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# Automatic Differentiation Backends | ||
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## Summary of Finite Differencing Backends | ||
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- [`AutoFiniteDiff`](@ref): Finite differencing, not optimal but always applicable. | ||
- [`AutoSparseFiniteDiff`](@ref): Sparse version of [`AutoFiniteDiff`](@ref). | ||
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## Summary of Forward Mode AD Backends | ||
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- [`AutoForwardDiff`](@ref): The best choice for dense problems. | ||
- [`AutoSparseForwardDiff`](@ref): Sparse version of [`AutoForwardDiff`](@ref). | ||
- [`AutoPolyesterForwardDiff`](@ref): Might be faster than [`AutoForwardDiff`](@ref) for | ||
large problems. Requires `PolyesterForwardDiff.jl` to be installed and loaded. | ||
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## Summary of Reverse Mode AD Backends | ||
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- [`AutoZygote`](@ref): The fastest choice for non-mutating array-based (BLAS) functions. | ||
- [`AutoSparseZygote`](@ref): Sparse version of [`AutoZygote`](@ref). | ||
- [`AutoEnzyme`](@ref): Uses `Enzyme.jl` Reverse Mode and should be considered | ||
experimental. | ||
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!!! note | ||
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If `PolyesterForwardDiff.jl` is installed and loaded, then `SimpleNonlinearSolve.jl` | ||
will automatically use `AutoPolyesterForwardDiff` as the default AD backend. | ||
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## API Reference | ||
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### Finite Differencing Backends | ||
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```@docs | ||
AutoFiniteDiff | ||
AutoSparseFiniteDiff | ||
``` | ||
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### Forward Mode AD Backends | ||
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```@docs | ||
AutoForwardDiff | ||
AutoSparseForwardDiff | ||
AutoPolyesterForwardDiff | ||
``` | ||
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### Reverse Mode AD Backends | ||
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```@docs | ||
AutoZygote | ||
AutoSparseZygote | ||
AutoEnzyme | ||
NonlinearSolve.AutoSparseEnzyme | ||
``` |
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# This just documents the AD types from ADTypes.jl | ||
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""" | ||
AutoFiniteDiff(; fdtype = Val(:forward), fdjtype = fdtype, fdhtype = Val(:hcentral)) | ||
This uses [FiniteDiff.jl](https://github.com/JuliaDiff/FiniteDiff.jl). While not necessarily | ||
the most efficient, this is the only choice that doesn't require the `f` function to be | ||
automatically differentiable, which means it applies to any choice. However, because it's | ||
using finite differencing, one needs to be careful as this procedure introduces numerical | ||
error into the derivative estimates. | ||
- Compatible with GPUs | ||
- Can be used for Jacobian-Vector Products (JVPs) | ||
- Can be used for Vector-Jacobian Products (VJPs) | ||
- Supports both inplace and out-of-place functions | ||
### Keyword Arguments | ||
- `fdtype`: the method used for defining the gradient | ||
- `fdjtype`: the method used for defining the Jacobian of constraints. | ||
- `fdhtype`: the method used for defining the Hessian | ||
""" | ||
AutoFiniteDiff | ||
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""" | ||
AutoSparseFiniteDiff() | ||
Sparse Version of [`AutoFiniteDiff`](@ref) that uses | ||
[FiniteDiff.jl](https://github.com/JuliaDiff/FiniteDiff.jl) and the column color vector of | ||
the Jacobian Matrix to efficiently compute the Sparse Jacobian. | ||
- Supports both inplace and out-of-place functions | ||
""" | ||
AutoSparseFiniteDiff | ||
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""" | ||
AutoForwardDiff(; chunksize = nothing, tag = nothing) | ||
AutoForwardDiff{chunksize, tagType}(tag::tagType) | ||
This uses the [ForwardDiff.jl](https://github.com/JuliaDiff/ForwardDiff.jl) package. It is | ||
the fastest choice for square or wide systems. It is easy to use and compatible with most | ||
