This is an implementation of the Maximal Update Parametrization (μP) in Flax.
To train with μP there are two steps:
- Create a Flax module that subclasses
mup.Moduleinstead of the regular linennn.Module. - Chain the μP Optax transformation
scale_adam_by_muporscale_sgd_by_mupwith your current optimizer.
For example,
import jax
import jax.numpy as jnp
from flax import linen as nn
import flax_mup as mup
import optax
class Model(mup.Module):
@nn.compact
def __call__(self, x: jax.Array) -> jax.Array:
# width is exposed from `mup.Module`
x = nn.Dense(128 * self.width)(x)
x = nn.relu(x)
x = nn.Dense(128 * self.width)(x)
x = nn.relu(x)
x = nn.Dense(10)(x)
return x
# Create your model specifying the target width with the width field.
model = Model(width=16)
# Initialize the model and optionally specify the base model width.
# It defaults to 1 but you can specify any integer value less than the
# target width above.
params = model.init(
jax.random.PRNGKey(0),
jnp.zeros((16)),
base_width=1, # `base_width` defaults to 1
)
optim = optax.chain(
optax.adam(learning_rate=1e-4),
mup.scale_adam_by_mup(),
)The library is not published on PyPi, you can instead install it from GitHub:
# with pip
pip install git+https://github.com/jessefarebro/flax-mup
# with pdm
pdm add git+https://github.com/jessefarebro/flax-mup- The weights of the model are initialized from a distribution that's scale invariant,
i.e., let X be a random variable and define
$Y = X / c$ where$c$ is a non-zero constant. The property$\text{Var}[Y] = \text{Var}[X] / c^2$ must hold. This is the case for most initialization schemes that draw from either a uniform or gaussian distribution. - The learning rate scaling is the last transformation in the optimizer chain. Both the
scale_adam_by_mupandscale_sgd_by_muptransformations assume this. For any standard Optax optimizer this should be the case.
Provided are coordinate checks to verify the implementation for various loss functions using MLPs & CNNs. Transformers are currently untested but support should be fairly straightforward.
