Package evaluation of Integrals on Julia 1.11.5 (32ac370b68*) started at 2025-06-29T15:10:16.629


################################################################################
# Set-up
#

Installing PkgEval dependencies (TestEnv)...

Set-up completed after 8.86s


################################################################################
# Installation
#

Installing Integrals...
   Resolving package versions...
    Updating `~/.julia/environments/v1.11/Project.toml`
  [de52edbc] + Integrals v4.6.0
    Updating `~/.julia/environments/v1.11/Manifest.toml`
  [47edcb42] + ADTypes v1.15.0
  [7d9f7c33] + Accessors v0.1.42
  [79e6a3ab] + Adapt v4.3.0
  [66dad0bd] + AliasTables v1.1.3
  [4fba245c] + ArrayInterface v7.19.0
  [861a8166] + Combinatorics v1.0.3
  [38540f10] + CommonSolve v0.2.4
  [34da2185] + Compat v4.16.0
  [a33af91c] + CompositionsBase v0.1.2
  [2569d6c7] + ConcreteStructs v0.2.3
  [187b0558] + ConstructionBase v1.6.0
  [a8cc5b0e] + Crayons v4.1.1
  [9a962f9c] + DataAPI v1.16.0
  [864edb3b] + DataStructures v0.18.22
  [e2d170a0] + DataValueInterfaces v1.0.0
  [8bb1440f] + DelimitedFiles v1.9.1
  [31c24e10] + Distributions v0.25.120
  [ffbed154] + DocStringExtensions v0.9.5
  [4e289a0a] + EnumX v1.0.5
  [e2ba6199] + ExprTools v0.1.10
  [55351af7] + ExproniconLite v0.10.14
  [1a297f60] + FillArrays v1.13.0
  [069b7b12] + FunctionWrappers v1.1.3
  [77dc65aa] + FunctionWrappersWrappers v0.1.3
  [46192b85] + GPUArraysCore v0.2.0
  [19dc6840] + HCubature v1.7.0
  [34004b35] + HypergeometricFunctions v0.3.28
  [18e54dd8] + IntegerMathUtils v0.1.2
  [de52edbc] + Integrals v4.6.0
  [3587e190] + InverseFunctions v0.1.17
  [92d709cd] + IrrationalConstants v0.2.4
  [82899510] + IteratorInterfaceExtensions v1.0.0
  [692b3bcd] + JLLWrappers v1.7.0
  [ae98c720] + Jieko v0.2.1
  [b964fa9f] + LaTeXStrings v1.4.0
  [73f95e8e] + LatticeRules v0.0.1
  [2ab3a3ac] + LogExpFunctions v0.3.29
  [1914dd2f] + MacroTools v0.5.16
  [e1d29d7a] + Missings v1.2.0
  [4886b29c] + MonteCarloIntegration v0.2.0
  [2e0e35c7] + Moshi v0.3.6
  [bac558e1] + OrderedCollections v1.8.1
  [90014a1f] + PDMats v0.11.35
⌅ [aea7be01] + PrecompileTools v1.2.1
  [21216c6a] + Preferences v1.4.3
  [08abe8d2] + PrettyTables v2.4.0
  [27ebfcd6] + Primes v0.5.7
  [43287f4e] + PtrArrays v1.3.0
  [1fd47b50] + QuadGK v2.11.2
  [8a4e6c94] + QuasiMonteCarlo v0.3.3
  [3cdcf5f2] + RecipesBase v1.3.4
  [731186ca] + RecursiveArrayTools v3.33.0
  [189a3867] + Reexport v1.2.2
  [ae029012] + Requires v1.3.1
  [79098fc4] + Rmath v0.8.0
  [7e49a35a] + RuntimeGeneratedFunctions v0.5.15
  [0bca4576] + SciMLBase v2.102.1
  [c0aeaf25] + SciMLOperators v1.3.1
  [53ae85a6] + SciMLStructures v1.7.0
  [ed01d8cd] + Sobol v1.5.0
  [a2af1166] + SortingAlgorithms v1.2.1
  [276daf66] + SpecialFunctions v2.5.1
  [90137ffa] + StaticArrays v1.9.13
  [1e83bf80] + StaticArraysCore v1.4.3
  [10745b16] + Statistics v1.11.1
  [82ae8749] + StatsAPI v1.7.1
  [2913bbd2] + StatsBase v0.34.5
  [4c63d2b9] + StatsFuns v1.5.0
  [892a3eda] + StringManipulation v0.4.1
  [2efcf032] + SymbolicIndexingInterface v0.3.41
  [3783bdb8] + TableTraits v1.0.1
  [bd369af6] + Tables v1.12.1
  [efe28fd5] + OpenSpecFun_jll v0.5.6+0
  [f50d1b31] + Rmath_jll v0.5.1+0
  [56f22d72] + Artifacts v1.11.0
  [2a0f44e3] + Base64 v1.11.0
  [ade2ca70] + Dates v1.11.0
  [8ba89e20] + Distributed v1.11.0
  [b77e0a4c] + InteractiveUtils v1.11.0
  [8f399da3] + Libdl v1.11.0
  [37e2e46d] + LinearAlgebra v1.11.0
  [56ddb016] + Logging v1.11.0
  [d6f4376e] + Markdown v1.11.0
  [a63ad114] + Mmap 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 v1.11.0
  [4607b0f0] + SuiteSparse
  [fa267f1f] + TOML v1.0.3
  [cf7118a7] + UUIDs v1.11.0
  [4ec0a83e] + Unicode v1.11.0
  [e66e0078] + CompilerSupportLibraries_jll v1.1.1+0
  [4536629a] + OpenBLAS_jll v0.3.27+1
  [05823500] + OpenLibm_jll v0.8.5+0
  [bea87d4a] + SuiteSparse_jll v7.7.0+0
  [8e850b90] + libblastrampoline_jll v5.11.0+0
        Info Packages marked with ⌅ have new versions available but compatibility constraints restrict them from upgrading. To see why use `status --outdated -m`

Installation completed after 4.36s


################################################################################
# Precompilation
#

Precompiling PkgEval dependencies...

Precompiling package dependencies...

Precompilation completed after 545.42s


################################################################################
# Testing
#

