regularization/Regularization.jl:39 [inlined] [30] testLLR(shape::Tuple{Int64, Int64, Int64}, blockSize::Tuple{Int64, Int64}; σ::Float64, arrayType::Type{JLArray}) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:214 [31] kwcall(::@NamedTuple{arrayType::UnionAll}, ::typeof(testLLR), shape::Tuple{Int64, Int64, Int64}, blockSize::Tuple{Int64, Int64}) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:194 [32] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [33] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:310 [inlined] [34] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [35] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:301 [inlined] [36] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [37] top-level scope @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:299 [38] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [39] top-level scope @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/runtests.jl:11 [40] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [41] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/runtests.jl:13 [inlined] [42] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [43] top-level scope @ none:6 [44] eval(m::Module, e::Any) @ Core ./boot.jl:489 [45] exec_options(opts::Base.JLOptions) @ Base ./client.jl:286 [46] _start() @ Base ./client.jl:553 [ Info: test Overlapping LLR regularization [ Info: rel. LLR error : 0.006647729244959813 vs 0.013467979891480759 [ Info: test LLR 3D regularization LLR Prox 3D: JLArray: Error During Test at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:312 Got exception outside of a @test Scalar indexing is disallowed. Invocation of getindex resulted in scalar indexing of a GPU array. This is typically caused by calling an iterating implementation of a method. Such implementations *do not* execute on the GPU, but very slowly on the CPU, and therefore should be avoided. If you want to allow scalar iteration, use `allowscalar` or `@allowscalar` to enable scalar iteration globally or for the operations in question. Stacktrace: [1] error(s::String) @ Base ./error.jl:44 [2] errorscalar(op::String) @ GPUArraysCore ~/.julia/packages/GPUArraysCore/aNaXo/src/GPUArraysCore.jl:151 [3] _assertscalar(op::String, behavior::GPUArraysCore.ScalarIndexing) @ GPUArraysCore ~/.julia/packages/GPUArraysCore/aNaXo/src/GPUArraysCore.jl:124 [4] assertscalar(op::String) @ GPUArraysCore ~/.julia/packages/GPUArraysCore/aNaXo/src/GPUArraysCore.jl:112 [5] getindex @ ~/.julia/packages/GPUArrays/u6tui/src/host/indexing.jl:50 [inlined] [6] _count_svdvals(S::JLArray{Float64, 1}, atol::Int64, rtol::Int64) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.13/LinearAlgebra/src/svd.jl:137 [7] svd!(A::JLArray{ComplexF64, 2}; full::Bool, alg::LinearAlgebra.DivideAndConquer, atol::Int64, rtol::Int64) @ LinearAlgebra /opt/julia/share/julia/stdlib/v1.13/LinearAlgebra/src/svd.jl:107 [8] svd! @ /opt/julia/share/julia/stdlib/v1.13/LinearAlgebra/src/svd.jl:100 [inlined] [9] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/src/proximalMaps/ProxLLR.jl:81 [inlined] [10] #reducing_function#285#proxLLRNonOverlapping!##3 @ ~/.julia/packages/FLoops/GN1Bm/src/reduce.jl:817 [inlined] [11] (::InitialValues.AdjoinIdentity{RegularizedLeastSquares.var"##reducing_function#285#proxLLRNonOverlapping!##3"{Float64, Int64, CartesianIndices{3, Tuple{Base.OneTo{Int64}, Base.OneTo{Int64}, Base.OneTo{Int64}}}, Tuple{Int64, Int64, Int64}, Vector{JLArray{ComplexF64, 2}}, JLArray{ComplexF64, 4}}})(x::Tuple{}, y::Tuple{Int64, CartesianIndex{3}}) @ InitialValues ~/.julia/packages/InitialValues/OWP8V/src/InitialValues.jl:306 [12] next @ ~/.julia/packages/Transducers/fnznF/src/combinators.jl:290 [inlined] [13] next @ ~/.julia/packages/Transducers/fnznF/src/core.jl:287 [inlined] [14] macro expansion @ ~/.julia/packages/Transducers/fnznF/src/core.jl:181 [inlined] [15] __foldl__(rf::Transducers.BottomRF{Transducers.AdHocRF{RegularizedLeastSquares.var"##oninit_function#284#proxLLRNonOverlapping!##2", typeof(identity), InitialValues.AdjoinIdentity{RegularizedLeastSquares.var"##reducing_function#285#proxLLRNonOverlapping!##3"{Float64, Int64, CartesianIndices{3, Tuple{Base.OneTo{Int64}, Base.OneTo{Int64}, Base.OneTo{Int64}}}, Tuple{Int64, Int64, Int64}, Vector{JLArray{ComplexF64, 2}}, JLArray{ComplexF64, 4}}}, typeof(identity), typeof(identity), RegularizedLeastSquares.var"##combine_function#286#proxLLRNonOverlapping!##4"}}, init::Tuple{}, coll::Base.Iterators.Enumerate{CartesianIndices{3, Tuple{StepRange{Int64, Int64}, StepRange{Int64, Int64}, StepRange{Int64, Int64}}}}) @ Transducers ~/.julia/packages/Transducers/fnznF/src/processes.jl:157 [16] foldl_basecase @ ~/.julia/packages/Transducers/fnznF/src/processes.jl:361 [inlined] [17] _reduce_basecase(rf::Transducers.BottomRF{Transducers.AdHocRF{RegularizedLeastSquares.var"##oninit_function#284#proxLLRNonOverlapping!##2", typeof(identity), InitialValues.AdjoinIdentity{RegularizedLeastSquares.var"##reducing_function#285#proxLLRNonOverlapping!##3"{Float64, Int64, CartesianIndices{3, Tuple{Base.OneTo{Int64}, Base.OneTo{Int64}, Base.OneTo{Int64}}}, Tuple{Int64, Int64, Int64}, Vector{JLArray{ComplexF64, 2}}, JLArray{ComplexF64, 4}}}, typeof(identity), typeof(identity), RegularizedLeastSquares.var"##combine_function#286#proxLLRNonOverlapping!##4"}}, init::Transducers.InitOf{Transducers.DefaultInitOf}, reducible::Transducers.SizedReducible{Base.Iterators.Enumerate{CartesianIndices{3, Tuple{StepRange{Int64, Int64}, StepRange{Int64, Int64}, StepRange{Int64, Int64}}}}, Int64}) @ Transducers ~/.julia/packages/Transducers/fnznF/src/threading_utils.jl:58 [18] _reduce(ctx::Transducers.CancellableDACContext, rf::Transducers.BottomRF{Transducers.AdHocRF{RegularizedLeastSquares.var"##oninit_function#284#proxLLRNonOverlapping!##2", typeof(identity), InitialValues.AdjoinIdentity{RegularizedLeastSquares.var"##reducing_function#285#proxLLRNonOverlapping!##3"{Float64, Int64, CartesianIndices{3, Tuple{Base.OneTo{Int64}, Base.OneTo{Int64}, Base.OneTo{Int64}}}, Tuple{Int64, Int64, Int64}, Vector{JLArray{ComplexF64, 2}}, JLArray{ComplexF64, 4}}}, typeof(identity), typeof(identity), RegularizedLeastSquares.var"##combine_function#286#proxLLRNonOverlapping!##4"}}, init::Transducers.InitOf{Transducers.DefaultInitOf}, reducible::Transducers.SizedReducible{Base.Iterators.Enumerate{CartesianIndices{3, Tuple{StepRange{Int64, Int64}, StepRange{Int64, Int64}, StepRange{Int64, Int64}}}}, Int64}) @ Transducers ~/.julia/packages/Transducers/fnznF/src/reduce.jl:139 [19] _transduce_assoc_nocomplete @ ~/.julia/packages/Transducers/fnznF/src/reduce.jl:131 [inlined] [20] transduce_assoc(xform::Transducers.IdentityTransducer, step::Transducers.AdHocRF{RegularizedLeastSquares.var"##oninit_function#284#proxLLRNonOverlapping!##2", typeof(identity), RegularizedLeastSquares.var"##reducing_function#285#proxLLRNonOverlapping!##3"{Float64, Int64, CartesianIndices{3, Tuple{Base.OneTo{Int64}, Base.OneTo{Int64}, Base.OneTo{Int64}}}, Tuple{Int64, Int64, Int64}, Vector{JLArray{ComplexF64, 2}}, JLArray{ComplexF64, 4}}, typeof(identity), typeof(identity), RegularizedLeastSquares.var"##combine_function#286#proxLLRNonOverlapping!##4"}, init::Transducers.InitOf{Transducers.DefaultInitOf}, coll0::Base.Iterators.Enumerate{CartesianIndices{3, Tuple{StepRange{Int64, Int64}, StepRange{Int64, Int64}, StepRange{Int64, Int64}}}}; simd::Val{false}, basesize::Nothing, stoppable::Nothing, nestlevel::Nothing) @ Transducers ~/.julia/packages/Transducers/fnznF/src/reduce.jl:108 [21] kwcall(::@NamedTuple{simd::Val{false}}, ::typeof(Transducers.transduce_assoc), xform::Transducers.IdentityTransducer, step::Transducers.AdHocRF{RegularizedLeastSquares.var"##oninit_function#284#proxLLRNonOverlapping!##2", typeof(identity), RegularizedLeastSquares.var"##reducing_function#285#proxLLRNonOverlapping!##3"{Float64, Int64, CartesianIndices{3, Tuple{Base.OneTo{Int64}, Base.OneTo{Int64}, Base.OneTo{Int64}}}, Tuple{Int64, Int64, Int64}, Vector{JLArray{ComplexF64, 2}}, JLArray{ComplexF64, 4}}, typeof(identity), typeof(identity), RegularizedLeastSquares.var"##combine_function#286#proxLLRNonOverlapping!##4"}, init::Transducers.InitOf{Transducers.DefaultInitOf}, coll0::Base.Iterators.Enumerate{CartesianIndices{3, Tuple{StepRange{Int64, Int64}, StepRange{Int64, Int64}, StepRange{Int64, Int64}}}}) @ Transducers ~/.julia/packages/Transducers/fnznF/src/reduce.jl:84 [22] transduce(xf::Transducers.IdentityTransducer, rf::Function, init::Transducers.InitOf{Transducers.DefaultInitOf}, coll::Base.Iterators.Enumerate{CartesianIndices{3, Tuple{StepRange{Int64, Int64}, StepRange{Int64, Int64}, StepRange{Int64, Int64}}}}, exc::Transducers.ThreadedEx{@NamedTuple{simd::Val{false}}}) @ Transducers ~/.julia/packages/Transducers/fnznF/src/executors.jl:152 [23] transduce(xf::Transducers.IdentityTransducer, rf::Function, init::Transducers.InitOf{Transducers.DefaultInitOf}, coll::Base.Iterators.Enumerate{CartesianIndices{3, Tuple{StepRange{Int64, Int64}, StepRange{Int64, Int64}, StepRange{Int64, Int64}}}}, exc::Transducers.PreferParallel{@NamedTuple{simd::Val{false}}}) @ Transducers ~/.julia/packages/Transducers/fnznF/src/executors.jl:164 [24] _fold @ ~/.julia/packages/FLoops/GN1Bm/src/reduce.jl:851 [inlined] [25] _fold @ ~/.julia/packages/FLoops/GN1Bm/src/reduce.jl:849 [inlined] [26] macro expansion @ ~/.julia/packages/FLoops/GN1Bm/src/reduce.jl:829 [inlined] [27] proxLLRNonOverlapping!