Introduction
This repository holds NVIDIA-maintained utilities to streamline mixed precision and distributed training in Pytorch. Some of the code here will be included in upstream Pytorch eventually. The intention of Apex is to make up-to-date utilities available to users as quickly as possible.
https://nvidia.github.io/apex
Full API Documentation:Contents
1. Amp: Automatic Mixed Precision
apex.amp
is a tool to enable mixed precision training by changing only 3 lines of your script.
Users can easily experiment with different pure and mixed precision training modes by supplying
different flags to amp.initialize
.
Webinar introducing Amp
(The flag cast_batchnorm
has been renamed to keep_batchnorm_fp32
).
Comprehensive Imagenet example
Moving to the new Amp API (for users of the deprecated "Amp" and "FP16_Optimizer" APIs)
2. Distributed Training
apex.parallel.DistributedDataParallel
is a module wrapper, similar to
torch.nn.parallel.DistributedDataParallel
. It enables convenient multiprocess distributed training,
optimized for NVIDIA's NCCL communication library.
The Imagenet example
shows use of apex.parallel.DistributedDataParallel
along with apex.amp
.
Synchronized Batch Normalization
apex.parallel.SyncBatchNorm
extends torch.nn.modules.batchnorm._BatchNorm
to
support synchronized BN.
It allreduces stats across processes during multiprocess (DistributedDataParallel) training.
Synchronous BN has been used in cases where only a small
local minibatch can fit on each GPU.
Allreduced stats increase the effective batch size for the BN layer to the
global batch size across all processes (which, technically, is the correct
formulation).
Synchronous BN has been observed to improve converged accuracy in some of our research models.
Requirements
Python 3
CUDA 9 or newer
PyTorch 0.4 or newer. The CUDA and C++ extensions require pytorch 1.0 or newer.
We recommend the latest stable release, obtainable from https://pytorch.org/. We also test against the latest master branch, obtainable from https://github.com/pytorch/pytorch.
It's often convenient to use Apex in Docker containers. Compatible options include:
- NVIDIA Pytorch containers from NGC, which come with Apex preinstalled. To use the latest Amp API, you may need to
pip uninstall apex
then reinstall Apex using the Quick Start commands below. - official Pytorch -devel Dockerfiles, e.g.
docker pull pytorch/pytorch:nightly-devel-cuda10.0-cudnn7
, in which you can install Apex using the Quick Start commands.
See the Docker example folder for details.
Quick Start
Linux
For performance and full functionality, we recommend installing Apex with CUDA and C++ extensions via
$ git clone https://github.com/NVIDIA/apex
$ cd apex
$ pip install -v --no-cache-dir --global-option="--cpp_ext" --global-option="--cuda_ext" .
Apex also supports a Python-only build (required with Pytorch 0.4) via
$ pip install -v --no-cache-dir .
A Python-only build omits:
- Fused kernels required to use
apex.optimizers.FusedAdam
. - Fused kernels required to use
apex.normalization.FusedLayerNorm
. - Fused kernels that improve the performance and numerical stability of
apex.parallel.SyncBatchNorm
. - Fused kernels that improve the performance of
apex.parallel.DistributedDataParallel
andapex.amp
.DistributedDataParallel
,amp
, andSyncBatchNorm
will still be usable, but they may be slower.
Windows support
Windows support is experimental, and Linux is recommended. pip install -v --no-cache-dir --global-option="--cpp_ext" --global-option="--cuda_ext" .
may work if you were able to build Pytorch from source
on your system. pip install -v --no-cache-dir .
(without CUDA/C++ extensions) is more likely to work. If you installed Pytorch in a Conda environment, make sure to install Apex in that same environment.