     Testing Integrals
      Status `/tmp/jl_HoBI9E/Project.toml`
  [4c88cf16] Aqua v0.8.13
  [fb37089c] Arblib v1.5.0
  [d360d2e6] ChainRulesCore v1.25.2
  [38540f10] CommonSolve v0.2.4
  [8a292aeb] Cuba v2.3.0
  [667455a9] Cubature v1.5.1
  [31c24e10] Distributions v0.25.120
  [442a2c76] FastGaussQuadrature v1.0.2
  [6a86dc24] FiniteDiff v2.27.0
⌅ [f6369f11] ForwardDiff v0.10.38
  [19dc6840] HCubature v1.7.0
  [de52edbc] Integrals v4.6.0
  [ea1e2de9] MCIntegration v0.4.2
  [4886b29c] MonteCarloIntegration v0.2.0
  [1fd47b50] QuadGK v2.11.2
  [189a3867] Reexport v1.2.2
  [1bc83da4] SafeTestsets v0.1.0
  [0bca4576] SciMLBase v2.102.1
  [90137ffa] StaticArrays v1.9.13
  [e88e6eb3] Zygote v0.7.10
  [37e2e46d] LinearAlgebra v1.11.0
  [9a3f8284] Random v1.11.0
  [8dfed614] Test v1.11.0
      Status `/tmp/jl_HoBI9E/Manifest.toml`
  [47edcb42] ADTypes v1.15.0
  [621f4979] AbstractFFTs v1.5.0
  [7d9f7c33] Accessors v0.1.42
  [79e6a3ab] Adapt v4.3.0
  [66dad0bd] AliasTables v1.1.3
  [4c88cf16] Aqua v0.8.13
  [fb37089c] Arblib v1.5.0
  [ec485272] ArnoldiMethod v0.4.0
  [4fba245c] ArrayInterface v7.19.0
  [082447d4] ChainRules v1.72.5
  [d360d2e6] ChainRulesCore v1.25.2
  [861a8166] Combinatorics v1.0.3
  [38540f10] CommonSolve v0.2.4
  [bbf7d656] CommonSubexpressions v0.3.1
  [34da2185] Compat v4.16.0
  [a33af91c] CompositionsBase v0.1.2
  [2569d6c7] ConcreteStructs v0.2.3
  [187b0558] ConstructionBase v1.6.0
  [a8cc5b0e] Crayons v4.1.1
  [8a292aeb] Cuba v2.3.0
  [667455a9] Cubature v1.5.1
  [9a962f9c] DataAPI v1.16.0
  [864edb3b] DataStructures v0.18.22
  [e2d170a0] DataValueInterfaces v1.0.0
  [8bb1440f] DelimitedFiles v1.9.1
  [163ba53b] DiffResults v1.1.0
  [b552c78f] DiffRules v1.15.1
  [31c24e10] Distributions v0.25.120
  [ffbed154] DocStringExtensions v0.9.5
  [4e289a0a] EnumX v1.0.5
  [e2ba6199] ExprTools v0.1.10
  [55351af7] ExproniconLite v0.10.14
  [442a2c76] FastGaussQuadrature v1.0.2
  [1a297f60] FillArrays v1.13.0
  [6a86dc24] FiniteDiff v2.27.0
⌅ [f6369f11] ForwardDiff v0.10.38
  [069b7b12] FunctionWrappers v1.1.3
  [77dc65aa] FunctionWrappersWrappers v0.1.3
  [46192b85] GPUArraysCore v0.2.0
  [86223c79] Graphs v1.13.0
  [19dc6840] HCubature v1.7.0
  [076d061b] HashArrayMappedTries v0.2.0
  [34004b35] HypergeometricFunctions v0.3.28
  [7869d1d1] IRTools v0.4.15
  [d25df0c9] Inflate v0.1.5
  [18e54dd8] IntegerMathUtils v0.1.2
  [de52edbc] Integrals v4.6.0
  [3587e190] InverseFunctions v0.1.17
  [92d709cd] IrrationalConstants v0.2.4
  [82899510] IteratorInterfaceExtensions v1.0.0
  [692b3bcd] JLLWrappers v1.7.0
  [ae98c720] Jieko v0.2.1
  [b964fa9f] LaTeXStrings v1.4.0
  [73f95e8e] LatticeRules v0.0.1
  [2ab3a3ac] LogExpFunctions v0.3.29
  [ea1e2de9] MCIntegration v0.4.2
  [da04e1cc] MPI v0.20.22
  [3da0fdf6] MPIPreferences v0.1.11
  [1914dd2f] MacroTools v0.5.16
  [e1d29d7a] Missings v1.2.0
  [4886b29c] MonteCarloIntegration v0.2.0
  [2e0e35c7] Moshi v0.3.6
  [77ba4419] NaNMath v1.1.3
  [bac558e1] OrderedCollections v1.8.1
  [90014a1f] PDMats v0.11.35
  [eebad327] PkgVersion v0.3.3
⌅ [aea7be01] PrecompileTools v1.2.1
  [21216c6a] Preferences v1.4.3
  [08abe8d2] PrettyTables v2.4.0
  [27ebfcd6] Primes v0.5.7
  [92933f4c] ProgressMeter v1.10.4
  [43287f4e] PtrArrays v1.3.0
  [1fd47b50] QuadGK v2.11.2
  [8a4e6c94] QuasiMonteCarlo v0.3.3
  [c1ae055f] RealDot v0.1.0
  [3cdcf5f2] RecipesBase v1.3.4
  [731186ca] RecursiveArrayTools v3.33.0
  [189a3867] Reexport v1.2.2
  [ae029012] Requires v1.3.1
  [79098fc4] Rmath v0.8.0
  [7e49a35a] RuntimeGeneratedFunctions v0.5.15
  [1bc83da4] SafeTestsets v0.1.0
  [0bca4576] SciMLBase v2.102.1
  [c0aeaf25] SciMLOperators v1.3.1
  [53ae85a6] SciMLStructures v1.7.0
  [7e506255] ScopedValues v1.3.0
  [efcf1570] Setfield v1.1.2
  [699a6c99] SimpleTraits v0.9.4
  [ed01d8cd] Sobol v1.5.0
  [a2af1166] SortingAlgorithms v1.2.1
  [dc90abb0] SparseInverseSubset v0.1.2
  [276daf66] SpecialFunctions v2.5.1
  [90137ffa] StaticArrays v1.9.13
  [1e83bf80] StaticArraysCore v1.4.3
  [10745b16] Statistics v1.11.1
  [82ae8749] StatsAPI v1.7.1
  [2913bbd2] StatsBase v0.34.5
  [4c63d2b9] StatsFuns v1.5.0
  [892a3eda] StringManipulation v0.4.1
  [09ab397b] StructArrays v0.7.1
  [2efcf032] SymbolicIndexingInterface v0.3.41
  [3783bdb8] TableTraits v1.0.1
  [bd369af6] Tables v1.12.1
  [e88e6eb3] Zygote v0.7.10
  [700de1a5] ZygoteRules v0.2.7
  [3bed1096] Cuba_jll v4.2.2+1
  [7bc98958] Cubature_jll v1.0.5+0
  [e134572f] FLINT_jll v301.300.100+0
  [e33a78d0] Hwloc_jll v2.12.1+0
  [7cb0a576] MPICH_jll v4.3.1+0
  [f1f71cc9] MPItrampoline_jll v5.5.4+0
  [9237b28f] MicrosoftMPI_jll v10.1.4+3
  [656ef2d0] OpenBLAS32_jll v0.3.29+0
  [fe0851c0] OpenMPI_jll v5.0.8+0
  [efe28fd5] OpenSpecFun_jll v0.5.6+0
  [f50d1b31] Rmath_jll v0.5.1+0
  [0dad84c5] ArgTools v1.1.2
  [56f22d72] Artifacts v1.11.0
  [2a0f44e3] Base64 v1.11.0
  [ade2ca70] Dates v1.11.0
  [8ba89e20] Distributed v1.11.0
  [f43a241f] Downloads v1.6.0
  [7b1f6079] FileWatching v1.11.0
  [9fa8497b] Future v1.11.0
  [b77e0a4c] InteractiveUtils v1.11.0
  [4af54fe1] LazyArtifacts v1.11.0
  [b27032c2] LibCURL v0.6.4
  [76f85450] LibGit2 v1.11.0
  [8f399da3] Libdl v1.11.0
  [37e2e46d] LinearAlgebra v1.11.0
  [56ddb016] Logging v1.11.0
  [d6f4376e] Markdown v1.11.0
  [a63ad114] Mmap v1.11.0
  [ca575930] NetworkOptions v1.2.0
  [44cfe95a] Pkg v1.11.0
  [de0858da] Printf v1.11.0
  [9a3f8284] Random v1.11.0
  [ea8e919c] SHA v0.7.0
  [9e88b42a] Serialization v1.11.0
  [1a1011a3] SharedArrays v1.11.0
  [6462fe0b] Sockets v1.11.0
  [2f01184e] SparseArrays v1.11.0
  [4607b0f0] SuiteSparse
  [fa267f1f] TOML v1.0.3
  [a4e569a6] Tar v1.10.0
  [8dfed614] Test v1.11.0
  [cf7118a7] UUIDs v1.11.0
  [4ec0a83e] Unicode v1.11.0
  [e66e0078] CompilerSupportLibraries_jll v1.1.1+0
  [781609d7] GMP_jll v6.3.0+0
  [deac9b47] LibCURL_jll v8.6.0+0
  [e37daf67] LibGit2_jll v1.7.2+0
  [29816b5a] LibSSH2_jll v1.11.0+1
  [3a97d323] MPFR_jll v4.2.1+0
  [c8ffd9c3] MbedTLS_jll v2.28.6+0
  [14a3606d] MozillaCACerts_jll v2023.12.12
  [4536629a] OpenBLAS_jll v0.3.27+1
  [05823500] OpenLibm_jll v0.8.5+0
  [bea87d4a] SuiteSparse_jll v7.7.0+0
  [83775a58] Zlib_jll v1.2.13+1
  [8e850b90] libblastrampoline_jll v5.11.0+0
  [8e850ede] nghttp2_jll v1.59.0+0
  [3f19e933] p7zip_jll v17.4.0+2
        Info Packages marked with ⌅ have new versions available but compatibility constraints restrict them from upgrading.
     Testing Running tests...
Precompiling DistributionsTestExt...
   4262.0 ms  ✓ Distributions → DistributionsTestExt
  1 dependency successfully precompiled in 6 seconds. 48 already precompiled.
Test Summary:     | Pass  Total     Time
Quality Assurance |   10     10  4m27.0s
267.190369 seconds (32.56 M allocations: 2.303 GiB, 1.11% gc time, 59.92% compilation time)
Precompiling IntegralsCubaExt...
   7112.1 ms  ✓ Integrals → IntegralsCubaExt
  1 dependency successfully precompiled in 10 seconds. 132 already precompiled.
Precompiling IntegralsCubatureExt...
   6963.7 ms  ✓ Integrals → IntegralsCubatureExt
  1 dependency successfully precompiled in 9 seconds. 132 already precompiled.
Precompiling IntegralsFastGaussQuadratureExt...
   7005.6 ms  ✓ Integrals → IntegralsFastGaussQuadratureExt
  1 dependency successfully precompiled in 9 seconds. 116 already precompiled.
Precompiling MCIntegration...
   3394.7 ms  ✓ OpenMPI_jll
   3446.8 ms  ✓ MPItrampoline_jll
   9344.5 ms  ✓ Graphs
  15596.9 ms  ✓ MPI
   8381.1 ms  ✓ MCIntegration
  5 dependencies successfully precompiled in 41 seconds. 57 already precompiled.
Precompiling IntegralsMCIntegrationExt...
  11272.8 ms  ✓ Integrals → IntegralsMCIntegrationExt
  1 dependency successfully precompiled in 14 seconds. 150 already precompiled.
┌ Warning: `IntegralProblem{iip}(f::AbstractIntegralFunction, lb::Union{Number, AbstractVector{<:Number}}, ub::Union{Number, AbstractVector{<:Number}}, p = NullParameters(); kwargs...) where iip` is deprecated, use `IntegralProblem{iip}(f, (lb, ub), p; kwargs...)` instead.
│   caller = ip:0x0
└ @ Core :-1
[ Info: Alg = HCubatureJL, Integrand = 1, Dimension = 1, Output Dimension = 1
[ Info: Alg = HCubatureJL, Integrand = 2, Dimension = 1, Output Dimension = 1
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 1, Output Dimension = 1
[ Info: Alg = CubatureJLp, Integrand = 2, Dimension = 1, Output Dimension = 1
[ Info: Alg = CubatureJLh, Integrand = 1, Dimension = 1, Output Dimension = 1
[ Info: Alg = CubatureJLh, Integrand = 2, Dimension = 1, Output Dimension = 1
[ Info: Alg = QuadGKJL, Integrand = 1, Dimension = 1, Output Dimension = 1
[ Info: Alg = QuadGKJL, Integrand = 2, Dimension = 1, Output Dimension = 1
[ Info: Alg = VEGASMC, Integrand = 1, Dimension = 1, Output Dimension = 1
[ Info: Alg = VEGASMC, Integrand = 2, Dimension = 1, Output Dimension = 1
[ Info: Alg = QuadratureRule, Integrand = 1, Dimension = 1, Output Dimension = 1
[ Info: Alg = QuadratureRule, Integrand = 2, Dimension = 1, Output Dimension = 1
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 1, Output Dimension = 1
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 1, Output Dimension = 1
[ Info: Alg = CubaSUAVE, Integrand = 1, Dimension = 1, Output Dimension = 1
[ Info: Alg = CubaSUAVE, Integrand = 2, Dimension = 1, Output Dimension = 1
[ Info: Alg = ArblibJL, Integrand = 1, Dimension = 1, Output Dimension = 1
[ Info: Alg = ArblibJL, Integrand = 2, Dimension = 1, Output Dimension = 1
[ Info: Alg = GaussLegendre, Integrand = 1, Dimension = 1, Output Dimension = 1
[ Info: Alg = GaussLegendre, Integrand = 2, Dimension = 1, Output Dimension = 1
[ Info: Alg = HCubatureJL, Integrand = 1, Dimension = 1, Output Dimension = 1
[ Info: Alg = HCubatureJL, Integrand = 1, Dimension = 2, Output Dimension = 1
[ Info: Alg = HCubatureJL, Integrand = 2, Dimension = 1, Output Dimension = 1
[ Info: Alg = HCubatureJL, Integrand = 2, Dimension = 2, Output Dimension = 1
[ Info: Alg = VEGAS, Integrand = 1, Dimension = 2, Output Dimension = 1
Converged in 1000 evaluations
[ Info: Alg = VEGAS, Integrand = 2, Dimension = 2, Output Dimension = 1
[ Info: Alg = CubaCuhre, Integrand = 1, Dimension = 2, Output Dimension = 1
[ Info: Alg = CubaCuhre, Integrand = 2, Dimension = 2, Output Dimension = 1