(reg::LLRRegularization{Float64, 3, Int64}, x::JLArray{ComplexF64, 1}, λ::Float64) @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/proximalMaps/ProxLLR.jl:75 [28] prox! @ ~/.julia/packages/RegularizedLeastSquares/cuewt/src/proximalMaps/ProxLLR.jl:34 [inlined] [29] prox! @ ~/.julia/packages/RegularizedLeastSquares/cuewt/src/Regularization/Regularization.jl:39 [inlined] [30] testLLR_3D(shape::NTuple{4, Int64}, blockSize::Tuple{Int64, Int64, Int64}; σ::Float64, arrayType::Type{JLArray}) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:272 [31] kwcall(::@NamedTuple{arrayType::UnionAll}, ::typeof(testLLR_3D), shape::NTuple{4, Int64}, blockSize::Tuple{Int64, Int64, Int64}) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:250 [32] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [33] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:312 [inlined] [34] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [35] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:301 [inlined] [36] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [37] top-level scope @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testProxMaps.jl:299 [38] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [39] top-level scope @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/runtests.jl:11 [40] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:1929 [inlined] [41] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/runtests.jl:13 [inlined] [42] include(mapexpr::Function, mod::Module, _path::String) @ Base ./Base.jl:312 [43] top-level scope @ none:6 [44] eval(m::Module, e::Any) @ Core ./boot.jl:489 [45] exec_options(opts::Base.JLOptions) @ Base ./client.jl:286 [46] _start() @ Base ./client.jl:553 [ Info: Test λ conversion for prox!(L1Regularization, Float32, Float64) [ Info: Test λ conversion for prox!(L21Regularization, Float32, Float64) [ Info: Test λ conversion for prox!(L2Regularization, Float32, Float64) [ Info: Test λ conversion for prox!(LLRRegularization, Float32, Float64) [ Info: Test λ conversion for prox!(NuclearRegularization, Float32, Float64) [ Info: Test λ conversion for prox!(TVRegularization, Float32, Float64) [ Info: Test λ conversion for prox!(L1Regularization, Float64, Float32) [ Info: Test λ conversion for prox!(L21Regularization, Float64, Float32) [ Info: Test λ conversion for prox!(L2Regularization, Float64, Float32) [ Info: Test λ conversion for prox!(LLRRegularization, Float64, Float32) [ Info: Test λ conversion for prox!(NuclearRegularization, Float64, Float32) [ Info: Test λ conversion for prox!(TVRegularization, Float64, Float32) [ Info: Test λ conversion for prox!(L1Regularization, ComplexF32, Float64) [ Info: Test λ conversion for prox!(L21Regularization, ComplexF32, Float64) [ Info: Test λ conversion for prox!(L2Regularization, ComplexF32, Float64) [ Info: Test λ conversion for prox!(LLRRegularization, ComplexF32, Float64) [ Info: Test λ conversion for prox!(NuclearRegularization, ComplexF32, Float64) [ Info: Test λ conversion for prox!(TVRegularization, ComplexF32, Float64) [ Info: Test λ conversion for prox!(L1Regularization, ComplexF64, Float32) [ Info: Test λ conversion for prox!(L21Regularization, ComplexF64, Float32) [ Info: Test λ conversion for prox!(L2Regularization, ComplexF64, Float32) [ Info: Test λ conversion for prox!(LLRRegularization, ComplexF64, Float32) [ Info: Test λ conversion for prox!(NuclearRegularization, ComplexF64, Float32) [ Info: Test λ conversion for prox!(TVRegularization, ComplexF64, Float32) ┌ Warning: The following arguments were passed but filtered out: iterations. Please watch closely if this introduces unexpexted behaviour in your code. └ @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/RegularizedLeastSquares.jl:273 [ Info: Testing solver DirectSolver: Float32[0.07435727, 0.1361165] ≈ Float32[0.07435732, 0.13611645] ┌ Warning: The following arguments were passed but filtered out: iterations. Please watch closely if this introduces unexpexted behaviour in your code. └ @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/RegularizedLeastSquares.jl:273 [ Info: Testing solver PseudoInverse: Float32[0.07435727, 0.1361165] ≈ Float32[0.07435728, 0.13611647] [ Info: Testing solver CGNR: Float32[0.07435727, 0.1361165] ≈ Float32[0.07435726, 0.1361164] [ Info: Testing solver ADMM: Float32[0.07435727, 0.1361165] ≈ Float32[0.07435751, 0.13611612] [ Info: Testing solver SplitBregman: Float32[0.07435727, 0.1361165] ≈ Float32[0.07435751, 0.13611612] [ Info: Testing solver FISTA: Float32[0.07435727, 0.1361165] ≈ Float32[0.07435733, 0.13611642] [ Info: Testing solver OptISTA: Float32[0.07435727, 0.1361165] ≈ Float32[0.074359596, 0.13611269] [ Info: Testing solver POGM: Float32[0.07435727, 0.1361165] ≈ Float32[0.07435961, 0.13611263] [ Info: Testing solver Kaczmarz: Float32[0.07435727, 0.1361165] ≈ Float32[0.07435727, 0.1361165] ┌ Warning: The following arguments were passed but filtered out: iterations. Please watch closely if this introduces unexpexted behaviour in your code. └ @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/RegularizedLeastSquares.jl:273 [ Info: Testing solver DirectSolver: ComplexF32[0.19463056f0 + 0.4517445f0im, 0.6611685f0 + 0.7286364f0im] ≈ ComplexF32[0.1946306f0 + 0.45174444f0im, 0.6611686f0 + 0.7286365f0im] ┌ Warning: The following arguments were passed but filtered out: iterations. Please watch closely if this introduces unexpexted behaviour in your code. └ @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/RegularizedLeastSquares.jl:273 [ Info: Testing solver PseudoInverse: ComplexF32[0.19463056f0 + 0.4517445f0im, 0.6611685f0 + 0.7286364f0im] ≈ ComplexF32[0.19463061f0 + 0.45174438f0im, 0.6611687f0 + 0.7286365f0im] [ Info: Testing solver CGNR: ComplexF32[0.19463056f0 + 0.4517445f0im, 0.6611685f0 + 0.7286364f0im] ≈ ComplexF32[0.19463082f0 + 0.45174536f0im, 0.6611692f0 + 0.7286375f0im] [ Info: Testing solver ADMM: ComplexF32[0.19463056f0 + 0.4517445f0im, 0.6611685f0 + 0.7286364f0im] ≈ ComplexF32[0.19463064f0 + 0.45174447f0im, 0.6611685f0 + 0.72863644f0im] [ Info: Testing solver SplitBregman: ComplexF32[0.19463056f0 + 0.4517445f0im, 0.6611685f0 + 0.7286364f0im] ≈ ComplexF32[0.19463049f0 + 0.45174384f0im, 0.6611691f0 + 0.72863686f0im] [ Info: Testing solver FISTA: ComplexF32[0.19463056f0 + 0.4517445f0im, 0.6611685f0 + 0.7286364f0im] ≈ ComplexF32[0.19462557f0 + 0.45182896f0im, 0.6611145f0 + 0.72854817f0im] [ Info: Testing solver OptISTA: ComplexF32[0.19463056f0 + 0.4517445f0im, 0.6611685f0 + 0.7286364f0im] ≈ ComplexF32[0.19462797f0 + 0.45179337f0im, 0.6611369f0 + 0.7285855f0im] [ Info: Testing solver POGM: ComplexF32[0.19463056f0 + 0.4517445f0im, 0.6611685f0 + 0.7286364f0im] ≈ ComplexF32[0.19462755f0 + 0.45179555f0im, 0.6611359f0 + 0.7285829f0im] [ Info: Testing solver Kaczmarz: ComplexF32[0.19463056f0 + 0.4517445f0im, 0.6611685f0 + 0.7286364f0im] ≈ ComplexF32[0.19463058f0 + 0.45174453f0im, 0.6611685f0 + 0.7286364f0im] [ Info: Testing solver CGNR: ComplexF32[0.19463056f0 + 0.4517445f0im, 0.6611685f0 + 0.7286364f0im] ≈ ComplexF32[0.19463032f0 + 0.4517435f0im, 0.66116846f0 + 0.72863674f0im] [ Info: Testing solver ADMM: ComplexF32[0.19463056f0 + 0.4517445f0im, 0.6611685f0 + 0.7286364f0im] ≈ ComplexF32[0.19463032f0 + 0.45174462f0im, 0.66116863f0 + 0.72863615f0im] [ Info: Testing solver SplitBregman: ComplexF32[0.19463056f0 + 0.4517445f0im, 0.6611685f0 + 0.7286364f0im] ≈ ComplexF32[0.1946305f0 + 0.45174438f0im, 0.66116863f0 + 0.7286365f0im] [ Info: Testing solver FISTA: ComplexF32[0.19463056f0 + 0.4517445f0im, 0.6611685f0 + 0.7286364f0im] ≈ ComplexF32[0.19462489f0 + 0.45182824f0im, 0.6611155f0 + 0.7285484f0im] [ Info: Testing solver OptISTA: ComplexF32[0.19463056f0 + 0.4517445f0im, 0.6611685f0 + 0.7286364f0im] ≈ ComplexF32[0.19462788f0 + 0.4517928f0im, 0.66113776f0 + 0.7285862f0im] [ Info: Testing solver POGM: ComplexF32[0.19463056f0 + 0.4517445f0im, 0.6611685f0 + 0.7286364f0im] ≈ ComplexF32[0.19462776f0 + 0.4517952f0im, 0.66113573f0 + 0.72858363f0im] [ Info: Testing solver POGM w/o restart: relative error = 0.004481134173874222 [ Info: Testing solver POGM w/ gradient restart: relative error = 0.004481134173874214 [ Info: Testing solver POGM w/o restart and after re-scaling: relative error = 0.002316237467248633 [ Info: Testing solver OptISTA w/o restart: relative error = 0.00448113417387615 [ Info: Testing solver OptISTA w/o restart and after re-scaling: relative error = 0.0023162374672517612 [ Info: Testing solver FISTA w/o restart: relative error = 0.004481134173874337 [ Info: Testing solver FISTA w/ gradient restart: relative error = 0.00448113417387421 [ Info: Testing solver FISTA w/o restart and after re-scaling: relative error = 0.0023162374672532466 [ Info: Testing solver ADMM w/o restart: relative error = 0.0022405766537521832 [ Info: Testing solver ADMM w/o restart and after re-scaling: