Mesa: A Memory-saving Training Framework for Transformers
This is the official PyTorch implementation for Mesa: A Memory-saving Training Framework for Transformers.
By Zizheng Pan, Peng Chen, Haoyu He, Jing Liu, Jianfei Cai and Bohan Zhuang.
Installation
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Create a virtual environment with anaconda.
conda create -n mesa python=3.7 -y conda activate mesa # Install PyTorch, we use PyTorch 1.7.1 with CUDA 10.1 pip install torch==1.7.1+cu101 torchvision==0.8.2+cu101 torchaudio==0.7.2 -f https://download.pytorch.org/whl/torch_stable.html # Install ninja pip install ninja
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Build and install Mesa.
# cloen this repo git clone https://github.com/zhuang-group/Mesa # build cd Mesa/ # You need to have an NVIDIA GPU python setup.py develop
Usage
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Prepare your policy and save as a text file, e.g.
policy.txt.on gelu: # layer tag, choices: fc, conv, gelu, bn, relu, softmax, matmul, layernorm by_index: all # layer index enable: True # enable for compressing level: 256 # we adopt 8-bit quantization by default ema_decay: 0.9 # the decay rate for running estimates by_index: 1 2 # e.g. exluding GELU layers that indexed by 1 and 2. enable: False
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Next, you can wrap your model with Mesa by:
import mesa as ms ms.policy.convert_by_num_groups(model, 3) # or convert by group size with ms.policy.convert_by_group_size(model, 64) # setup compression policy ms.policy.deploy_on_init(model, '[path to policy.txt]', verbose=print, override_verbose=False)
That's all you need to use Mesa for memory saving.
Note that
convert_by_num_groupsandconvert_by_group_sizeonly recognizenn.XXX, if your code has functional operations, such as[email protected]andF.Softmax, you may need to manually setup these layers. For example:# matrix multipcation (before) out = Q@K.transpose(-2, -1) # with Mesa self.mm = ms.MatMul(quant_groups=3) out = self.mm(q, k.transpose(-2, -1)) # sofmtax (before) attn = attn.softmax(dim=-1) # with Mesa self.softmax = ms.Softmax(dim=-1, quant_groups=3) attn = self.softmax(attn)
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You can also target one layer by:
import mesa as ms # previous self.act = nn.GELU() # with Mesa self.act = ms.GELU(quant_groups=[num of quantization groups])
Demo projects for DeiT and Swin
We provide demo projects to replicate our results of training DeiT and Swin with Mesa, please refer to DeiT-Mesa and Swin-Mesa.
Results on ImageNet
| Model | Param (M) | FLOPs (G) | Train Memory | Top-1 (%) |
|---|---|---|---|---|
| DeiT-Ti | 5 | 1.3 | 4,171 | 71.9 |
| DeiT-Ti w/ Mesa | 5 | 1.3 | 1,858 | 72.1 |
| DeiT-S | 22 | 4.6 | 8,459 | 79.8 |
| DeiT-S w/ Mesa | 22 | 4.6 | 3,840 | 80.0 |
| DeiT-B | 86 | 17.5 | 17,691 | 81.8 |
| DeiT-B w/ Mesa | 86 | 17.5 | 8,616 | 81.8 |
| Swin-Ti | 29 | 4.5 | 11,812 | 81.3 |
| Swin-Ti w/ Mesa | 29 | 4.5 | 5,371 | 81.3 |
| PVT-Ti | 13 | 1.9 | 7,800 | 75.1 |
| PVT-Ti w/ Mesa | 13 | 1.9 | 3,782 | 74.9 |
License
This repository is released under the Apache 2.0 license as found in the LICENSE file.
Acknowledgments
This repository has adopted part of the quantization codes from ActNN, we thank the authors for their open-sourced code.
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