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 1, Output Dimension = 1
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 2, Output Dimension = 1
[ Info: Alg = CubatureJLp, Integrand = 2, Dimension = 1, Output Dimension = 1
[ Info: Alg = CubatureJLp, Integrand = 2, Dimension = 2, Output Dimension = 1
[ Info: Alg = CubatureJLh, Integrand = 1, Dimension = 1, Output Dimension = 1
[ Info: Alg = CubatureJLh, Integrand = 1, Dimension = 2, Output Dimension = 1
[ Info: Alg = CubatureJLh, Integrand = 2, Dimension = 1, Output Dimension = 1
[ Info: Alg = CubatureJLh, Integrand = 2, Dimension = 2, Output Dimension = 1
[ Info: Alg = QuadGKJL, Integrand = 1, Dimension = 1, Output Dimension = 1
[ Info: Alg = QuadGKJL, Integrand = 2, Dimension = 1, Output Dimension = 1
[ Info: Alg = VEGASMC, Integrand = 1, Dimension = 1, Output Dimension = 1
[ Info: Alg = VEGASMC, Integrand = 1, Dimension = 2, Output Dimension = 1
[ Info: Alg = VEGASMC, Integrand = 2, Dimension = 1, Output Dimension = 1
[ Info: Alg = VEGASMC, Integrand = 2, Dimension = 2, Output Dimension = 1
[ Info: Alg = QuadratureRule, Integrand = 1, Dimension = 1, Output Dimension = 1
[ Info: Alg = QuadratureRule, Integrand = 2, Dimension = 1, Output Dimension = 1
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 1, Output Dimension = 1
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 2, Output Dimension = 1
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 1, Output Dimension = 1
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 2, Output Dimension = 1
[ Info: Alg = CubaSUAVE, Integrand = 1, Dimension = 1, Output Dimension = 1
[ Info: Alg = CubaSUAVE, Integrand = 1, Dimension = 2, Output Dimension = 1
[ Info: Alg = CubaSUAVE, Integrand = 2, Dimension = 1, Output Dimension = 1
[ Info: Alg = CubaSUAVE, Integrand = 2, Dimension = 2, Output Dimension = 1
[ Info: Alg = CubaDivonne, Integrand = 1, Dimension = 2, Output Dimension = 1
[ Info: Alg = CubaDivonne, Integrand = 2, Dimension = 2, Output Dimension = 1
[ Info: Alg = ArblibJL, Integrand = 1, Dimension = 1, Output Dimension = 1
[ Info: Alg = ArblibJL, Integrand = 2, Dimension = 1, Output Dimension = 1
[ Info: Alg = GaussLegendre, Integrand = 1, Dimension = 1, Output Dimension = 1
[ Info: Alg = GaussLegendre, Integrand = 2, Dimension = 1, Output Dimension = 1
[ Info: Alg = HCubatureJL, Integrand = 1, Dimension = 1, Output Dimension = 1
[ Info: Alg = HCubatureJL, Integrand = 1, Dimension = 2, Output Dimension = 1
[ Info: Alg = HCubatureJL, Integrand = 2, Dimension = 1, Output Dimension = 1
[ Info: Alg = HCubatureJL, Integrand = 2, Dimension = 2, Output Dimension = 1
[ Info: Alg = VEGAS, Integrand = 1, Dimension = 2, Output Dimension = 1
Converged in 1000 evaluations
[ Info: Alg = VEGAS, Integrand = 2, Dimension = 2, Output Dimension = 1
[ Info: Alg = CubaCuhre, Integrand = 1, Dimension = 2, Output Dimension = 1
[ Info: Alg = CubaCuhre, Integrand = 2, Dimension = 2, Output Dimension = 1
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 1, Output Dimension = 1
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 2, Output Dimension = 1
[ Info: Alg = CubatureJLp, Integrand = 2, Dimension = 1, Output Dimension = 1
[ Info: Alg = CubatureJLp, Integrand = 2, Dimension = 2, Output Dimension = 1
[ Info: Alg = CubatureJLh, Integrand = 1, Dimension = 1, Output Dimension = 1
[ Info: Alg = CubatureJLh, Integrand = 1, Dimension = 2, Output Dimension = 1
[ Info: Alg = CubatureJLh, Integrand = 2, Dimension = 1, Output Dimension = 1
[ Info: Alg = CubatureJLh, Integrand = 2, Dimension = 2, Output Dimension = 1
[ Info: Alg = QuadGKJL, Integrand = 1, Dimension = 1, Output Dimension = 1
[ Info: Alg = QuadGKJL, Integrand = 2, Dimension = 1, Output Dimension = 1
[ Info: Alg = VEGASMC, Integrand = 1, Dimension = 1, Output Dimension = 1
[ Info: Alg = VEGASMC, Integrand = 1, Dimension = 2, Output Dimension = 1
[ Info: Alg = VEGASMC, Integrand = 2, Dimension = 1, Output Dimension = 1
[ Info: Alg = VEGASMC, Integrand = 2, Dimension = 2, Output Dimension = 1
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 1, Output Dimension = 1
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 2, Output Dimension = 1
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 1, Output Dimension = 1
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 2, Output Dimension = 1
[ Info: Alg = CubaSUAVE, Integrand = 1, Dimension = 1, Output Dimension = 1
[ Info: Alg = CubaSUAVE, Integrand = 1, Dimension = 2, Output Dimension = 1
[ Info: Alg = CubaSUAVE, Integrand = 2, Dimension = 1, Output Dimension = 1
[ Info: Alg = CubaSUAVE, Integrand = 2, Dimension = 2, Output Dimension = 1
[ Info: Alg = CubaDivonne, Integrand = 1, Dimension = 2, Output Dimension = 1
[ Info: Alg = CubaDivonne, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = QuadGKJL, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = QuadGKJL, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = VEGAS, Integrand = 1, Dimension = 2, Output Dimension = 1
Converged in 1000 evaluations
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = VEGAS, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaCuhre, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaCuhre, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = QuadGKJL, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = QuadGKJL, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaDivonne, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaDivonne, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = VEGAS, Integrand = 1, Dimension = 2, Output Dimension = 1
Converged in 1000 evaluations
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = VEGAS, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaCuhre, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaCuhre, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = QuadGKJL, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = QuadGKJL, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaDivonne, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaDivonne, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = HCubatureJL, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = HCubatureJL, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = HCubatureJL, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = HCubatureJL, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = QuadGKJL, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = QuadGKJL, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = QuadGKJL, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = QuadGKJL, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = VEGASMC, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = VEGASMC, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = VEGASMC, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = VEGASMC, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = QuadratureRule, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = QuadratureRule, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = QuadratureRule, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = QuadratureRule, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = ArblibJL, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = ArblibJL, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = GaussLegendre, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = GaussLegendre, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = GaussLegendre, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = GaussLegendre, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = HCubatureJL, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = HCubatureJL, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = HCubatureJL, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = HCubatureJL, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = HCubatureJL, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = HCubatureJL, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = HCubatureJL, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = HCubatureJL, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = VEGAS, Integrand = 1, Dimension = 2, Output Dimension = 1
Converged in 1000 evaluations
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = VEGAS, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaCuhre, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaCuhre, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaCuhre, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaCuhre, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = QuadGKJL, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = QuadGKJL, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = QuadGKJL, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = QuadGKJL, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = VEGASMC, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = VEGASMC, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = VEGASMC, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = VEGASMC, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = VEGASMC, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = VEGASMC, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = VEGASMC, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = VEGASMC, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = QuadratureRule, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = QuadratureRule, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = QuadratureRule, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = QuadratureRule, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaDivonne, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaDivonne, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaDivonne, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaDivonne, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = ArblibJL, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = ArblibJL, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = GaussLegendre, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = GaussLegendre, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = GaussLegendre, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = GaussLegendre, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = HCubatureJL, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = HCubatureJL, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = HCubatureJL, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = HCubatureJL, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = HCubatureJL, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = HCubatureJL, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = HCubatureJL, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = HCubatureJL, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = VEGAS, Integrand = 1, Dimension = 2, Output Dimension = 1
