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This repository contains the experimental PyTorch native float8 training UX

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float8_experimental

This is an early version of a library for accelerating training with float8 in native PyTorch according to the recipes laid out in https://arxiv.org/pdf/2209.05433.pdf. The codebase strives to stay small, easily hackable, and debuggable with native PyTorch tooling. torch.compile is supported out of the box. With torch.compile on, initial results show throughput speedups of up to 1.2x on small scale (8 GPUs) LLaMa pretraining jobs.

⚠️ See the feature tracker for upcoming features. Key features such as weight cast recomputation in backward and large scale distributed support are not ready yet.

⚠️ Backwards compatibility is not guaranteed at this point. The codebase is in active development and will change rapidly.

installation

⚠️ For now, use the latest PyTorch nightly for best results with torch.compile.

pip install .

# Optionally install editable
pip install -e .

# Optionally Install dev tooling
pip install -e ".[dev]"

User API

We provide two per-tensor scaling strategies: dynamic and delayed. See https://arxiv.org/pdf/2209.05433.pdf, Section 4.3 for more details.

float8 linear with dynamic scaling

from float8_experimental.float8_linear_utils import (
    swap_linear_with_float8_linear,
)
from float8_experimental.float8_dynamic_linear import Float8DynamicLinear

# create model
m = Model(...)

# convert all `torch.nn.Linear` modules to `Float8DynamicLinear`
swap_linear_with_float8_linear(m, Float8DynamicLinear)

# optional: use FSDP
model = FSDP(model, use_orig_params=True)

# optional: enable torch.compile for improved performance
m = torch.compile(m)

# train/finetune (not shown)

float8 linear with delayed scaling

from float8_experimental.float8_linear_utils import (
    swap_linear_with_float8_linear,
    sync_float8_amax_and_scale_history,
)
from float8_experimental.float8_linear import Float8Linear

# create model
m = Model(...)

# convert all `torch.nn.Linear` modules to `Float8Linear`
swap_linear_with_float8_linear(m, Float8Linear)

# optional: use FSDP. Note that workarounds gated with config.enable_amax_init and
# config.enable_pre_and_post_forward are needed for autocast + compile + FSDP + float8 to work
from float8_experimental import config
config.enable_amax_init = False  # only needed for autocast + compile + FSDP +  float8 delayed
config.enable_pre_and_post_forward = False  # only needed for autocast + compile + FSDP +  float8 delayed
model = FSDP(model, use_orig_params=True)

# optional: enable torch.compile for improved performance
m = torch.compile(m)

# toy training loop
for _ in range(N_ITER):
    optimizer.zero_grad()
    y = m(x)
    y.sum().backward()

    # specific to float8 with delayed scaling: separate step to sync scales/amaxes
    # in the future, this may move to a context manager
    sync_float8_amax_and_scale_history(model)

    optimizer.step()

code tips

  • float8_experimental/float8_linear.py - Float8Linear (main user facing entry point for delayed scaling)
  • float8_experimental/float8_dynamic_linear.py - Float8DynamicLinear (main user facing entry point for dynamic scaling)
  • float8_experimental/float8_tensor.py - Float8Tensor, which allows Float8Linear to abide by the x.dtype == x.grad.dtype restriction

testing

# run single-GPU unit tests
pytest test/test_base.py

# run a single-GPU integration test on SAM
pytest test/test_sam.py

# run single-GPU compile tests
pytest test/test_compile.py
# run a two-GPU integration test on FSDP
./test/test_fsdp.sh

# run integration tests for TP/SP (outdated)
./test/test_tp.sh

# run all of these tests
./test/run_everything.sh

benchmarking

# benchmark the torch._scaled_mm function on LLaMa 2 70B shapes
./benchmarks/bench_matmul.py

# benchmark fw/bw of `Linear` and `Float8Linear` on LLaMa 2 70B shapes
# make sure to turn on torch.compile to get the best performance
./benchmarks/bench_linear_float8.py -o ../tmp/test.txt --compile

License

PyTorch has a BSD 3-Clause License, as found in the LICENSE file.

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