Benchmarks
The performance for some typical operators is summarized below. For fourth-order tensors, both Array and SArray use the classical Voigt form to correctly handle symmetries. The benchmakrs show that Tensor offers performance comparable to SArray without the hassle of using the Voigt form.
a = rand(Vec{3})
A = rand(SecondOrderTensor{3})
S = rand(SymmetricSecondOrderTensor{3})
AA = rand(FourthOrderTensor{3})
SS = rand(SymmetricFourthOrderTensor{3})| Operation | Tensor | Array | Speedup | SArray | Speedup |
|---|---|---|---|---|---|
| Single contraction | |||||
a ⊡ a | 2.785 ns | 9.276 ns | ×3.3 | 3.095 ns | ×1.1 |
A ⊡ a | 3.406 ns | 53.776 ns | ×16.0 | 3.406 ns | ×1.0 |
S ⊡ a | 3.406 ns | 53.755 ns | ×16.0 | 3.406 ns | ×1.0 |
| Double contraction | |||||
A ⊡₂ A | 3.706 ns | 11.121 ns | ×3.0 | 3.406 ns | ×0.92 |
S ⊡₂ S | 3.095 ns | 10.198 ns | ×3.3 | 3.406 ns | ×1.1 |
AA ⊡₂ A | 7.733 ns | 72.356 ns | ×9.4 | 7.742 ns | ×1.0 |
SS ⊡₂ S | 4.087 ns | 67.801 ns | ×17.0 | 4.088 ns | ×1.0 |
| Tensor product | |||||
a ⊗ a | 3.406 ns | 33.193 ns | ×9.7 | 3.716 ns | ×1.1 |
| Cross product | |||||
a × a | 3.406 ns | 33.193 ns | ×9.7 | 3.716 ns | ×1.1 |
| Determinant | |||||
det(A) | 3.406 ns | 170.157 ns | ×50.0 | 3.095 ns | ×0.91 |
det(S) | 3.396 ns | 173.630 ns | ×51.0 | 3.095 ns | ×0.91 |
| Inverse | |||||
inv(A) | 6.191 ns | 478.379 ns | ×77.0 | 7.410 ns | ×1.2 |
inv(S) | 4.939 ns | 487.768 ns | ×99.0 | 7.410 ns | ×1.5 |
inv(AA) | 957.524 ns | 1.493 μs | ×1.6 | 949.545 ns | ×0.99 |
inv(SS) | 368.855 ns | 954.312 ns | ×2.6 | 364.555 ns | ×0.99 |
The benchmarks are generated by runbenchmarks.jl on the following system:
julia> versioninfo()
Julia Version 1.11.5
Commit 760b2e5b739 (2025-04-14 06:53 UTC)
Build Info:
Official https://julialang.org/ release
Platform Info:
OS: Linux (x86_64-linux-gnu)
CPU: 4 × AMD EPYC 7763 64-Core Processor
WORD_SIZE: 64
LLVM: libLLVM-16.0.6 (ORCJIT, znver3)
Threads: 1 default, 0 interactive, 1 GC (on 4 virtual cores)