Converged in 1000 evaluations
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = VEGAS, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaCuhre, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaCuhre, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaCuhre, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaCuhre, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = QuadGKJL, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = QuadGKJL, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = QuadGKJL, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = QuadGKJL, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = VEGASMC, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = VEGASMC, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = VEGASMC, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = VEGASMC, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = VEGASMC, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = VEGASMC, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = VEGASMC, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = VEGASMC, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 1, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 2, Dimension = 1, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaDivonne, Integrand = 1, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaDivonne, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaDivonne, Integrand = 2, Dimension = 2, Output Dimension = 1
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaDivonne, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = QuadGKJL, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = QuadGKJL, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaCuhre, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaCuhre, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = QuadGKJL, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = QuadGKJL, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaDivonne, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaDivonne, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaCuhre, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaCuhre, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLp, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubatureJLh, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = QuadGKJL, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = QuadGKJL, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaVegas, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 1, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 2, Dimension = 1, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaSUAVE, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaDivonne, Integrand = 1, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
[ Info: Alg = CubaDivonne, Integrand = 2, Dimension = 2, Output Dimension = 2
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: `nout` and `batch` keywords are deprecated in favor of inplace `IntegralFunction`s or `BatchIntegralFunction`s. Instead of using `nout` to define sizes, the new interface requires giving an `integrand_prototype` which is a vector of the form to write to. For example, define an `IntegralFunction` where `integrand_prototype = zero(nout)` (or appropriate vector type), or for batched `integrand_prototype = zero(nout, nbatch)`. See the updated Integrals.jl documentation for details.
└ @ SciMLBase ~/.julia/packages/SciMLBase/gwbNe/src/problems/integral_problems.jl:82
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:66
┌ Warning: updating lb is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:61
┌ Warning: updating ub is deprecated by replacing domain
└ @ Integrals ~/.julia/packages/Integrals/TyuEs/src/common.jl:66
Test Summary:   | Pass  Total      Time
Interface Tests |  833    833  21m11.5s
1271.686840 seconds (3.34 G allocations: 117.085 GiB, 1.75% gc time, 44.43% compilation time: <1% of which was recompilation)
Precompiling Zygote...
   1589.7 ms  ✓ StructArrays
   6873.1 ms  ✓ ForwardDiff
    793.9 ms  ✓ StructArrays → StructArraysAdaptExt
   1142.4 ms  ✓ StructArrays → StructArraysSparseArraysExt
    813.7 ms  ✓ StructArrays → StructArraysLinearAlgebraExt
  11588.6 ms  ✓ ChainRules
  64186.7 ms  ✓ Zygote
  7 dependencies successfully precompiled in 88 seconds. 58 already precompiled.
Precompiling StatsFunsChainRulesCoreExt...
   4162.3 ms  ✓ StatsFuns → StatsFunsChainRulesCoreExt
  1 dependency successfully precompiled in 4 seconds. 24 already precompiled.
Precompiling DistributionsChainRulesCoreExt...
   4597.0 ms  ✓ Distributions → DistributionsChainRulesCoreExt
  1 dependency successfully precompiled in 7 seconds. 51 already precompiled.
Precompiling SciMLBaseChainRulesCoreExt...
   3327.1 ms  ✓ SciMLBase → SciMLBaseChainRulesCoreExt
  1 dependency successfully precompiled in 4 seconds. 64 already precompiled.
Precompiling StructArraysExt...
   1048.9 ms  ✓ Accessors → StructArraysExt
  1 dependency successfully precompiled in 1 seconds. 20 already precompiled.
Precompiling RecursiveArrayToolsStructArraysExt...
   2385.9 ms  ✓ RecursiveArrayTools → RecursiveArrayToolsStructArraysExt
  1 dependency successfully precompiled in 3 seconds. 48 already precompiled.
Precompiling StructArraysStaticArraysExt...
   1488.7 ms  ✓ StructArrays → StructArraysStaticArraysExt
  1 dependency successfully precompiled in 2 seconds. 19 already precompiled.
Precompiling ArrayInterfaceChainRulesExt...
   1685.7 ms  ✓ ArrayInterface → ArrayInterfaceChainRulesExt
  1 dependency successfully precompiled in 2 seconds. 40 already precompiled.
Precompiling RecursiveArrayToolsForwardDiffExt...
   2735.4 ms  ✓ RecursiveArrayTools → RecursiveArrayToolsForwardDiffExt
  1 dependency successfully precompiled in 3 seconds. 57 already precompiled.
Precompiling IntegralsForwardDiffExt...
   2141.0 ms  ✓ ForwardDiff → ForwardDiffStaticArraysExt
   7319.6 ms  ✓ Integrals → IntegralsForwardDiffExt
  2 dependencies successfully precompiled in 12 seconds. 121 already precompiled.
Precompiling RecursiveArrayToolsZygoteExt...
   8925.2 ms  ✓ RecursiveArrayTools → RecursiveArrayToolsZygoteExt
  1 dependency successfully precompiled in 10 seconds. 92 already precompiled.
Precompiling SciMLBaseZygoteExt...
  10370.3 ms  ✓ SciMLBase → SciMLBaseZygoteExt
  1 dependency successfully precompiled in 12 seconds. 110 already precompiled.
Precompiling IntegralsZygoteExt...
  12843.2 ms  ✓ Integrals → IntegralsZygoteExt
  1 dependency successfully precompiled in 16 seconds. 150 already precompiled.
┌ Info: One-dimensional, scalar, oop derivative test
│   alg = :HCubatureJL
│   integrand = 1
└   scalarize = 1
┌ Info: One-dimensional, scalar, oop derivative test
│   alg = :HCubatureJL
│   integrand = 1
└   scalarize = 2
┌ Info: One-dimensional, scalar, oop derivative test
│   alg = :CubatureJLh
│   integrand = 1
└   scalarize = 1
┌ Info: One-dimensional, scalar, oop derivative test
│   alg = :CubatureJLh
│   integrand = 1
└   scalarize = 2
┌ Info: One-dimensional, scalar, oop derivative test
│   alg = :QuadGKJL
│   integrand = 1
└   scalarize = 1
┌ Info: One-dimensional, scalar, oop derivative test
│   alg = :QuadGKJL
│   integrand = 1
└   scalarize = 2
┌ Info: One-dimensional, scalar, oop derivative test
│   alg = :QuadratureRule
│   integrand = 1
└   scalarize = 1
┌ Info: One-dimensional, scalar, oop derivative test
│   alg = :QuadratureRule
│   integrand = 1
└   scalarize = 2
┌ Info: One-dimensional, scalar, oop derivative test
│   alg = :GaussLegendre
│   integrand = 1
└   scalarize = 1
┌ Info: One-dimensional, scalar, oop derivative test
│   alg = :GaussLegendre
│   integrand = 1
└   scalarize = 2
┌ Info: One-dimensional, scalar, oop derivative test
│   alg = :CubatureJLp
│   integrand = 1
└   scalarize = 1
┌ Info: One-dimensional, scalar, oop derivative test
│   alg = :CubatureJLp
│   integrand = 1
└   scalarize = 2
┌ Info: One-dimensional, scalar, oop derivative test
│   alg = :GaussLegendre
│   integrand = 1
└   scalarize = 1
┌ Info: One-dimensional, scalar, oop derivative test
│   alg = :GaussLegendre
│   integrand = 1
└   scalarize = 2
┌ Info: One-dimensional, multivariate, oop derivative test
│   alg = :HCubatureJL
│   integrand = 1
│   scalarize = 1
└   nout = 1
┌ Info: One-dimensional, multivariate, oop derivative test
│   alg = :HCubatureJL
│   integrand = 1
│   scalarize = 1
└   nout = 2
┌ Info: One-dimensional, multivariate, oop derivative test
│   alg = :HCubatureJL
│   integrand = 1
│   scalarize = 2
└   nout = 1
┌ Info: One-dimensional, multivariate, oop derivative test
│   alg = :HCubatureJL
│   integrand = 1
│   scalarize = 2
└   nout = 2
┌ Info: One-dimensional, multivariate, oop derivative test
│   alg = :CubatureJLh
│   integrand = 1
│   scalarize = 1
└   nout = 1
┌ Info: One-dimensional, multivariate, oop derivative test
│   alg = :CubatureJLh
│   integrand = 1
│   scalarize = 1
└   nout = 2
┌ Info: One-dimensional, multivariate, oop derivative test
│   alg = :CubatureJLh
│   integrand = 1
│   scalarize = 2
└   nout = 1
┌ Info: One-dimensional, multivariate, oop derivative test
│   alg = :CubatureJLh
│   integrand = 1
│   scalarize = 2
└   nout = 2
┌ Info: One-dimensional, multivariate, oop derivative test
│   alg = :QuadGKJL
│   integrand = 1
│   scalarize = 1
└   nout = 1
┌ Info: One-dimensional, multivariate, oop derivative test
│   alg = :QuadGKJL
│   integrand = 1
│   scalarize = 1
└   nout = 2
┌ Info: One-dimensional, multivariate, oop derivative test
│   alg = :QuadGKJL
│   integrand = 1
│   scalarize = 2
└   nout = 1

