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# Choosing differentiable/gpu parts of the model | ||
!!! note | ||
This tutorial features somewhat disconnected topics about customizing your | ||
models even further. It is advised to be familiar with | ||
[`Flux.@layer`](@ref), [`Flux.@functor`](@ref), [`freeze!`](@ref | ||
Flux.freeze!) and other basics of Flux. | ||
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Flux provides several ways of freezing, excluding from backprop entirely and | ||
marking custom struct fields not to be moved to the GPU | ||
([Functors.@functor](@ref)) hence excluded from being trained. The following | ||
subsections should make it clear which one suits your needs the best. | ||
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## On-the-fly freezing per model instance | ||
Perhaps you'd like to freeze some of the weights of the model (even at | ||
mid-training), and Flux accomplishes this through [`freeze!`](@ref Flux.freeze!) and `thaw!`. | ||
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```julia | ||
m = Chain( | ||
Dense(784 => 64, relu), # freeze this one | ||
Dense(64 => 64, relu), | ||
Dense(32 => 10) | ||
) | ||
opt_state = Flux.setup(Momentum(), m); | ||
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# Freeze some layers right away | ||
Flux.freeze!(opt_state.layers[1]) | ||
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for data in train_set | ||
input, label = data | ||
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# Some params could be frozen during the training: | ||
Flux.freeze!(opt_state.layers[2]) | ||
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grads = Flux.gradient(m) do m | ||
result = m(input) | ||
loss(result, label) | ||
end | ||
Flux.update!(opt_state, m, grads[1]) | ||
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# Optionally unfreeze the params later | ||
Flux.thaw!(opt_state.layers[1]) | ||
end | ||
``` | ||
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## Static freezing per model definition | ||
Sometimes some parts of the model ([`Flux.@layer`](@ref)) needn't to be trained at all but these params | ||
still need to reside on the GPU (these params are still needed in the forward | ||
and/or backward pass). | ||
```julia | ||
struct MaskedLayer{T} | ||
chain::Chain | ||
mask::T | ||
end | ||
Flux.@layer MyLayer trainable=(chain,) | ||
# mask field will not be updated in the training loop | ||
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function (m::MaskedLayer)(x) | ||
# mask field will still move to to gpu for efficient operations: | ||
return m.chain(x) + x + m.mask | ||
end | ||
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model = MaskedLayer(...) # this model will not have the `mask` field trained | ||
``` | ||
Note how this method permanently sets some model fields to be excluded from | ||
training without on-the-fly changing. | ||
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## Excluding from model definition | ||
Sometimes some parameters aren't just "not trainable" but they shouldn't even | ||
transfer to the GPU (or be part of the functor). All scalar fields are like this | ||
by default, so things like learning rate multipliers are not trainable nor | ||
transferred to the GPU by default. | ||
```julia | ||
struct CustomLayer{T, F} | ||
chain::Chain | ||
activation_results::Vector{F} | ||
lr_multiplier::Float32 | ||
end | ||
Flux.@functor CustomLayer (chain, ) # Explicitly leaving out `activation_results` | ||
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function (m::CustomLayer)(x) | ||
result = m.chain(x) + x | ||
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# `activation_results` are not part of the GPU loop, hence we could do | ||
# things like `push!` | ||
push!(m.activation_results, mean(result)) | ||
return result | ||
end | ||
``` | ||
See more about this in [`Flux.@functor`](@ref) | ||
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## Freezing Layer Parameters (deprecated) | ||
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When it is desired to not include all the model parameters (for e.g. transfer learning), we can simply not pass in those layers into our call to `params`. | ||
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!!! compat "Flux ≤ 0.14" | ||
The mechanism described here is for Flux's old "implicit" training style. | ||
When upgrading for Flux 0.15, it should be replaced by [`freeze!`](@ref Flux.freeze!) and `thaw!`. | ||
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Consider a simple multi-layer perceptron model where we want to avoid optimising the first two `Dense` layers. We can obtain | ||
this using the slicing features `Chain` provides: | ||
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```julia | ||
m = Chain( | ||
Dense(784 => 64, relu), | ||
Dense(64 => 64, relu), | ||
Dense(32 => 10) | ||
); | ||
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ps = Flux.params(m[3:end]) | ||
``` | ||
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The `Zygote.Params` object `ps` now holds a reference to only the parameters of the layers passed to it. | ||
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During training, the gradients will only be computed for (and applied to) the last `Dense` layer, therefore only that would have its parameters changed. | ||
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`Flux.params` also takes multiple inputs to make it easy to collect parameters from heterogenous models with a single call. A simple demonstration would be if we wanted to omit optimising the second `Dense` layer in the previous example. It would look something like this: | ||
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```julia | ||
Flux.params(m[1], m[3:end]) | ||
``` | ||
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Sometimes, a more fine-tuned control is needed. | ||
We can freeze a specific parameter of a specific layer which already entered a `Params` object `ps`, | ||
by simply deleting it from `ps`: | ||
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```julia | ||
ps = Flux.params(m) | ||
delete!(ps, m[2].bias) | ||
``` | ||
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