2-Dimensional Rosenbrock Function Nonlinear Optimization Benchmark
This is a test of the 2-dimensional Rosenbrock function, a standard nonlinear optimization test case.
# Define the problem to solve
using Optimization, ForwardDiff, Zygote, BenchmarkTools
rosenbrock(x, p) = (p[1] - x[1])^2 + p[2] * (x[2] - x[1]^2)^2
x0 = zeros(2)
_p = [1.0, 100.0]
f = OptimizationFunction(rosenbrock, Optimization.AutoForwardDiff())
l1 = rosenbrock(x0, _p)
prob = OptimizationProblem(f, x0, _p)OptimizationProblem. In-place: true
u0: 2-element Vector{Float64}:
0.0
0.0Optim.jl Solvers
using OptimizationOptimJLStart with some derivative-free optimizers
@btime sol = solve(prob, SimulatedAnnealing())2.090 ms (18065 allocations: 956.80 KiB)
retcode: Failure
u: 2-element Vector{Float64}:
0.9853849670030188
0.9776067719155095prob = OptimizationProblem(f, x0, _p, lb = [-1.0, -1.0], ub = [0.8, 0.8])
@btime sol = solve(prob, SAMIN())2.366 ms (24665 allocations: 1.12 MiB)
retcode: Failure
u: 2-element Vector{Float64}:
0.6420544999002016
0.40307989437093683l1 = rosenbrock(x0, _p)
prob = OptimizationProblem(rosenbrock, x0, _p)
@btime sol = solve(prob, NelderMead())153.209 μs (1208 allocations: 63.64 KiB)
retcode: Success
u: 2-element Vector{Float64}:
0.9999634355313174
0.9999315506115275Now a gradient-based optimizer with forward-mode automatic differentiation
optf = OptimizationFunction(rosenbrock, Optimization.AutoForwardDiff())
prob = OptimizationProblem(optf, x0, _p)
@btime sol = solve(prob, BFGS())90.340 μs (812 allocations: 40.22 KiB)
retcode: Success
u: 2-element Vector{Float64}:
0.9999999999373614
0.999999999868622Now a second order optimizer using Hessians generated by forward-mode automatic differentiation
@btime sol = solve(prob, Newton())202.089 μs (1019 allocations: 70.32 KiB)
retcode: Success
u: 2-element Vector{Float64}:
0.9999999999999994
0.9999999999999989Now a second order Hessian-free optimizer
@btime sol = solve(prob, Optim.KrylovTrustRegion())193.298 μs (1184 allocations: 70.84 KiB)
retcode: Success
u: 2-element Vector{Float64}:
0.999999999999108
0.9999999999981819Now derivative-based optimizers with various constraints
cons = (res, x, p) -> res .= [x[1]^2 + x[2]^2]
optf = OptimizationFunction(rosenbrock, Optimization.AutoForwardDiff(); cons = cons)
prob = OptimizationProblem(optf, x0, _p, lcons = [-Inf], ucons = [Inf])
@btime sol = solve(prob, IPNewton()) # Note that -Inf < x[1]^2 + x[2]^2 < Inf is always true782.533 μs (8877 allocations: 394.24 KiB)
retcode: Success
u: 2-element Vector{Float64}:
0.9999999992619217
0.9999999985003628prob = OptimizationProblem(optf, x0, _p, lcons = [-5.0], ucons = [10.0])
@btime sol = solve(prob, IPNewton()) # Again, -5.0 < x[1]^2 + x[2]^2 < 10.0947.152 μs (11363 allocations: 529.73 KiB)
retcode: Success
u: 2-element Vector{Float64}:
0.9999999992669327
0.9999999985109471prob = OptimizationProblem(optf, x0, _p, lcons = [-Inf], ucons = [Inf],
lb = [-500.0, -500.0], ub = [50.0, 50.0])
@btime sol = solve(prob, IPNewton())900.633 μs (10448 allocations: 502.05 KiB)
retcode: Success
u: 2-element Vector{Float64}:
0.9999999992541948
0.9999999984843432prob = OptimizationProblem(optf, x0, _p, lcons = [0.5], ucons = [0.5],
lb = [-500.0, -500.0], ub = [50.0, 50.0])
@btime sol = solve(prob, IPNewton()) # Notice now that x[1]^2 + x[2]^2 ≈ 0.5:
