Skip to content

Official implementation of "ViewCrafter: Taming Video Diffusion Models for High-fidelity Novel View Synthesis"

License

Notifications You must be signed in to change notification settings

Drexubery/ViewCrafter

Repository files navigation

ViewCrafter: Taming Video Diffusion Models for High-fidelity Novel View Synthesis

🤗 If you find ViewCrafter useful, please help ⭐ this repo, which is important to Open-Source projects. Thanks!

🔆 Introduction

  • [2024-11-6]: Add a simple evaluation script for single-view novel view synthesis.
  • [2024-10-15]: 🔥🔥 Release the code for sparse-view novel view synthesis.
  • [2024-09-01]: Launch the project page and update the arXiv preprint.
  • [2024-09-01]: Release pretrained models and the code for single-view novel view synthesis.

ViewCrafter can generate high-fidelity novel views from a single or sparse reference image, while also supporting highly precise pose control. Below shows some examples:

Zero-shot novel view synthesis (single view)

Reference image Camera trajecotry Generated novel view video

Zero-shot novel view synthesis (two views)

Reference image 1 Reference image 2 Generated novel view video

🧰 Models

Model Resolution Frames GPU Mem. & Inference Time (tested on a 40G A100, ddim 50 steps) Checkpoint Description
ViewCrafter_25 576x1024 25 23.5GB & 120s (perframe_ae=True) Hugging Face Used for single view NVS, can also adapt to sparse view NVS
ViewCrafter_25_sparse 576x1024 25 23.5GB & 120s (perframe_ae=True) Hugging Face Used for sparse view NVS
ViewCrafter_16 576x1024 16 18.3GB & 75s (perframe_ae=True) Hugging Face 16 frames model, used for ablation
ViewCrafter_25_512 320x512 25 13.8GB & 50s (perframe_ae=True) Hugging Face 512 resolution model, used for ablation

⚙️ Setup

1. Clone ViewCrafter

git clone https://github.com/Drexubery/ViewCrafter.git
cd ViewCrafter

2. Installation

# Create conda environment
conda create -n viewcrafter python=3.9.16
conda activate viewcrafter
pip install -r requirements.txt

# Install PyTorch3D
conda install https://anaconda.org/pytorch3d/pytorch3d/0.7.5/download/linux-64/pytorch3d-0.7.5-py39_cu117_pyt1131.tar.bz2

# Download pretrained DUSt3R model
mkdir -p checkpoints/
wget https://download.europe.naverlabs.com/ComputerVision/DUSt3R/DUSt3R_ViTLarge_BaseDecoder_512_dpt.pth -P checkpoints/

Note

If you use a high PyTorch version (like torch 2.4), it may cause CUDA OOM error. Please refer to these issues for solutions.

💫 Inference

1. Command line

Single view novel view synthesis

(1) Download pretrained ViewCrafter_25 and put the model.ckpt in checkpoints/model.ckpt.
(2) Run inference.py using the following script. Please refer to the configuration document and render document to set up inference parameters and camera trajectory.

  sh run.sh

Sparse view novel view synthesis

(1) Download pretrained ViewCrafter_25_sparse and put the model_sparse.ckpt in checkpoints/model_sparse.ckpt. (ViewCrafter_25_sparse is specifically trained for the sparse view NVS task and performs better than ViewCrafter_25 on this task)
(2) Run inference.py using the following script. Adjust the --bg_trd parameter to clean the point cloud; higher values will produce a cleaner point cloud but may create holes in the background.

  sh run_sparse.sh

2. Local Gradio demo

Download pretrained ViewCrafter_25 and put the model.ckpt in checkpoints/model.ckpt, then run:

  python gradio_app.py 

📈 Evaluation

We provide a demo script to evaluate single-view novel view synthesis:

  sh run_eval.sh

The input should be a folder containing frames from your test video. We use the first frame as the reference image and the subsequent frames as target novel views.

😉 Citation

Please consider citing our paper if our code is useful:

  @article{yu2024viewcrafter,
    title={ViewCrafter: Taming Video Diffusion Models for High-fidelity Novel View Synthesis},
    author={Yu, Wangbo and Xing, Jinbo and Yuan, Li and Hu, Wenbo and Li, Xiaoyu and Huang, Zhipeng and Gao, Xiangjun and Wong, Tien-Tsin and Shan, Ying and Tian, Yonghong},
    journal={arXiv preprint arXiv:2409.02048},
    year={2024}
  }

📢 Disclaimer

⚠️This is an open-source research exploration rather than a commercial product, so it may not meet all your expectations. Due to the variability of the video diffusion model, you may encounter failure cases. Try using different seeds and adjusting the render configs if the results are not desirable. Users are free to create videos using this tool, but they must comply with local laws and use it responsibly. The developers do not assume any responsibility for potential misuse.


About

Official implementation of "ViewCrafter: Taming Video Diffusion Models for High-fidelity Novel View Synthesis"

Resources

License

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published