relative error = 0.00015071320838663308 [ Info: Testing solver ADMM: relative error = 0.002240576653741469 [ Info: Testing solver ADMM: relative error = 0.0022405766537644373 [ Info: Testing solver ADMM: relative error = 0.0022405766537519542 [ Info: Testing solver SplitBregman: relative error = 2.1633360003392924e-8 [ Info: Testing solver SplitBregman: relative error = 2.1633360003392924e-8 ┌ Warning: The following arguments were passed but filtered out: iterations. Please watch closely if this introduces unexpexted behaviour in your code. └ @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/RegularizedLeastSquares.jl:273 [ Info: Testing solver DirectSolver: [0.6611685583355441, 0.7286364388306961] ≈ [0.6611685583355437, 0.7286364388306975] ┌ Warning: The following arguments were passed but filtered out: iterations. Please watch closely if this introduces unexpexted behaviour in your code. └ @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/RegularizedLeastSquares.jl:273 [ Info: Testing solver PseudoInverse: [0.6611685583355441, 0.7286364388306961] ≈ [0.6611685583355444, 0.728636438830696] [ Info: Testing solver CGNR: [0.6611685583355441, 0.7286364388306961] ≈ [0.6611685583355469, 0.7286364388306961] [ Info: Testing solver ADMM: [0.6611685583355441, 0.7286364388306961] ≈ [0.6611685583355456, 0.728636438830691] [ Info: Testing solver SplitBregman: [0.6611685583355441, 0.7286364388306961] ≈ [0.6611685583355184, 0.7286364388307843] [ Info: Testing solver FISTA: [0.6611685583355441, 0.7286364388306961] ≈ [0.661037376727162, 0.7290920106777345] [ Info: Testing solver OptISTA: [0.6611685583355441, 0.7286364388306961] ≈ [0.661081183862452, 0.7289398758031613] [ Info: Testing solver POGM: [0.6611685583355441, 0.7286364388306961] ≈ [0.6610782228067117, 0.7289501590558926] [ Info: Testing solver Kaczmarz: [0.6611685583355441, 0.7286364388306961] ≈ [0.6611685583355442, 0.7286364388306957] ┌ Warning: The following arguments were passed but filtered out: iterations. Please watch closely if this introduces unexpexted behaviour in your code. └ @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/RegularizedLeastSquares.jl:273 [ Info: Testing solver DirectSolver: ComplexF64[0.26755021483368013 + 0.8104947638539546im, 0.11848853125656122 + 0.8532722765149262im] ≈ ComplexF64[0.26755021483368013 + 0.8104947638539548im, 0.11848853125656117 + 0.8532722765149259im] ┌ Warning: The following arguments were passed but filtered out: iterations. Please watch closely if this introduces unexpexted behaviour in your code. └ @ RegularizedLeastSquares ~/.julia/packages/RegularizedLeastSquares/cuewt/src/RegularizedLeastSquares.jl:273 [ Info: Testing solver PseudoInverse: ComplexF64[0.26755021483368013 + 0.8104947638539546im, 0.11848853125656122 + 0.8532722765149262im] ≈ ComplexF64[0.26755021483368024 + 0.8104947638539549im, 0.11848853125656078 + 0.8532722765149257im] [ Info: Testing solver CGNR: ComplexF64[0.26755021483368013 + 0.8104947638539546im, 0.11848853125656122 + 0.8532722765149262im] ≈ ComplexF64[0.26755021483368036 + 0.8104947638539561im, 0.11848853125656147 + 0.853272276514927im] [ Info: Testing solver ADMM: ComplexF64[0.26755021483368013 + 0.8104947638539546im, 0.11848853125656122 + 0.8532722765149262im] ≈ ComplexF64[0.26755021483368013 + 0.8104947638539551im, 0.11848853125656104 + 0.8532722765149253im] [ Info: Testing solver SplitBregman: ComplexF64[0.26755021483368013 + 0.8104947638539546im, 0.11848853125656122 + 0.8532722765149262im] ≈ ComplexF64[0.2675502165659932 + 0.8104947621430469im, 0.11848852962334372 + 0.8532722804664112im] [ Info: Testing solver FISTA: ComplexF64[0.26755021483368013 + 0.8104947638539546im, 0.11848853125656122 + 0.8532722765149262im] ≈ ComplexF64[0.2675500468920834 + 0.8104949297163327im, 0.11848868958974186 + 0.8532718934315499im] [ Info: Testing solver OptISTA: ComplexF64[0.26755021483368013 + 0.8104947638539546im, 0.11848853125656122 + 0.8532722765149262im] ≈ ComplexF64[0.2675505586034007 + 0.8104944243393025im, 0.1184882071545368 + 0.8532730606710205im] [ Info: Testing solver POGM: ComplexF64[0.26755021483368013 + 0.8104947638539546im, 0.11848853125656122 + 0.8532722765149262im] ≈ ComplexF64[0.26755053855447447 + 0.8104944441395583im, 0.11848822605625071 + 0.853273014938291im] [ Info: Testing solver Kaczmarz: ComplexF64[0.26755021483368013 + 0.8104947638539546im, 0.11848853125656122 + 0.8532722765149262im] ≈ ComplexF64[0.2675502148336802 + 0.8104947638539545im, 0.11848853125656122 + 0.8532722765149262im] [ Info: Testing solver CGNR: ComplexF64[0.26755021483368013 + 0.8104947638539546im, 0.11848853125656122 + 0.8532722765149262im] ≈ ComplexF64[0.26755021483368 + 0.8104947638539552im, 0.11848853125656161 + 0.8532722765149261im] [ Info: Testing solver ADMM: ComplexF64[0.26755021483368013 + 0.8104947638539546im, 0.11848853125656122 + 0.8532722765149262im] ≈ ComplexF64[0.2675502148336801 + 0.8104947638539546im, 0.11848853125656132 + 0.8532722765149262im] [ Info: Testing solver SplitBregman: ComplexF64[0.26755021483368013 + 0.8104947638539546im, 0.11848853125656122 + 0.8532722765149262im] ≈ ComplexF64[0.26755021656599376 + 0.8104947621430458im, 0.11848852962334401 + 0.8532722804664128im] [ Info: Testing solver FISTA: ComplexF64[0.26755021483368013 + 0.8104947638539546im, 0.11848853125656122 + 0.8532722765149262im] ≈ ComplexF64[0.2675500468920833 + 0.8104949297163322im, 0.11848868958974226 + 0.8532718934315506im] [ Info: Testing solver OptISTA: ComplexF64[0.26755021483368013 + 0.8104947638539546im, 0.11848853125656122 + 0.8532722765149262im] ≈ ComplexF64[0.2675505586034002 + 0.8104944243393026im, 0.11848820715453677 + 0.8532730606710194im] [ Info: Testing solver POGM: ComplexF64[0.26755021483368013 + 0.8104947638539546im, 0.11848853125656122 + 0.8532722765149262im] ≈ ComplexF64[0.26755053855447447 + 0.8104944441395578im, 0.1184882260562505 + 0.8532730149382917im] [ Info: Testing solver POGM w/o restart: relative error = 0.004481133961033804 [ Info: Testing solver POGM w/ gradient restart: relative error = 0.0044811339610337335 [ Info: Testing solver POGM w/o restart and after re-scaling: relative error = 0.0023162372668549766 [ Info: Testing solver OptISTA w/o restart: relative error = 0.004481133961036319 [ Info: Testing solver OptISTA w/o restart and after re-scaling: relative error = 0.0023162372668586307 [ Info: Testing solver FISTA w/o restart: relative error = 0.004481133961033908 [ Info: Testing solver FISTA w/ gradient restart: relative error = 0.004481133961033687 [ Info: Testing solver FISTA w/o restart and after re-scaling: relative error = 0.0023162372668595384 [ Info: Testing solver ADMM w/o restart: relative error = 0.002240576547331751 [ Info: Testing solver ADMM w/o restart and after re-scaling: relative error = 0.00015071319380832545 [ Info: Testing solver ADMM: relative error = 0.002240576547327669 [ Info: Testing solver ADMM: relative error = 0.0022405765473130085 [ Info: Testing solver ADMM: relative error = 0.002240576547330994 [ Info: Testing solver SplitBregman: relative error = 2.1633381260746392e-8 [ Info: Testing solver SplitBregman: relative error = 2.163338130425753e-8 ┌ Error: ErrorException("Scalar indexing is disallowed.\nInvocation of getindex resulted in scalar indexing of a GPU array.\nThis is typically caused by calling an iterating implementation of a method.\nSuch implementations *do not* execute on the GPU, but very slowly on the CPU,\nand therefore should be avoided.\n\nIf you want to allow scalar iteration, use `allowscalar` or `@allowscalar`\nto enable scalar iteration globally or for the operations in question.") └ @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 solver = CGNR: Test Failed at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:11 Expression: try #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:12 =# S = createLinearSolver(solver, arrayType(A), iterations = 200) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:13 =# x_approx = Array(solve!(S, arrayType(b))) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:14 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:14 =# @info "Testing solver $(solver): $(x) ≈ $(x_approx)" #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:15 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:15 =# @test x_approx ≈ x rtol = 0.1 #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:16 =# true catch e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 =# @error e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:19 =# false end Stacktrace: [1] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:745 [inlined] [2] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:11 [inlined] [3] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:2018 [inlined] [4] testRealLinearSolver(; arrayType::Type{JLArray}, elType::Type) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:10 ┌ Error: ErrorException("Scalar indexing is disallowed.\nInvocation of getindex resulted in scalar indexing of a GPU array.\nThis is typically caused by calling an iterating implementation of a method.\nSuch implementations *do not* execute on the GPU, but very slowly on the CPU,\nand therefore should be avoided.