ArrayPartition Incompatible for Native Implicit SDE Solvers #358
Description
Bug Description 🐞
Using ArrayPartition fails when using implicit solvers such as SKenCarp or ImplicitEM. It seems to be fine for the explicit solver SOSRA, although I haven't tested it on any others.
The one caveat, is that it appears to depend on the array dimensions (as demonstrated below). For very small arrays, SKenCarp has no problem with the ArrayPartition, but for anything larger than this, it throws a MethodError. The error is raised because there is no strides method defined for ArrayPartition.
I "fixed" this by overloading strides method, however another MethodError is raised because there is no pointer method defined for ArrayPartition.
I suppose this makes sense, because as far as I am aware, an ArrayPartition does not correspond to single location in memory. As in, the partition is made up of multiple arrays, each of which have their own location in memory?
Expected Behavior
The native SKenCarp solver (and native solvers in general) should solve the SDE just like it would for the explicit SOSRA solver.
Minimal Reproducible Example
Obviously a very basic SDE, but demonstrates the error:
using DifferentialEquations: solve, SOSRA, SKenCarp, SDEProblem, ImplicitEM
using RecursiveArrayTools: ArrayPartition
function f!(du, u, par, t)
dA, dB = du.x
A, B = u.x
@. dA = A - 1
@. dB = -B
return nothing
end
function g!(du, u, par, t)
dA, dB = du.x
@. dA = 1
@. dB = 0
return nothing
end
small_u0 = ArrayPartition(rand(2, 3), rand(2, 2)) # this one works fine!
slightly_larger_u0 = ArrayPartition(rand(2, 3), rand(3, 3)) # this one fails!
function example(u0, solver=SOSRA())
prob = SDEProblem(f!, g!, u0, (0.0, 1.0))
return solve(prob, solver; dt=0.1)
endI also tried to overload strides (essentially the same definition as in Base):
import Base.size_to_strides
import Base.strides
strides(A::ArrayPartition) = size_to_strides(1, size(A)...)Error & Stacktrace ⚠️
Output of julia> example(slightly_larger_u0, SKenCarp())
ERROR: MethodError: no method matching strides(::ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}})
Closest candidates are:
strides(::StaticArraysCore.SizedArray)
@ StaticArrays ~/.julia/packages/StaticArrays/oOCPP/src/abstractarray.jl:20
strides(::Base.ReshapedArray)
@ Base reshapedarray.jl:305
strides(::LazyArrays.ApplyMatrix{<:Any, typeof(rot180)})
@ LazyArrays ~/.julia/packages/LazyArrays/8MqhP/src/lazyoperations.jl:492
...
Stacktrace:
[1] stride(A::ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, k::Int64)
@ Base ./abstractarray.jl:588
[2] stride1(x::ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}})
@ LinearAlgebra ~/.julia/juliaup/julia-1.9.3+0.x64.apple.darwin14/share/julia/stdlib/v1.9/LinearAlgebra/src/LinearAlgebra.jl:213
[3] _chkstride1 (repeats 2 times)
@ ~/.julia/juliaup/julia-1.9.3+0.x64.apple.darwin14/share/julia/stdlib/v1.9/LinearAlgebra/src/LinearAlgebra.jl:219 [inlined]
[4] chkstride1
@ ~/.julia/juliaup/julia-1.9.3+0.x64.apple.darwin14/share/julia/stdlib/v1.9/LinearAlgebra/src/LinearAlgebra.jl:217 [inlined]
[5] aa_getrs!(trans::Char, A::Matrix{Float64}, ipiv::Vector{Int32}, B::ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}; info::Base.RefValue{Int32})
@ LinearSolve ~/.julia/packages/LinearSolve/Dqpre/src/appleaccelerate.jl:166
[6] solve!(cache::LinearSolve.LinearCache{Matrix{Float64}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, SciMLBase.NullParameters, LinearSolve.DefaultLinearSolver, LinearSolve.DefaultLinearSolverInit{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, LinearAlgebra.QRCompactWY{Float64, Matrix{Float64}, Matrix{Float64}}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Vector{Int64}}, Nothing, Nothing, Nothing, LinearAlgebra.SVD{Float64, Float64, Matrix{Float64}, Vector{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int32}}, Base.RefValue{Int32}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Base.RefValue{Int64}}, LinearAlgebra.QRPivoted{Float64, Matrix{Float64}, Vector{Float64}, Vector{Int64}}, Nothing, Nothing}, LinearSolve.InvPreconditioner{LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}}, LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Float64, Bool}, alg::AppleAccelerateLUFactorization; kwargs::Base.Pairs{Symbol, Float64, Tuple{Symbol}, NamedTuple{(:reltol,), Tuple{Float64}}})
@ LinearSolve ~/.julia/packages/LinearSolve/Dqpre/src/appleaccelerate.jl:253
[7] macro expansion
@ ~/.julia/packages/LinearSolve/Dqpre/src/default.jl:343 [inlined]
[8] solve!(::LinearSolve.LinearCache{Matrix{Float64}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, SciMLBase.NullParameters, LinearSolve.DefaultLinearSolver, LinearSolve.DefaultLinearSolverInit{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, LinearAlgebra.QRCompactWY{Float64, Matrix{Float64}, Matrix{Float64}}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Vector{Int64}}, Nothing, Nothing, Nothing, LinearAlgebra.SVD{Float64, Float64, Matrix{Float64}, Vector{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int32}}, Base.RefValue{Int32}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Base.RefValue{Int64}}, LinearAlgebra.QRPivoted{Float64, Matrix{Float64}, Vector{Float64}, Vector{Int64}}, Nothing, Nothing}, LinearSolve.InvPreconditioner{LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}}, LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Float64, Bool}, ::LinearSolve.DefaultLinearSolver; assump::OperatorAssumptions{Nothing}, kwargs::Base.Pairs{Symbol, Float64, Tuple{Symbol}, NamedTuple{(:reltol,), Tuple{Float64}}})
@ LinearSolve ~/.julia/packages/LinearSolve/Dqpre/src/default.jl:336
[9] solve!
@ ~/.julia/packages/LinearSolve/Dqpre/src/default.jl:336 [inlined]
[10] #solve!#6
@ ~/.julia/packages/LinearSolve/Dqpre/src/common.jl:189 [inlined]
[11] solve!
@ ~/.julia/packages/LinearSolve/Dqpre/src/common.jl:188 [inlined]
[12] #dolinsolve#3
@ ~/.julia/packages/OrdinaryDiffEq/NBaQM/src/misc_utils.jl:107 [inlined]
[13] dolinsolve
@ ~/.julia/packages/OrdinaryDiffEq/NBaQM/src/misc_utils.jl:83 [inlined]
[14] compute_step!(nlsolver::OrdinaryDiffEq.NLSolver{NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, true, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Nothing, Float64, OrdinaryDiffEq.NLNewtonCache{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Matrix{Float64}, Matrix{Float64}, SciMLBase.UJacobianWrapper{true, SDEFunction{true, SciMLBase.FullSpecialize, typeof(f!), typeof(g!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, SymbolicIndexingInterface.SymbolCache{Nothing, Nothing, Nothing}}, Float64, SciMLBase.NullParameters}, ForwardColorJacCache{ArrayPartition{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}, Tuple{Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}, Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}}}, ArrayPartition{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}, Tuple{Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}, Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Vector{Vector{NTuple{8, Float64}}}, UnitRange{Int64}, Nothing}, LinearSolve.LinearCache{Matrix{Float64}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, SciMLBase.NullParameters, LinearSolve.DefaultLinearSolver, LinearSolve.DefaultLinearSolverInit{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, LinearAlgebra.QRCompactWY{Float64, Matrix{Float64}, Matrix{Float64}}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Vector{Int64}}, Nothing, Nothing, Nothing, LinearAlgebra.SVD{Float64, Float64, Matrix{Float64}, Vector{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int32}}, Base.RefValue{Int32}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Base.RefValue{Int64}}, LinearAlgebra.QRPivoted{Float64, Matrix{Float64}, Vector{Float64}, Vector{Int64}}, Nothing, Nothing}, LinearSolve.InvPreconditioner{LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}}, LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Float64, Bool}}}, integrator::StochasticDiffEq.SDEIntegrator{SKenCarp{0, true, Nothing, typeof(OrdinaryDiffEq.DEFAULT_PRECS), Val{:central}, true, nothing, NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, Float64, :Predictive}, true, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Float64, Float64, SciMLBase.NullParameters, Float64, Float64, Float64, NoiseProcess{Float64, 2, Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Vector{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, typeof(DiffEqNoiseProcess.INPLACE_WHITE_NOISE_DIST), typeof(DiffEqNoiseProcess.INPLACE_WHITE_NOISE_BRIDGE), true, ResettableStacks.ResettableStack{Tuple{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, true}, ResettableStacks.ResettableStack{Tuple{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, true}, RSWM{Float64}, Nothing, RandomNumbers.Xorshifts.Xoroshiro128Plus}, Nothing, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, RODESolution{Float64, 2, Vector{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Nothing, Nothing, Vector{Float64}, NoiseProcess{Float64, 2, Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Vector{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, typeof(DiffEqNoiseProcess.INPLACE_WHITE_NOISE_DIST), typeof(DiffEqNoiseProcess.INPLACE_WHITE_NOISE_BRIDGE), true, ResettableStacks.ResettableStack{Tuple{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, true}, ResettableStacks.ResettableStack{Tuple{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, true}, RSWM{Float64}, Nothing, RandomNumbers.Xorshifts.Xoroshiro128Plus}, SDEProblem{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Tuple{Float64, Float64}, true, SciMLBase.NullParameters, Nothing, SDEFunction{true, SciMLBase.FullSpecialize, typeof(f!), typeof(g!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, SymbolicIndexingInterface.SymbolCache{Nothing, Nothing, Nothing}}, typeof(g!), Base.Pairs{Symbol, Union{}, Tuple{}, NamedTuple{(), Tuple{}}}, Nothing}, SKenCarp{0, true, Nothing, typeof(OrdinaryDiffEq.DEFAULT_PRECS), Val{:central}, true, nothing, NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, Float64, :Predictive}, StochasticDiffEq.LinearInterpolationData{Vector{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Vector{Float64}}, SciMLBase.DEStats, Nothing}, StochasticDiffEq.SKenCarpCache{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, OrdinaryDiffEq.NLSolver{NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, true, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Nothing, Float64, OrdinaryDiffEq.NLNewtonCache{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Matrix{Float64}, Matrix{Float64}, SciMLBase.UJacobianWrapper{true, SDEFunction{true, SciMLBase.FullSpecialize, typeof(f!), typeof(g!