======================================================================================
Information request received. A stacktrace will print followed by a 1.0 second profile
======================================================================================

cmd: /opt/julia/bin/julia 227 running 1 of 1

signal (10): User defined signal 1
abstract_eval_special_value at ./compiler/abstractinterpretation.jl:2367 [inlined]
abstract_eval_statement at ./compiler/abstractinterpretation.jl:2750
abstract_eval_basic_statement at ./compiler/abstractinterpretation.jl:3038
typeinf_local at ./compiler/abstractinterpretation.jl:3331
typeinf_nocycle at ./compiler/abstractinterpretation.jl:3413
_typeinf at ./compiler/typeinfer.jl:244
typeinf at ./compiler/typeinfer.jl:215
typeinf_edge at ./compiler/typeinfer.jl:923
abstract_call_method at ./compiler/abstractinterpretation.jl:660
abstract_call_gf_by_type at ./compiler/abstractinterpretation.jl:102
abstract_call_known at ./compiler/abstractinterpretation.jl:2200
abstract_call at ./compiler/abstractinterpretation.jl:2282
abstract_call at ./compiler/abstractinterpretation.jl:2275
abstract_call at ./compiler/abstractinterpretation.jl:2423
abstract_eval_call at ./compiler/abstractinterpretation.jl:2438
abstract_eval_statement_expr at ./compiler/abstractinterpretation.jl:2454
abstract_eval_statement at ./compiler/abstractinterpretation.jl:2752
abstract_eval_basic_statement at ./compiler/abstractinterpretation.jl:3044
typeinf_local at ./compiler/abstractinterpretation.jl:3331
typeinf_nocycle at ./compiler/abstractinterpretation.jl:3413
_typeinf at ./compiler/typeinfer.jl:244
typeinf at ./compiler/typeinfer.jl:215
typeinf_edge at ./compiler/typeinfer.jl:923
abstract_call_method at ./compiler/abstractinterpretation.jl:660
abstract_call_gf_by_type at ./compiler/abstractinterpretation.jl:102
abstract_call_known at ./compiler/abstractinterpretation.jl:2200
abstract_call at ./compiler/abstractinterpretation.jl:2282
abstract_call at ./compiler/abstractinterpretation.jl:2275
abstract_call at ./compiler/abstractinterpretation.jl:2423
abstract_eval_call at ./compiler/abstractinterpretation.jl:2438
abstract_eval_statement_expr at ./compiler/abstractinterpretation.jl:2454
abstract_eval_statement at ./compiler/abstractinterpretation.jl:2752
abstract_eval_basic_statement at ./compiler/abstractinterpretation.jl:3044
typeinf_local at ./compiler/abstractinterpretation.jl:3331
typeinf_nocycle at ./compiler/abstractinterpretation.jl:3413
_typeinf at ./compiler/typeinfer.jl:244
typeinf at ./compiler/typeinfer.jl:215
typeinf_edge at ./compiler/typeinfer.jl:923
abstract_call_method at ./compiler/abstractinterpretation.jl:660
abstract_call_gf_by_type at ./compiler/abstractinterpretation.jl:102
abstract_call_known at ./compiler/abstractinterpretation.jl:2200
abstract_call at ./compiler/abstractinterpretation.jl:2282
abstract_call at ./compiler/abstractinterpretation.jl:2275
abstract_call at ./compiler/abstractinterpretation.jl:2423
abstract_eval_call at ./compiler/abstractinterpretation.jl:2438
abstract_eval_statement_expr at ./compiler/abstractinterpretation.jl:2454
abstract_eval_statement at ./compiler/abstractinterpretation.jl:2752
abstract_eval_basic_statement at ./compiler/abstractinterpretation.jl:3068
typeinf_local at ./compiler/abstractinterpretation.jl:3331
typeinf_nocycle at ./compiler/abstractinterpretation.jl:3413
_typeinf at ./compiler/typeinfer.jl:244
typeinf at ./compiler/typeinfer.jl:215
typeinf_edge at ./compiler/typeinfer.jl:923
abstract_call_method at ./compiler/abstractinterpretation.jl:660
abstract_call_gf_by_type at ./compiler/abstractinterpretation.jl:102
abstract_call_known at ./compiler/abstractinterpretation.jl:2200
abstract_call at ./compiler/abstractinterpretation.jl:2282
abstract_call at ./compiler/abstractinterpretation.jl:2275
abstract_call at ./compiler/abstractinterpretation.jl:2423
abstract_eval_call at ./compiler/abstractinterpretation.jl:2438
abstract_eval_statement_expr at ./compiler/abstractinterpretation.jl:2454
abstract_eval_statement at ./compiler/abstractinterpretation.jl:2752
abstract_eval_basic_statement at ./compiler/abstractinterpretation.jl:3044
typeinf_local at ./compiler/abstractinterpretation.jl:3331
typeinf_nocycle at ./compiler/abstractinterpretation.jl:3413
_typeinf at ./compiler/typeinfer.jl:244
typeinf at ./compiler/typeinfer.jl:215
typeinf_edge at ./compiler/typeinfer.jl:923
abstract_call_method at ./compiler/abstractinterpretation.jl:660
abstract_call_gf_by_type at ./compiler/abstractinterpretation.jl:102
abstract_call_known at ./compiler/abstractinterpretation.jl:2200
abstract_call at ./compiler/abstractinterpretation.jl:2282
abstract_call at ./compiler/abstractinterpretation.jl:2275
abstract_call at ./compiler/abstractinterpretation.jl:2423
abstract_eval_call at ./compiler/abstractinterpretation.jl:2438
abstract_eval_statement_expr at ./compiler/abstractinterpretation.jl:2454
abstract_eval_statement at ./compiler/abstractinterpretation.jl:2752
abstract_eval_basic_statement at ./compiler/abstractinterpretation.jl:3068
typeinf_local at ./compiler/abstractinterpretation.jl:3331
typeinf_nocycle at ./compiler/abstractinterpretation.jl:3413
_typeinf at ./compiler/typeinfer.jl:244
typeinf at ./compiler/typeinfer.jl:215
typeinf_edge at ./compiler/typeinfer.jl:923
abstract_call_method at ./compiler/abstractinterpretation.jl:660
abstract_call_gf_by_type at ./compiler/abstractinterpretation.jl:102
abstract_call_known at ./compiler/abstractinterpretation.jl:2200
abstract_call at ./compiler/abstractinterpretation.jl:2282
abstract_call at ./compiler/abstractinterpretation.jl:2275
abstract_call at ./compiler/abstractinterpretation.jl:2423
abstract_eval_call at ./compiler/abstractinterpretation.jl:2438
abstract_eval_statement_expr at ./compiler/abstractinterpretation.jl:2454
abstract_eval_statement at ./compiler/abstractinterpretation.jl:2752
abstract_eval_basic_statement at ./compiler/abstractinterpretation.jl:3068
typeinf_local at ./compiler/abstractinterpretation.jl:3331
typeinf_nocycle at ./compiler/abstractinterpretation.jl:3413
_typeinf at ./compiler/typeinfer.jl:244
typeinf at ./compiler/typeinfer.jl:215
typeinf_edge at ./compiler/typeinfer.jl:923
abstract_call_method at ./compiler/abstractinterpretation.jl:660
abstract_call_gf_by_type at ./compiler/abstractinterpretation.jl:102
abstract_call_unknown at ./compiler/abstractinterpretation.jl:2269
abstract_call at ./compiler/abstractinterpretation.jl:2279
abstract_call at ./compiler/abstractinterpretation.jl:2275
abstract_call at ./compiler/abstractinterpretation.jl:2423
abstract_eval_call at ./compiler/abstractinterpretation.jl:2438
abstract_eval_statement_expr at ./compiler/abstractinterpretation.jl:2454
abstract_eval_statement at ./compiler/abstractinterpretation.jl:2752
abstract_eval_basic_statement at ./compiler/abstractinterpretation.jl:3068
typeinf_local at ./compiler/abstractinterpretation.jl:3331
typeinf_nocycle at ./compiler/abstractinterpretation.jl:3413
_typeinf at ./compiler/typeinfer.jl:244
typeinf at ./compiler/typeinfer.jl:215
typeinf_edge at ./compiler/typeinfer.jl:923
abstract_call_method at ./compiler/abstractinterpretation.jl:660
abstract_call_gf_by_type at ./compiler/abstractinterpretation.jl:102
abstract_call_known at ./compiler/abstractinterpretation.jl:2200
abstract_call at ./compiler/abstractinterpretation.jl:2282
abstract_call at ./compiler/abstractinterpretation.jl:2275
abstract_call at ./compiler/abstractinterpretation.jl:2423
abstract_eval_call at ./compiler/abstractinterpretation.jl:2438
abstract_eval_statement_expr at ./compiler/abstractinterpretation.jl:2454
abstract_eval_statement at ./compiler/abstractinterpretation.jl:2752
abstract_eval_basic_statement at ./compiler/abstractinterpretation.jl:3068
typeinf_local at ./compiler/abstractinterpretation.jl:3331
typeinf_nocycle at ./compiler/abstractinterpretation.jl:3413
_typeinf at ./compiler/typeinfer.jl:244
typeinf at ./compiler/typeinfer.jl:215
typeinf_edge at ./compiler/typeinfer.jl:923
abstract_call_method at ./compiler/abstractinterpretation.jl:660
abstract_call_gf_by_type at ./compiler/abstractinterpretation.jl:102
abstract_call_known at ./compiler/abstractinterpretation.jl:2200
abstract_call at ./compiler/abstractinterpretation.jl:2282
abstract_call at ./compiler/abstractinterpretation.jl:2275
abstract_call at ./compiler/abstractinterpretation.jl:2423
abstract_eval_call at ./compiler/abstractinterpretation.jl:2438
abstract_eval_statement_expr at ./compiler/abstractinterpretation.jl:2454
abstract_eval_statement at ./compiler/abstractinterpretation.jl:2752
abstract_eval_basic_statement at ./compiler/abstractinterpretation.jl:3068
typeinf_local at ./compiler/abstractinterpretation.jl:3331
typeinf_nocycle at ./compiler/abstractinterpretation.jl:3413
_typeinf at ./compiler/typeinfer.jl:244
typeinf at ./compiler/typeinfer.jl:215
typeinf_edge at ./compiler/typeinfer.jl:923
abstract_call_method at ./compiler/abstractinterpretation.jl:660
abstract_call_gf_by_type at ./compiler/abstractinterpretation.jl:102
abstract_call_known at ./compiler/abstractinterpretation.jl:2200
abstract_call at ./compiler/abstractinterpretation.jl:2282
abstract_call at ./compiler/abstractinterpretation.jl:2275
abstract_call at ./compiler/abstractinterpretation.jl:2423
abstract_eval_call at ./compiler/abstractinterpretation.jl:2438
abstract_eval_statement_expr at ./compiler/abstractinterpretation.jl:2454
abstract_eval_statement at ./compiler/abstractinterpretation.jl:2752
abstract_eval_basic_statement at ./compiler/abstractinterpretation.jl:3068
typeinf_local at ./compiler/abstractinterpretation.jl:3331
typeinf_nocycle at ./compiler/abstractinterpretation.jl:3413
_typeinf at ./compiler/typeinfer.jl:244
typeinf at ./compiler/typeinfer.jl:215
typeinf_edge at ./compiler/typeinfer.jl:923
abstract_call_method at ./compiler/abstractinterpretation.jl:660
abstract_call_gf_by_type at ./compiler/abstractinterpretation.jl:102
abstract_call_unknown at ./compiler/abstractinterpretation.jl:2269
abstract_call at ./compiler/abstractinterpretation.jl:2279
abstract_call at ./compiler/abstractinterpretation.jl:2275
abstract_call at ./compiler/abstractinterpretation.jl:2423
abstract_eval_call at ./compiler/abstractinterpretation.jl:2438
abstract_eval_statement_expr at ./compiler/abstractinterpretation.jl:2454
abstract_eval_statement at ./compiler/abstractinterpretation.jl:2752
abstract_eval_basic_statement at ./compiler/abstractinterpretation.jl:3068
typeinf_local at ./compiler/abstractinterpretation.jl:3331
typeinf_nocycle at ./compiler/abstractinterpretation.jl:3413
_typeinf at ./compiler/typeinfer.jl:244
typeinf at ./compiler/typeinfer.jl:215
typeinf_edge at ./compiler/typeinfer.jl:923
abstract_call_method at ./compiler/abstractinterpretation.jl:660
abstract_call_gf_by_type at ./compiler/abstractinterpretation.jl:102
abstract_call_unknown at ./compiler/abstractinterpretation.jl:2269
abstract_call at ./compiler/abstractinterpretation.jl:2279
abstract_call at ./compiler/abstractinterpretation.jl:2275
abstract_call at ./compiler/abstractinterpretation.jl:2423
abstract_eval_call at ./compiler/abstractinterpretation.jl:2438
abstract_eval_statement_expr at ./compiler/abstractinterpretation.jl:2454
abstract_eval_statement at ./compiler/abstractinterpretation.jl:2752
abstract_eval_basic_statement at ./compiler/abstractinterpretation.jl:3068
typeinf_local at ./compiler/abstractinterpretation.jl:3331
typeinf_nocycle at ./compiler/abstractinterpretation.jl:3413
_typeinf at ./compiler/typeinfer.jl:244
typeinf at ./compiler/typeinfer.jl:215
typeinf_edge at ./compiler/typeinfer.jl:923
abstract_call_method at ./compiler/abstractinterpretation.jl:660
abstract_call_gf_by_type at ./compiler/abstractinterpretation.jl:102
abstract_call_unknown at ./compiler/abstractinterpretation.jl:2269
abstract_call at ./compiler/abstractinterpretation.jl:2279
abstract_call at ./compiler/abstractinterpretation.jl:2275
abstract_call at ./compiler/abstractinterpretation.jl:2423
abstract_eval_call at ./compiler/abstractinterpretation.jl:2438
abstract_eval_statement_expr at ./compiler/abstractinterpretation.jl:2454
abstract_eval_statement at ./compiler/abstractinterpretation.jl:2752
abstract_eval_basic_statement at ./compiler/abstractinterpretation.jl:3044
typeinf_local at ./compiler/abstractinterpretation.jl:3331
typeinf_nocycle at ./compiler/abstractinterpretation.jl:3413
_typeinf at ./compiler/typeinfer.jl:244
typeinf at ./compiler/typeinfer.jl:215
typeinf_edge at ./compiler/typeinfer.jl:923
abstract_call_method at ./compiler/abstractinterpretation.jl:660
abstract_call_gf_by_type at ./compiler/abstractinterpretation.jl:102
abstract_call_unknown at ./compiler/abstractinterpretation.jl:2269

======================================================================================
Information request received. A stacktrace will print followed by a 1.0 second profile
======================================================================================

cmd: /opt/julia/bin/julia 1 running 0 of 1

signal (10): User defined signal 1
epoll_pwait at /lib/x86_64-linux-gnu/libc.so.6 (unknown line)
uv__io_poll at /workspace/srcdir/libuv/src/unix/linux.c:1404
uv_run at /workspace/srcdir/libuv/src/unix/core.c:430
ijl_task_get_next at /source/src/scheduler.c:522
abstract_call at ./compiler/abstractinterpretation.jl:2279
abstract_call at ./compiler/abstractinterpretation.jl:2275
abstract_call at ./compiler/abstractinterpretation.jl:2423
poptask at ./task.jl:1012
abstract_eval_call at ./compiler/abstractinterpretation.jl:2438
wait at ./task.jl:1021
abstract_eval_statement_expr at ./compiler/abstractinterpretation.jl:2454
#wait#733 at ./condition.jl:130
abstract_eval_statement at ./compiler/abstractinterpretation.jl:2752
wait at ./condition.jl:125 [inlined]
wait at ./process.jl:694
wait at ./process.jl:687
unknown function (ip: 0x7818822f6db2)
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
subprocess_handler at /source/usr/share/julia/stdlib/v1.11/Pkg/src/Operations.jl:2146
#131 at /source/usr/share/julia/stdlib/v1.11/Pkg/src/Operations.jl:2086
withenv at ./env.jl:265
#118 at /source/usr/share/julia/stdlib/v1.11/Pkg/src/Operations.jl:1935
with_temp_env at /source/usr/share/julia/stdlib/v1.11/Pkg/src/Operations.jl:1793
#116 at /source/usr/share/julia/stdlib/v1.11/Pkg/src/Operations.jl:1902
#mktempdir#28 at ./file.jl:819
unknown function (ip: 0x7818822ee1dd)
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
mktempdir at ./file.jl:815
mktempdir at ./file.jl:815 [inlined]
#sandbox#115 at /source/usr/share/julia/stdlib/v1.11/Pkg/src/Operations.jl:1849 [inlined]
sandbox at /source/usr/share/julia/stdlib/v1.11/Pkg/src/Operations.jl:1841
unknown function (ip: 0x7818822e275a)
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
#test#128 at /source/usr/share/julia/stdlib/v1.11/Pkg/src/Operations.jl:2067
test at /source/usr/share/julia/stdlib/v1.11/Pkg/src/Operations.jl:2011 [inlined]
#test#146 at /source/usr/share/julia/stdlib/v1.11/Pkg/src/API.jl:481
test at /source/usr/share/julia/stdlib/v1.11/Pkg/src/API.jl:460
unknown function (ip: 0x7818822e245d)
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
#test#77 at /source/usr/share/julia/stdlib/v1.11/Pkg/src/API.jl:159
unknown function (ip: 0x7818822e1e4d)
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
test at /source/usr/share/julia/stdlib/v1.11/Pkg/src/API.jl:148
#test#75 at /source/usr/share/julia/stdlib/v1.11/Pkg/src/API.jl:147 [inlined]
test at /source/usr/share/julia/stdlib/v1.11/Pkg/src/API.jl:147 [inlined]
#test#74 at /source/usr/share/julia/stdlib/v1.11/Pkg/src/API.jl:146 [inlined]
test at /source/usr/share/julia/stdlib/v1.11/Pkg/src/API.jl:146
unknown function (ip: 0x7818822de2d6)
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
jl_apply at /source/src/julia.h:2157 [inlined]
do_call at /source/src/interpreter.c:126
eval_value at /source/src/interpreter.c:223
abstract_eval_basic_statement at ./compiler/abstractinterpretation.jl:3068
eval_stmt_value at /source/src/interpreter.c:174 [inlined]
eval_body at /source/src/interpreter.c:670
eval_body at /source/src/interpreter.c:539
eval_body at /source/src/interpreter.c:539
jl_interpret_toplevel_thunk at /source/src/interpreter.c:824
jl_toplevel_eval_flex at /source/src/toplevel.c:943
jl_toplevel_eval_flex at /source/src/toplevel.c:886
ijl_toplevel_eval_in at /source/src/toplevel.c:994
typeinf_local at ./compiler/abstractinterpretation.jl:3331
eval at ./boot.jl:430 [inlined]
include_string at ./loading.jl:2734
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
typeinf_nocycle at ./compiler/abstractinterpretation.jl:3413
_include at ./loading.jl:2794
_typeinf at ./compiler/typeinfer.jl:244
include at ./Base.jl:562
typeinf at ./compiler/typeinfer.jl:215
typeinf_edge at ./compiler/typeinfer.jl:923
abstract_call_method at ./compiler/abstractinterpretation.jl:660
abstract_call_gf_by_type at ./compiler/abstractinterpretation.jl:102
abstract_call_unknown at ./compiler/abstractinterpretation.jl:2269
abstract_call at ./compiler/abstractinterpretation.jl:2279
abstract_call at ./compiler/abstractinterpretation.jl:2275
jfptr_include_47034.1 at /opt/julia/lib/julia/sys.so (unknown line)
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
abstract_call at ./compiler/abstractinterpretation.jl:2423
exec_options at ./client.jl:323
abstract_eval_call at ./compiler/abstractinterpretation.jl:2438
_start at ./client.jl:531
abstract_eval_statement_expr at ./compiler/abstractinterpretation.jl:2454
jfptr__start_73694.1 at /opt/julia/lib/julia/sys.so (unknown line)
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
jl_apply at /source/src/julia.h:2157 [inlined]
true_main at /source/src/jlapi.c:900
jl_repl_entrypoint at /source/src/jlapi.c:1059
main at /source/cli/loader_exe.c:58
unknown function (ip: 0x781883335249)
__libc_start_main at /lib/x86_64-linux-gnu/libc.so.6 (unknown line)
unknown function (ip: 0x4010b8)
unknown function (ip: (nil))