\n\nIf you want to allow scalar iteration, use `allowscalar` or `@allowscalar`\nto enable scalar iteration globally or for the operations in question.") └ @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 solver = ADMM: Test Failed at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:11 Expression: try #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:12 =# S = createLinearSolver(solver, arrayType(A), iterations = 200) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:13 =# x_approx = Array(solve!(S, arrayType(b))) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:14 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:14 =# @info "Testing solver $(solver): $(x) ≈ $(x_approx)" #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:15 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:15 =# @test x_approx ≈ x rtol = 0.1 #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:16 =# true catch e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 =# @error e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:19 =# false end Stacktrace: [1] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:745 [inlined] [2] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:11 [inlined] [3] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:2018 [inlined] [4] testRealLinearSolver(; arrayType::Type{JLArray}, elType::Type) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:10 ┌ Error: ErrorException("Scalar indexing is disallowed.\nInvocation of getindex resulted in scalar indexing of a GPU array.\nThis is typically caused by calling an iterating implementation of a method.\nSuch implementations *do not* execute on the GPU, but very slowly on the CPU,\nand therefore should be avoided.\n\nIf you want to allow scalar iteration, use `allowscalar` or `@allowscalar`\nto enable scalar iteration globally or for the operations in question.") └ @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 solver = SplitBregman: Test Failed at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:11 Expression: try #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:12 =# S = createLinearSolver(solver, arrayType(A), iterations = 200) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:13 =# x_approx = Array(solve!(S, arrayType(b))) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:14 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:14 =# @info "Testing solver $(solver): $(x) ≈ $(x_approx)" #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:15 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:15 =# @test x_approx ≈ x rtol = 0.1 #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:16 =# true catch e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 =# @error e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:19 =# false end Stacktrace: [1] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:745 [inlined] [2] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:11 [inlined] [3] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:2018 [inlined] [4] testRealLinearSolver(; arrayType::Type{JLArray}, elType::Type) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:10 ┌ Error: ErrorException("Scalar indexing is disallowed.\nInvocation of getindex resulted in scalar indexing of a GPU array.\nThis is typically caused by calling an iterating implementation of a method.\nSuch implementations *do not* execute on the GPU, but very slowly on the CPU,\nand therefore should be avoided.\n\nIf you want to allow scalar iteration, use `allowscalar` or `@allowscalar`\nto enable scalar iteration globally or for the operations in question.") └ @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 solver = FISTA: Test Failed at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:11 Expression: try #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:12 =# S = createLinearSolver(solver, arrayType(A), iterations = 200) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:13 =# x_approx = Array(solve!(S, arrayType(b))) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:14 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:14 =# @info "Testing solver $(solver): $(x) ≈ $(x_approx)" #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:15 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:15 =# @test x_approx ≈ x rtol = 0.1 #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:16 =# true catch e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 =# @error e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:19 =# false end Stacktrace: [1] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:745 [inlined] [2] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:11 [inlined] [3] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:2018 [inlined] [4] testRealLinearSolver(; arrayType::Type{JLArray}, elType::Type) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:10 ┌ Error: ErrorException("Scalar indexing is disallowed.\nInvocation of getindex resulted in scalar indexing of a GPU array.\nThis is typically caused by calling an iterating implementation of a method.\nSuch implementations *do not* execute on the GPU, but very slowly on the CPU,\nand therefore should be avoided.\n\nIf you want to allow scalar iteration, use `allowscalar` or `@allowscalar`\nto enable scalar iteration globally or for the operations in question.") └ @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 solver = OptISTA: Test Failed at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:11 Expression: try #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:12 =# S = createLinearSolver(solver, arrayType(A), iterations = 200) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:13 =# x_approx = Array(solve!(S, arrayType(b))) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:14 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:14 =# @info "Testing solver $(solver): $(x) ≈ $(x_approx)" #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:15 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:15 =# @test x_approx ≈ x rtol = 0.1 #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:16 =# true catch e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 =# @error e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:19 =# false end Stacktrace: [1] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:745 [inlined] [2] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:11 [inlined] [3] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:2018 [inlined] [4] testRealLinearSolver(; arrayType::Type{JLArray}, elType::Type) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:10 ┌ Error: ErrorException("Scalar indexing is disallowed.\nInvocation of getindex resulted in scalar indexing of a GPU array.\nThis is typically caused by calling an iterating implementation of a method.\nSuch implementations *do not* execute on the GPU, but very slowly on the CPU,\nand therefore should be avoided.\n\nIf you want to allow scalar iteration, use `allowscalar` or `@allowscalar`\nto enable scalar iteration globally or for the operations in question.") └ @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 solver = POGM: Test Failed at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:11 Expression: try #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:12 =# S = createLinearSolver(solver, arrayType(A), iterations = 200) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:13 =# x_approx = Array(solve!(S, arrayType(b))) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:14 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:14 =# @info "Testing solver $(solver): $(x) ≈ $(x_approx)" #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:15 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:15 =# @test x_approx ≈ x rtol = 0.1 #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:16 =# true catch e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 =# @error e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:19 =# false end Stacktrace: [1] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:745 [inlined] [2] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:11 [inlined] [3] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:2018 [inlined] [4] testRealLinearSolver(; arrayType::Type{JLArray}, elType::Type) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:10 [ Info: Testing solver Kaczmarz: Float32[0.07435727, 0.1361165] ≈ Float32[0.07435727, 0.1361165] ┌ Error: ErrorException("Scalar indexing is disallowed.\nInvocation of getindex resulted in scalar indexing of a GPU array.\nThis is typically caused by calling an iterating implementation of a method.\nSuch implementations *do not* execute on the GPU, but very slowly on the CPU,\nand therefore should be avoided.\n\nIf you want to allow scalar iteration, use `allowscalar` or `@allowscalar`\nto enable scalar iteration globally or for the operations in question.") └ @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 solver = CGNR: Test Failed at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:32 Expression: try #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:33 =# S = createLinearSolver(solver, arrayType(A), iterations = 100) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:34 =# x_approx = Array(solve!