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VGen

figure1

VGen is an open-source video synthesis codebase developed by the Tongyi Lab of Alibaba Group, featuring state-of-the-art video generative models. This repository includes implementations of the following methods:

VGen can produce high-quality videos from the input text, images, desired motion, desired subjects, and even the feedback signals provided. It also offers a variety of commonly used video generation tools such as visualization, sampling, training, inference, join training using images and videos, acceleration, and more.

Open in Spaces Paper page Open in Spaces YouTube Replicate

🔥News!!!

  • [2024.04] We release the code and models of TF-T2V!
  • [2024.04] We release the code and models of VideoLCM!
  • [2024.03] We release the training and inference code of DreamVideo!
  • [2024.03] We release the code and model of HiGen!!
  • [2024.01] The gradio demo of I2VGen-XL has been completed in HuggingFace, thanks to our colleague @Wenmeng Zhou and @AK for the support, and welcome to try it out.
  • [2024.01] We support running the gradio app locally, thanks to our colleague @Wenmeng Zhou for the support and @AK for the suggestion, and welcome to have a try.
  • [2024.01] Thanks @Chenxi for supporting the running of i2vgen-xl on Replicate. Feel free to give it a try.
  • [2024.01] The gradio demo of I2VGen-XL has been completed in Modelscope, and welcome to try it out.
  • [2023.12] We have open-sourced the code and models for DreamTalk, which can produce high-quality talking head videos across diverse speaking styles using diffusion models.
  • [2023.12] We release TF-T2V that can scale up existing video generation techniques using text-free videos, significantly enhancing the performance of both Modelscope-T2V and VideoComposer at the same time.
  • [2023.12] We updated the codebase to support higher versions of xformer (0.0.22), torch2.0+, and removed the dependency on flash_attn.
  • [2023.12] We release InstructVideo that can accept human feedback signals to improve VLDM
  • [2023.12] We release the diffusion based expressive talking head generation DreamTalk
  • [2023.12] We release the high-efficiency video generation method VideoLCM
  • [2023.12] We release the code and model of I2VGen-XL and the ModelScope T2V
  • [2023.12] We release the T2V method HiGen and customizing T2V method DreamVideo.
  • [2023.12] We write an introduction document for VGen and compare I2VGen-XL with SVD.
  • [2023.11] We release a high-quality I2VGen-XL model, please refer to the Webpage

TODO

  • Release the technical papers and webpage of I2VGen-XL
  • Release the code and pretrained models that can generate 1280x720 videos
  • Release the code and models of DreamTalk that can generate expressive talking head
  • Release the code and pretrained models of HumanDiff
  • Release models optimized specifically for the human body and faces
  • Updated version can fully maintain the ID and capture large and accurate motions simultaneously
  • Release other methods and the corresponding models

Preparation

The main features of VGen are as follows:

  • Expandability, allowing for easy management of your own experiments.
  • Completeness, encompassing all common components for video generation.
  • Excellent performance, featuring powerful pre-trained models in multiple tasks.

Installation

conda create -n vgen python=3.8
conda activate vgen
pip install torch==1.12.0+cu113 torchvision==0.13.0+cu113 torchaudio==0.12.0 --extra-index-url https://download.pytorch.org/whl/cu113
pip install -r requirements.txt -i https://pypi.tuna.tsinghua.edu.cn/simple

You also need to ensure that your system has installed the ffmpeg command. If it is not installed, you can install it using the following command:

sudo apt-get update && apt-get install ffmpeg libsm6 libxext6  -y

Datasets

We have provided a demo dataset that includes images and videos, along with their lists in data.

Please note that the demo images used here are for testing purposes and were not included in the training.

Clone the code

git clone https://github.com/ali-vilab/VGen.git
cd VGen

Getting Started with VGen

(1) Train your text-to-video model

Executing the following command to enable distributed training is as easy as that.

python train_net.py --cfg configs/t2v_train.yaml

In the t2v_train.yaml configuration file, you can specify the data, adjust the video-to-image ratio using frame_lens, and validate your ideas with different Diffusion settings, and so on.

  • Before the training, you can download any of our open-source models for initialization. Our codebase supports custom initialization and grad_scale settings, all of which are included in the Pretrain item in yaml file.
  • During the training, you can view the saved models and intermediate inference results in the workspace/experiments/t2v_traindirectory.

After the training is completed, you can perform inference on the model using the following command.

python inference.py --cfg configs/t2v_infer.yaml

Then you can find the videos you generated in the workspace/experiments/test_img_01 directory. For specific configurations such as data, models, seed, etc., please refer to the t2v_infer.yaml file.