==============================================================
Profile collected. A report will print at the next yield point
==============================================================

abstract_eval_statement at ./compiler/abstractinterpretation.jl:2752
abstract_eval_basic_statement at ./compiler/abstractinterpretation.jl:3068
typeinf_local at ./compiler/abstractinterpretation.jl:3331
typeinf_nocycle at ./compiler/abstractinterpretation.jl:3413
_typeinf at ./compiler/typeinfer.jl:244
typeinf at ./compiler/typeinfer.jl:215
typeinf_edge at ./compiler/typeinfer.jl:923
abstract_call_method at ./compiler/abstractinterpretation.jl:660
abstract_call_gf_by_type at ./compiler/abstractinterpretation.jl:102
abstract_call_unknown at ./compiler/abstractinterpretation.jl:2269
abstract_call at ./compiler/abstractinterpretation.jl:2279
abstract_call at ./compiler/abstractinterpretation.jl:2275
abstract_call at ./compiler/abstractinterpretation.jl:2423
abstract_eval_call at ./compiler/abstractinterpretation.jl:2438
abstract_eval_statement_expr at ./compiler/abstractinterpretation.jl:2454
abstract_eval_statement at ./compiler/abstractinterpretation.jl:2752
abstract_eval_basic_statement at ./compiler/abstractinterpretation.jl:3068
typeinf_local at ./compiler/abstractinterpretation.jl:3331
typeinf_nocycle at ./compiler/abstractinterpretation.jl:3413
_typeinf at ./compiler/typeinfer.jl:244
typeinf at ./compiler/typeinfer.jl:215
typeinf_edge at ./compiler/typeinfer.jl:923
abstract_call_method at ./compiler/abstractinterpretation.jl:660
abstract_call_gf_by_type at ./compiler/abstractinterpretation.jl:102
abstract_call_unknown at ./compiler/abstractinterpretation.jl:2269
abstract_call at ./compiler/abstractinterpretation.jl:2279
abstract_call at ./compiler/abstractinterpretation.jl:2275
abstract_call at ./compiler/abstractinterpretation.jl:2423
abstract_eval_call at ./compiler/abstractinterpretation.jl:2438
abstract_eval_statement_expr at ./compiler/abstractinterpretation.jl:2454
abstract_eval_statement at ./compiler/abstractinterpretation.jl:2752
abstract_eval_basic_statement at ./compiler/abstractinterpretation.jl:3068
typeinf_local at ./compiler/abstractinterpretation.jl:3331
typeinf_nocycle at ./compiler/abstractinterpretation.jl:3413
_typeinf at ./compiler/typeinfer.jl:244
typeinf at ./compiler/typeinfer.jl:215
typeinf_ext at ./compiler/typeinfer.jl:1101
typeinf_ext_toplevel at ./compiler/typeinfer.jl:1139
typeinf_ext_toplevel at ./compiler/typeinfer.jl:1135
jfptr_typeinf_ext_toplevel_40049.1 at /opt/julia/lib/julia/sys.so (unknown line)
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
jl_apply at /source/src/julia.h:2157 [inlined]
jl_type_infer at /source/src/gf.c:390
jl_generate_fptr_impl at /source/src/jitlayers.cpp:519
jl_compile_method_internal at /source/src/gf.c:2536 [inlined]
jl_compile_method_internal at /source/src/gf.c:2423
_jl_invoke at /source/src/gf.c:2940 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
#38 at /home/pkgeval/.julia/packages/Integrals/TyuEs/ext/IntegralsZygoteExt.jl:108
#22 at /home/pkgeval/.julia/packages/Integrals/TyuEs/src/infinity_handling.jl:23
evalrule at /home/pkgeval/.julia/packages/QuadGK/7rND3/src/evalrule.jl:0
#8 at /home/pkgeval/.julia/packages/QuadGK/7rND3/src/adapt.jl:54 [inlined]
ntuple at ./ntuple.jl:48 [inlined]
do_quadgk at /home/pkgeval/.julia/packages/QuadGK/7rND3/src/adapt.jl:52
#50 at /home/pkgeval/.julia/packages/QuadGK/7rND3/src/api.jl:83 [inlined]
handle_infinities at /home/pkgeval/.julia/packages/QuadGK/7rND3/src/adapt.jl:189 [inlined]
#quadgk#49 at /home/pkgeval/.julia/packages/QuadGK/7rND3/src/api.jl:82 [inlined]
quadgk at /home/pkgeval/.julia/packages/QuadGK/7rND3/src/api.jl:80 [inlined]
#__solvebp_call#53 at /home/pkgeval/.julia/packages/Integrals/TyuEs/src/Integrals.jl:177
__solvebp_call at /home/pkgeval/.julia/packages/Integrals/TyuEs/src/Integrals.jl:124 [inlined]
#__solvebp#51 at /home/pkgeval/.julia/packages/Integrals/TyuEs/src/Integrals.jl:71 [inlined]
__solvebp at /home/pkgeval/.julia/packages/Integrals/TyuEs/src/Integrals.jl:71 [inlined]
#__solve#50 at /home/pkgeval/.julia/packages/Integrals/TyuEs/src/Integrals.jl:69 [inlined]
__solve at /home/pkgeval/.julia/packages/Integrals/TyuEs/src/Integrals.jl:69 [inlined]
#__solve#52 at /home/pkgeval/.julia/packages/Integrals/TyuEs/src/Integrals.jl:92
__solve at /home/pkgeval/.julia/packages/Integrals/TyuEs/src/Integrals.jl:79 [inlined]
solve! at /home/pkgeval/.julia/packages/Integrals/TyuEs/src/common.jl:108 [inlined]
quadrature_adjoint at /home/pkgeval/.julia/packages/Integrals/TyuEs/ext/IntegralsZygoteExt.jl:127
ZBack at /home/pkgeval/.julia/packages/Zygote/55SqB/src/compiler/chainrules.jl:222 [inlined]
kw_zpullback at /home/pkgeval/.julia/packages/Zygote/55SqB/src/compiler/chainrules.jl:248
#305 at /home/pkgeval/.julia/packages/Zygote/55SqB/src/lib/lib.jl:214 [inlined]
#2189#back at /home/pkgeval/.julia/packages/ZygoteRules/CkVIK/src/adjoint.jl:72
unknown function (ip: 0x71eed50e58b2)
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
#__solve#50 at /home/pkgeval/.julia/packages/Integrals/TyuEs/src/Integrals.jl:69 [inlined]
Pullback at /home/pkgeval/.julia/packages/Zygote/55SqB/src/compiler/interface2.jl:0
#305 at /home/pkgeval/.julia/packages/Zygote/55SqB/src/lib/lib.jl:214
#2189#back at /home/pkgeval/.julia/packages/ZygoteRules/CkVIK/src/adjoint.jl:72 [inlined]
__solve at /home/pkgeval/.julia/packages/Integrals/TyuEs/src/Integrals.jl:69 [inlined]
Pullback at /home/pkgeval/.julia/packages/Zygote/55SqB/src/compiler/interface2.jl:0
unknown function (ip: 0x71eed50db142)
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
#__solve#52 at /home/pkgeval/.julia/packages/Integrals/TyuEs/src/Integrals.jl:92 [inlined]
Pullback at /home/pkgeval/.julia/packages/Zygote/55SqB/src/compiler/interface2.jl:0
__solve at /home/pkgeval/.julia/packages/Integrals/TyuEs/src/Integrals.jl:79 [inlined]
Pullback at /home/pkgeval/.julia/packages/Zygote/55SqB/src/compiler/interface2.jl:0
unknown function (ip: 0x71eed50d9a92)
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
solve! at /home/pkgeval/.julia/packages/Integrals/TyuEs/src/common.jl:108 [inlined]
Pullback at /home/pkgeval/.julia/packages/Zygote/55SqB/src/compiler/interface2.jl:0
unknown function (ip: 0x71eed50d7782)
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
#solve#3 at /home/pkgeval/.julia/packages/Integrals/TyuEs/src/common.jl:104 [inlined]
Pullback at /home/pkgeval/.julia/packages/Zygote/55SqB/src/compiler/interface2.jl:0
solve at /home/pkgeval/.julia/packages/Integrals/TyuEs/src/common.jl:101 [inlined]
Pullback at /home/pkgeval/.julia/packages/Zygote/55SqB/src/compiler/interface2.jl:0
#15 at /home/pkgeval/.julia/packages/Integrals/TyuEs/test/derivative_tests.jl:103 [inlined]
Pullback at /home/pkgeval/.julia/packages/Zygote/55SqB/src/compiler/interface2.jl:0
#88 at /home/pkgeval/.julia/packages/Zygote/55SqB/src/compiler/interface.jl:97
unknown function (ip: 0x71eed50d65f6)
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
gradient at /home/pkgeval/.julia/packages/Zygote/55SqB/src/compiler/interface.jl:154
#13#14 at /home/pkgeval/.julia/packages/Integrals/TyuEs/test/derivative_tests.jl:107
#13 at /home/pkgeval/.julia/packages/Integrals/TyuEs/test/derivative_tests.jl:100
unknown function (ip: 0x71eed50d32a2)
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
jl_apply at /source/src/julia.h:2157 [inlined]
do_call at /source/src/interpreter.c:126
eval_value at /source/src/interpreter.c:223
eval_stmt_value at /source/src/interpreter.c:174 [inlined]
eval_body at /source/src/interpreter.c:670
jl_interpret_toplevel_thunk at /source/src/interpreter.c:824
jl_toplevel_eval_flex at /source/src/toplevel.c:943
jl_toplevel_eval_flex at /source/src/toplevel.c:886
ijl_toplevel_eval_in at /source/src/toplevel.c:994
eval at ./boot.jl:430 [inlined]
include_string at ./loading.jl:2734
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
_include at ./loading.jl:2794
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_invoke at /source/src/gf.c:2955
include at ./Base.jl:562
unknown function (ip: 0x71eed62e8c96)
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
jl_apply at /source/src/julia.h:2157 [inlined]
jl_f__call_latest at /source/src/builtins.c:875
include at /home/pkgeval/.julia/packages/SafeTestsets/raUNr/src/SafeTestsets.jl:28
unknown function (ip: 0x71eed62e8c02)
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
jl_apply at /source/src/julia.h:2157 [inlined]
do_call at /source/src/interpreter.c:126
eval_value at /source/src/interpreter.c:223
eval_stmt_value at /source/src/interpreter.c:174 [inlined]
eval_body at /source/src/interpreter.c:670
eval_body at /source/src/interpreter.c:539
eval_body at /source/src/interpreter.c:539
jl_interpret_toplevel_thunk at /source/src/interpreter.c:824
jl_toplevel_eval_flex at /source/src/toplevel.c:943
jl_eval_module_expr at /source/src/toplevel.c:215 [inlined]
jl_toplevel_eval_flex at /source/src/toplevel.c:743
ijl_toplevel_eval_in at /source/src/toplevel.c:994
eval at ./boot.jl:430
jfptr_eval_28362.1 at /opt/julia/lib/julia/sys.so (unknown line)
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
macro expansion at /home/pkgeval/.julia/packages/SafeTestsets/raUNr/src/SafeTestsets.jl:28 [inlined]
macro expansion at ./timing.jl:581 [inlined]
top-level scope at /home/pkgeval/.julia/packages/Integrals/TyuEs/test/runtests.jl:315
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_invoke at /source/src/gf.c:2955
jl_toplevel_eval_flex at /source/src/toplevel.c:934
jl_toplevel_eval_flex at /source/src/toplevel.c:886
ijl_toplevel_eval_in at /source/src/toplevel.c:994
eval at ./boot.jl:430 [inlined]
include_string at ./loading.jl:2734
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
_include at ./loading.jl:2794
include at ./sysimg.jl:38
unknown function (ip: 0x71eef3e94082)
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
jl_apply at /source/src/julia.h:2157 [inlined]
do_call at /source/src/interpreter.c:126
eval_value at /source/src/interpreter.c:223
eval_stmt_value at /source/src/interpreter.c:174 [inlined]
eval_body at /source/src/interpreter.c:670
jl_interpret_toplevel_thunk at /source/src/interpreter.c:824
jl_toplevel_eval_flex at /source/src/toplevel.c:943
jl_toplevel_eval_flex at /source/src/toplevel.c:886
ijl_toplevel_eval_in at /source/src/toplevel.c:994
eval at ./boot.jl:430 [inlined]
exec_options at ./client.jl:296
_start at ./client.jl:531
jfptr__start_73694.1 at /opt/julia/lib/julia/sys.so (unknown line)
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
jl_apply at /source/src/julia.h:2157 [inlined]
true_main at /source/src/jlapi.c:900
jl_repl_entrypoint at /source/src/jlapi.c:1059
main at /source/cli/loader_exe.c:58
unknown function (ip: 0x71eef516e249)
__libc_start_main at /lib/x86_64-linux-gnu/libc.so.6 (unknown line)
unknown function (ip: 0x4010b8)
unknown function (ip: (nil))