(S, arrayType(b))) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:35 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:35 =# @info "Testing solver $(solver): $(x) ≈ $(x_approx)" #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:36 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:36 =# @test x_approx ≈ x rtol = 0.1 #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:37 =# true catch e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 =# @error e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:40 =# false end Stacktrace: [1] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:745 [inlined] [2] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:32 [inlined] [3] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:2018 [inlined] [4] testComplexLinearSolver(; arrayType::Type{JLArray}, elType::Type) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:31 ┌ Error: ErrorException("Scalar indexing is disallowed.\nInvocation of getindex resulted in scalar indexing of a GPU array.\nThis is typically caused by calling an iterating implementation of a method.\nSuch implementations *do not* execute on the GPU, but very slowly on the CPU,\nand therefore should be avoided.\n\nIf you want to allow scalar iteration, use `allowscalar` or `@allowscalar`\nto enable scalar iteration globally or for the operations in question.") └ @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 solver = ADMM: Test Failed at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:32 Expression: try #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:33 =# S = createLinearSolver(solver, arrayType(A), iterations = 100) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:34 =# x_approx = Array(solve!(S, arrayType(b))) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:35 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:35 =# @info "Testing solver $(solver): $(x) ≈ $(x_approx)" #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:36 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:36 =# @test x_approx ≈ x rtol = 0.1 #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:37 =# true catch e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 =# @error e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:40 =# false end Stacktrace: [1] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:745 [inlined] [2] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:32 [inlined] [3] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:2018 [inlined] [4] testComplexLinearSolver(; arrayType::Type{JLArray}, elType::Type) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:31 ┌ Error: ErrorException("Scalar indexing is disallowed.\nInvocation of getindex resulted in scalar indexing of a GPU array.\nThis is typically caused by calling an iterating implementation of a method.\nSuch implementations *do not* execute on the GPU, but very slowly on the CPU,\nand therefore should be avoided.\n\nIf you want to allow scalar iteration, use `allowscalar` or `@allowscalar`\nto enable scalar iteration globally or for the operations in question.") └ @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 solver = SplitBregman: Test Failed at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:32 Expression: try #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:33 =# S = createLinearSolver(solver, arrayType(A), iterations = 100) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:34 =# x_approx = Array(solve!(S, arrayType(b))) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:35 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:35 =# @info "Testing solver $(solver): $(x) ≈ $(x_approx)" #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:36 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:36 =# @test x_approx ≈ x rtol = 0.1 #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:37 =# true catch e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 =# @error e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:40 =# false end Stacktrace: [1] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:745 [inlined] [2] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:32 [inlined] [3] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:2018 [inlined] [4] testComplexLinearSolver(; arrayType::Type{JLArray}, elType::Type) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:31 ┌ Error: ErrorException("Scalar indexing is disallowed.\nInvocation of getindex resulted in scalar indexing of a GPU array.\nThis is typically caused by calling an iterating implementation of a method.\nSuch implementations *do not* execute on the GPU, but very slowly on the CPU,\nand therefore should be avoided.\n\nIf you want to allow scalar iteration, use `allowscalar` or `@allowscalar`\nto enable scalar iteration globally or for the operations in question.") └ @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 solver = FISTA: Test Failed at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:32 Expression: try #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:33 =# S = createLinearSolver(solver, arrayType(A), iterations = 100) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:34 =# x_approx = Array(solve!(S, arrayType(b))) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:35 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:35 =# @info "Testing solver $(solver): $(x) ≈ $(x_approx)" #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:36 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:36 =# @test x_approx ≈ x rtol = 0.1 #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:37 =# true catch e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 =# @error e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:40 =# false end Stacktrace: [1] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:745 [inlined] [2] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:32 [inlined] [3] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:2018 [inlined] [4] testComplexLinearSolver(; arrayType::Type{JLArray}, elType::Type) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:31 ┌ Error: ErrorException("Scalar indexing is disallowed.\nInvocation of getindex resulted in scalar indexing of a GPU array.\nThis is typically caused by calling an iterating implementation of a method.\nSuch implementations *do not* execute on the GPU, but very slowly on the CPU,\nand therefore should be avoided.\n\nIf you want to allow scalar iteration, use `allowscalar` or `@allowscalar`\nto enable scalar iteration globally or for the operations in question.") └ @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 solver = OptISTA: Test Failed at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:32 Expression: try #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:33 =# S = createLinearSolver(solver, arrayType(A), iterations = 100) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:34 =# x_approx = Array(solve!(S, arrayType(b))) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:35 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:35 =# @info "Testing solver $(solver): $(x) ≈ $(x_approx)" #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:36 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:36 =# @test x_approx ≈ x rtol = 0.1 #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:37 =# true catch e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 =# @error e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:40 =# false end Stacktrace: [1] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:745 [inlined] [2] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:32 [inlined] [3] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:2018 [inlined] [4] testComplexLinearSolver(; arrayType::Type{JLArray}, elType::Type) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:31 ┌ Error: ErrorException("Scalar indexing is disallowed.\nInvocation of getindex resulted in scalar indexing of a GPU array.\nThis is typically caused by calling an iterating implementation of a method.\nSuch implementations *do not* execute on the GPU, but very slowly on the CPU,\nand therefore should be avoided.\n\nIf you want to allow scalar iteration, use `allowscalar` or `@allowscalar`\nto enable scalar iteration globally or for the operations in question.") └ @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 solver = POGM: Test Failed at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:32 Expression: try #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:33 =# S = createLinearSolver(solver, arrayType(A), iterations = 100) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:34 =# x_approx = Array(solve!