If you want to directly load our previously open-sourced Modelscope T2V model, please refer to this link.

(2) Run the I2VGen-XL model

(i) Download model and test data:

!pip install modelscope
from modelscope.hub.snapshot_download import snapshot_download
model_dir = snapshot_download('damo/I2VGen-XL', cache_dir='models/', revision='v1.0.0')

or you can also download it through HuggingFace (https://huggingface.co/damo-vilab/i2vgen-xl):

# Make sure you have git-lfs installed (https://git-lfs.com)
git lfs install
git clone https://huggingface.co/damo-vilab/i2vgen-xl

(ii) Run the following command:

python inference.py --cfg configs/i2vgen_xl_infer.yaml

or you can run:

python inference.py --cfg configs/i2vgen_xl_infer.yaml  test_list_path data/test_list_for_i2vgen.txt test_model models/i2vgen_xl_00854500.pth

The test_list_path represents the input image path and its corresponding caption. Please refer to the specific format and suggestions within demo file data/test_list_for_i2vgen.txt. test_model is the path for loading the model. In a few minutes, you can retrieve the high-definition video you wish to create from the workspace/experiments/test_list_for_i2vgen directory. At present, we find that the current model performs inadequately on anime images and images with a black background due to the lack of relevant training data. We are consistently working to optimize it.

(iii) Run the gradio app locally:

python gradio_app.py

(iv) Run the model on ModelScope and HuggingFace:

Due to the compression of our video quality in GIF format, please click 'HRER' below to view the original video.

Input Image

Click HERE to view the generated video.

Input Image

Click HERE to view the generated video.

Input Image

Click HERE to view the generated video.

Input Image

Click HERE to view the generated video.

(ii) Run the following command:

python inference.py --cfg configs/i2vgen_xl_train.yaml

In a few minutes, you can retrieve the high-definition video you wish to create from the workspace/experiments/test_img_01 directory. At present, we find that the current model performs inadequately on anime images and images with a black background due to the lack of relevant training data. We are consistently working to optimize it.

(3) Run the HiGen model

(i) Download model:

!pip install modelscope
from modelscope.hub.snapshot_download import snapshot_download
model_dir = snapshot_download('iic/HiGen', cache_dir='models/')

Then you might need the following command to move the checkpoints to the "models/" directory:

mv ./models/iic/HiGen/* ./models/

(ii) Run the following command for text-to-video generation:

python inference.py --cfg configs/higen_infer.yaml

In a few minutes, you can retrieve the videos you wish to create from the workspace/experiments/text_list_for_t2v_share directory. Then you can execute the following command to perform super-resolution on the generated videos:

python inference.py --cfg configs/sr600_infer.yaml

Finally, you can retrieve the high-definition video from the workspace/experiments/text_list_for_t2v_share directory.

Due to the compression of our video quality in GIF format, please click 'HERE' below to view the original video.

Click HERE to view the generated video.

Click HERE to view the generated video.

(4) DreamVideo

Our DreamVideo is based on fine-tuned ModelScopeT2V. Base model weights, adapter weights, and more cases will be released, so stay tuned.

Training

(i) Subject Learning

Step 1: learn a textual identity using Textual Inversion.

python train_net.py --cfg configs/dreamvideo/subjectLearning/dog2_subjectLearning_step1.yaml

Step 2: train an identity adapter by incorporating the learned textual identity.

python train_net.py --cfg configs/dreamvideo/subjectLearning/dog2_subjectLearning_step2.yaml

Tips:

  • For some subjects, setting use_mask_diffusion to True may achieve better results. Make sure to put the binary masks of the subject into the subfolder ''masks'', and you can use SAM to obtain these masks.

(ii) Motion Learning

Train a motion adapter on the given videos.

python train_net.py --cfg configs/dreamvideo/motionLearning/carTurn_motionLearning.yaml

You can customize your own configuration files for subject/motion learning.

Tips:

  • Try increasing training steps or increasing the learning rate for single video motion customization to get better results.

Inference

(i) Subject Customization

python inference.py --cfg configs/dreamvideo/infer/subject_dog2.yaml

(ii) Motion Customization

python inference.py --cfg configs/dreamvideo/infer/motion_carTurn.yaml

Tips:

  • We do not use DDIM Inversion by default. However, for single video motion customization, we encourage you to try setting inverse_noise_strength to 0~0.5 to better align the training video. For multi-video motion customization, we recommend setting inverse_noise_strength to 0.