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, SymbolicIndexingInterface.SymbolCache{Nothing, Nothing, Nothing}}, Float64, SciMLBase.NullParameters}, ForwardColorJacCache{ArrayPartition{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}, Tuple{Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}, Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}}}, ArrayPartition{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}, Tuple{Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}, Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Vector{Vector{NTuple{8, Float64}}}, UnitRange{Int64}, Nothing}, LinearSolve.LinearCache{Matrix{Float64}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, SciMLBase.NullParameters, LinearSolve.DefaultLinearSolver, LinearSolve.DefaultLinearSolverInit{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, LinearAlgebra.QRCompactWY{Float64, Matrix{Float64}, Matrix{Float64}}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Vector{Int64}}, Nothing, Nothing, Nothing, LinearAlgebra.SVD{Float64, Float64, Matrix{Float64}, Vector{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int32}}, Base.RefValue{Int32}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Base.RefValue{Int64}}, LinearAlgebra.QRPivoted{Float64, Matrix{Float64}, Vector{Float64}, Vector{Int64}}, Nothing, Nothing}, LinearSolve.InvPreconditioner{LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}}, LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Float64, Bool}}}, StochasticDiffEq.SKenCarpTableau{Float64, Float64}, Nothing, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, SDEFunction{true, SciMLBase.FullSpecialize, typeof(f!), typeof(g!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, SymbolicIndexingInterface.SymbolCache{Nothing, Nothing, Nothing}}, typeof(g!), Nothing, StochasticDiffEq.SDEOptions{Float64, Float64, PIController{Float64}, typeof(DiffEqBase.ODE_DEFAULT_NORM), Nothing, CallbackSet{Tuple{}, Tuple{}}, typeof(DiffEqBase.ODE_DEFAULT_ISOUTOFDOMAIN), typeof(DiffEqBase.ODE_DEFAULT_PROG_MESSAGE), typeof(DiffEqBase.ODE_DEFAULT_UNSTABLE_CHECK), DataStructures.BinaryHeap{Float64, DataStructures.FasterForward}, DataStructures.BinaryHeap{Float64, DataStructures.FasterForward}, Nothing, Nothing, Int64, Float64, Float64, Float64, Tuple{}, Tuple{}, Tuple{}}, Nothing, Float64, Nothing, Nothing}, γW::Float64)
@ OrdinaryDiffEq ~/.julia/packages/OrdinaryDiffEq/NBaQM/src/nlsolve/newton.jl:122
[15] nlsolve!(nlsolver::OrdinaryDiffEq.NLSolver{NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, true, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Nothing, Float64, OrdinaryDiffEq.NLNewtonCache{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Matrix{Float64}, Matrix{Float64}, SciMLBase.UJacobianWrapper{true, SDEFunction{true, SciMLBase.FullSpecialize, typeof(f!), typeof(g!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, SymbolicIndexingInterface.SymbolCache{Nothing, Nothing, Nothing}}, Float64, SciMLBase.NullParameters}, ForwardColorJacCache{ArrayPartition{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}, Tuple{Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}, Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}}}, ArrayPartition{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}, Tuple{Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}, Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Vector{Vector{NTuple{8, Float64}}}, UnitRange{Int64}, Nothing}, LinearSolve.LinearCache{Matrix{Float64}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, SciMLBase.NullParameters, LinearSolve.DefaultLinearSolver, LinearSolve.DefaultLinearSolverInit{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, LinearAlgebra.QRCompactWY{Float64, Matrix{Float64}, Matrix{Float64}}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Vector{Int64}}, Nothing, Nothing, Nothing, LinearAlgebra.SVD{Float64, Float64, Matrix{Float64}, Vector{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int32}}, Base.RefValue{Int32}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Base.RefValue{Int64}}, LinearAlgebra.QRPivoted{Float64, Matrix{Float64}, Vector{Float64}, Vector{Int64}}, Nothing, Nothing}, LinearSolve.InvPreconditioner{LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}}, LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Float64, Bool}}}, integrator::StochasticDiffEq.SDEIntegrator{SKenCarp{0, true, Nothing, typeof(OrdinaryDiffEq.DEFAULT_PRECS), Val{:central}, true, nothing, NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, Float64, :Predictive}, true, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Float64, Float64, SciMLBase.NullParameters, Float64, Float64, Float64, NoiseProcess{Float64, 2, Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Vector{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, typeof(DiffEqNoiseProcess.INPLACE_WHITE_NOISE_DIST), typeof(DiffEqNoiseProcess.INPLACE_WHITE_NOISE_BRIDGE), true, ResettableStacks.ResettableStack{Tuple{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, true}, ResettableStacks.ResettableStack{Tuple{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, true}, RSWM{Float64}, Nothing, RandomNumbers.Xorshifts.Xoroshiro128Plus}, Nothing, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, RODESolution{Float64, 2, Vector{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Nothing, Nothing, Vector{Float64}, NoiseProcess{Float64, 2, Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Vector{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, typeof(DiffEqNoiseProcess.INPLACE_WHITE_NOISE_DIST), typeof(DiffEqNoiseProcess.INPLACE_WHITE_NOISE_BRIDGE), true, ResettableStacks.ResettableStack{Tuple{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, true}, ResettableStacks.ResettableStack{Tuple{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, true}, RSWM{Float64}, Nothing, RandomNumbers.Xorshifts.Xoroshiro128Plus}, SDEProblem{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Tuple{Float64, Float64}, true, SciMLBase.NullParameters, Nothing, SDEFunction{true, SciMLBase.FullSpecialize, typeof(f!), typeof(g!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, SymbolicIndexingInterface.SymbolCache{Nothing, Nothing, Nothing}}, typeof(g!), Base.Pairs{Symbol, Union{}, Tuple{}, NamedTuple{(), Tuple{}}}, Nothing}, SKenCarp{0, true, Nothing, typeof(OrdinaryDiffEq.DEFAULT_PRECS), Val{:central}, true, nothing, NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, Float64, :Predictive}, StochasticDiffEq.LinearInterpolationData{Vector{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Vector{Float64}}, SciMLBase.DEStats, Nothing}, StochasticDiffEq.SKenCarpCache{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, OrdinaryDiffEq.NLSolver{NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, true, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Nothing, Float64, OrdinaryDiffEq.NLNewtonCache{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Matrix{Float64}, Matrix{Float64}, SciMLBase.UJacobianWrapper{true, SDEFunction{true, SciMLBase.FullSpecialize, typeof(f!), typeof(g!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, SymbolicIndexingInterface.SymbolCache{Nothing, Nothing, Nothing}}, Float64, SciMLBase.NullParameters}, ForwardColorJacCache{ArrayPartition{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}, Tuple{Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}, Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}}}, ArrayPartition{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}, Tuple{Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}, Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Vector{Vector{NTuple{8, Float64}}}, UnitRange{Int64}, Nothing}, LinearSolve.LinearCache{Matrix{Float64}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, SciMLBase.NullParameters, LinearSolve.DefaultLinearSolver, LinearSolve.DefaultLinearSolverInit{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, LinearAlgebra.QRCompactWY{Float64, Matrix{Float64}, Matrix{Float64}}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Vector{Int64}}, Nothing, Nothing, Nothing, LinearAlgebra.SVD{Float64, Float64, Matrix{Float64}, Vector{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int32}}, Base.RefValue{Int32}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Base.RefValue{Int64}}, LinearAlgebra.QRPivoted{Float64, Matrix{Float64}, Vector{Float64}, Vector{Int64}}, Nothing, Nothing}, LinearSolve.InvPreconditioner{LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}}, LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Float64, Bool}}}, StochasticDiffEq.SKenCarpTableau{Float64, Float64}, Nothing, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, SDEFunction{true, SciMLBase.FullSpecialize, typeof(f!), typeof(g!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, SymbolicIndexingInterface.SymbolCache{Nothing, Nothing, Nothing}}, typeof(g!), Nothing, StochasticDiffEq.SDEOptions{Float64, Float64, PIController{Float64}, typeof(DiffEqBase.ODE_DEFAULT_NORM), Nothing, CallbackSet{Tuple{}, Tuple{}}, typeof(DiffEqBase.ODE_DEFAULT_ISOUTOFDOMAIN), typeof(DiffEqBase.ODE_DEFAULT_PROG_MESSAGE), typeof(DiffEqBase.ODE_DEFAULT_UNSTABLE_CHECK), DataStructures.BinaryHeap{Float64, DataStructures.FasterForward}, DataStructures.BinaryHeap{Float64, DataStructures.FasterForward}, Nothing, Nothing, Int64, Float64, Float64, Float64, Tuple{}, Tuple{}, Tuple{}}, Nothing, Float64, Nothing, Nothing}, cache::StochasticDiffEq.SKenCarpCache{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, OrdinaryDiffEq.NLSolver{NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, true, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Nothing, Float64, OrdinaryDiffEq.NLNewtonCache{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Matrix{Float64}, Matrix{Float64}, SciMLBase.UJacobianWrapper{true, SDEFunction{true, SciMLBase.FullSpecialize, typeof(f!), typeof(g!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, SymbolicIndexingInterface.SymbolCache{Nothing, Nothing, Nothing}}, Float64, SciMLBase.NullParameters}, ForwardColorJacCache{ArrayPartition{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}, Tuple{Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}, Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}}}, ArrayPartition{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}, Tuple{Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}, Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Vector{Vector{NTuple{8, Float64}}}, UnitRange{Int64}, Nothing}, LinearSolve.LinearCache{Matrix{Float64}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, SciMLBase.NullParameters, LinearSolve.DefaultLinearSolver, LinearSolve.DefaultLinearSolverInit{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, LinearAlgebra.QRCompactWY{Float64, Matrix{Float64}, Matrix{Float64}}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Vector{Int64}}, Nothing, Nothing, Nothing, LinearAlgebra.SVD{Float64, Float64, Matrix{Float64}, Vector{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int32}}, Base.RefValue{Int32}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Base.RefValue{Int64}}, LinearAlgebra.QRPivoted{Float64, Matrix{Float64}, Vector{Float64}, Vector{Int64}}, Nothing, Nothing}, LinearSolve.InvPreconditioner{LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}}, LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Float64, Bool}}}, StochasticDiffEq.SKenCarpTableau{Float64, Float64}, Nothing, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, repeat_step::Bool)