# cons(sol.u, _p) = 0.49999999999999994
function con_c(res, x, p)
res .= [x[1]^2 + x[2]^2]
end
optf = OptimizationFunction(rosenbrock, Optimization.AutoForwardDiff(); cons = con_c)
prob = OptimizationProblem(optf, x0, _p, lcons = [-Inf], ucons = [0.25^2])
@btime sol = solve(prob, IPNewton()) # -Inf < cons_circ(sol.u, _p) = 0.25^21.061 ms (12010 allocations: 555.07 KiB)
833.833 μs (10254 allocations: 472.15 KiB)
retcode: Success
u: 2-element Vector{Float64}:
0.24327905408863862
0.05757865786675858function con2_c(res, x, p)
res .= [x[1]^2 + x[2]^2, x[2] * sin(x[1]) - x[1]]
end
optf = OptimizationFunction(rosenbrock, Optimization.AutoForwardDiff(); cons = con2_c)
prob = OptimizationProblem(optf, x0, _p, lcons = [-Inf, -Inf], ucons = [Inf, Inf])
@btime sol = solve(prob, IPNewton())843.804 μs (9233 allocations: 434.99 KiB)
retcode: Success
u: 2-element Vector{Float64}:
0.9999999992619217
0.9999999985003628Now let's switch over to OptimizationOptimisers with reverse-mode AD
using OptimizationOptimisers
optf = OptimizationFunction(rosenbrock, Optimization.AutoZygote())
prob = OptimizationProblem(optf, x0, _p)
@btime sol = solve(prob, OptimizationOptimisers.Adam(0.05), maxiters = 1000, progress = false)9.593 ms (89276 allocations: 5.44 MiB)
retcode: Default
u: 2-element Vector{Float64}:
0.999957450694706
0.9999163934196296Try out CMAEvolutionStrategy.jl's evolutionary methods
using OptimizationCMAEvolutionStrategy
@btime sol = solve(prob, CMAEvolutionStrategyOpt())764.854 μs (8678 allocations: 446.09 KiB)
retcode: Failure
u: 2-element Vector{Float64}:
1.000000050297047
1.0000000872902168Now try a few NLopt.jl solvers with symbolic differentiation via ModelingToolkit.jl
using OptimizationNLopt, ModelingToolkit
optf = OptimizationFunction(rosenbrock, Optimization.AutoSymbolics())
prob = OptimizationProblem(optf, x0, _p)
@btime sol = solve(prob, Opt(:LN_BOBYQA, 2))812.533 μs (2479 allocations: 78.02 KiB)
retcode: Success
u: 2-element Vector{Float64}:
0.9999999999999999
0.9999999999999998@btime sol = solve(prob, Opt(:LD_LBFGS, 2))1.770 ms (4593 allocations: 178.02 KiB)
retcode: Success
u: 2-element Vector{Float64}:
0.9999999999894374
0.9999999999844783Add some box constraints and solve with a few NLopt.jl methods
prob = OptimizationProblem(optf, x0, _p, lb = [-1.0, -1.0], ub = [0.8, 0.8])
@btime sol = solve(prob, Opt(:LD_LBFGS, 2))1.728 ms (4481 allocations: 174.61 KiB)
retcode: Success
u: 2-element Vector{Float64}:
0.8
0.6400000000000001Evolutionary.jl Solvers
using OptimizationEvolutionary
@btime sol = solve(prob, CMAES(μ = 40, λ = 100), abstol = 1e-15) # -1.0 ≤ x[1], x[2] ≤ 0.83.481 ms (67429 allocations: 3.20 MiB)
retcode: Success
u: 2-element Vector{Float64}:
0.8
0.8BlackBoxOptim.jl Solvers
using OptimizationBBO
prob = Optimization.OptimizationProblem(rosenbrock, x0, _p, lb = [-1.0, -1.0],
ub = [0.8, 0.43])
@btime sol = solve(prob, BBO_adaptive_de_rand_1_bin()) # -1.0 ≤ x[1] ≤ 0.8, 0.2 ≤ x[2] ≤ 0.4311.625 ms (145498 allocations: 8.09 MiB)
retcode: MaxIters
u: 2-element Vector{Float64}:
0.6577248385974865
0.43Threads.nthreads()128Appendix
Appendix
These benchmarks are a part of the SciMLBenchmarks.jl repository, found at: https://github.com/SciML/SciMLBenchmarks.jl. For more information on high-performance scientific machine learning, check out the SciML Open Source Software Organization https://sciml.ai.