==============================================================
Profile collected. A report will print at the next yield point
==============================================================

┌ Info: One-dimensional, multivariate, oop derivative test
│   alg = :QuadGKJL
│   integrand = 1
│   scalarize = 2
└   nout = 2
┌ Warning: There were no samples collected in one or more groups.
│ This may be due to idle threads, or you may need to run your
│ program longer (perhaps by running it multiple times),
│ or adjust the delay between samples with `Profile.init()`.
└ @ Profile /opt/julia/share/julia/stdlib/v1.11/Profile/src/Profile.jl:1240
Overhead ╎ [+additional indent] Count File:Line; Function
=========================================================
Thread 1 Task 0x0000781875c00010 Total snapshots: 1. Utilization: 0%
 ╎1 @Base/client.jl:531; _start()
 ╎ 1 @Base/client.jl:323; exec_options(opts::Base.JLOptions)
 ╎  1 @Base/Base.jl:562; include(mod::Module, _path::String)
 ╎   1 @Base/loading.jl:2794; _include(mapexpr::Function, mod::Module, _path::S…
 ╎    1 @Base/loading.jl:2734; include_string(mapexpr::typeof(identity), mod::M…
 ╎     1 @Base/boot.jl:430; eval
 ╎    ╎ 1 @Pkg/src/API.jl:146; kwcall(::@NamedTuple{julia_args::Cmd}, ::typeof(…
 ╎    ╎  1 @Pkg/src/API.jl:146; #test#74
 ╎    ╎   1 @Pkg/src/API.jl:147; test
 ╎    ╎    1 @Pkg/src/API.jl:147; #test#75
 ╎    ╎     1 @Pkg/src/API.jl:148; kwcall(::@NamedTuple{julia_args::Cmd}, ::typ…
 ╎    ╎    ╎ 1 @Pkg/src/API.jl:159; test(pkgs::Vector{Pkg.Types.PackageSpec}; i…
 ╎    ╎    ╎  1 @Pkg/src/API.jl:460; kwcall(::@NamedTuple{julia_args::Cmd, io::…
 ╎    ╎    ╎   1 @Pkg/src/API.jl:481; test(ctx::Pkg.Types.Context, pkgs::Vector…
 ╎    ╎    ╎    1 …/src/Operations.jl:2011; test
 ╎    ╎    ╎     1 …src/Operations.jl:2067; test(ctx::Pkg.Types.Context, pkgs::…
 ╎    ╎    ╎    ╎ 1 …src/Operations.jl:1841; kwcall(::@NamedTuple{preferences::…
 ╎    ╎    ╎    ╎  1 …src/Operations.jl:1849; #sandbox#115
 ╎    ╎    ╎    ╎   1 @Base/file.jl:815; mktempdir
 ╎    ╎    ╎    ╎    1 @Base/file.jl:815; mktempdir(fn::Function, parent::Strin…
 ╎    ╎    ╎    ╎     1 @Base/file.jl:819; mktempdir(fn::Pkg.Operations.var"#11…
 ╎    ╎    ╎    ╎    ╎ 1 …c/Operations.jl:1902; (::Pkg.Operations.var"#116#121"…
 ╎    ╎    ╎    ╎    ╎  1 …c/Operations.jl:1793; with_temp_env(fn::Pkg.Operatio…
 ╎    ╎    ╎    ╎    ╎   1 …/Operations.jl:1935; (::Pkg.Operations.var"#118#123…
 ╎    ╎    ╎    ╎    ╎    1 @Base/env.jl:265; withenv(::Pkg.Operations.var"#131…
 ╎    ╎    ╎    ╎    ╎     1 …Operations.jl:2086; (::Pkg.Operations.var"#131#13…
 ╎    ╎    ╎    ╎    ╎    ╎ 1 …Operations.jl:2146; subprocess_handler(cmd::Cmd,…
 ╎    ╎    ╎    ╎    ╎    ╎  1 …se/process.jl:687; wait(x::Base.Process)
 ╎    ╎    ╎    ╎    ╎    ╎   1 …se/process.jl:694; wait(x::Base.Process, syncd…
 ╎    ╎    ╎    ╎    ╎    ╎    1 …condition.jl:125; wait
 ╎    ╎    ╎    ╎    ╎    ╎     1 …condition.jl:130; wait(c::Base.GenericCondit…
 ╎    ╎    ╎    ╎    ╎    ╎    ╎ 1 …ase/task.jl:1021; wait()
 ╎    ╎    ╎    ╎    ╎    ╎    ╎  1 …ase/task.jl:1012; poptask(W::Base.Intrusiv…


[1] signal 15: Terminated
in expression starting at /PkgEval.jl/scripts/evaluate.jl:210
epoll_pwait at /lib/x86_64-linux-gnu/libc.so.6 (unknown line)
uv__io_poll at /workspace/srcdir/libuv/src/unix/linux.c:1404
uv_run at /workspace/srcdir/libuv/src/unix/core.c:430
ijl_task_get_next at /source/src/scheduler.c:522
poptask at ./task.jl:1012
wait at ./task.jl:1021
#wait#733 at ./condition.jl:130