(S, arrayType(b))) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:35 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:35 =# @info "Testing solver $(solver): $(x) ≈ $(x_approx)" #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:36 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:36 =# @test x_approx ≈ x rtol = 0.1 #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:37 =# true catch e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 =# @error e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:40 =# false end Stacktrace: [1] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:745 [inlined] [2] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:32 [inlined] [3] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:2018 [inlined] [4] testComplexLinearSolver(; arrayType::Type{JLArray}, elType::Type) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:31 [ Info: Testing solver Kaczmarz: ComplexF32[0.19463056f0 + 0.4517445f0im, 0.6611685f0 + 0.7286364f0im] ≈ ComplexF32[0.19463065f0 + 0.45174462f0im, 0.6611685f0 + 0.7286364f0im] [ Info: Testing solver CGNR: ComplexF32[0.19463056f0 + 0.4517445f0im, 0.6611685f0 + 0.7286364f0im] ≈ ComplexF32[0.19463034f0 + 0.4517435f0im, 0.66116846f0 + 0.72863674f0im] [ Info: Testing solver ADMM: ComplexF32[0.19463056f0 + 0.4517445f0im, 0.6611685f0 + 0.7286364f0im] ≈ ComplexF32[0.19463044f0 + 0.45174432f0im, 0.66116875f0 + 0.72863644f0im] [ Info: Testing solver SplitBregman: ComplexF32[0.19463056f0 + 0.4517445f0im, 0.6611685f0 + 0.7286364f0im] ≈ ComplexF32[0.19463025f0 + 0.45174336f0im, 0.6611696f0 + 0.7286373f0im] [ Info: Testing solver FISTA: ComplexF32[0.19463056f0 + 0.4517445f0im, 0.6611685f0 + 0.7286364f0im] ≈ ComplexF32[0.19462489f0 + 0.45182824f0im, 0.6611155f0 + 0.7285484f0im] [ Info: Testing solver OptISTA: ComplexF32[0.19463056f0 + 0.4517445f0im, 0.6611685f0 + 0.7286364f0im] ≈ ComplexF32[0.19462788f0 + 0.4517928f0im, 0.66113776f0 + 0.7285862f0im] [ Info: Testing solver POGM: ComplexF32[0.19463056f0 + 0.4517445f0im, 0.6611685f0 + 0.7286364f0im] ≈ ComplexF32[0.19462776f0 + 0.4517952f0im, 0.66113573f0 + 0.72858363f0im] [ Info: Testing solver POGM w/o restart: relative error = 0.0044811341738743874 [ Info: Testing solver POGM w/ gradient restart: relative error = 0.004481134173874383 [ Info: Testing solver POGM w/o restart and after re-scaling: relative error = 0.0023162374672488282 [ Info: Testing solver OptISTA w/o restart: relative error = 0.0044811341738774735 [ Info: Testing solver OptISTA w/o restart and after re-scaling: relative error = 0.002316237467252642 [ Info: Testing solver FISTA w/o restart: relative error = 0.004481134173874929 [ Info: Testing solver FISTA w/ gradient restart: relative error = 0.004481134173874503 [ Info: Testing solver FISTA w/o restart and after re-scaling: relative error = 0.0023162374672532652 [ Info: Testing solver ADMM w/o restart: relative error = 0.0022405766537518237 [ Info: Testing solver ADMM w/o restart and after re-scaling: relative error = 0.00015071301581415277 [ Info: Testing solver ADMM: relative error = 0.002240576653771926 [ Info: Testing solver ADMM: relative error = 0.002240576653743203 [ Info: Testing solver ADMM: relative error = 0.0022405766537515535 [ Info: Testing solver SplitBregman: relative error = 2.1633359827390357e-8 [ Info: Testing solver SplitBregman: relative error = 2.1633359827390357e-8 ┌ Error: ErrorException("Scalar indexing is disallowed.\nInvocation of getindex resulted in scalar indexing of a GPU array.\nThis is typically caused by calling an iterating implementation of a method.\nSuch implementations *do not* execute on the GPU, but very slowly on the CPU,\nand therefore should be avoided.\n\nIf you want to allow scalar iteration, use `allowscalar` or `@allowscalar`\nto enable scalar iteration globally or for the operations in question.") └ @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 solver = CGNR: Test Failed at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:11 Expression: try #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:12 =# S = createLinearSolver(solver, arrayType(A), iterations = 200) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:13 =# x_approx = Array(solve!(S, arrayType(b))) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:14 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:14 =# @info "Testing solver $(solver): $(x) ≈ $(x_approx)" #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:15 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:15 =# @test x_approx ≈ x rtol = 0.1 #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:16 =# true catch e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 =# @error e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:19 =# false end Stacktrace: [1] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:745 [inlined] [2] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:11 [inlined] [3] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:2018 [inlined] [4] testRealLinearSolver(; arrayType::Type{JLArray}, elType::Type) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:10 ┌ Error: ErrorException("Scalar indexing is disallowed.\nInvocation of getindex resulted in scalar indexing of a GPU array.\nThis is typically caused by calling an iterating implementation of a method.\nSuch implementations *do not* execute on the GPU, but very slowly on the CPU,\nand therefore should be avoided.\n\nIf you want to allow scalar iteration, use `allowscalar` or `@allowscalar`\nto enable scalar iteration globally or for the operations in question.") └ @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 solver = ADMM: Test Failed at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:11 Expression: try #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:12 =# S = createLinearSolver(solver, arrayType(A), iterations = 200) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:13 =# x_approx = Array(solve!(S, arrayType(b))) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:14 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:14 =# @info "Testing solver $(solver): $(x) ≈ $(x_approx)" #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:15 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:15 =# @test x_approx ≈ x rtol = 0.1 #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:16 =# true catch e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 =# @error e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:19 =# false end Stacktrace: [1] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:745 [inlined] [2] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:11 [inlined] [3] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:2018 [inlined] [4] testRealLinearSolver(; arrayType::Type{JLArray}, elType::Type) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:10 ┌ Error: ErrorException("Scalar indexing is disallowed.\nInvocation of getindex resulted in scalar indexing of a GPU array.\nThis is typically caused by calling an iterating implementation of a method.\nSuch implementations *do not* execute on the GPU, but very slowly on the CPU,\nand therefore should be avoided.\n\nIf you want to allow scalar iteration, use `allowscalar` or `@allowscalar`\nto enable scalar iteration globally or for the operations in question.") └ @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 solver = SplitBregman: Test Failed at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:11 Expression: try #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:12 =# S = createLinearSolver(solver, arrayType(A), iterations = 200) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:13 =# x_approx = Array(solve!(S, arrayType(b))) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:14 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:14 =# @info "Testing solver $(solver): $(x) ≈ $(x_approx)" #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:15 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:15 =# @test x_approx ≈ x rtol = 0.1 #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:16 =# true catch e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 =# @error e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:19 =# false end Stacktrace: [1] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:745 [inlined] [2] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:11 [inlined] [3] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:2018 [inlined] [4] testRealLinearSolver(; arrayType::Type{JLArray}, elType::Type) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:10 ┌ Error: ErrorException("Scalar indexing is disallowed.\nInvocation of getindex resulted in scalar indexing of a GPU array.\nThis is typically caused by calling an iterating implementation of a method.\nSuch implementations *do not* execute on the GPU, but very slowly on the CPU,\nand therefore should be avoided.\n\nIf you want to allow scalar iteration, use `allowscalar` or `@allowscalar`\nto enable scalar iteration globally or for the operations in question.") └ @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 solver = FISTA: Test Failed at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:11 Expression: try #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:12 =# S = createLinearSolver(solver, arrayType(A), iterations = 200) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:13 =# x_approx = Array(solve!