Generate vivid Images for Chinese / English text
CogView2 is a hierarchical transformer (6B-9B-9B parameters) for text-to-image generation in general domain. This implementation is based on the SwissArmyTransformer library (v0.2).
- Read our paper CogView2: Faster and Better Text-to-Image Generation via Hierarchical Transformers on ArXiv for a formal introduction. The LoPAR accelarate the generation and CogLM enables the model for bidirectional completion.
- Run our pretrained models from text-to-image generation or text-guided completion! Please use A100 GPU.
- Cite our paper if you find our work is helpful~
@article{ding2022cogview2,
title={CogView2: Faster and Better Text-to-Image Generation via Hierarchical Transformers},
author={Ding, Ming and Zheng, Wendi and Hong, Wenyi and Tang, Jie},
journal={arXiv preprint arXiv:2204.14217},
year={2022}
}
-
Thank the Huggingface team for integrating CogView2 into Huggingface Spaces 🤗 using Gradio. Try out the Web Demo:
- Hardware: Linux servers with Nvidia A100s are recommended, but it is also okay to run the pretrained models with smaller
--max-inference-batch-size
or training smaller models on less powerful GPUs. - Environment: install dependencies via
pip install -r requirements.txt
. - LocalAttention: Make sure you have CUDA installed and compile the local attention kernel.
git clone https://github.com/Sleepychord/Image-Local-Attention
cd Image-Local-Attention && python setup.py install
If you don't install this kernel, you can also run the first stage (20*20 tokens) via --only-first-stage
for text-to-image generation.
Our code will automatically download or detect the models into the path defined by envrionment variable SAT_HOME
. You can download from here and place them (folders named coglm
/cogview2-dsr
/cogview2-itersr
) under SAT_HOME
.
./text2image.sh --input-source input.txt
Arguments useful in inference are mainly:
--input-source [path or "interactive"]
. The path of the input file, can also be "interactive", which will launch a CLI.--output-path [path]
. The folder containing the results.--batch-size [int]
. The number of samples will be generated per query.--max-inference-batch-size [int]
. Maximum batch size per forward. Reduce it if OOM.--debug
. Only save concatenated images for all generated samples, and name them by input text and date.--with-id
. When it toggled, you must specify an "id" before each input, e.g.001\t一个漂亮的女孩
, \t denoting TAB (NOT space). It will generatebatch-size
split images in a folder named "id" for each input. Confict with--debug
.--device [int]
. Running on which GPU.--inverse-prompt
. Use the perplexity to generate the original text to sort the generated images.--only-first-stage
.--style
. The style of the generated images, choices=['none', 'mainbody', 'photo', 'flat', 'comics', 'oil', 'sketch', 'isometric', 'chinese', 'watercolor']. The default style ismainbody
, usually an isolated object with white background.
You'd better specify a environment variable SAT_HOME
to specify the path to store the downloaded model.
Chinese input is usually much better than English input.
./text_guided_completion.sh --input-source input_comp.txt
The format of input is text image_path h0 w0 h1 w1
, where all the separation are TAB (NOT space). The image at image_path
will be center-cropped to 480*480
pixels and mask the square from (h0,w0)
to (h1,w1)
. These coordinations are range from 0 to 1. The model will fill the square with object described in text
. Please use a square much larger than the desired region.