Jiarui Fang
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README.md
ColoDiffusion: Stable Diffusion with Colossal-AI
Acceleration of AIGC (AI-Generated Content) models such as Stable Diffusion v1 and Stable Diffusion v2.
- Training: Reduce Stable Diffusion memory consumption by up to 5.6x and hardware cost by up to 46x (from A100 to RTX3060).
- DreamBooth Fine-tuning: Personalize your model using just 3-5 images of the desired subject.
- Inference: Reduce inference GPU memory consumption by 2.5x.
More details can be found in our blog of Stable Diffusion v1 and blog of Stable Diffusion v2.
Roadmap
This project is in rapid development.
- Train a stable diffusion model v1/v2 from scatch
- Finetune a pretrained Stable diffusion v1 model
- Inference a pretrained model using PyTorch
- Finetune a pretrained Stable diffusion v2 model
- Inference a pretrained model using TensoRT
Installation
Option #1: install from source
Step 1: Requirements
A suitable conda environment named ldm
can be created
and activated with:
conda env create -f environment.yaml
conda activate ldm
You can also update an existing latent diffusion environment by running
conda install pytorch==1.12.1 torchvision==0.13.1 torchaudio==0.12.1 cudatoolkit=11.3 -c pytorch
pip install transformers==4.19.2 diffusers invisible-watermark
pip install -e .
Step 2: install lightning
Install Lightning version later than 2022.01.04. We suggest you install lightning from source.
https://github.com/Lightning-AI/lightning.git
Step 3:Install Colossal-AI From Our Official Website
For example, you can install v0.1.12 from our official website.
pip install colossalai==0.1.12+torch1.12cu11.3 -f https://release.colossalai.org
Option #2: Use Docker
To use the stable diffusion Docker image, you can either build using the provided the Dockerfile or pull a Docker image from our Docker hub.
# 1. build from dockerfile
cd docker
docker build -t hpcaitech/diffusion:0.2.0 .
# 2. pull from our docker hub
docker pull hpcaitech/diffusion:0.2.0
Once you have the image ready, you can launch the image with the following command:
########################
# On Your Host Machine #
########################
# make sure you start your image in the repository root directory
cd Colossal-AI
# run the docker container
docker run --rm \
-it --gpus all \
-v $PWD:/workspace \
-v <your-data-dir>:/data/scratch \
-v <hf-cache-dir>:/root/.cache/huggingface \
hpcaitech/diffusion:0.2.0 \
/bin/bash
########################
# Insider Container #
########################
# Once you have entered the docker container, go to the stable diffusion directory for training
cd examples/images/diffusion/
# start training with colossalai
bash train_colossalai.sh
It is important for you to configure your volume mapping in order to get the best training experience.
- Mandatory, mount your prepared data to
/data/scratch
via-v <your-data-dir>:/data/scratch
, where you need to replace<your-data-dir>
with the actual data path on your machine. - Recommended, store the downloaded model weights to your host machine instead of the container directory via
-v <hf-cache-dir>:/root/.cache/huggingface
, where you need to repliace the<hf-cache-dir>
with the actual path. In this way, you don't have to repeatedly download the pretrained weights for everydocker run
. - Optional, if you encounter any problem stating that shared memory is insufficient inside container, please add
-v /dev/shm:/dev/shm
to yourdocker run
command.
Download the model checkpoint from pretrained
stable-diffusion-v1-4
Our default model config use the weight from CompVis/stable-diffusion-v1-4
git lfs install
git clone https://huggingface.co/CompVis/stable-diffusion-v1-4
stable-diffusion-v1-5 from runway
If you want to useed the Last stable-diffusion-v1-5 weight from runwayml
git lfs install
git clone https://huggingface.co/runwayml/stable-diffusion-v1-5
Dataset
The dataSet is from LAION-5B, the subset of LAION,
you should the change the data.file_path
in the config/train_colossalai.yaml
Training
We provide the script train_colossalai.sh
to run the training task with colossalai,
and can also use train_ddp.sh
to run the training task with ddp to compare.
In train_colossalai.sh
the main command is:
python main.py --logdir /tmp/ -t -b configs/train_colossalai.yaml
- you can change the
--logdir
to decide where to save the log information and the last checkpoint.
