Code for cut cross entropy, a memory efficient implementation of linear-cross-entropy loss.
Project description
Cut Your Losses in Large-Vocabulary Language Models
This software project accompanies the research paper: Cut Your Losses in Large-Vocabulary Language Models, Erik Wijmans, Brody Huval, Alexander Hertzberg, Vladlen Koltun, and Philipp Krähenbühl.
As language models grow ever larger, so do their vocabularies. This has shifted the memory footprint of LLMs during training disproportionately to one single layer: the cross-entropy in the loss computation. Cross-entropy builds up a logit matrix with entries for each pair of input tokens and vocabulary items and, for small models, consumes an order of magnitude more memory than the rest of the LLM combined. We propose Cut Cross-Entropy (CCE), a method that computes the cross-entropy loss without materializing the logits for all tokens into global memory. Rather, CCE only computes the logit for the correct token and evaluates the log-sum-exp over all logits on the fly. We implement a custom kernel that performs the matrix multiplications and the log-sum-exp reduction over the vocabulary in flash memory, making global memory consumption for the cross-entropy computation negligible. This has a dramatic effect. Taking the Gemma 2 (2B) model as an example, CCE reduces the memory footprint of the loss computation from 24 GB to 1 MB, and the total training-time memory consumption of the classifier head from 28 GB to 1 GB. To improve the throughput of CCE, we leverage the inherent sparsity of softmax and propose to skip elements of the gradient computation that have a negligible (i.e., below numerical precision) contribution to the gradient. Experiments demonstrate that the dramatic reduction in memory consumption is accomplished without sacrificing training speed or convergence.
Getting started
Requirements
- Python 3.10+
- PyTorch 2.4+
- Triton 3.0+
- Ampere (or newer) GPU
Note: For operating systems that are not supported by Triton (e.g., MacOS), we include a highly optimized version of
linear-cross-entropy using torch.compile
. This implementation will be set to the default on MacOS.
Basic usage
Installation
pip install "cut-cross-entropy @ git+https://github.com/apple/ml-cross-entropy.git"
Usage
from cut_cross_entropy import linear_cross_entropy
embeddings = model.compute_embedding(inputs)
classifier = model.get_classifier_weights()
loss = linear_cross_entropy(embeddings, classifier, labels)
In causal language modeling, it is common that the model embeddings and labels need to be shifted such that the model predicts the next token.
from cut_cross_entropy import linear_cross_entropy
embeddings = model.compute_embedding(inputs)
classifier = model.get_classifier_weights()
shift_embeddings = embeddings[..., :-1, :].flatten(0, -2)
shift_labels = labels[..., 1:]
manual_shift_loss = linear_cross_entropy(shift_embeddings, classifier, shift_labels)
Instead, pass shift=True
to perform this computation without allocating the shift_embeddings matrix.
from cut_cross_entropy import linear_cross_entropy
embeddings = model.compute_embedding(inputs)
classifier = model.get_classifier_weights()
# This is the same as manual_shift_loss above
auto_shift_loss = linear_cross_entropy(embeddings, classifier, labels, shift=True)
We also provide a highly optimized implementation of linear-cross-entropy loss using torch.compile
.
This is a good option
for scenarios where speed is the primary goal and the model has a relatively small vocabulary compared to its
hidden dimension (when |V| >> D, cce
will both save memory and be faster).
This option also works on the CPU and older GPUs, making it useful for testing.
from cut_cross_entropy import linear_cross_entropy
embeddings = model.compute_embedding(inputs)
classifier = model.get_classifier_weights()
loss = linear_cross_entropy(embeddings, classifier, labels, ..., impl="torch_compile")
Transformers Integration
Installation
Install cut-cross-entropy with transformers dependencies
pip install "cut-cross-entropy[transformers] @ git+https://github.com/apple/ml-cross-entropy.git"
Usage
If you are using transformers, you can patch transformers to use CCE directly. Note that
logits will no longer be returned (None
will be returned instead).
from cut_cross_entropy.transformers import cce_patch
cce_patch("llama")
# or
model = ...
model = cce_patch(model)
We currently support the Llama, Phi3, Mistral, and Gemma2 families of models.
cce_patch
takes two options. The first is the linear-cross-entropy implementation to use. Currently "cce"
or "torch_compile"
.
The second
is the loss reduction. We support "mean"
, "sum"
, and "none"
, that mirror their PyTorch counterpart.
"mean"
is the default and what the transformers trainer API expects.
However,
"none"
in particular can enable for efficient computation of quantities based on the loss.
For example, the following efficiently computes the perplexity of a batch of sequences:
import transformers
from cut_cross_entropy.transformers import cce_patch
model = transformers.AutoModelForCausalLM.from_pretrained(...)
model = cce_patch(model, reduction="none")
labels = input_ids.clone()
labels[~attention_mask] = -100 # -100 is the ignore index for PyTorch and CCE.
outputs = model(input_ids, attention_mask, labels=labels)
loss = outputs[0] # A (B, T - 1) tensor because reduction="none". T - 1 because the first input token has
# no loss.
ppl = torch.exp(
# [:, 1:] because the first token has no loss
loss.sum(1) / (labels[:, 1:] != -100).count_nonzero(dim=1)
).mean() # Average perplexity over the batch
Training and reproducing the benchmark resulst
We provide a training in training/train.py
.
Installation
pip install "cut-cross-entropy[all] @ git+https://github.com/apple/ml-cross-entropy.git"
Training
Use scripts/train.sh
to train a full model.
Benchmarking
The benchmark script can be run via python -m benchmark
.
Expected output with A100 SMX4, PyTorch 2.4.1, and CUDA 12.4.
method kind runtime_ms op_mem_mb test_data
0 cce loss-fw 46.4 1.1 gemma2
1 torch_compile loss-fw 49.9 4000.1 gemma2
2 baseline loss-fw 81.9 24000.0 gemma2
3 cce loss-bw 89.3 1163.0 gemma2
4 torch_compile loss-bw 92.3 12000.0 gemma2
5 baseline loss-bw 122.4 16000.0 gemma2
6 cce loss-fw-bw 134.8 1164.0 gemma2
7 torch_compile loss-fw-bw 144.0 16000.1 gemma2
8 baseline loss-fw-bw 208.8 28000.0 gemma2
Development
If dependencies are installed locally, cut-cross-entropy
will work without a pip install as long as python
is executed in the root path of the github repo.
To install directly from the github repo, either use an (editable) install or manipulate PYTHONPATH, e.g.
pip install -e ".[dev]"
# or
pip install ".[dev]"
# or
export PYTHONPATH=/path/to/ml-cross-entropy:${PYTHONPATH}
Citation
@article{wijmans2024cut,
author = {Erik Wijmans and
Brody Huval and
Alexander Hertzberg and
Vladlen Koltun and
Philipp Kr\"ahenb\"uhl},
title = {Cut Your Losses in Large-Vocabulary Language Models},
journal = {arXiv},
year = {2024},
url = {https://arxiv.org/abs/2411.09009},
}
License
This sample code is released under the LICENSE terms.
Acknowledgements
Our codebase is built using multiple opensource contributions, please see Acknowledgements for more details.
Please check the paper for a complete list of references and datasets used in this work.
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