@ OrdinaryDiffEq ~/.julia/packages/OrdinaryDiffEq/NBaQM/src/nlsolve/nlsolve.jl:52
[16] perform_step!(integrator::StochasticDiffEq.SDEIntegrator{SKenCarp{0, true, Nothing, typeof(OrdinaryDiffEq.DEFAULT_PRECS), Val{:central}, true, nothing, NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, Float64, :Predictive}, true, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Float64, Float64, SciMLBase.NullParameters, Float64, Float64, Float64, NoiseProcess{Float64, 2, Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Vector{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, typeof(DiffEqNoiseProcess.INPLACE_WHITE_NOISE_DIST), typeof(DiffEqNoiseProcess.INPLACE_WHITE_NOISE_BRIDGE), true, ResettableStacks.ResettableStack{Tuple{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, true}, ResettableStacks.ResettableStack{Tuple{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, true}, RSWM{Float64}, Nothing, RandomNumbers.Xorshifts.Xoroshiro128Plus}, Nothing, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, RODESolution{Float64, 2, Vector{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Nothing, Nothing, Vector{Float64}, NoiseProcess{Float64, 2, Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Vector{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, typeof(DiffEqNoiseProcess.INPLACE_WHITE_NOISE_DIST), typeof(DiffEqNoiseProcess.INPLACE_WHITE_NOISE_BRIDGE), true, ResettableStacks.ResettableStack{Tuple{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, true}, ResettableStacks.ResettableStack{Tuple{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, true}, RSWM{Float64}, Nothing, RandomNumbers.Xorshifts.Xoroshiro128Plus}, SDEProblem{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Tuple{Float64, Float64}, true, SciMLBase.NullParameters, Nothing, SDEFunction{true, SciMLBase.FullSpecialize, typeof(f!), typeof(g!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, SymbolicIndexingInterface.SymbolCache{Nothing, Nothing, Nothing}}, typeof(g!), Base.Pairs{Symbol, Union{}, Tuple{}, NamedTuple{(), Tuple{}}}, Nothing}, SKenCarp{0, true, Nothing, typeof(OrdinaryDiffEq.DEFAULT_PRECS), Val{:central}, true, nothing, NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, Float64, :Predictive}, StochasticDiffEq.LinearInterpolationData{Vector{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Vector{Float64}}, SciMLBase.DEStats, Nothing}, StochasticDiffEq.SKenCarpCache{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, OrdinaryDiffEq.NLSolver{NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, true, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Nothing, Float64, OrdinaryDiffEq.NLNewtonCache{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Matrix{Float64}, Matrix{Float64}, SciMLBase.UJacobianWrapper{true, SDEFunction{true, SciMLBase.FullSpecialize, typeof(f!), typeof(g!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, SymbolicIndexingInterface.SymbolCache{Nothing, Nothing, Nothing}}, Float64, SciMLBase.NullParameters}, ForwardColorJacCache{ArrayPartition{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}, Tuple{Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}, Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}}}, ArrayPartition{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}, Tuple{Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}, Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Vector{Vector{NTuple{8, Float64}}}, UnitRange{Int64}, Nothing}, LinearSolve.LinearCache{Matrix{Float64}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, SciMLBase.NullParameters, LinearSolve.DefaultLinearSolver, LinearSolve.DefaultLinearSolverInit{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, LinearAlgebra.QRCompactWY{Float64, Matrix{Float64}, Matrix{Float64}}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Vector{Int64}}, Nothing, Nothing, Nothing, LinearAlgebra.SVD{Float64, Float64, Matrix{Float64}, Vector{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int32}}, Base.RefValue{Int32}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Base.RefValue{Int64}}, LinearAlgebra.QRPivoted{Float64, Matrix{Float64}, Vector{Float64}, Vector{Int64}}, Nothing, Nothing}, LinearSolve.InvPreconditioner{LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}}, LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Float64, Bool}}}, StochasticDiffEq.SKenCarpTableau{Float64, Float64}, Nothing, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, SDEFunction{true, SciMLBase.FullSpecialize, typeof(f!), typeof(g!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, SymbolicIndexingInterface.SymbolCache{Nothing, Nothing, Nothing}}, typeof(g!), Nothing, StochasticDiffEq.SDEOptions{Float64, Float64, PIController{Float64}, typeof(DiffEqBase.ODE_DEFAULT_NORM), Nothing, CallbackSet{Tuple{}, Tuple{}}, typeof(DiffEqBase.ODE_DEFAULT_ISOUTOFDOMAIN), typeof(DiffEqBase.ODE_DEFAULT_PROG_MESSAGE), typeof(DiffEqBase.ODE_DEFAULT_UNSTABLE_CHECK), DataStructures.BinaryHeap{Float64, DataStructures.FasterForward}, DataStructures.BinaryHeap{Float64, DataStructures.FasterForward}, Nothing, Nothing, Int64, Float64, Float64, Float64, Tuple{}, Tuple{}, Tuple{}}, Nothing, Float64, Nothing, Nothing}, cache::StochasticDiffEq.SKenCarpCache{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, OrdinaryDiffEq.NLSolver{NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, true, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Nothing, Float64, OrdinaryDiffEq.NLNewtonCache{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Matrix{Float64}, Matrix{Float64}, SciMLBase.UJacobianWrapper{true, SDEFunction{true, SciMLBase.FullSpecialize, typeof(f!), typeof(g!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, SymbolicIndexingInterface.SymbolCache{Nothing, Nothing, Nothing}}, Float64, SciMLBase.NullParameters}, ForwardColorJacCache{ArrayPartition{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}, Tuple{Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}, Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}}}, ArrayPartition{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}, Tuple{Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}, Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Vector{Vector{NTuple{8, Float64}}}, UnitRange{Int64}, Nothing}, LinearSolve.LinearCache{Matrix{Float64}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, SciMLBase.NullParameters, LinearSolve.DefaultLinearSolver, LinearSolve.DefaultLinearSolverInit{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, LinearAlgebra.QRCompactWY{Float64, Matrix{Float64}, Matrix{Float64}}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Vector{Int64}}, Nothing, Nothing, Nothing, LinearAlgebra.SVD{Float64, Float64, Matrix{Float64}, Vector{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int32}}, Base.RefValue{Int32}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Base.RefValue{Int64}}, LinearAlgebra.QRPivoted{Float64, Matrix{Float64}, Vector{Float64}, Vector{Int64}}, Nothing, Nothing}, LinearSolve.InvPreconditioner{LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}}, LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Float64, Bool}}}, StochasticDiffEq.SKenCarpTableau{Float64, Float64}, Nothing, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}})
@ StochasticDiffEq ~/.julia/packages/StochasticDiffEq/tdY4b/src/perform_step/kencarp.jl:209
[17] solve!(integrator::StochasticDiffEq.SDEIntegrator{SKenCarp{0, true, Nothing, typeof(OrdinaryDiffEq.DEFAULT_PRECS), Val{:central}, true, nothing, NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, Float64, :Predictive}, true, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Float64, Float64, SciMLBase.NullParameters, Float64, Float64, Float64, NoiseProcess{Float64, 2, Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Vector{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, typeof(DiffEqNoiseProcess.INPLACE_WHITE_NOISE_DIST), typeof(DiffEqNoiseProcess.INPLACE_WHITE_NOISE_BRIDGE), true, ResettableStacks.ResettableStack{Tuple{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, true}, ResettableStacks.ResettableStack{Tuple{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, true}, RSWM{Float64}, Nothing, RandomNumbers.Xorshifts.Xoroshiro128Plus}, Nothing, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, RODESolution{Float64, 2, Vector{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Nothing, Nothing, Vector{Float64}, NoiseProcess{Float64, 2, Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Vector{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, typeof(DiffEqNoiseProcess.INPLACE_WHITE_NOISE_DIST), typeof(DiffEqNoiseProcess.INPLACE_WHITE_NOISE_BRIDGE), true, ResettableStacks.ResettableStack{Tuple{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, true}, ResettableStacks.ResettableStack{Tuple{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, true}, RSWM{Float64}, Nothing, RandomNumbers.Xorshifts.Xoroshiro128Plus}, SDEProblem{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Tuple{Float64, Float64}, true, SciMLBase.NullParameters, Nothing, SDEFunction{true, SciMLBase.FullSpecialize, typeof(f!), typeof(g!