(S, arrayType(b))) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:14 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:14 =# @info "Testing solver $(solver): $(x) ≈ $(x_approx)" #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:15 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:15 =# @test x_approx ≈ x rtol = 0.1 #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:16 =# true catch e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 =# @error e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:19 =# false end Stacktrace: [1] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:745 [inlined] [2] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:11 [inlined] [3] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:2018 [inlined] [4] testRealLinearSolver(; arrayType::Type{JLArray}, elType::Type) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:10 ┌ Error: ErrorException("Scalar indexing is disallowed.\nInvocation of getindex resulted in scalar indexing of a GPU array.\nThis is typically caused by calling an iterating implementation of a method.\nSuch implementations *do not* execute on the GPU, but very slowly on the CPU,\nand therefore should be avoided.\n\nIf you want to allow scalar iteration, use `allowscalar` or `@allowscalar`\nto enable scalar iteration globally or for the operations in question.") └ @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 solver = OptISTA: Test Failed at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:11 Expression: try #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:12 =# S = createLinearSolver(solver, arrayType(A), iterations = 200) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:13 =# x_approx = Array(solve!(S, arrayType(b))) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:14 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:14 =# @info "Testing solver $(solver): $(x) ≈ $(x_approx)" #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:15 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:15 =# @test x_approx ≈ x rtol = 0.1 #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:16 =# true catch e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 =# @error e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:19 =# false end Stacktrace: [1] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:745 [inlined] [2] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:11 [inlined] [3] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:2018 [inlined] [4] testRealLinearSolver(; arrayType::Type{JLArray}, elType::Type) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:10 ┌ Error: ErrorException("Scalar indexing is disallowed.\nInvocation of getindex resulted in scalar indexing of a GPU array.\nThis is typically caused by calling an iterating implementation of a method.\nSuch implementations *do not* execute on the GPU, but very slowly on the CPU,\nand therefore should be avoided.\n\nIf you want to allow scalar iteration, use `allowscalar` or `@allowscalar`\nto enable scalar iteration globally or for the operations in question.") └ @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 solver = POGM: Test Failed at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:11 Expression: try #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:12 =# S = createLinearSolver(solver, arrayType(A), iterations = 200) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:13 =# x_approx = Array(solve!(S, arrayType(b))) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:14 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:14 =# @info "Testing solver $(solver): $(x) ≈ $(x_approx)" #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:15 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:15 =# @test x_approx ≈ x rtol = 0.1 #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:16 =# true catch e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:18 =# @error e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:19 =# false end Stacktrace: [1] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:745 [inlined] [2] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:11 [inlined] [3] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:2018 [inlined] [4] testRealLinearSolver(; arrayType::Type{JLArray}, elType::Type) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:10 [ Info: Testing solver Kaczmarz: [0.6611685583355441, 0.7286364388306961] ≈ [0.6611685583355442, 0.7286364388306957] ┌ Error: ErrorException("Scalar indexing is disallowed.\nInvocation of getindex resulted in scalar indexing of a GPU array.\nThis is typically caused by calling an iterating implementation of a method.\nSuch implementations *do not* execute on the GPU, but very slowly on the CPU,\nand therefore should be avoided.\n\nIf you want to allow scalar iteration, use `allowscalar` or `@allowscalar`\nto enable scalar iteration globally or for the operations in question.") └ @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 solver = CGNR: Test Failed at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:32 Expression: try #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:33 =# S = createLinearSolver(solver, arrayType(A), iterations = 100) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:34 =# x_approx = Array(solve!(S, arrayType(b))) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:35 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:35 =# @info "Testing solver $(solver): $(x) ≈ $(x_approx)" #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:36 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:36 =# @test x_approx ≈ x rtol = 0.1 #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:37 =# true catch e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 =# @error e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:40 =# false end Stacktrace: [1] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:745 [inlined] [2] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:32 [inlined] [3] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:2018 [inlined] [4] testComplexLinearSolver(; arrayType::Type{JLArray}, elType::Type) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:31 ┌ Error: ErrorException("Scalar indexing is disallowed.\nInvocation of getindex resulted in scalar indexing of a GPU array.\nThis is typically caused by calling an iterating implementation of a method.\nSuch implementations *do not* execute on the GPU, but very slowly on the CPU,\nand therefore should be avoided.\n\nIf you want to allow scalar iteration, use `allowscalar` or `@allowscalar`\nto enable scalar iteration globally or for the operations in question.") └ @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 solver = ADMM: Test Failed at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:32 Expression: try #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:33 =# S = createLinearSolver(solver, arrayType(A), iterations = 100) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:34 =# x_approx = Array(solve!(S, arrayType(b))) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:35 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:35 =# @info "Testing solver $(solver): $(x) ≈ $(x_approx)" #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:36 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:36 =# @test x_approx ≈ x rtol = 0.1 #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:37 =# true catch e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 =# @error e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:40 =# false end Stacktrace: [1] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:745 [inlined] [2] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:32 [inlined] [3] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:2018 [inlined] [4] testComplexLinearSolver(; arrayType::Type{JLArray}, elType::Type) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:31 ┌ Error: ErrorException("Scalar indexing is disallowed.\nInvocation of getindex resulted in scalar indexing of a GPU array.\nThis is typically caused by calling an iterating implementation of a method.\nSuch implementations *do not* execute on the GPU, but very slowly on the CPU,\nand therefore should be avoided.\n\nIf you want to allow scalar iteration, use `allowscalar` or `@allowscalar`\nto enable scalar iteration globally or for the operations in question.") └ @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 solver = SplitBregman: Test Failed at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:32 Expression: try #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:33 =# S = createLinearSolver(solver, arrayType(A), iterations = 100) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:34 =# x_approx = Array(solve!