ForwardDiff implements methods to take derivatives, gradients, Jacobians, Hessians, and higher-order derivatives of native Julia functions (or any callable object, really) using forward mode automatic differentiation (AD).
While performance can vary depending on the functions you evaluate, the algorithms implemented by ForwardDiff generally outperform non-AD algorithms in both speed and accuracy.
Here's a simple example showing the package in action:
julia> using ForwardDiff
julia> f(x::Vector) = sum(sin, x) + prod(tan, x) * sum(sqrt, x);
julia> x = rand(5) # small size for example's sake
5-element Array{Float64,1}:
0.986403
0.140913
0.294963
0.837125
0.650451
julia> g = x -> ForwardDiff.gradient(f, x); # g = ∇f
julia> g(x)
5-element Array{Float64,1}:
1.01358
2.50014
1.72574
1.10139
1.2445
julia> ForwardDiff.hessian(f, x)
5x5 Array{Float64,2}:
0.585111 3.48083 1.7706 0.994057 1.03257
3.48083 1.06079 5.79299 3.25245 3.37871
1.7706 5.79299 0.423981 1.65416 1.71818
0.994057 3.25245 1.65416 0.251396 0.964566
1.03257 3.37871 1.71818 0.964566 0.140689
Trying to switch to the latest version of ForwardDiff? See our upgrade guide for details regarding user-facing changes between releases.
If you find ForwardDiff useful in your work, we kindly request that you cite the following paper:
@article{RevelsLubinPapamarkou2016,
title = {Forward-Mode Automatic Differentiation in {J}ulia},
author = {{Revels}, J. and {Lubin}, M. and {Papamarkou}, T.},
journal = {arXiv:1607.07892 [cs.MS]},
year = {2016},
url = {https://arxiv.org/abs/1607.07892}
}