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, SymbolicIndexingInterface.SymbolCache{Nothing, Nothing, Nothing}}, typeof(g!), Base.Pairs{Symbol, Union{}, Tuple{}, NamedTuple{(), Tuple{}}}, Nothing}, SKenCarp{0, true, Nothing, typeof(OrdinaryDiffEq.DEFAULT_PRECS), Val{:central}, true, nothing, NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, Float64, :Predictive}, StochasticDiffEq.LinearInterpolationData{Vector{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Vector{Float64}}, SciMLBase.DEStats, Nothing}, StochasticDiffEq.SKenCarpCache{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, OrdinaryDiffEq.NLSolver{NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, true, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Nothing, Float64, OrdinaryDiffEq.NLNewtonCache{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Matrix{Float64}, Matrix{Float64}, SciMLBase.UJacobianWrapper{true, SDEFunction{true, SciMLBase.FullSpecialize, typeof(f!), typeof(g!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, SymbolicIndexingInterface.SymbolCache{Nothing, Nothing, Nothing}}, Float64, SciMLBase.NullParameters}, ForwardColorJacCache{ArrayPartition{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}, Tuple{Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}, Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}}}, ArrayPartition{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}, Tuple{Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}, Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Vector{Vector{NTuple{8, Float64}}}, UnitRange{Int64}, Nothing}, LinearSolve.LinearCache{Matrix{Float64}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, SciMLBase.NullParameters, LinearSolve.DefaultLinearSolver, LinearSolve.DefaultLinearSolverInit{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, LinearAlgebra.QRCompactWY{Float64, Matrix{Float64}, Matrix{Float64}}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Vector{Int64}}, Nothing, Nothing, Nothing, LinearAlgebra.SVD{Float64, Float64, Matrix{Float64}, Vector{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int32}}, Base.RefValue{Int32}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Base.RefValue{Int64}}, LinearAlgebra.QRPivoted{Float64, Matrix{Float64}, Vector{Float64}, Vector{Int64}}, Nothing, Nothing}, LinearSolve.InvPreconditioner{LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}}, LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Float64, Bool}}}, StochasticDiffEq.SKenCarpTableau{Float64, Float64}, Nothing, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, SDEFunction{true, SciMLBase.FullSpecialize, typeof(f!), typeof(g!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, SymbolicIndexingInterface.SymbolCache{Nothing, Nothing, Nothing}}, typeof(g!), Nothing, StochasticDiffEq.SDEOptions{Float64, Float64, PIController{Float64}, typeof(DiffEqBase.ODE_DEFAULT_NORM), Nothing, CallbackSet{Tuple{}, Tuple{}}, typeof(DiffEqBase.ODE_DEFAULT_ISOUTOFDOMAIN), typeof(DiffEqBase.ODE_DEFAULT_PROG_MESSAGE), typeof(DiffEqBase.ODE_DEFAULT_UNSTABLE_CHECK), DataStructures.BinaryHeap{Float64, DataStructures.FasterForward}, DataStructures.BinaryHeap{Float64, DataStructures.FasterForward}, Nothing, Nothing, Int64, Float64, Float64, Float64, Tuple{}, Tuple{}, Tuple{}}, Nothing, Float64, Nothing, Nothing})
@ StochasticDiffEq ~/.julia/packages/StochasticDiffEq/tdY4b/src/solve.jl:618
[18] __solve(prob::SDEProblem{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Tuple{Float64, Float64}, true, SciMLBase.NullParameters, Nothing, SDEFunction{true, SciMLBase.FullSpecialize, typeof(f!), typeof(g!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, SymbolicIndexingInterface.SymbolCache{Nothing, Nothing, Nothing}}, typeof(g!), Base.Pairs{Symbol, Union{}, Tuple{}, NamedTuple{(), Tuple{}}}, Nothing}, alg::SKenCarp{0, true, Nothing, typeof(OrdinaryDiffEq.DEFAULT_PRECS), Val{:central}, true, nothing, NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, Float64, :Predictive}, timeseries::Vector{Any}, ts::Vector{Any}, ks::Nothing, recompile::Type{Val{true}}; kwargs::Base.Pairs{Symbol, Float64, Tuple{Symbol}, NamedTuple{(:dt,), Tuple{Float64}}})
@ StochasticDiffEq ~/.julia/packages/StochasticDiffEq/tdY4b/src/solve.jl:7
[19] __solve (repeats 5 times)
@ ~/.julia/packages/StochasticDiffEq/tdY4b/src/solve.jl:1 [inlined]
[20] #solve_call#34
@ ~/.julia/packages/DiffEqBase/eTCPy/src/solve.jl:608 [inlined]
[21] solve_call
@ ~/.julia/packages/DiffEqBase/eTCPy/src/solve.jl:566 [inlined]
[22] #solve_up#42
@ ~/.julia/packages/DiffEqBase/eTCPy/src/solve.jl:1057 [inlined]
[23] solve_up
@ ~/.julia/packages/DiffEqBase/eTCPy/src/solve.jl:1043 [inlined]
[24] #solve#40
@ ~/.julia/packages/DiffEqBase/eTCPy/src/solve.jl:980 [inlined]
[25] example(u0::ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, solver::SKenCarp{0, true, Nothing, typeof(OrdinaryDiffEq.DEFAULT_PRECS), Val{:central}, true, nothing, NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, Float64, :Predictive})
@ Main ~/MyProject/bug-mre.jl:43
[26] top-level scope
@ REPL[33]:1Then, after "fixing" the strides bug:
Output of julia> example(slightly_larger_u0, SKenCarp())
ERROR: conversion to pointer not defined for ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}
Stacktrace:
[1] error(s::String)
@ Base ./error.jl:35
[2] unsafe_convert(#unused#::Type{Ptr{Float64}}, a::ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}})
@ Base ./pointer.jl:67
[3] aa_getrs!(trans::Char, A::Matrix{Float64}, ipiv::Vector{Int32}, B::ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}; info::Base.RefValue{Int32})
@ LinearSolve ~/.julia/packages/LinearSolve/Dqpre/src/appleaccelerate.jl:175
[4] solve!(cache::LinearSolve.LinearCache{Matrix{Float64}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, SciMLBase.NullParameters, LinearSolve.DefaultLinearSolver, LinearSolve.DefaultLinearSolverInit{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, LinearAlgebra.QRCompactWY{Float64, Matrix{Float64}, Matrix{Float64}}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Vector{Int64}}, Nothing, Nothing, Nothing, LinearAlgebra.SVD{Float64, Float64, Matrix{Float64}, Vector{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int32}}, Base.RefValue{Int32}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Base.RefValue{Int64}}, LinearAlgebra.QRPivoted{Float64, Matrix{Float64}, Vector{Float64}, Vector{Int64}}, Nothing, Nothing}, LinearSolve.InvPreconditioner{LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}}, LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Float64, Bool}, alg::AppleAccelerateLUFactorization; kwargs::Base.Pairs{Symbol, Float64, Tuple{Symbol}, NamedTuple{(:reltol,), Tuple{Float64}}})
@ LinearSolve ~/.julia/packages/LinearSolve/Dqpre/src/appleaccelerate.jl:253
[5] macro expansion
@ ~/.julia/packages/LinearSolve/Dqpre/src/default.jl:343 [inlined]
[6] solve!(::LinearSolve.LinearCache{Matrix{Float64}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, SciMLBase.NullParameters, LinearSolve.DefaultLinearSolver, LinearSolve.DefaultLinearSolverInit{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, LinearAlgebra.QRCompactWY{Float64, Matrix{Float64}, Matrix{Float64}}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Vector{Int64}}, Nothing, Nothing, Nothing, LinearAlgebra.SVD{Float64, Float64, Matrix{Float64}, Vector{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int32}}, Base.RefValue{Int32}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Base.RefValue{Int64}}, LinearAlgebra.QRPivoted{Float64, Matrix{Float64}, Vector{Float64}, Vector{Int64}}, Nothing, Nothing}, LinearSolve.InvPreconditioner{LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}}, LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Float64, Bool}, ::LinearSolve.DefaultLinearSolver; assump::OperatorAssumptions{Nothing}, kwargs::Base.Pairs{Symbol, Float64, Tuple{Symbol}, NamedTuple{(:reltol,), Tuple{Float64}}})
@ LinearSolve ~/.julia/packages/LinearSolve/Dqpre/src/default.jl:336
[7] solve!
@ ~/.julia/packages/LinearSolve/Dqpre/src/default.jl:336 [inlined]
[8] #solve!#6
@ ~/.julia/packages/LinearSolve/Dqpre/src/common.jl:189 [inlined]
[9] solve!
@ ~/.julia/packages/LinearSolve/Dqpre/src/common.jl:188 [inlined]
[10] #dolinsolve#3
@ ~/.julia/packages/OrdinaryDiffEq/NBaQM/src/misc_utils.jl:107 [inlined]
[11] dolinsolve
@ ~/.julia/packages/OrdinaryDiffEq/NBaQM/src/misc_utils.jl:83 [inlined]
[12] compute_step!(nlsolver::OrdinaryDiffEq.NLSolver{NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, true, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Nothing, Float64, OrdinaryDiffEq.NLNewtonCache{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Matrix{Float64}, Matrix{Float64}, SciMLBase.UJacobianWrapper{true, SDEFunction{true, SciMLBase.FullSpecialize, typeof(f!), typeof(g!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, SymbolicIndexingInterface.SymbolCache{Nothing, Nothing, Nothing}}, Float64, SciMLBase.NullParameters}, ForwardColorJacCache{ArrayPartition{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}, Tuple{Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}, Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}}}, ArrayPartition{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}, Tuple{Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}, Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Vector{Vector{NTuple{8, Float64}}}, UnitRange{Int64}, Nothing}, LinearSolve.LinearCache{Matrix{Float64}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, SciMLBase.NullParameters, LinearSolve.DefaultLinearSolver, LinearSolve.DefaultLinearSolverInit{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, LinearAlgebra.QRCompactWY{Float64, Matrix{Float64}, Matrix{Float64}}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Vector{Int64}}, Nothing, Nothing, Nothing, LinearAlgebra.SVD{Float64, Float64, Matrix{Float64}, Vector{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int32}}, Base.RefValue{Int32}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Base.RefValue{Int64}}, LinearAlgebra.QRPivoted{Float64, Matrix{Float64}, Vector{Float64}, Vector{Int64}}, Nothing, Nothing}, LinearSolve.InvPreconditioner{LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}}, LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Float64, Bool}}}, integrator::StochasticDiffEq.SDEIntegrator{SKenCarp{0, true, Nothing, typeof(OrdinaryDiffEq.DEFAULT_PRECS), Val{:central}, true, nothing, NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, Float64, :Predictive}, true, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Float64, Float64, SciMLBase.NullParameters, Float64, Float64, Float64, NoiseProcess{Float64, 2, Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Vector{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, typeof(DiffEqNoiseProcess.INPLACE_WHITE_NOISE_DIST), typeof(DiffEqNoiseProcess.INPLACE_WHITE_NOISE_BRIDGE), true, ResettableStacks.ResettableStack{Tuple{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, true}, ResettableStacks.ResettableStack{Tuple{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, true}, RSWM{Float64}, Nothing, RandomNumbers.Xorshifts.Xoroshiro128Plus}, Nothing, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, RODESolution{Float64, 2, Vector{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Nothing, Nothing, Vector{Float64}, NoiseProcess{Float64, 2, Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Vector{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, typeof(DiffEqNoiseProcess.INPLACE_WHITE_NOISE_DIST), typeof(DiffEqNoiseProcess.INPLACE_WHITE_NOISE_BRIDGE), true, ResettableStacks.ResettableStack{Tuple{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, true}, ResettableStacks.ResettableStack{Tuple{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, true}, RSWM{Float64}, Nothing, RandomNumbers.Xorshifts.Xoroshiro128Plus}, SDEProblem{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Tuple{Float64, Float64}, true, SciMLBase.NullParameters, Nothing, SDEFunction{true, SciMLBase.FullSpecialize, typeof(f!), typeof(g!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, SymbolicIndexingInterface.SymbolCache{Nothing, Nothing, Nothing}}, typeof(g!), Base.Pairs{Symbol, Union{}, Tuple{}, NamedTuple{(), Tuple{}}}, Nothing}, SKenCarp{0, true, Nothing, typeof(OrdinaryDiffEq.DEFAULT_PRECS), Val{:central}, true, nothing, NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, Float64, :Predictive}, StochasticDiffEq.LinearInterpolationData{Vector{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Vector{Float64}}, SciMLBase.DEStats, Nothing}, StochasticDiffEq.SKenCarpCache{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, OrdinaryDiffEq.NLSolver{NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, true, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Nothing, Float64, OrdinaryDiffEq.NLNewtonCache{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Matrix{Float64}, Matrix{Float64}, SciMLBase.UJacobianWrapper{true, SDEFunction{true, SciMLBase.FullSpecialize, typeof(f!), typeof(g!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, SymbolicIndexingInterface.SymbolCache{Nothing, Nothing, Nothing}}, Float64, SciMLBase.NullParameters}, ForwardColorJacCache{ArrayPartition{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}, Tuple{Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}, Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}}}, ArrayPartition{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}, Tuple{Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}, Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Vector{Vector{NTuple{8, Float64}}}, UnitRange{Int64}, Nothing}, LinearSolve.LinearCache{Matrix{Float64}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, SciMLBase.NullParameters, LinearSolve.DefaultLinearSolver, LinearSolve.DefaultLinearSolverInit{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, LinearAlgebra.QRCompactWY{Float64, Matrix{Float64}, Matrix{Float64}}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Vector{Int64}}, Nothing, Nothing, Nothing, LinearAlgebra.SVD{Float64, Float64, Matrix{Float64}, Vector{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int32}}, Base.RefValue{Int32}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Base.RefValue{Int64}}, LinearAlgebra.QRPivoted{Float64, Matrix{Float64}, Vector{Float64}, Vector{Int64}}, Nothing, Nothing}, LinearSolve.InvPreconditioner{LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}}, LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Float64, Bool}}}, StochasticDiffEq.SKenCarpTableau{Float64, Float64}, Nothing, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, SDEFunction{true, SciMLBase.FullSpecialize, typeof(f!), typeof(g!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, SymbolicIndexingInterface.SymbolCache{Nothing, Nothing, Nothing}}, typeof(g!), Nothing, StochasticDiffEq.SDEOptions{Float64, Float64, PIController{Float64}, typeof(DiffEqBase.ODE_DEFAULT_NORM), Nothing, CallbackSet{Tuple{}, Tuple{}}, typeof(DiffEqBase.ODE_DEFAULT_ISOUTOFDOMAIN), typeof(DiffEqBase.ODE_DEFAULT_PROG_MESSAGE), typeof(DiffEqBase.ODE_DEFAULT_UNSTABLE_CHECK), DataStructures.BinaryHeap{Float64, DataStructures.FasterForward}, DataStructures.BinaryHeap{Float64, DataStructures.FasterForward}, Nothing, Nothing, Int64, Float64, Float64, Float64, Tuple{}, Tuple{}, Tuple{}}, Nothing, Float64, Nothing, Nothing}, γW::Float64)
@ OrdinaryDiffEq ~/.julia/packages/OrdinaryDiffEq/NBaQM/src/nlsolve/newton.jl:122
[13] nlsolve!(nlsolver::OrdinaryDiffEq.NLSolver{NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, true, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Nothing, Float64, OrdinaryDiffEq.NLNewtonCache{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Matrix{Float64}, Matrix{Float64}, SciMLBase.UJacobianWrapper{true, SDEFunction{true, SciMLBase.FullSpecialize, typeof(f!), typeof(g!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, SymbolicIndexingInterface.SymbolCache{Nothing, Nothing, Nothing}}, Float64, SciMLBase.NullParameters}, ForwardColorJacCache{ArrayPartition{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}, Tuple{Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}, Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}}}, ArrayPartition{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}, Tuple{Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}, Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Vector{Vector{NTuple{8, Float64}}}, UnitRange{Int64}, Nothing}, LinearSolve.LinearCache{Matrix{Float64}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, SciMLBase.NullParameters, LinearSolve.DefaultLinearSolver, LinearSolve.DefaultLinearSolverInit{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, LinearAlgebra.QRCompactWY{Float64, Matrix{Float64}, Matrix{Float64}}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Vector{Int64}}, Nothing, Nothing, Nothing, LinearAlgebra.SVD{Float64, Float64, Matrix{Float64}, Vector{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int32}}, Base.RefValue{Int32}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Base.RefValue{Int64}}, LinearAlgebra.QRPivoted{Float64, Matrix{Float64}, Vector{Float64}, Vector{Int64}}, Nothing, Nothing}, LinearSolve.InvPreconditioner{LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}}, LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Float64, Bool}}}, integrator::StochasticDiffEq.SDEIntegrator{SKenCarp{0, true, Nothing, typeof(OrdinaryDiffEq.DEFAULT_PRECS), Val{:central}, true, nothing, NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, Float64, :Predictive}, true, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Float64, Float64, SciMLBase.NullParameters, Float64, Float64, Float64, NoiseProcess{Float64, 2, Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Vector{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, typeof(DiffEqNoiseProcess.INPLACE_WHITE_NOISE_DIST), typeof(DiffEqNoiseProcess.INPLACE_WHITE_NOISE_BRIDGE), true, ResettableStacks.ResettableStack{Tuple{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, true}, ResettableStacks.ResettableStack{Tuple{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, true}, RSWM{Float64}, Nothing, RandomNumbers.Xorshifts.Xoroshiro128Plus}, Nothing, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, RODESolution{Float64, 2, Vector{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Nothing, Nothing, Vector{Float64}, NoiseProcess{Float64, 2, Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Vector{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, typeof(DiffEqNoiseProcess.INPLACE_WHITE_NOISE_DIST), typeof(DiffEqNoiseProcess.INPLACE_WHITE_NOISE_BRIDGE), true, ResettableStacks.ResettableStack{Tuple{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, true}, ResettableStacks.ResettableStack{Tuple{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, true}, RSWM{Float64}, Nothing, RandomNumbers.Xorshifts.Xoroshiro128Plus}, SDEProblem{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Tuple{Float64, Float64}, true, SciMLBase.NullParameters, Nothing, SDEFunction{true, SciMLBase.FullSpecialize, typeof(f!), typeof(g!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, SymbolicIndexingInterface.SymbolCache{Nothing, Nothing, Nothing}}, typeof(g!), Base.Pairs{Symbol, Union{}, Tuple{}, NamedTuple{(), Tuple{}}}, Nothing}, SKenCarp{0, true, Nothing, typeof(OrdinaryDiffEq.DEFAULT_PRECS), Val{:central}, true, nothing, NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, Float64, :Predictive}, StochasticDiffEq.LinearInterpolationData{Vector{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Vector{Float64}}, SciMLBase.DEStats, Nothing}, StochasticDiffEq.SKenCarpCache{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, OrdinaryDiffEq.NLSolver{NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, true, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Nothing, Float64, OrdinaryDiffEq.NLNewtonCache{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Matrix{Float64}, Matrix{Float64}, SciMLBase.UJacobianWrapper{true, SDEFunction{true, SciMLBase.FullSpecialize, typeof(f!), typeof(g!