[227] signal 15: Terminated
in expression starting at /home/pkgeval/.julia/packages/Integrals/TyuEs/test/derivative_tests.jl:156
_ZNK4llvm4Pass11getPassNameEv at /opt/julia/bin/../lib/julia/libLLVM-16jl.so (unknown line)
_ZN4llvm13FPPassManager13runOnFunctionERNS_8FunctionE at /opt/julia/bin/../lib/julia/libLLVM-16jl.so (unknown line)
_ZN4llvm13FPPassManager11runOnModuleERNS_6ModuleE at /opt/julia/bin/../lib/julia/libLLVM-16jl.so (unknown line)
_ZN4llvm6legacy15PassManagerImpl3runERNS_6ModuleE at /opt/julia/bin/../lib/julia/libLLVM-16jl.so (unknown line)
_ZN4llvm3orc14SimpleCompilerclERNS_6ModuleE at /opt/julia/bin/../lib/julia/libLLVM-16jl.so (unknown line)
operator() at /source/src/jitlayers.cpp:1388
_ZN4llvm3orc14IRCompileLayer4emitESt10unique_ptrINS0_29MaterializationResponsibilityESt14default_deleteIS3_EENS0_16ThreadSafeModuleE at /opt/julia/bin/../lib/julia/libLLVM-16jl.so (unknown line)
_ZN4llvm3orc16IRTransformLayer4emitESt10unique_ptrINS0_29MaterializationResponsibilityESt14default_deleteIS3_EENS0_16ThreadSafeModuleE at /opt/julia/bin/../lib/julia/libLLVM-16jl.so (unknown line)
_ZN4llvm3orc16IRTransformLayer4emitESt10unique_ptrINS0_29MaterializationResponsibilityESt14default_deleteIS3_EENS0_16ThreadSafeModuleE at /opt/julia/bin/../lib/julia/libLLVM-16jl.so (unknown line)
_ZN4llvm3orc16IRTransformLayer4emitESt10unique_ptrINS0_29MaterializationResponsibilityESt14default_deleteIS3_EENS0_16ThreadSafeModuleE at /opt/julia/bin/../lib/julia/libLLVM-16jl.so (unknown line)
_ZN4llvm3orc16IRTransformLayer4emitESt10unique_ptrINS0_29MaterializationResponsibilityESt14default_deleteIS3_EENS0_16ThreadSafeModuleE at /opt/julia/bin/../lib/julia/libLLVM-16jl.so (unknown line)
_ZN4llvm3orc31BasicIRLayerMaterializationUnit11materializeESt10unique_ptrINS0_29MaterializationResponsibilityESt14default_deleteIS3_EE at /opt/julia/bin/../lib/julia/libLLVM-16jl.so (unknown line)
_ZN4llvm3orc19MaterializationTask3runEv at /opt/julia/bin/../lib/julia/libLLVM-16jl.so (unknown line)
wait at ./condition.jl:125 [inlined]
_trywait at ./asyncevent.jl:145
profile_printing_listener at ./Base.jl:582
_ZN4llvm6detail18UniqueFunctionBaseIvJSt10unique_ptrINS_3orc4TaskESt14default_deleteIS4_EEEE8CallImplIPFvS7_EEEvPvRS7_ at /opt/julia/bin/../lib/julia/libLLVM-16jl.so (unknown line)
_ZN4llvm3orc16ExecutionSession22dispatchOutstandingMUsEv at /opt/julia/bin/../lib/julia/libLLVM-16jl.so (unknown line)
_ZN4llvm3orc16ExecutionSession17OL_completeLookupESt10unique_ptrINS0_21InProgressLookupStateESt14default_deleteIS3_EESt10shared_ptrINS0_23AsynchronousSymbolQueryEESt8functionIFvRKNS_8DenseMapIPNS0_8JITDylibENS_8DenseSetINS0_15SymbolStringPtrENS_12DenseMapInfoISF_vEEEENSG_ISD_vEENS_6detail12DenseMapPairISD_SI_EEEEEE at /opt/julia/bin/../lib/julia/libLLVM-16jl.so (unknown line)
#1190 at ./Base.jl:622
jfptr_YY.1190_76268.1 at /opt/julia/lib/julia/sys.so (unknown line)
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
jl_apply at /source/src/julia.h:2157 [inlined]
start_task at /source/src/task.c:1202
unknown function (ip: (nil))
Allocations: 19108824 (Pool: 19107839; Big: 985); GC: 24
_ZN4llvm3orc25InProgressFullLookupState8completeESt10unique_ptrINS0_21InProgressLookupStateESt14default_deleteIS3_EE at /opt/julia/bin/../lib/julia/libLLVM-16jl.so (unknown line)
_ZN4llvm3orc16ExecutionSession19OL_applyQueryPhase1ESt10unique_ptrINS0_21InProgressLookupStateESt14default_deleteIS3_EENS_5ErrorE at /opt/julia/bin/../lib/julia/libLLVM-16jl.so (unknown line)
_ZN4llvm3orc16ExecutionSession6lookupENS0_10LookupKindERKSt6vectorISt4pairIPNS0_8JITDylibENS0_19JITDylibLookupFlagsEESaIS8_EENS0_15SymbolLookupSetENS0_11SymbolStateENS_15unique_functionIFvNS_8ExpectedINS_8DenseMapINS0_15SymbolStringPtrENS_18JITEvaluatedSymbolENS_12DenseMapInfoISI_vEENS_6detail12DenseMapPairISI_SJ_EEEEEEEEESt8functionIFvRKNSH_IS6_NS_8DenseSetISI_SL_EENSK_IS6_vEENSN_IS6_SV_EEEEEE at /opt/julia/bin/../lib/julia/libLLVM-16jl.so (unknown line)
_ZN4llvm3orc16ExecutionSession6lookupERKSt6vectorISt4pairIPNS0_8JITDylibENS0_19JITDylibLookupFlagsEESaIS7_EENS0_15SymbolLookupSetENS0_10LookupKindENS0_11SymbolStateESt8functionIFvRKNS_8DenseMapIS5_NS_8DenseSetINS0_15SymbolStringPtrENS_12DenseMapInfoISI_vEEEENSJ_IS5_vEENS_6detail12DenseMapPairIS5_SL_EEEEEE at /opt/julia/bin/../lib/julia/libLLVM-16jl.so (unknown line)
addModule at /source/src/jitlayers.cpp:1875
jl_add_to_ee at /source/src/jitlayers.cpp:2306
jl_add_to_ee at /source/src/jitlayers.cpp:2285
_jl_compile_codeinst at /source/src/jitlayers.cpp:277
val already in a list
atexit hook threw an error: ErrorException("schedule: Task not runnable")
jl_generate_fptr_impl at /source/src/jitlayers.cpp:536
jl_compile_method_internal at /source/src/gf.c:2536 [inlined]
jl_compile_method_internal at /source/src/gf.c:2423
_jl_invoke at /source/src/gf.c:2940 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
gradient at /home/pkgeval/.julia/packages/ForwardDiff/UBbGT/src/gradient.jl:17
unknown function (ip: 0x71eed50e8a46)
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
#13#14 at /home/pkgeval/.julia/packages/Integrals/TyuEs/test/derivative_tests.jl:136
#13 at /home/pkgeval/.julia/packages/Integrals/TyuEs/test/derivative_tests.jl:100
unknown function (ip: 0x71eed50d32a2)
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
jl_apply at /source/src/julia.h:2157 [inlined]
do_call at /source/src/interpreter.c:126
eval_value at /source/src/interpreter.c:223
eval_stmt_value at /source/src/interpreter.c:174 [inlined]
eval_body at /source/src/interpreter.c:670
jl_interpret_toplevel_thunk at /source/src/interpreter.c:824
jl_toplevel_eval_flex at /source/src/toplevel.c:943
error at ./error.jl:35
jl_toplevel_eval_flex at /source/src/toplevel.c:886
ijl_toplevel_eval_in at /source/src/toplevel.c:994
#schedule#763 at ./task.jl:884
eval at ./boot.jl:430 [inlined]
include_string at ./loading.jl:2734
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
_include at ./loading.jl:2794
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_invoke at /source/src/gf.c:2955
include at ./Base.jl:562
unknown function (ip: 0x71eed62e8c96)
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
jl_apply at /source/src/julia.h:2157 [inlined]
jl_f__call_latest at /source/src/builtins.c:875
include at /home/pkgeval/.julia/packages/SafeTestsets/raUNr/src/SafeTestsets.jl:28
unknown function (ip: 0x71eed62e8c02)
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
jl_apply at /source/src/julia.h:2157 [inlined]
do_call at /source/src/interpreter.c:126
eval_value at /source/src/interpreter.c:223
eval_stmt_value at /source/src/interpreter.c:174 [inlined]
eval_body at /source/src/interpreter.c:670
eval_body at /source/src/interpreter.c:539
eval_body at /source/src/interpreter.c:539
jl_interpret_toplevel_thunk at /source/src/interpreter.c:824
schedule at ./task.jl:876 [inlined]
uv_writecb_task at ./stream.jl:1200
jl_toplevel_eval_flex at /source/src/toplevel.c:943
jl_eval_module_expr at /source/src/toplevel.c:215 [inlined]
jl_toplevel_eval_flex at /source/src/toplevel.c:743
ijl_toplevel_eval_in at /source/src/toplevel.c:994
jfptr_uv_writecb_task_67144.1 at /opt/julia/lib/julia/sys.so (unknown line)
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
eval at ./boot.jl:430
jlcapi_uv_writecb_task_67607.1 at /opt/julia/lib/julia/sys.so (unknown line)
uv__write_callbacks at /workspace/srcdir/libuv/src/unix/stream.c:926
uv__stream_io at /workspace/srcdir/libuv/src/unix/stream.c:1227
jfptr_eval_28362.1 at /opt/julia/lib/julia/sys.so (unknown line)
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
macro expansion at /home/pkgeval/.julia/packages/SafeTestsets/raUNr/src/SafeTestsets.jl:28 [inlined]
macro expansion at ./timing.jl:581 [inlined]
top-level scope at /home/pkgeval/.julia/packages/Integrals/TyuEs/test/runtests.jl:315
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_invoke at /source/src/gf.c:2955
uv__run_pending at /workspace/srcdir/libuv/src/unix/core.c:824
uv_run at /workspace/srcdir/libuv/src/unix/core.c:420
ijl_task_get_next at /source/src/scheduler.c:522
jl_toplevel_eval_flex at /source/src/toplevel.c:934
jl_toplevel_eval_flex at /source/src/toplevel.c:886
ijl_toplevel_eval_in at /source/src/toplevel.c:994
poptask at ./task.jl:1012
eval at ./boot.jl:430 [inlined]
include_string at ./loading.jl:2734
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
wait at ./task.jl:1021
_include at ./loading.jl:2794
include at ./sysimg.jl:38
unknown function (ip: 0x71eef3e94082)
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
jl_apply at /source/src/julia.h:2157 [inlined]
do_call at /source/src/interpreter.c:126
eval_value at /source/src/interpreter.c:223
uv_write at ./stream.jl:1081
eval_stmt_value at /source/src/interpreter.c:174 [inlined]
eval_body at /source/src/interpreter.c:670
jl_interpret_toplevel_thunk at /source/src/interpreter.c:824
jl_toplevel_eval_flex at /source/src/toplevel.c:943
jl_toplevel_eval_flex at /source/src/toplevel.c:886
ijl_toplevel_eval_in at /source/src/toplevel.c:994
unsafe_write at ./stream.jl:1154
eval at ./boot.jl:430 [inlined]
exec_options at ./client.jl:296
write at ./strings/io.jl:248 [inlined]
print at ./strings/io.jl:250
_start at ./client.jl:531
jfptr_print_48490.1 at /opt/julia/lib/julia/sys.so (unknown line)
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
showerror at ./errorshow.jl:152
unknown function (ip: 0x781882303e46)
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
jfptr__start_73694.1 at /opt/julia/lib/julia/sys.so (unknown line)
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
jl_apply at /source/src/julia.h:2157 [inlined]
true_main at /source/src/jlapi.c:900
jl_repl_entrypoint at /source/src/jlapi.c:1059
main at /source/cli/loader_exe.c:58
unknown function (ip: 0x71eef516e249)
__libc_start_main at /lib/x86_64-linux-gnu/libc.so.6 (unknown line)
unknown function (ip: 0x4010b8)
unknown function (ip: (nil))
Allocations: 3657159617 (Pool: 3657147903; Big: 11714); GC: 1101
_atexit at ./initdefs.jl:454
jfptr__atexit_69651.1 at /opt/julia/lib/julia/sys.so (unknown line)
_jl_invoke at /source/src/gf.c:2948 [inlined]
ijl_apply_generic at /source/src/gf.c:3125
jl_apply at /source/src/julia.h:2157 [inlined]
ijl_atexit_hook at /source/src/init.c:271
jl_exit_thread0_cb at /source/src/signals-unix.c:517

PkgEval terminated after 2725.81s: test duration exceeded the time limit