Experience the CogView3-Plus-3B model online on 🤗 Huggingface Space
📚 Check out the paper
👋 Join our WeChat
📍 Visit Qingyan and API Platform for larger-scale commercial video generation models.
- 🔥🔥
2024/10/13
: We have adapted and open-sourced the CogView-3Plus-3B model in the diffusers version. You can experience it online. - 🔥
2024/9/29
: We have open-sourced CogView3 and CogView-3Plus-3B. CogView3 is a text-to-image system based on cascaded diffusion, utilizing a relay diffusion framework. CogView-3Plus is a series of newly developed text-to-image models based on Diffusion Transformers.
CogView-3-Plus builds upon CogView3 (ECCV'24) by introducing the latest DiT framework for further overall performance improvements. CogView-3-Plus uses the Zero-SNR diffusion noise scheduling and incorporates a joint text-image attention mechanism. Compared to the commonly used MMDiT structure, it effectively reduces training and inference costs while maintaining the model's basic capabilities. CogView-3Plus utilizes a VAE with a latent dimension of 16.
The table below shows the list of text-to-image models we currently offer along with their basic information.
Model Name | CogView3-Base-3B | CogView3-Base-3B-distill | CogView3-Plus-3B |
---|---|---|---|
Model Description | The base and relay stage models of CogView3, supporting 512x512 text-to-image generation and 2x super-resolution generation. | The distilled version of CogView3, with 4 and 1 step sampling in two stages (or 8 and 2 steps). | The DiT version image generation model, supporting image generation ranging from 512 to 2048. |
Resolution | 512 * 512 |
512 <= H, W <= 2048 H * W <= 2^{21} H, W \mod 32 = 0 |
|
Inference Precision | FP16 (recommended), BF16, FP32 | BF16* (recommended), FP16, FP32 | |
Memory Usage (bs = 4) | 17G | 64G | 30G (2048 * 2048) 20G (1024 * 1024) |
Prompt Language | English* | ||
Maximum Prompt Length | 225 Tokens | 224 Tokens | |
Download Link (SAT) | SAT | ||
Download Link (Diffusers) | Not Adapted |
🤗 HuggingFace 🤖 ModelScope 🟣 WiseModel |
Data Explanation
- All inference tests were conducted on a single A100 GPU with a batch size of 4,
using
PYTORCH_CUDA_ALLOC_CONF=expandable_segments:True
to save memory. - The models only support English input. Other languages can be translated into English when refining with large models.
- This test environment uses the
SAT
framework. Many optimization points are not yet complete, and we will work with the community to create a version of the model for thediffusers
library. Once thediffusers
repository is supported, we will test usingdiffusers
. The release is expected in November 2024.
Although CogView3 series models are trained with long image descriptions, we highly recommend rewriting prompts using large language models (LLMs) before generating text-to-image, as this will significantly improve generation quality.
We provide an example script. We suggest running this script to refine the prompt:
python prompt_optimize.py --api_key "Zhipu AI API Key" --prompt {your prompt} --base_url "https://open.bigmodel.cn/api/paas/v4" --model "glm-4-plus"
First, ensure the diffusers
library is installed from source.
pip install git+https://github.com/huggingface/diffusers.git
Then, run the following code:
from diffusers import CogView3PlusPipeline
import torch
pipe = CogView3PlusPipeline.from_pretrained("THUDM/CogView3-Plus-3B", torch_dtype=torch.float16).to("cuda")
# Enable it to reduce GPU memory usage
pipe.enable_model_cpu_offload()
pipe.vae.enable_slicing()
pipe.vae.enable_tiling()
prompt = "A vibrant cherry red sports car sits proudly under the gleaming sun, its polished exterior smooth and flawless, casting a mirror-like reflection. The car features a low, aerodynamic body, angular headlights that gaze forward like predatory eyes, and a set of black, high-gloss racing rims that contrast starkly with the red. A subtle hint of chrome embellishes the grille and exhaust, while the tinted windows suggest a luxurious and private interior. The scene conveys a sense of speed and elegance, the car appearing as if it's about to burst into a sprint along a coastal road, with the ocean's azure waves crashing in the background."
image = pipe(
prompt=prompt,
guidance_scale=7.0,
num_images_per_prompt=1,
num_inference_steps=50,
width=1024,
height=1024,
).images[0]
image.save("cogview3.png")
For more inference code, please refer to inference. This folder also contains a simple WEBUI code wrapped with Gradio.
Please check the sat tutorial for step-by-step instructions on model inference.
Since the project is in its early stages, we are working on the following:
- Fine-tuning the SAT version of CogView3-Plus-3B, including SFT and LoRA fine-tuning
- Inference with the Diffusers library version of the CogView3-Plus-3B model
- Fine-tuning the Diffusers library version of the CogView3-Plus-3B model
- Related work for the CogView3-Plus-3B model, including ControlNet and other tasks.
Official paper repository: CogView3: Finer and Faster Text-to-Image Generation via Relay Diffusion
CogView3 is a novel text-to-image generation system using relay diffusion. It breaks down the process of generating high-resolution images into multiple stages. Through the relay super-resolution process, Gaussian noise is added to low-resolution generation results, and the diffusion process begins from these noisy images. Our results show that CogView3 outperforms SDXL with a winning rate of 77.0%. Additionally, through progressive distillation of the diffusion model, CogView3 can generate comparable results while reducing inference time to only 1/10th of SDXL's.
Comparison results from human evaluations:
🌟 If you find our work helpful, feel free to cite our paper and leave a star.
@article{zheng2024cogview3,
title={Cogview3: Finer and faster text-to-image generation via relay diffusion},
author={Zheng, Wendi and Teng, Jiayan and Yang, Zhuoyi and Wang, Weihan and Chen, Jidong and Gu, Xiaotao and Dong, Yuxiao and Ding, Ming and Tang, Jie},
journal={arXiv preprint arXiv:2403.05121},
year={2024}
}
We welcome your contributions! Click here for more information.
This codebase is released under the Apache 2.0 License.
The CogView3-Base, CogView3-Relay, and CogView3-Plus models (including the UNet module, Transformers module, and VAE module) are released under the Apache 2.0 License.