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, SymbolicIndexingInterface.SymbolCache{Nothing, Nothing, Nothing}}, Float64, SciMLBase.NullParameters}, ForwardColorJacCache{ArrayPartition{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}, Tuple{Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}, Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}}}, ArrayPartition{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}, Tuple{Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}, Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Vector{Vector{NTuple{8, Float64}}}, UnitRange{Int64}, Nothing}, LinearSolve.LinearCache{Matrix{Float64}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, SciMLBase.NullParameters, LinearSolve.DefaultLinearSolver, LinearSolve.DefaultLinearSolverInit{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, LinearAlgebra.QRCompactWY{Float64, Matrix{Float64}, Matrix{Float64}}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Vector{Int64}}, Nothing, Nothing, Nothing, LinearAlgebra.SVD{Float64, Float64, Matrix{Float64}, Vector{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int32}}, Base.RefValue{Int32}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Base.RefValue{Int64}}, LinearAlgebra.QRPivoted{Float64, Matrix{Float64}, Vector{Float64}, Vector{Int64}}, Nothing, Nothing}, LinearSolve.InvPreconditioner{LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}}, LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Float64, Bool}}}, StochasticDiffEq.SKenCarpTableau{Float64, Float64}, Nothing, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, SDEFunction{true, SciMLBase.FullSpecialize, typeof(f!), typeof(g!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, SymbolicIndexingInterface.SymbolCache{Nothing, Nothing, Nothing}}, typeof(g!), Nothing, StochasticDiffEq.SDEOptions{Float64, Float64, PIController{Float64}, typeof(DiffEqBase.ODE_DEFAULT_NORM), Nothing, CallbackSet{Tuple{}, Tuple{}}, typeof(DiffEqBase.ODE_DEFAULT_ISOUTOFDOMAIN), typeof(DiffEqBase.ODE_DEFAULT_PROG_MESSAGE), typeof(DiffEqBase.ODE_DEFAULT_UNSTABLE_CHECK), DataStructures.BinaryHeap{Float64, DataStructures.FasterForward}, DataStructures.BinaryHeap{Float64, DataStructures.FasterForward}, Nothing, Nothing, Int64, Float64, Float64, Float64, Tuple{}, Tuple{}, Tuple{}}, Nothing, Float64, Nothing, Nothing}, cache::StochasticDiffEq.SKenCarpCache{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, OrdinaryDiffEq.NLSolver{NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, true, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Nothing, Float64, OrdinaryDiffEq.NLNewtonCache{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Matrix{Float64}, Matrix{Float64}, SciMLBase.UJacobianWrapper{true, SDEFunction{true, SciMLBase.FullSpecialize, typeof(f!), typeof(g!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, SymbolicIndexingInterface.SymbolCache{Nothing, Nothing, Nothing}}, Float64, SciMLBase.NullParameters}, ForwardColorJacCache{ArrayPartition{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}, Tuple{Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}, Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}}}, ArrayPartition{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}, Tuple{Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}, Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Vector{Vector{NTuple{8, Float64}}}, UnitRange{Int64}, Nothing}, LinearSolve.LinearCache{Matrix{Float64}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, SciMLBase.NullParameters, LinearSolve.DefaultLinearSolver, LinearSolve.DefaultLinearSolverInit{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, LinearAlgebra.QRCompactWY{Float64, Matrix{Float64}, Matrix{Float64}}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Vector{Int64}}, Nothing, Nothing, Nothing, LinearAlgebra.SVD{Float64, Float64, Matrix{Float64}, Vector{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int32}}, Base.RefValue{Int32}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Base.RefValue{Int64}}, LinearAlgebra.QRPivoted{Float64, Matrix{Float64}, Vector{Float64}, Vector{Int64}}, Nothing, Nothing}, LinearSolve.InvPreconditioner{LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}}, LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Float64, Bool}}}, StochasticDiffEq.SKenCarpTableau{Float64, Float64}, Nothing, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, repeat_step::Bool)
@ OrdinaryDiffEq ~/.julia/packages/OrdinaryDiffEq/NBaQM/src/nlsolve/nlsolve.jl:52
[14] perform_step!(integrator::StochasticDiffEq.SDEIntegrator{SKenCarp{0, true, Nothing, typeof(OrdinaryDiffEq.DEFAULT_PRECS), Val{:central}, true, nothing, NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, Float64, :Predictive}, true, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Float64, Float64, SciMLBase.NullParameters, Float64, Float64, Float64, NoiseProcess{Float64, 2, Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Vector{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, typeof(DiffEqNoiseProcess.INPLACE_WHITE_NOISE_DIST), typeof(DiffEqNoiseProcess.INPLACE_WHITE_NOISE_BRIDGE), true, ResettableStacks.ResettableStack{Tuple{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, true}, ResettableStacks.ResettableStack{Tuple{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, true}, RSWM{Float64}, Nothing, RandomNumbers.Xorshifts.Xoroshiro128Plus}, Nothing, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, RODESolution{Float64, 2, Vector{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Nothing, Nothing, Vector{Float64}, NoiseProcess{Float64, 2, Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Vector{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, typeof(DiffEqNoiseProcess.INPLACE_WHITE_NOISE_DIST), typeof(DiffEqNoiseProcess.INPLACE_WHITE_NOISE_BRIDGE), true, ResettableStacks.ResettableStack{Tuple{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, true}, ResettableStacks.ResettableStack{Tuple{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, true}, RSWM{Float64}, Nothing, RandomNumbers.Xorshifts.Xoroshiro128Plus}, SDEProblem{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Tuple{Float64, Float64}, true, SciMLBase.NullParameters, Nothing, SDEFunction{true, SciMLBase.FullSpecialize, typeof(f!), typeof(g!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, SymbolicIndexingInterface.SymbolCache{Nothing, Nothing, Nothing}}, typeof(g!), Base.Pairs{Symbol, Union{}, Tuple{}, NamedTuple{(), Tuple{}}}, Nothing}, SKenCarp{0, true, Nothing, typeof(OrdinaryDiffEq.DEFAULT_PRECS), Val{:central}, true, nothing, NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, Float64, :Predictive}, StochasticDiffEq.LinearInterpolationData{Vector{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Vector{Float64}}, SciMLBase.DEStats, Nothing}, StochasticDiffEq.SKenCarpCache{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, OrdinaryDiffEq.NLSolver{NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, true, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Nothing, Float64, OrdinaryDiffEq.NLNewtonCache{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Matrix{Float64}, Matrix{Float64}, SciMLBase.UJacobianWrapper{true, SDEFunction{true, SciMLBase.FullSpecialize, typeof(f!), typeof(g!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, SymbolicIndexingInterface.SymbolCache{Nothing, Nothing, Nothing}}, Float64, SciMLBase.NullParameters}, ForwardColorJacCache{ArrayPartition{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}, Tuple{Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}, Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}}}, ArrayPartition{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}, Tuple{Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}, Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Vector{Vector{NTuple{8, Float64}}}, UnitRange{Int64}, Nothing}, LinearSolve.LinearCache{Matrix{Float64}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, SciMLBase.NullParameters, LinearSolve.DefaultLinearSolver, LinearSolve.DefaultLinearSolverInit{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, LinearAlgebra.QRCompactWY{Float64, Matrix{Float64}, Matrix{Float64}}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Vector{Int64}}, Nothing, Nothing, Nothing, LinearAlgebra.SVD{Float64, Float64, Matrix{Float64}, Vector{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int32}}, Base.RefValue{Int32}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Base.RefValue{Int64}}, LinearAlgebra.QRPivoted{Float64, Matrix{Float64}, Vector{Float64}, Vector{Int64}}, Nothing, Nothing}, LinearSolve.InvPreconditioner{LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}}, LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Float64, Bool}}}, StochasticDiffEq.SKenCarpTableau{Float64, Float64}, Nothing, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, SDEFunction{true, SciMLBase.FullSpecialize, typeof(f!), typeof(g!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, SymbolicIndexingInterface.SymbolCache{Nothing, Nothing, Nothing}}, typeof(g!), Nothing, StochasticDiffEq.SDEOptions{Float64, Float64, PIController{Float64}, typeof(DiffEqBase.ODE_DEFAULT_NORM), Nothing, CallbackSet{Tuple{}, Tuple{}}, typeof(DiffEqBase.ODE_DEFAULT_ISOUTOFDOMAIN), typeof(DiffEqBase.ODE_DEFAULT_PROG_MESSAGE), typeof(DiffEqBase.ODE_DEFAULT_UNSTABLE_CHECK), DataStructures.BinaryHeap{Float64, DataStructures.FasterForward}, DataStructures.BinaryHeap{Float64, DataStructures.FasterForward}, Nothing, Nothing, Int64, Float64, Float64, Float64, Tuple{}, Tuple{}, Tuple{}}, Nothing, Float64, Nothing, Nothing}, cache::StochasticDiffEq.SKenCarpCache{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, OrdinaryDiffEq.NLSolver{NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, true, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Nothing, Float64, OrdinaryDiffEq.NLNewtonCache{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Matrix{Float64}, Matrix{Float64}, SciMLBase.UJacobianWrapper{true, SDEFunction{true, SciMLBase.FullSpecialize, typeof(f!), typeof(g!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, SymbolicIndexingInterface.SymbolCache{Nothing, Nothing, Nothing}}, Float64, SciMLBase.NullParameters}, ForwardColorJacCache{ArrayPartition{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}, Tuple{Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}, Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}}}, ArrayPartition{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}, Tuple{Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}, Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Vector{Vector{NTuple{8, Float64}}}, UnitRange{Int64}, Nothing}, LinearSolve.LinearCache{Matrix{Float64}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, SciMLBase.NullParameters, LinearSolve.DefaultLinearSolver, LinearSolve.DefaultLinearSolverInit{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, LinearAlgebra.QRCompactWY{Float64, Matrix{Float64}, Matrix{Float64}}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Vector{Int64}}, Nothing, Nothing, Nothing, LinearAlgebra.SVD{Float64, Float64, Matrix{Float64}, Vector{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int32}}, Base.RefValue{Int32}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Base.RefValue{Int64}}, LinearAlgebra.QRPivoted{Float64, Matrix{Float64}, Vector{Float64}, Vector{Int64}}, Nothing, Nothing}, LinearSolve.InvPreconditioner{LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}}, LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Float64, Bool}}}, StochasticDiffEq.SKenCarpTableau{Float64, Float64}, Nothing, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}})