(iii) Joint Customization

python inference.py --cfg configs/dreamvideo/infer/joint_dog2_carTurn.yaml

Tips:

  • Try changing identity_adapter_index and motion_adapter_index for better results.

(5) Run the TF-T2V (CVPR-2024) model

(i) Download model:

!pip install modelscope
from modelscope.hub.snapshot_download import snapshot_download
model_dir = snapshot_download('iic/tf-t2v', cache_dir='models/')

Then you might need the following command to move the checkpoints to the "models/" directory:

mv ./models/iic/tf-t2v/* ./models/

(ii) We provide a config file for generating 16-frame video with 448x256 resolution. The command is as follows:

python inference.py --cfg configs/tft2v_t2v_infer.yaml

(If there are environmental problems during operation, we also provide the environment configuration "tft2v_environment.yaml" of TF-T2V for your reference.)

In a few minutes, you can retrieve the videos you wish to create from the workspace/experiments/text_list_for_tft2v directory. Then you can execute the following command to perform super-resolution on the generated videos:

python inference.py --cfg configs/tft2v_16frames_sr600_infer.yaml

Finally, you can retrieve the high-definition video from the workspace/experiments/text_list_for_tft2v directory. (It should be noted that the super-resolution model only supports 32-frame input, and 16-frame video cannot be used, thus we construct a pseudo 32-frame video by copying frames.)

Due to the compression of our video quality in GIF format, please click 'HERE' below to view the original video.

Click HERE to view the generated video.

Click HERE to view the generated video.

(iii) Additionally, you can run the following command for text-to-video generation (32 frames):

python inference.py --cfg configs/tft2v_t2v_32frames_infer.yaml

In a few minutes, you can retrieve the videos you wish to create from the workspace/experiments/text_list_for_tft2v_32frame directory. Then you can execute the following command to perform super-resolution on the generated videos:

python inference.py --cfg configs/tft2v_32frames_sr600_infer.yaml

Finally, you can retrieve the high-definition video from the workspace/experiments/text_list_for_tft2v_32frame directory. (It should be noted that the super-resolution model only supports 32-frame input, and 16-frame video cannot be used.)

Due to the compression of our video quality in GIF format, please click 'HERE' below to view the original video.

Click HERE to view the generated video.

Click HERE to view the generated video.

(iv) Run the following command for compositional video generation like videocomposer (32 frames):

python inference.py --cfg configs/tft2v_vcomposer_32frames_infer.yaml

In a few minutes, you can retrieve the videos you wish to create from the workspace/experiments/vid_list_vcomposer_32frame directory. Then you can execute the following command to perform super-resolution on the generated videos:

python inference.py --cfg configs/tft2v_vcomposer_32frames_sr600_infer.yaml

Finally, you can retrieve the high-definition video from the workspace/experiments/vid_list_vcomposer_32frame directory.

Due to the compression of our video quality in GIF format, please click 'HERE' below to view the original video.

Click HERE to view the generated video.

Click HERE to view the generated video.

(v) We also provide a config file for generating 16-frame video with 448x256 resolution under the compositional video synthesis setting. The command is as follows:

python inference.py --cfg configs/tft2v_vcomposer_infer.yaml

You can also generate a 16-frame video with 896x512 resolution within one model by running:

python inference.py --cfg configs/tft2v_vcomposer_896x512_infer.yaml

It should be noted that the super-resolution model only supports 32-frame input, and 16-frame video cannot be used.

(6) Run the VideoLCM model

(i) Download models as in TF-T2V (if you have already downloaded them in TF-T2V, skip this step):

!pip install modelscope
from modelscope.hub.snapshot_download import snapshot_download
model_dir = snapshot_download('iic/tf-t2v', cache_dir='models/')

Then you might need the following command to move the checkpoints to the "models/" directory:

mv ./models/iic/tf-t2v/* ./models/

(ii) Run the following command for text-to-video generation (16 frames with 448x256 resolution):

python inference.py --cfg configs/videolcm_t2v_infer.yaml

To generate high-resolution videos (1280x720 resolution), you can run the following command:

python inference.py --cfg configs/videolcm_t2v_16frames_sr600_infer.yaml

Due to the compression of our video quality in GIF format, please click 'HERE' below to view the original video.

Click HERE to view the generated video.

Click HERE to view the generated video.

(iii) Run the following command for compositional video generation (16 frames with 448x256 resolution):

python inference.py --cfg configs/videolcm_vcomposer_infer.yaml

(7) Other methods

In preparation!!