Training config
You can change the trainging config in the yaml file
- devices: device number used for training, default 8
- max_epochs: max training epochs, default 2
- precision: the precision type used in training, default 16 (fp16), you must use fp16 if you want to apply colossalai
- more information about the configuration of ColossalAIStrategy can be found here
Finetune Example (Work In Progress)
Training on Teyvat Datasets
We provide the finetuning example on Teyvat dataset, which is create by BLIP generated captions.
You can run by config configs/Teyvat/train_colossalai_teyvat.yaml
python main.py --logdir /tmp/ -t -b configs/Teyvat/train_colossalai_teyvat.yaml
Inference
you can get yout training last.ckpt and train config.yaml in your --logdir
, and run by
python scripts/txt2img.py --prompt "a photograph of an astronaut riding a horse" --plms
--outdir ./output \
--config path/to/logdir/checkpoints/last.ckpt \
--ckpt /path/to/logdir/configs/project.yaml \
usage: txt2img.py [-h] [--prompt [PROMPT]] [--outdir [OUTDIR]] [--skip_grid] [--skip_save] [--ddim_steps DDIM_STEPS] [--plms] [--laion400m] [--fixed_code] [--ddim_eta DDIM_ETA]
[--n_iter N_ITER] [--H H] [--W W] [--C C] [--f F] [--n_samples N_SAMPLES] [--n_rows N_ROWS] [--scale SCALE] [--from-file FROM_FILE] [--config CONFIG] [--ckpt CKPT]
[--seed SEED] [--precision {full,autocast}]
optional arguments:
-h, --help show this help message and exit
--prompt [PROMPT] the prompt to render
--outdir [OUTDIR] dir to write results to
--skip_grid do not save a grid, only individual samples. Helpful when evaluating lots of samples
--skip_save do not save individual samples. For speed measurements.
--ddim_steps DDIM_STEPS
number of ddim sampling steps
--plms use plms sampling
--laion400m uses the LAION400M model
--fixed_code if enabled, uses the same starting code across samples
--ddim_eta DDIM_ETA ddim eta (eta=0.0 corresponds to deterministic sampling
--n_iter N_ITER sample this often
--H H image height, in pixel space
--W W image width, in pixel space
--C C latent channels
--f F downsampling factor
--n_samples N_SAMPLES
how many samples to produce for each given prompt. A.k.a. batch size
--n_rows N_ROWS rows in the grid (default: n_samples)
--scale SCALE unconditional guidance scale: eps = eps(x, empty) + scale * (eps(x, cond) - eps(x, empty))
--from-file FROM_FILE
if specified, load prompts from this file
--config CONFIG path to config which constructs model
--ckpt CKPT path to checkpoint of model
--seed SEED the seed (for reproducible sampling)
--use_int8 whether to use quantization method
--precision {full,autocast}
evaluate at this precision
Comments
-
Our codebase for the diffusion models builds heavily on OpenAI's ADM codebase , lucidrains, Stable Diffusion, Lightning and Hugging Face. Thanks for open-sourcing!
-
The implementation of the transformer encoder is from x-transformers by lucidrains.
-
The implementation of flash attention is from HazyResearch.
BibTeX
@article{bian2021colossal,
title={Colossal-AI: A Unified Deep Learning System For Large-Scale Parallel Training},
author={Bian, Zhengda and Liu, Hongxin and Wang, Boxiang and Huang, Haichen and Li, Yongbin and Wang, Chuanrui and Cui, Fan and You, Yang},
journal={arXiv preprint arXiv:2110.14883},
year={2021}
}
@misc{rombach2021highresolution,
title={High-Resolution Image Synthesis with Latent Diffusion Models},
author={Robin Rombach and Andreas Blattmann and Dominik Lorenz and Patrick Esser and Björn Ommer},
year={2021},
eprint={2112.10752},
archivePrefix={arXiv},
primaryClass={cs.CV}
}
@article{dao2022flashattention,
title={FlashAttention: Fast and Memory-Efficient Exact Attention with IO-Awareness},
author={Dao, Tri and Fu, Daniel Y. and Ermon, Stefano and Rudra, Atri and R{\'e}, Christopher},
journal={arXiv preprint arXiv:2205.14135},
year={2022}
}