@ StochasticDiffEq ~/.julia/packages/StochasticDiffEq/tdY4b/src/perform_step/kencarp.jl:209
[15] solve!(integrator::StochasticDiffEq.SDEIntegrator{SKenCarp{0, true, Nothing, typeof(OrdinaryDiffEq.DEFAULT_PRECS), Val{:central}, true, nothing, NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, Float64, :Predictive}, true, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Float64, Float64, SciMLBase.NullParameters, Float64, Float64, Float64, NoiseProcess{Float64, 2, Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Vector{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, typeof(DiffEqNoiseProcess.INPLACE_WHITE_NOISE_DIST), typeof(DiffEqNoiseProcess.INPLACE_WHITE_NOISE_BRIDGE), true, ResettableStacks.ResettableStack{Tuple{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, true}, ResettableStacks.ResettableStack{Tuple{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, true}, RSWM{Float64}, Nothing, RandomNumbers.Xorshifts.Xoroshiro128Plus}, Nothing, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, RODESolution{Float64, 2, Vector{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Nothing, Nothing, Vector{Float64}, NoiseProcess{Float64, 2, Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Vector{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, typeof(DiffEqNoiseProcess.INPLACE_WHITE_NOISE_DIST), typeof(DiffEqNoiseProcess.INPLACE_WHITE_NOISE_BRIDGE), true, ResettableStacks.ResettableStack{Tuple{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, true}, ResettableStacks.ResettableStack{Tuple{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, true}, RSWM{Float64}, Nothing, RandomNumbers.Xorshifts.Xoroshiro128Plus}, SDEProblem{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Tuple{Float64, Float64}, true, SciMLBase.NullParameters, Nothing, SDEFunction{true, SciMLBase.FullSpecialize, typeof(f!), typeof(g!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, SymbolicIndexingInterface.SymbolCache{Nothing, Nothing, Nothing}}, typeof(g!), Base.Pairs{Symbol, Union{}, Tuple{}, NamedTuple{(), Tuple{}}}, Nothing}, SKenCarp{0, true, Nothing, typeof(OrdinaryDiffEq.DEFAULT_PRECS), Val{:central}, true, nothing, NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, Float64, :Predictive}, StochasticDiffEq.LinearInterpolationData{Vector{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Vector{Float64}}, SciMLBase.DEStats, Nothing}, StochasticDiffEq.SKenCarpCache{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, OrdinaryDiffEq.NLSolver{NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, true, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Nothing, Float64, OrdinaryDiffEq.NLNewtonCache{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Float64, Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Matrix{Float64}, Matrix{Float64}, SciMLBase.UJacobianWrapper{true, SDEFunction{true, SciMLBase.FullSpecialize, typeof(f!), typeof(g!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, SymbolicIndexingInterface.SymbolCache{Nothing, Nothing, Nothing}}, Float64, SciMLBase.NullParameters}, ForwardColorJacCache{ArrayPartition{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}, Tuple{Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}, Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}}}, ArrayPartition{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}, Tuple{Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}, Matrix{ForwardDiff.Dual{ForwardDiff.Tag{DiffEqBase.OrdinaryDiffEqTag, Float64}, Float64, 8}}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Vector{Vector{NTuple{8, Float64}}}, UnitRange{Int64}, Nothing}, LinearSolve.LinearCache{Matrix{Float64}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, SciMLBase.NullParameters, LinearSolve.DefaultLinearSolver, LinearSolve.DefaultLinearSolverInit{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, LinearAlgebra.QRCompactWY{Float64, Matrix{Float64}, Matrix{Float64}}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Vector{Int64}}, Nothing, Nothing, Nothing, LinearAlgebra.SVD{Float64, Float64, Matrix{Float64}, Vector{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, LinearAlgebra.Cholesky{Float64, Matrix{Float64}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int32}}, Base.RefValue{Int32}}, Tuple{LinearAlgebra.LU{Float64, Matrix{Float64}, Vector{Int64}}, Base.RefValue{Int64}}, LinearAlgebra.QRPivoted{Float64, Matrix{Float64}, Vector{Float64}, Vector{Int64}}, Nothing, Nothing}, LinearSolve.InvPreconditioner{LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}}, LinearAlgebra.Diagonal{Float64, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, Float64, Bool}}}, StochasticDiffEq.SKenCarpTableau{Float64, Float64}, Nothing, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}}, SDEFunction{true, SciMLBase.FullSpecialize, typeof(f!), typeof(g!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, SymbolicIndexingInterface.SymbolCache{Nothing, Nothing, Nothing}}, typeof(g!), Nothing, StochasticDiffEq.SDEOptions{Float64, Float64, PIController{Float64}, typeof(DiffEqBase.ODE_DEFAULT_NORM), Nothing, CallbackSet{Tuple{}, Tuple{}}, typeof(DiffEqBase.ODE_DEFAULT_ISOUTOFDOMAIN), typeof(DiffEqBase.ODE_DEFAULT_PROG_MESSAGE), typeof(DiffEqBase.ODE_DEFAULT_UNSTABLE_CHECK), DataStructures.BinaryHeap{Float64, DataStructures.FasterForward}, DataStructures.BinaryHeap{Float64, DataStructures.FasterForward}, Nothing, Nothing, Int64, Float64, Float64, Float64, Tuple{}, Tuple{}, Tuple{}}, Nothing, Float64, Nothing, Nothing})
@ StochasticDiffEq ~/.julia/packages/StochasticDiffEq/tdY4b/src/solve.jl:618
[16] __solve(prob::SDEProblem{ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, Tuple{Float64, Float64}, true, SciMLBase.NullParameters, Nothing, SDEFunction{true, SciMLBase.FullSpecialize, typeof(f!), typeof(g!), LinearAlgebra.UniformScaling{Bool}, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, Nothing, typeof(SciMLBase.DEFAULT_OBSERVED), Nothing, SymbolicIndexingInterface.SymbolCache{Nothing, Nothing, Nothing}}, typeof(g!), Base.Pairs{Symbol, Union{}, Tuple{}, NamedTuple{(), Tuple{}}}, Nothing}, alg::SKenCarp{0, true, Nothing, typeof(OrdinaryDiffEq.DEFAULT_PRECS), Val{:central}, true, nothing, NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, Float64, :Predictive}, timeseries::Vector{Any}, ts::Vector{Any}, ks::Nothing, recompile::Type{Val{true}}; kwargs::Base.Pairs{Symbol, Float64, Tuple{Symbol}, NamedTuple{(:dt,), Tuple{Float64}}})
@ StochasticDiffEq ~/.julia/packages/StochasticDiffEq/tdY4b/src/solve.jl:7
[17] __solve (repeats 5 times)
@ ~/.julia/packages/StochasticDiffEq/tdY4b/src/solve.jl:1 [inlined]
[18] #solve_call#34
@ ~/.julia/packages/DiffEqBase/eTCPy/src/solve.jl:608 [inlined]
[19] solve_call
@ ~/.julia/packages/DiffEqBase/eTCPy/src/solve.jl:566 [inlined]
[20] #solve_up#42
@ ~/.julia/packages/DiffEqBase/eTCPy/src/solve.jl:1057 [inlined]
[21] solve_up
@ ~/.julia/packages/DiffEqBase/eTCPy/src/solve.jl:1043 [inlined]
[22] #solve#40
@ ~/.julia/packages/DiffEqBase/eTCPy/src/solve.jl:980 [inlined]
[23] example(u0::ArrayPartition{Float64, Tuple{Matrix{Float64}, Matrix{Float64}}}, solver::SKenCarp{0, true, Nothing, typeof(OrdinaryDiffEq.DEFAULT_PRECS), Val{:central}, true, nothing, NLNewton{Rational{Int64}, Rational{Int64}, Rational{Int64}, Rational{Int64}}, Float64, :Predictive})
@ Main ~/MyProject/bug-mre.jl:47
[24] top-level scope
@ REPL[33]:1Environment
Output of pkg> status
Status `~/MyProject/Project.toml`
[6e4b80f9] BenchmarkTools v1.4.0
[0c46a032] DifferentialEquations v7.12.0
[b4f34e82] Distances v0.10.11
[a98d9a8b] Interpolations v0.15.1
[b946abbf] NaNStatistics v0.6.34
⌅ [91a5bcdd] Plots v1.39.0
[c46f51b8] ProfileView v1.7.2
⌅ [731186ca] RecursiveArrayTools v3.3.3
⌅ [0c5d862f] Symbolics v5.14.1Output of pkg> status -m
Status `~/MyProject/Manifest.toml`
[47edcb42] ADTypes v0.2.6
⌅ [c3fe647b] AbstractAlgebra v0.34.7
[1520ce14] AbstractTrees v0.4.5
⌅ [79e6a3ab] Adapt v3.7.2
⌅ [ec485272] ArnoldiMethod v0.2.0
[4fba245c] ArrayInterface v7.7.1
[4c555306] ArrayLayouts v1.6.0
[13072b0f] AxisAlgorithms v1.1.0
[aae01518] BandedMatrices v1.5.0
[6e4b80f9] BenchmarkTools v1.4.0
[e2ed5e7c] Bijections v0.1.6
[d1d4a3ce] BitFlags v0.1.8
[62783981] BitTwiddlingConvenienceFunctions v0.1.5
⌃ [764a87c0] BoundaryValueDiffEq v5.6.0
[fa961155] CEnum v0.5.0
[2a0fbf3d] CPUSummary v0.2.4
[159f3aea] Cairo v1.0.5
[49dc2e85] Calculus v0.5.1
[d360d2e6] ChainRulesCore v1.21.1
[fb6a15b2] CloseOpenIntervals v0.1.12
[523fee87] CodecBzip2 v0.8.2
[944b1d66] CodecZlib v0.7.4
[35d6a980] ColorSchemes v3.24.0
[3da002f7] ColorTypes v0.11.4
[c3611d14] ColorVectorSpace v0.10.0
[5ae59095] Colors v0.12.10
[861a8166] Combinatorics v1.0.2
[38540f10] CommonSolve v0.2.4
[bbf7d656] CommonSubexpressions v0.3.0
[34da2185] Compat v4.13.0
[b152e2b5] CompositeTypes v0.1.3
[2569d6c7] ConcreteStructs v0.2.3
[f0e56b4a] ConcurrentUtilities v2.3.1
[187b0558] ConstructionBase v1.5.4
[d38c429a] Contour v0.6.2
[adafc99b] CpuId v0.3.1
[a8cc5b0e] Crayons v4.1.1
[9a962f9c] DataAPI v1.16.0
[864edb3b] DataStructures v0.18.16
[e2d170a0] DataValueInterfaces v1.0.0
⌃ [bcd4f6db] DelayDiffEq v5.45.1
[8bb1440f] DelimitedFiles v1.9.1
⌃ [2b5f629d] DiffEqBase v6.145.6
⌅ [459566f4] DiffEqCallbacks v2.36.1
[77a26b50] DiffEqNoiseProcess v5.20.1
[163ba53b] DiffResults v1.1.0
[b552c78f] DiffRules v1.15.1
[0c46a032] DifferentialEquations v7.12.0
[b4f34e82] Distances v0.10.11
[31c24e10] Distributions v0.25.107
[ffbed154] DocStringExtensions v0.9.3
⌅ [5b8099bc] DomainSets v0.6.7
[fa6b7ba4] DualNumbers v0.6.8
[7c1d4256] DynamicPolynomials v0.5.5
[4e289a0a] EnumX v1.0.4
[f151be2c] EnzymeCore v0.6.5
[460bff9d] ExceptionUnwrapping v0.1.10
⌅ [d4d017d3] ExponentialUtilities v1.25.0
[e2ba6199] ExprTools v0.1.10
[c87230d0] FFMPEG v0.4.1
[9d29842c] FastAlmostBandedMatrices v0.1.0
[7034ab61] FastBroadcast v0.2.8
[9aa1b823] FastClosures v0.3.2
[29a986be] FastLapackInterface v2.0.1
[5789e2e9] FileIO v1.16.2