Customize your own approach

Our codebase essentially supports all the commonly used components in video generation. You can manage your experiments flexibly by adding corresponding registration classes, including ENGINE, MODEL, DATASETS, EMBEDDER, AUTO_ENCODER, VISUAL, DIFFUSION, PRETRAIN, and can be compatible with all our open-source algorithms according to your own needs. If you have any questions, feel free to give us your feedback at any time.

BibTeX

If this repo is useful to you, please cite our corresponding technical paper.

@article{wang2023videocomposer,
  title={Videocomposer: Compositional Video Synthesis with Motion Controllability},
  author={Wang, Xiang and Yuan, Hangjie and Zhang, Shiwei and Chen, Dayou and Wang, Jiuniu and Zhang, Yingya and Shen, Yujun and Zhao, Deli and Zhou, Jingren},
  journal={NeurIPS},
  volume={36},
  year={2023}
}
@article{2023i2vgenxl,
  title={I2VGen-XL: High-Quality Image-to-Video Synthesis via Cascaded Diffusion Models},
  author={Zhang, Shiwei and Wang, Jiayu and Zhang, Yingya and Zhao, Kang and Yuan, Hangjie and Qing, Zhiwu and Wang, Xiang  and Zhao, Deli and Zhou, Jingren},
  booktitle={arXiv preprint arXiv:2311.04145},
  year={2023}
}
@article{wang2023modelscope,
  title={Modelscope text-to-video technical report},
  author={Wang, Jiuniu and Yuan, Hangjie and Chen, Dayou and Zhang, Yingya and Wang, Xiang and Zhang, Shiwei},
  journal={arXiv preprint arXiv:2308.06571},
  year={2023}
}
@inproceedings{dreamvideo,
  title={DreamVideo: Composing Your Dream Videos with Customized Subject and Motion},
  author={Wei, Yujie and Zhang, Shiwei and Qing, Zhiwu and Yuan, Hangjie and Liu, Zhiheng and Liu, Yu and Zhang, Yingya and Zhou, Jingren and Shan, Hongming},
  booktitle={CVPR},
  year={2024}
}
@inproceedings{higen,
  title={Hierarchical Spatio-temporal Decoupling for Text-to-Video Generation},
  author={Qing, Zhiwu and Zhang, Shiwei and Wang, Jiayu and Wang, Xiang and Wei, Yujie and Zhang, Yingya and Gao, Changxin and Sang, Nong },
  booktitle={CVPR},
  year={2024}
}
@article{wang2023videolcm,
  title={VideoLCM: Video Latent Consistency Model},
  author={Wang, Xiang and Zhang, Shiwei and Zhang, Han and Liu, Yu and Zhang, Yingya and Gao, Changxin and Sang, Nong },
  journal={arXiv preprint arXiv:2312.09109},
  year={2023}
}
@article{ma2023dreamtalk,
  title={DreamTalk: When Expressive Talking Head Generation Meets Diffusion Probabilistic Models},
  author={Ma, Yifeng and Zhang, Shiwei and Wang, Jiayu and Wang, Xiang and Zhang, Yingya and Deng Zhidong},
  journal={arXiv preprint arXiv:2312.09767},
  year={2023}
}
@inproceedings{InstructVideo,
  title={InstructVideo: Instructing Video Diffusion Models with Human Feedback},
  author={Yuan, Hangjie and Zhang, Shiwei and Wang, Xiang and Wei, Yujie and Feng, Tao and Pan, Yining and Zhang, Yingya and Liu, Ziwei and Albanie, Samuel and Ni, Dong},
  booktitle={CVPR},
  year={2024}
}
@inproceedings{TFT2V,
  title={A Recipe for Scaling up Text-to-Video Generation with Text-free Videos},
  author={Wang, Xiang and Zhang, Shiwei and Yuan, Hangjie and Qing, Zhiwu and Gong, Biao and Zhang, Yingya and Shen, Yujun and Gao, Changxin and Sang, Nong},
  booktitle={CVPR},
  year={2024}
}

Acknowledgement

We would like to express our gratitude for the contributions of several previous works to the development of VGen. This includes, but is not limited to Composer, ModelScopeT2V, Stable Diffusion, OpenCLIP, WebVid-10M, LAION-400M, Pidinet and MiDaS. We are committed to building upon these foundations in a way that respects their original contributions.

Disclaimer

This open-source model is trained with using WebVid-10M and LAION-400M datasets and is intended for RESEARCH/NON-COMMERCIAL USE ONLY.

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