Julia functions which have loose type restrictions. | ||
- Compatible with GPUs | ||
- Can be used for Jacobian-Vector Products (JVPs) | ||
- Supports both inplace and out-of-place functions | ||
For type-stability of internal operations, a positive `chunksize` must be provided. | ||
### Keyword Arguments | ||
- `chunksize`: Count of dual numbers that can be propagated simultaneously. Setting this | ||
number to a high value will lead to slowdowns. Use | ||
[`NonlinearSolve.pickchunksize`](@ref) to get a proper value. | ||
- `tag`: Used to avoid perturbation confusion. If set to `nothing`, we use a custom tag. | ||
""" | ||
AutoForwardDiff | ||
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""" | ||
AutoSparseForwardDiff(; chunksize = nothing, tag = nothing) | ||
AutoSparseForwardDiff{chunksize, tagType}(tag::tagType) | ||
Sparse Version of [`AutoForwardDiff`](@ref) that uses | ||
[ForwardDiff.jl](https://github.com/JuliaDiff/ForwardDiff.jl) and the column color vector of | ||
the Jacobian Matrix to efficiently compute the Sparse Jacobian. | ||
- Supports both inplace and out-of-place functions | ||
For type-stability of internal operations, a positive `chunksize` must be provided. | ||
### Keyword Arguments | ||
- `chunksize`: Count of dual numbers that can be propagated simultaneously. Setting this | ||
number to a high value will lead to slowdowns. Use | ||
[`NonlinearSolve.pickchunksize`](@ref) to get a proper value. | ||
- `tag`: Used to avoid perturbation confusion. If set to `nothing`, we use a custom tag. | ||
""" | ||
AutoSparseForwardDiff | ||
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""" | ||
AutoPolyesterForwardDiff(; chunksize = nothing) | ||
Uses [`PolyesterForwardDiff.jl`](https://github.com/JuliaDiff/PolyesterForwardDiff.jl) | ||
to compute the jacobian. This is essentially parallelized `ForwardDiff.jl`. | ||
- Supports both inplace and out-of-place functions | ||
### Keyword Arguments | ||
- `chunksize`: Count of dual numbers that can be propagated simultaneously. Setting | ||
this number to a high value will lead to slowdowns. Use | ||
[`NonlinearSolve.pickchunksize`](@ref) to get a proper value. | ||
""" | ||
AutoPolyesterForwardDiff | ||
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""" | ||
AutoZygote() | ||
Uses [`Zygote.jl`](https://github.com/FluxML/Zygote.jl) package. This is the staple | ||
reverse-mode AD that handles a large portion of Julia with good efficiency. | ||
- Compatible with GPUs | ||
- Can be used for Vector-Jacobian Products (VJPs) | ||
- Supports only out-of-place functions | ||
For VJPs this is the current best choice. This is the most efficient method for long | ||
jacobians. | ||
""" | ||
AutoZygote | ||
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""" | ||
AutoSparseZygote() | ||
Sparse version of [`AutoZygote`](@ref) that uses | ||
[`Zygote.jl`](https://github.com/FluxML/Zygote.jl) and the row color vector of | ||
the Jacobian Matrix to efficiently compute the Sparse Jacobian. | ||
- Supports only out-of-place functions | ||
This is efficient only for long jacobians or if the maximum value of the row color vector is | ||
significantly lower than the maximum value of the column color vector. | ||
""" | ||
AutoSparseZygote | ||
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""" | ||
AutoEnzyme() | ||
Uses reverse mode [Enzyme.jl](https://github.com/EnzymeAD/Enzyme.jl). This is currently | ||
experimental, and not extensively tested on our end. We only support Jacobian construction | ||
and VJP support is currently not implemented. | ||
- Supports both inplace and out-of-place functions | ||
""" | ||
AutoEnzyme | ||
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""" | ||
AutoSparseEnzyme() | ||
Sparse version of [`AutoEnzyme`](@ref) that uses | ||
[Enzyme.jl](https://github.com/EnzymeAD/Enzyme.jl) and the row color vector of | ||
the Jacobian Matrix to efficiently compute the Sparse Jacobian. | ||
- Supports both inplace and out-of-place functions | ||
This is efficient only for long jacobians or if the maximum value of the row color vector is | ||
significantly lower than the maximum value of the column color vector. | ||
""" | ||
AutoSparseEnzyme |