[1a297f60] FillArrays v1.9.3
[6a86dc24] FiniteDiff v2.22.0
[53c48c17] FixedPointNumbers v0.8.4
[08572546] FlameGraphs v1.0.0
[59287772] Formatting v0.4.2
[f6369f11] ForwardDiff v0.10.36
[069b7b12] FunctionWrappers v1.1.3
[77dc65aa] FunctionWrappersWrappers v0.1.3
[d9f16b24] Functors v0.4.7
⌃ [46192b85] GPUArraysCore v0.1.5
⌅ [28b8d3ca] GR v0.72.10
[c145ed77] GenericSchur v0.5.3
[a2bd30eb] Graphics v1.1.2
[86223c79] Graphs v1.9.0
[42e2da0e] Grisu v1.0.2
⌅ [0b43b601] Groebner v0.5.1
⌅ [d5909c97] GroupsCore v0.4.2
[4c0ca9eb] Gtk v1.3.0
⌅ [8710efd8] GtkObservables v1.2.9
[cd3eb016] HTTP v1.10.2
[3e5b6fbb] HostCPUFeatures v0.1.16
[34004b35] HypergeometricFunctions v0.3.23
[615f187c] IfElse v0.1.1
[9b13fd28] IndirectArrays v1.0.0
[d25df0c9] Inflate v0.1.4
[18e54dd8] IntegerMathUtils v0.1.2
[a98d9a8b] Interpolations v0.15.1
[8197267c] IntervalSets v0.7.10
[92d709cd] IrrationalConstants v0.2.2
[82899510] IteratorInterfaceExtensions v1.0.0
[1019f520] JLFzf v0.1.7
[692b3bcd] JLLWrappers v1.5.0
[682c06a0] JSON v0.21.4
[ccbc3e58] JumpProcesses v9.10.1
⌅ [ef3ab10e] KLU v0.4.1
[ba0b0d4f] Krylov v0.9.5
[b964fa9f] LaTeXStrings v1.3.1
[2ee39098] LabelledArrays v1.15.1
[984bce1d] LambertW v0.4.6
[23fbe1c1] Latexify v0.16.1
[10f19ff3] LayoutPointers v0.1.15
[50d2b5c4] Lazy v0.15.1
[5078a376] LazyArrays v1.8.3
[1d6d02ad] LeftChildRightSiblingTrees v0.2.0
[2d8b4e74] LevyArea v1.0.0
[d3d80556] LineSearches v7.2.0
⌅ [7ed4a6bd] LinearSolve v2.22.1
[2ab3a3ac] LogExpFunctions v0.3.27
[e6f89c97] LoggingExtras v1.0.3
[bdcacae8] LoopVectorization v0.12.166
[1914dd2f] MacroTools v0.5.13
[d125e4d3] ManualMemory v0.1.8
[b8f27783] MathOptInterface v1.25.3
[a3b82374] MatrixFactorizations v2.1.0
[bb5d69b7] MaybeInplace v0.1.1
[739be429] MbedTLS v1.1.9
[442fdcdd] Measures v0.3.2
[85b6ec6f] MethodAnalysis v0.4.13
[e1d29d7a] Missings v1.1.0
[46d2c3a1] MuladdMacro v0.2.4
[102ac46a] MultivariatePolynomials v0.5.4
[d8a4904e] MutableArithmetics v1.4.1
[d41bc354] NLSolversBase v7.8.3
[2774e3e8] NLsolve v4.5.1
[77ba4419] NaNMath v1.0.2
[b946abbf] NaNStatistics v0.6.34
⌅ [8913a72c] NonlinearSolve v3.4.0
[510215fc] Observables v0.5.5
[6fe1bfb0] OffsetArrays v1.13.0
[4d8831e6] OpenSSL v1.4.1
[429524aa] Optim v1.9.2
[bac558e1] OrderedCollections v1.6.3
⌅ [1dea7af3] OrdinaryDiffEq v6.66.0
[90014a1f] PDMats v0.11.31
[65ce6f38] PackageExtensionCompat v1.0.2
[d96e819e] Parameters v0.12.3
[69de0a69] Parsers v2.8.1
[b98c9c47] Pipe v1.3.0
[ccf2f8ad] PlotThemes v3.1.0
[995b91a9] PlotUtils v1.4.0
⌅ [91a5bcdd] Plots v1.39.0
[e409e4f3] PoissonRandom v0.4.4
[f517fe37] Polyester v0.7.9
[1d0040c9] PolyesterWeave v0.2.1
[85a6dd25] PositiveFactorizations v0.2.4
⌅ [d236fae5] PreallocationTools v0.4.13
[aea7be01] PrecompileTools v1.2.0
[21216c6a] Preferences v1.4.1
[08abe8d2] PrettyTables v2.3.1
[27ebfcd6] Primes v0.5.5
[c46f51b8] ProfileView v1.7.2
[1fd47b50] QuadGK v2.9.4
[74087812] Random123 v1.6.2
[fb686558] RandomExtensions v0.4.4
[e6cf234a] RandomNumbers v1.5.3
[c84ed2f1] Ratios v0.4.5
[3cdcf5f2] RecipesBase v1.3.4
[01d81517] RecipesPipeline v0.6.12
⌅ [731186ca] RecursiveArrayTools v3.3.3
[f2c3362d] RecursiveFactorization v0.2.21
[189a3867] Reexport v1.2.2
[05181044] RelocatableFolders v1.0.1
[ae029012] Requires v1.3.0
[ae5879a3] ResettableStacks v1.1.1
[79098fc4] Rmath v0.7.1
[d5f540fe] RoundingIntegers v1.1.0
[7e49a35a] RuntimeGeneratedFunctions v0.5.12
[fdea26ae] SIMD v3.4.6
[94e857df] SIMDTypes v0.1.0
[476501e8] SLEEFPirates v0.6.42
⌅ [0bca4576] SciMLBase v2.15.2
[c0aeaf25] SciMLOperators v0.3.7
[6c6a2e73] Scratch v1.2.1
[efcf1570] Setfield v1.1.1
[992d4aef] Showoff v1.0.3
[777ac1f9] SimpleBufferStream v1.1.0
⌅ [727e6d20] SimpleNonlinearSolve v1.4.0
[699a6c99] SimpleTraits v0.9.4
[ce78b400] SimpleUnPack v1.1.0
[a2af1166] SortingAlgorithms v1.2.1
[47a9eef4] SparseDiffTools v2.17.0
[e56a9233] Sparspak v0.3.9
[276daf66] SpecialFunctions v2.3.1
⌅ [aedffcd0] Static v0.8.9
[0d7ed370] StaticArrayInterface v1.5.0
[90137ffa] StaticArrays v1.9.2
[1e83bf80] StaticArraysCore v1.4.2
[82ae8749] StatsAPI v1.7.0
[2913bbd2] StatsBase v0.34.2
[4c63d2b9] StatsFuns v1.3.1
[9672c7b4] SteadyStateDiffEq v2.0.1
[789caeaf] StochasticDiffEq v6.65.0
[7792a7ef] StrideArraysCore v0.5.2
[892a3eda] StringManipulation v0.3.4
[c3572dad] Sundials v4.24.0
⌅ [2efcf032] SymbolicIndexingInterface v0.3.1
[d1185830] SymbolicUtils v1.5.0
⌅ [0c5d862f] Symbolics v5.14.1
[3783bdb8] TableTraits v1.0.1
[bd369af6] Tables v1.11.1
[62fd8b95] TensorCore v0.1.1
[8290d209] ThreadingUtilities v0.5.2
[a759f4b9] TimerOutputs v0.5.23
[3bb67fe8] TranscodingStreams v0.10.3
[d5829a12] TriangularSolve v0.1.20
[410a4b4d] Tricks v0.1.8
[781d530d] TruncatedStacktraces v1.4.0
[5c2747f8] URIs v1.5.1
[3a884ed6] UnPack v1.0.2
[1cfade01] UnicodeFun v0.4.1
[1986cc42] Unitful v1.19.0
[45397f5d] UnitfulLatexify v1.6.3
[a7c27f48] Unityper v0.1.6
[41fe7b60] Unzip v0.2.0
⌅ [3d5dd08c] VectorizationBase v0.21.64
[19fa3120] VertexSafeGraphs v0.2.0
[efce3f68] WoodburyMatrices v1.0.0
[7b86fcea] ATK_jll v2.38.0+0
[6e34b625] Bzip2_jll v1.0.8+1
[83423d85] Cairo_jll v1.16.1+1
[ee1fde0b] Dbus_jll v1.12.16+3
[2702e6a9] EpollShim_jll v0.0.20230411+0
[2e619515] Expat_jll v2.5.0+0
⌅ [b22a6f82] FFMPEG_jll v4.4.4+1
[a3f928ae] Fontconfig_jll v2.13.93+0
[d7e528f0] FreeType2_jll v2.13.1+0
[559328eb] FriBidi_jll v1.0.10+0
[0656b61e] GLFW_jll v3.3.9+0
⌅ [d2c73de3] GR_jll v0.72.10+0
[77ec8976] GTK3_jll v3.24.31+0
[78b55507] Gettext_jll v0.21.0+0
[7746bdde] Glib_jll v2.76.5+0
[3b182d85] Graphite2_jll v1.3.14+0
[2e76f6c2] HarfBuzz_jll v2.8.1+1
[1d5cc7b8] IntelOpenMP_jll v2024.0.2+0
[aacddb02] JpegTurbo_jll v3.0.1+0
[c1c5ebd0] LAME_jll v3.100.1+0
[88015f11] LERC_jll v3.0.0+1
[1d63c593] LLVMOpenMP_jll v15.0.7+0
[dd4b983a] LZO_jll v2.10.1+0
[42c93a91] Libepoxy_jll v1.5.10+0
⌅ [e9f186c6] Libffi_jll v3.2.2+1
[d4300ac3] Libgcrypt_jll v1.8.7+0
[7e76a0d4] Libglvnd_jll v1.6.0+0
[7add5ba3] Libgpg_error_jll v1.42.0+0
[94ce4f54] Libiconv_jll v1.17.0+0
[4b2f31a3] Libmount_jll v2.35.0+0
[925c91fb] Librsvg_jll v2.54.5+0
⌅ [89763e89] Libtiff_jll v4.5.1+1
[38a345b3] Libuuid_jll v2.36.0+0
[856f044c] MKL_jll v2024.0.0+0
[e7412a2a] Ogg_jll v1.3.5+1
[458c3c95] OpenSSL_jll v3.0.13+0
[efe28fd5] OpenSpecFun_jll v0.5.5+0
[91d4177d] Opus_jll v1.3.2+0
[36c8627f] Pango_jll v1.50.14+0
[30392449] Pixman_jll v0.42.2+0
[c0090381] Qt6Base_jll v6.5.3+1
[f50d1b31] Rmath_jll v0.4.0+0
⌅ [fb77eaff] Sundials_jll v5.2.1+0
[a44049a8] Vulkan_Loader_jll v1.3.243+0
[a2964d1f] Wayland_jll v1.21.0+1
[2381bf8a] Wayland_protocols_jll v1.31.0+0
[02c8fc9c] XML2_jll v2.12.2+0
[aed1982a] XSLT_jll v1.1.34+0
[ffd25f8a] XZ_jll v5.4.6+0
[f67eecfb] Xorg_libICE_jll v1.0.10+1
[c834827a] Xorg_libSM_jll v1.2.3+0
[4f6342f7] Xorg_libX11_jll v1.8.6+0
[0c0b7dd1] Xorg_libXau_jll v1.0.11+0
[3c9796d7] Xorg_libXcomposite_jll v0.4.5+4
[935fb764] Xorg_libXcursor_jll v1.2.0+4
[0aeada51] Xorg_libXdamage_jll v1.1.5+4
[a3789734] Xorg_libXdmcp_jll v1.1.4+0
[1082639a] Xorg_libXext_jll v1.3.4+4
[d091e8ba] Xorg_libXfixes_jll v5.0.3+4
[a51aa0fd] Xorg_libXi_jll v1.7.10+4
[d1454406] Xorg_libXinerama_jll v1.1.4+4
[ec84b674] Xorg_libXrandr_jll v1.5.2+4
[ea2f1a96] Xorg_libXrender_jll v0.9.10+4
[b6f176f1] Xorg_libXtst_jll v1.2.3+4
[14d82f49] Xorg_libpthread_stubs_jll v0.1.1+0
[c7cfdc94] Xorg_libxcb_jll v1.15.0+0
[cc61e674] Xorg_libxkbfile_jll v1.1.2+0
[e920d4aa] Xorg_xcb_util_cursor_jll v0.1.4+0
[12413925] Xorg_xcb_util_image_jll v0.4.0+1
[2def613f] Xorg_xcb_util_jll v0.4.0+1
[975044d2] Xorg_xcb_util_keysyms_jll v0.4.0+1
[0d47668e] Xorg_xcb_util_renderutil_jll v0.3.9+1
[c22f9ab0] Xorg_xcb_util_wm_jll v0.4.1+1
[35661453] Xorg_xkbcomp_jll v1.4.6+0
[33bec58e] Xorg_xkeyboard_config_jll v2.39.0+0
[c5fb5394] Xorg_xtrans_jll v1.5.0+0
[3161d3a3] Zstd_jll v1.5.5+0
⌅ [b437f822] adwaita_icon_theme_jll v3.33.93+0
[de012916] at_spi2_atk_jll v2.34.1+4
[0fc3237b] at_spi2_core_jll v2.34.0+4
[35ca27e7] eudev_jll v3.2.9+0
[214eeab7] fzf_jll v0.43.0+0
[da03df04] gdk_pixbuf_jll v2.42.10+0
[1a1c6b14] gperf_jll v3.1.1+0
[059c91fe] hicolor_icon_theme_jll v0.17.0+3
[bf975903] iso_codes_jll v4.15.1+0
[a4ae2306] libaom_jll v3.4.0+0
[0ac62f75] libass_jll v0.15.1+0
[2db6ffa8] libevdev_jll v1.11.0+0
[f638f0a6] libfdk_aac_jll v2.0.2+0
[36db933b] libinput_jll v1.18.0+0
[b53b4c65] libpng_jll v1.6.42+0
[f27f6e37] libvorbis_jll v1.3.7+1
[009596ad] mtdev_jll v1.1.6+0
[1270edf5] x264_jll v2021.5.5+0
[dfaa095f] x265_jll v3.5.0+0
[d8fb68d0] xkbcommon_jll v1.4.1+1
[0dad84c5] ArgTools v1.1.1
[56f22d72] Artifacts
[2a0f44e3] Base64
[ade2ca70] Dates
[8ba89e20] Distributed
[f43a241f] Downloads v1.6.0
[7b1f6079] FileWatching
[9fa8497b] Future
[b77e0a4c] InteractiveUtils
[4af54fe1] LazyArtifacts
[b27032c2] LibCURL v0.6.3
[76f85450] LibGit2
[8f399da3] Libdl
[37e2e46d] LinearAlgebra
[56ddb016] Logging
[d6f4376e] Markdown
[a63ad114] Mmap
[ca575930] NetworkOptions v1.2.0
[44cfe95a] Pkg v1.9.2
[de0858da] Printf
[9abbd945] Profile
[3fa0cd96] REPL
[9a3f8284] Random
[ea8e919c] SHA v0.7.0
[9e88b42a] Serialization
[1a1011a3] SharedArrays
[6462fe0b] Sockets
[2f01184e] SparseArrays
[10745b16] Statistics v1.9.0
[4607b0f0] SuiteSparse
[fa267f1f] TOML v1.0.3
[a4e569a6] Tar v1.10.0
[8dfed614] Test
[cf7118a7] UUIDs
[4ec0a83e] Unicode
[e66e0078] CompilerSupportLibraries_jll v1.0.5+0
[deac9b47] LibCURL_jll v7.84.0+0
[29816b5a] LibSSH2_jll v1.10.2+0
[c8ffd9c3] MbedTLS_jll v2.28.2+0
[14a3606d] MozillaCACerts_jll v2022.10.11
[4536629a] OpenBLAS_jll v0.3.21+4
[05823500] OpenLibm_jll v0.8.1+0
[efcefdf7] PCRE2_jll v10.42.0+0
[bea87d4a] SuiteSparse_jll v5.10.1+6
[83775a58] Zlib_jll v1.2.13+0
[8e850b90] libblastrampoline_jll v5.8.0+0
[8e850ede] nghttp2_jll v1.48.0+0
[3f19e933] p7zip_jll v17.4.0+0Output of julia> versioninfo()
Julia Version 1.9.3
Commit bed2cd540a1 (2023-08-24 14:43 UTC)
Build Info:
Official https://julialang.org/ release
Platform Info:
OS: macOS (x86_64-apple-darwin22.4.0)
CPU: 8 × Intel(R) Core(TM) i7-1068NG7 CPU @ 2.30GHz
WORD_SIZE: 64
LIBM: libopenlibm
LLVM: libLLVM-14.0.6 (ORCJIT, icelake-client)
Threads: 1 on 8 virtual cores
Environment:
JULIA_EDITOR = code
JULIA_NUM_THREADS = Additional context
The problem I am working on is a system of stiff SDEs (eg size(2,10) [ndim, nparticles]) coupled to a diffusion PDE (eg size(51,51) finite diff matrix).
I really did not want to have to unravel this into a flat vector, especially because of all the unnecessary allocations with reshaping the Arrays on every function call.
Hence why, I have tried to use ArrayPartition(rand(2,10), zeros(51,51)), since Vector{Array{Float64, 2}} is not supported, and neither is VectorOfArray.