FastVideo is a lightweight framework for accelerating large video diffusion models.

FastMochi-Demo.mp4

🤗 FastMochi | 🤗 FastHunyuan | 🎮 Discord | 🕹️ Replicate

FastVideo currently offers: (with more to come)

• FastHunyuan and FastMochi: consistency distilled video diffusion models for 8x inference speedup.
• First open distillation recipes for video DiT, based on PCM.
• Support distilling/finetuning/inferencing state-of-the-art open video DiTs: 1. Mochi 2. Hunyuan.
• Scalable training with FSDP, sequence parallelism, and selective activation checkpointing, with near linear scaling to 64 GPUs.
• Memory efficient finetuning with LoRA, precomputed latent, and precomputed text embeddings.

Dev in progress and highly experimental.

🎥 More Demos

Fast-Hunyuan comparison with original Hunyuan, achieving an 8X diffusion speed boost with the FastVideo framework.

FastHunyuan-Demo.mp4

Comparison between OpenAI Sora, original Hunyuan and FastHunyuan

sora-verse-fasthunyuan.mp4.mp4

Comparison between original FastHunyuan, LLM-INT8 quantized FastHunyuan and NF4 quantized FastHunyuan

Quantization-Compare.mp4

Change Log

• 2024/12/25: Enable single 4090 inference for FastHunyuan, please rerun the installation steps to update the environment.
• 2024/12/17: FastVideo v1.0 is released.

🔧 Installation

The code is tested on Python 3.10.0, CUDA 12.1 and H100.

./env_setup.sh fastvideo

🚀 Inference

Inference FastHunyuan on single RTX4090

We now support NF4 and LLM-INT8 quantized inference using BitsAndBytes for FastHunyuan. With NF4 quantization, inference can be performed on a single RTX 4090 GPU, requiring just 20GB of VRAM.

# Download the model weight
python scripts/huggingface/download_hf.py --repo_id=FastVideo/FastHunyuan-diffusers --local_dir=data/FastHunyuan-diffusers --repo_type=model
# CLI inference
bash scripts/inference/inference_diffusers_hunyuan.sh

For more information about the VRAM requirements for BitsAndBytes quantization, please refer to the table below (timing measured on an H100 GPU):

Configuration	Memory to Init Transformer	Peak Memory After Init Pipeline (Denoise)	Diffusion Time	End-to-End Time
BF16 + Pipeline CPU Offload	23.883G	33.744G	81s	121.5s
INT8 + Pipeline CPU Offload	13.911G	27.979G	88s	116.7s
NF4 + Pipeline CPU Offload	9.453G	19.26G	78s	114.5s

For improved quality in generated videos, we recommend using a GPU with 80GB of memory to run the BF16 model with the original Hunyuan pipeline. To execute the inference, use the following section:

FastHunyuan

# Download the model weight
python scripts/huggingface/download_hf.py --repo_id=FastVideo/FastHunyuan --local_dir=data/FastHunyuan --repo_type=model
# CLI inference
bash scripts/inference/inference_hunyuan.sh

You can also inference FastHunyuan in the official Hunyuan github.

FastMochi

# Download the model weight
python scripts/huggingface/download_hf.py --repo_id=FastVideo/FastMochi-diffusers --local_dir=data/FastMochi-diffusers --repo_type=model
# CLI inference
bash scripts/inference/inference_mochi_sp.sh

🎯 Distill

Our distillation recipe is based on Phased Consistency Model. We did not find significant improvement using multi-phase distillation, so we keep the one phase setup similar to the original latent consistency model's recipe. We use the MixKit dataset for distillation. To avoid running the text encoder and VAE during training, we preprocess all data to generate text embeddings and VAE latents. Preprocessing instructions can be found data_preprocess.md. For convenience, we also provide preprocessed data that can be downloaded directly using the following command:

python scripts/huggingface/download_hf.py --repo_id=FastVideo/HD-Mixkit-Finetune-Hunyuan --local_dir=data/HD-Mixkit-Finetune-Hunyuan --repo_type=dataset

Next, download the original model weights with:

python scripts/huggingface/download_hf.py --repo_id=genmo/mochi-1-preview --local_dir=data/mochi --repo_type=model # original mochi
python scripts/huggingface/download_hf.py --repo_id=FastVideo/hunyuan --local_dir=data/hunyuan --repo_type=model # original hunyuan

To launch the distillation process, use the following commands:

bash scripts/distill/distill_mochi.sh # for mochi
bash scripts/distill/distill_hunyuan.sh # for hunyuan

We also provide an optional script for distillation with adversarial loss, located at fastvideo/distill_adv.py. Although we tried adversarial loss, we did not observe significant improvements.

Finetune

⚡ Full Finetune

Ensure your data is prepared and preprocessed in the format specified in data_preprocess.md. For convenience, we also provide a mochi preprocessed Black Myth Wukong data that can be downloaded directly:

python scripts/huggingface/download_hf.py --repo_id=FastVideo/Mochi-Black-Myth --local_dir=data/Mochi-Black-Myth --repo_type=dataset

Download the original model weights as specified in Distill Section:

Then you can run the finetune with:

bash scripts/finetune/finetune_mochi.sh # for mochi

Note that for finetuning, we did not tune the hyperparameters in the provided script

⚡ Lora Finetune

Currently, we only provide Lora Finetune for Mochi model, the command for Lora Finetune is

bash scripts/finetune/finetune_mochi_lora.sh

Minimum Hardware Requirement

• 40 GB GPU memory each for 2 GPUs with lora
• 30 GB GPU memory each for 2 GPUs with CPU offload and lora.

Finetune with Both Image and Video

Our codebase support finetuning with both image and video.

bash scripts/finetune/finetune_hunyuan.sh
bash scripts/finetune/finetune_mochi_lora_mix.sh

For Image-Video Mixture Fine-tuning, make sure to enable the --group_frame option in your script.

📑 Development Plan

• More distillation methods
  • Add Distribution Matching Distillation
• More models support
  • Add CogvideoX model
• Code update
  • fp8 support
  • faster load model and save model support

Contributing

We welcome all contributions. Please run bash format.sh before submitting a pull request.

Acknowledgement

We learned and reused code from the following projects: PCM, diffusers, OpenSoraPlan, and xDiT.

We thank MBZUAI and Anyscale for their support throughout this project.