To locally run this benchmark, do the following commands:
using SciMLBenchmarks
SciMLBenchmarks.weave_file("benchmarks/Optimization","2drosenbrock.jmd")Computer Information:
Julia Version 1.11.9
Commit 53a02c0720c (2026-02-06 00:27 UTC)
Build Info:
Official https://julialang.org/ release
Platform Info:
OS: Linux (x86_64-linux-gnu)
CPU: 128 × AMD EPYC 7502 32-Core Processor
WORD_SIZE: 64
LLVM: libLLVM-16.0.6 (ORCJIT, znver2)
Threads: 128 default, 0 interactive, 64 GC (on 128 virtual cores)
Environment:
JULIA_NUM_THREADS = auto
Package Information:
Status `/julia/github-runners/amdci1-1/_work/SciMLBenchmarks.jl/SciMLBenchmarks.jl/benchmarks/Optimization/Project.toml`
[6e4b80f9] BenchmarkTools v1.8.0
[f6369f11] ForwardDiff v1.3.3
⌅ [961ee093] ModelingToolkit v9.84.0
⌃ [7f7a1694] Optimization v5.4.0
⌃ [3e6eede4] OptimizationBBO v0.4.5
⌃ [bd407f91] OptimizationCMAEvolutionStrategy v0.3.5
⌃ [cb963754] OptimizationEvolutionary v0.4.6
⌃ [4e6fcdb7] OptimizationNLopt v0.3.8
⌃ [36348300] OptimizationOptimJL v0.4.8
⌃ [42dfb2eb] OptimizationOptimisers v0.3.15
[91a5bcdd] Plots v1.41.6
[31c91b34] SciMLBenchmarks v0.1.3
[e88e6eb3] Zygote v0.7.10
Info Packages marked with ⌃ and ⌅ have new versions available. Those with ⌃ may be upgradable, but those with ⌅ are restricted by compatibility constraints from upgrading. To see why use `status --outdated`And the full manifest:
Status `/julia/github-runners/amdci1-1/_work/SciMLBenchmarks.jl/SciMLBenchmarks.jl/benchmarks/Optimization/Manifest.toml`
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[856f044c] MKL_jll v2025.2.0+0
[079eb43e] NLopt_jll v2.10.0+0
[e7412a2a] Ogg_jll v1.3.6+0
[9bd350c2] OpenSSH_jll v10.3.1+0
[458c3c95] OpenSSL_jll v3.5.6+0
[efe28fd5] OpenSpecFun_jll v0.5.6+0
[91d4177d] Opus_jll v1.6.1+0
[36c8627f] Pango_jll v1.57.1+0
⌅ [30392449] Pixman_jll v0.44.2+0
[c0090381] Qt6Base_jll v6.10.2+1
[629bc702] Qt6Declarative_jll v6.10.2+1
[ce943373] Qt6ShaderTools_jll v6.10.2+1
[6de9746b] Qt6Svg_jll v6.10.2+0
[e99dba38] Qt6Wayland_jll v6.10.2+1
[f50d1b31] Rmath_jll v0.5.1+0
[a44049a8] Vulkan_Loader_jll v1.3.243+0
[a2964d1f] Wayland_jll v1.24.0+0
[ffd25f8a] XZ_jll v5.8.3+0
[f67eecfb] Xorg_libICE_jll v1.1.2+0
[c834827a] Xorg_libSM_jll v1.2.6+0
[4f6342f7] Xorg_libX11_jll v1.8.13+0
[0c0b7dd1] Xorg_libXau_jll v1.0.13+0
[935fb764] Xorg_libXcursor_jll v1.2.4+0
[a3789734] Xorg_libXdmcp_jll v1.1.6+0
[1082639a] Xorg_libXext_jll v1.3.8+0
[d091e8ba] Xorg_libXfixes_jll v6.0.2+0
[a51aa0fd] Xorg_libXi_jll v1.8.3+0
[d1454406] Xorg_libXinerama_jll v1.1.7+0
[ec84b674] Xorg_libXrandr_jll v1.5.6+0
[ea2f1a96] Xorg_libXrender_jll v0.9.12+0
[a65dc6b1] Xorg_libpciaccess_jll v0.19.0+0
[c7cfdc94] Xorg_libxcb_jll v1.17.1+0
[cc61e674] Xorg_libxkbfile_jll v1.2.0+0