(S, arrayType(b))) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:35 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:35 =# @info "Testing solver $(solver): $(x) ≈ $(x_approx)" #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:36 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:36 =# @test x_approx ≈ x rtol = 0.1 #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:37 =# true catch e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 =# @error e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:40 =# false end Stacktrace: [1] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:745 [inlined] [2] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:32 [inlined] [3] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:2018 [inlined] [4] testComplexLinearSolver(; arrayType::Type{JLArray}, elType::Type) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:31 ┌ Error: ErrorException("Scalar indexing is disallowed.\nInvocation of getindex resulted in scalar indexing of a GPU array.\nThis is typically caused by calling an iterating implementation of a method.\nSuch implementations *do not* execute on the GPU, but very slowly on the CPU,\nand therefore should be avoided.\n\nIf you want to allow scalar iteration, use `allowscalar` or `@allowscalar`\nto enable scalar iteration globally or for the operations in question.") └ @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 solver = FISTA: Test Failed at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:32 Expression: try #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:33 =# S = createLinearSolver(solver, arrayType(A), iterations = 100) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:34 =# x_approx = Array(solve!(S, arrayType(b))) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:35 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:35 =# @info "Testing solver $(solver): $(x) ≈ $(x_approx)" #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:36 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:36 =# @test x_approx ≈ x rtol = 0.1 #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:37 =# true catch e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 =# @error e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:40 =# false end Stacktrace: [1] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:745 [inlined] [2] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:32 [inlined] [3] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:2018 [inlined] [4] testComplexLinearSolver(; arrayType::Type{JLArray}, elType::Type) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:31 ┌ Error: ErrorException("Scalar indexing is disallowed.\nInvocation of getindex resulted in scalar indexing of a GPU array.\nThis is typically caused by calling an iterating implementation of a method.\nSuch implementations *do not* execute on the GPU, but very slowly on the CPU,\nand therefore should be avoided.\n\nIf you want to allow scalar iteration, use `allowscalar` or `@allowscalar`\nto enable scalar iteration globally or for the operations in question.") └ @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 solver = OptISTA: Test Failed at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:32 Expression: try #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:33 =# S = createLinearSolver(solver, arrayType(A), iterations = 100) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:34 =# x_approx = Array(solve!(S, arrayType(b))) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:35 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:35 =# @info "Testing solver $(solver): $(x) ≈ $(x_approx)" #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:36 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:36 =# @test x_approx ≈ x rtol = 0.1 #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:37 =# true catch e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 =# @error e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:40 =# false end Stacktrace: [1] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:745 [inlined] [2] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:32 [inlined] [3] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:2018 [inlined] [4] testComplexLinearSolver(; arrayType::Type{JLArray}, elType::Type) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:31 ┌ Error: ErrorException("Scalar indexing is disallowed.\nInvocation of getindex resulted in scalar indexing of a GPU array.\nThis is typically caused by calling an iterating implementation of a method.\nSuch implementations *do not* execute on the GPU, but very slowly on the CPU,\nand therefore should be avoided.\n\nIf you want to allow scalar iteration, use `allowscalar` or `@allowscalar`\nto enable scalar iteration globally or for the operations in question.") └ @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 solver = POGM: Test Failed at /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:32 Expression: try #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:33 =# S = createLinearSolver(solver, arrayType(A), iterations = 100) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:34 =# x_approx = Array(solve!(S, arrayType(b))) #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:35 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:35 =# @info "Testing solver $(solver): $(x) ≈ $(x_approx)" #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:36 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:36 =# @test x_approx ≈ x rtol = 0.1 #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:37 =# true catch e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 =# #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:39 =# @error e #= /home/pkgeval/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:40 =# false end Stacktrace: [1] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:745 [inlined] [2] macro expansion @ ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:32 [inlined] [3] macro expansion @ /opt/julia/share/julia/stdlib/v1.13/Test/src/Test.jl:2018 [inlined] [4] testComplexLinearSolver(; arrayType::Type{JLArray}, elType::Type) @ Main ~/.julia/packages/RegularizedLeastSquares/cuewt/test/testSolvers.jl:31 [ Info: Testing solver Kaczmarz: ComplexF64[0.26755021483368013 + 0.8104947638539546im, 0.11848853125656122 + 0.8532722765149262im] ≈ ComplexF64[0.26755021483368024 + 0.8104947638539546im, 0.1184885312565611 + 0.8532722765149262im] [ Info: Testing solver CGNR: ComplexF64[0.26755021483368013 + 0.8104947638539546im, 0.11848853125656122 + 0.8532722765149262im] ≈ ComplexF64[0.26755021483368013 + 0.8104947638539552im, 0.11848853125656153 + 0.8532722765149261im] [ Info: Testing solver ADMM: ComplexF64[0.26755021483368013 + 0.8104947638539546im, 0.11848853125656122 + 0.8532722765149262im] ≈ ComplexF64[0.26755021483368013 + 0.8104947638539544im, 0.11848853125656139 + 0.8532722765149264im] [ Info: Testing solver SplitBregman: ComplexF64[0.26755021483368013 + 0.8104947638539546im, 0.11848853125656122 + 0.8532722765149262im] ≈ ComplexF64[0.2675502165659934 + 0.8104947621430469im, 0.11848852962334391 + 0.8532722804664118im] [ Info: Testing solver FISTA: ComplexF64[0.26755021483368013 + 0.8104947638539546im, 0.11848853125656122 + 0.8532722765149262im] ≈ ComplexF64[0.2675500468920832 + 0.8104949297163325im, 0.11848868958974217 + 0.85327189343155im] [ Info: Testing solver OptISTA: ComplexF64[0.26755021483368013 + 0.8104947638539546im, 0.11848853125656122 + 0.8532722765149262im] ≈ ComplexF64[0.2675505586034004 + 0.8104944243393027im, 0.11848820715453703 + 0.8532730606710209im] [ Info: Testing solver POGM: ComplexF64[0.26755021483368013 + 0.8104947638539546im, 0.11848853125656122 + 0.8532722765149262im] ≈ ComplexF64[0.26755053855447447 + 0.8104944441395578im, 0.11848822605625087 + 0.8532730149382922im] [ Info: Testing solver POGM w/o restart: relative error = 0.0044811339610336225 [ Info: Testing solver POGM w/ gradient restart: relative error = 0.004481133961034085 [ Info: Testing solver POGM w/o restart and after re-scaling: relative error = 0.0023162372668548994 [ Info: Testing solver OptISTA w/o restart: relative error = 0.004481133961036627 [ Info: Testing solver OptISTA w/o restart and after re-scaling: relative error = 0.0023162372668581906 [ Info: Testing solver FISTA w/o restart: relative error = 0.004481133961034144 [ Info: Testing solver FISTA w/ gradient restart: relative error = 0.004481133961034089 [ Info: Testing solver FISTA w/o restart and after re-scaling: relative error = 0.0023162372668595077 [ Info: Testing solver ADMM w/o restart: relative error = 0.0022405765473298552 [ Info: Testing solver ADMM w/o restart and after re-scaling: relative error = 0.0001507131313555279 [ Info: Testing solver ADMM: relative error = 0.0022405765473280893 [ Info: Testing solver ADMM: relative error = 0.002240576547322348 [ Info: Testing solver ADMM: relative error = 0.002240576547330294 [ Info: Testing solver SplitBregman: relative error = 2.163338110047545e-8 [ Info: Testing solver SplitBregman: relative error = 2.163338112610089e-8 Outer ADMM Iteration #0 conjugated gradients: 1 1.67e-02 2 2.29e-08 rᵏ[1]/ɛᵖʳⁱ[1] = 0.0 sᵏ[1]/ɛᵈᵘᵃ[1] = Inf Δ[1]/Δᵒˡᵈ[1] = 0.0 new ρ[1] = 0.1 Outer ADMM Iteration #1 conjugated gradients: 1 5.17e-03 2 0.00e+00 rᵏ[1]/ɛᵖʳⁱ[1] = 0.0 sᵏ[1]/ɛᵈᵘᵃ[1] = Inf Δ[1]/Δᵒˡᵈ[1] = 0.12021446 new ρ[1] = 0.1 Outer ADMM Iteration #2 conjugated gradients: 1 2.04e-03 2 1.16e-10 rᵏ[1]/ɛᵖʳⁱ[1] = 0.0 sᵏ[1]/ɛᵈᵘᵃ[1] = Inf Δ[1]/Δᵒˡᵈ[1] = 0.27968067 new ρ[1] = 0.1 iter = 1; λ = 0.42973942; abs(λ/λᵒˡᵈ - 1) = 1.0