[e920d4aa] Xorg_xcb_util_cursor_jll v0.1.6+0
[12413925] Xorg_xcb_util_image_jll v0.4.1+0
[2def613f] Xorg_xcb_util_jll v0.4.1+0
[975044d2] Xorg_xcb_util_keysyms_jll v0.4.1+0
[0d47668e] Xorg_xcb_util_renderutil_jll v0.3.10+0
[c22f9ab0] Xorg_xcb_util_wm_jll v0.4.2+0
[35661453] Xorg_xkbcomp_jll v1.4.7+0
[33bec58e] Xorg_xkeyboard_config_jll v2.47.0+0
[c5fb5394] Xorg_xtrans_jll v1.6.0+0
[8f1865be] ZeroMQ_jll v4.3.6+0
[3161d3a3] Zstd_jll v1.5.7+1
[35ca27e7] eudev_jll v3.2.14+0
[214eeab7] fzf_jll v0.61.1+0
[a4ae2306] libaom_jll v3.13.3+0
[0ac62f75] libass_jll v0.17.4+0
[1183f4f0] libdecor_jll v0.2.2+0
[8e53e030] libdrm_jll v2.4.125+1
[2db6ffa8] libevdev_jll v1.13.4+0
[f638f0a6] libfdk_aac_jll v2.0.4+0
[36db933b] libinput_jll v1.28.1+0
[b53b4c65] libpng_jll v1.6.58+0
[a9144af2] libsodium_jll v1.0.21+0
[9a156e7d] libva_jll v2.23.0+0
[f27f6e37] libvorbis_jll v1.3.8+0
[009596ad] mtdev_jll v1.1.7+0
[1317d2d5] oneTBB_jll v2022.0.0+1
⌅ [1270edf5] x264_jll v10164.0.1+0
[dfaa095f] x265_jll v4.1.0+0
[d8fb68d0] xkbcommon_jll v1.13.0+0
[0dad84c5] ArgTools v1.1.2
[56f22d72] Artifacts v1.11.0
[2a0f44e3] Base64 v1.11.0
[ade2ca70] Dates v1.11.0
[8ba89e20] Distributed v1.11.0
[f43a241f] Downloads v1.6.0
[7b1f6079] FileWatching v1.11.0
[9fa8497b] Future v1.11.0
[b77e0a4c] InteractiveUtils v1.11.0
[4af54fe1] LazyArtifacts v1.11.0
[b27032c2] LibCURL v0.6.4
[76f85450] LibGit2 v1.11.0
[8f399da3] Libdl v1.11.0
[37e2e46d] LinearAlgebra v1.11.0
[56ddb016] Logging v1.11.0
[d6f4376e] Markdown v1.11.0
[a63ad114] Mmap v1.11.0
[ca575930] NetworkOptions v1.2.0
[44cfe95a] Pkg v1.11.0
[de0858da] Printf v1.11.0
[9abbd945] Profile v1.11.0
[3fa0cd96] REPL v1.11.0
[9a3f8284] Random v1.11.0
[ea8e919c] SHA v0.7.0
[9e88b42a] Serialization v1.11.0
[1a1011a3] SharedArrays v1.11.0
[6462fe0b] Sockets v1.11.0
[2f01184e] SparseArrays v1.11.0
[f489334b] StyledStrings v1.11.0
[4607b0f0] SuiteSparse
[fa267f1f] TOML v1.0.3
[a4e569a6] Tar v1.10.0
[8dfed614] Test v1.11.0
[cf7118a7] UUIDs v1.11.0
[4ec0a83e] Unicode v1.11.0
[e66e0078] CompilerSupportLibraries_jll v1.1.1+0
[deac9b47] LibCURL_jll v8.6.0+0
[e37daf67] LibGit2_jll v1.7.2+0
[29816b5a] LibSSH2_jll v1.11.0+1
[c8ffd9c3] MbedTLS_jll v2.28.6+0
[14a3606d] MozillaCACerts_jll v2023.12.12
[4536629a] OpenBLAS_jll v0.3.27+1
[05823500] OpenLibm_jll v0.8.5+0
[efcefdf7] PCRE2_jll v10.42.0+1
[bea87d4a] SuiteSparse_jll v7.7.0+0
[83775a58] Zlib_jll v1.2.13+1
[8e850b90] libblastrampoline_jll v5.11.0+0
[8e850ede] nghttp2_jll v1.59.0+0
[3f19e933] p7zip_jll v17.4.0+2
Info Packages marked with ⌃ and ⌅ have new versions available. Those with ⌃ may be upgradable, but those with ⌅ are restricted by compatibility constraints from upgrading. To see why use `status --outdated -m`