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README

HCP-Diffusion V2

PyPI GitHub stars GitHub license codecov open issues

📘中文说明

📘English document 📘中文文档

Old HCP-Diffusion V1 at main branch

Introduction

HCP-Diffusion is a Diffusion model toolbox built on top of the 🐱 RainbowNeko Engine.
It features a clean code structure and a flexible Python-based configuration file, making it easier to conduct and manage complex experiments. It includes a wide variety of training components, and compared to existing frameworks, it's more extensible, flexible, and user-friendly.

HCP-Diffusion allows you to use a single .py config file to unify training workflows across popular methods and model architectures, including Prompt-tuning (Textual Inversion), DreamArtist, Fine-tuning, DreamBooth, LoRA, ControlNet, ....
Different techniques can also be freely combined.

This framework also implements DreamArtist++, an upgraded version of DreamArtist based on LoRA. It enables high generalization and controllability with just a single image for training.
Compared to the original DreamArtist, it offers better stability, image quality, controllability, and faster training.


Installation

Install pytorch

Install via pip:

pip install hcpdiff
# Initialize configuration
hcpinit

Install from source:

git clone https://github.com/7eu7d7/HCP-Diffusion.git
cd HCP-Diffusion
pip install -e .
# Initialize configuration
hcpinit

Use xFormers to reduce memory usage and accelerate training:

# Choose the appropriate xformers version for your PyTorch version
pip install xformers==?

🚀 Python Configuration Files

RainbowNeko Engine supports configuration files written in a Python-like syntax. This allows users to call functions and classes directly within the configuration file, with function parameters inheritable from parent configuration files. The framework automatically handles the formatting of these configuration files.

For example, consider the following configuration file:

dict(
    layer=Linear(in_features=4, out_features=4)
)

During parsing, this will be automatically compiled into:

dict(
    layer=dict(_target_=Linear, in_features=4, out_features=4)
)

After parsing, the framework will instantiate the components accordingly. This means users can write configuration files using familiar Python syntax.


✨ Features

Features

📦 Model Support

Model Name Status
Stable Diffusion 1.5 ✅ Supported
Stable Diffusion XL (SDXL) ✅ Supported
PixArt ✅ Supported
FLUX ✅ Supported
Stable Diffusion 3 (SD3) 🚧 In Development

🧠 Fine-Tuning Capabilities

Feature Description/Support
LoRA Layer-wise Configuration ✅ Supported (including Conv2d)
Layer-wise Fine-Tuning ✅ Supported
Multi-token Prompt-Tuning ✅ Supported
Layer-wise Model Merging ✅ Supported
Custom Optimizers ✅ Supported (Lion, DAdaptation, pytorch-optimizer, etc.)
Custom LR Schedulers ✅ Supported

🧩 Extension Method Support

Method Status
ControlNet (including training) ✅ Supported
DreamArtist / DreamArtist++ ✅ Supported
Token Attention Adjustment ✅ Supported
Max Sentence Length Extension ✅ Supported
Textual Inversion (Custom Tokens) ✅ Supported
CLIP Skip ✅ Supported

🚀 Training Acceleration

Tool/Library Supported Modules
🤗 Accelerate ✅ Supported
Colossal-AI ✅ Supported
xFormers ✅ Supported (UNet and text encoder)

🗂 Dataset Support

Feature Description
Aspect Ratio Bucket (ARB) ✅ Auto-clustering supported
Multi-source / Multi-dataset ✅ Supported
LMDB ✅ Supported
webdataset ✅ Supported
Local Attention Enhancement ✅ Supported
Tag Shuffling & Dropout ✅ Multiple tag editing strategies

📉 Supported Loss Functions

Loss Type Description
Min-SNR ✅ Supported
SSIM ✅ Supported
GWLoss ✅ Supported

🌫 Supported Diffusion Strategies

Strategy Type Status
DDPM ✅ Supported
EDM ✅ Supported
Flow Matching ✅ Supported

🧠 Automatic Evaluation (Step Selection Assistant)

Feature Description/Status
Image Preview ✅ Supported (workflow preview)
FID 🚧 In Development
CLIP Score 🚧 In Development
CCIP Score 🚧 In Development
Corrupt Score 🚧 In Development

⚡️ Image Generation

功能 描述/支持情况
Batch Generation ✅ Supported
Generate from Prompt Dataset ✅ Supported
Image to Image ✅ Supported
Inpaint ✅ Supported
Token Weight ✅ Supported

Getting Started

Training

HCP-Diffusion provides training scripts based on 🤗 Accelerate.

# Multi-GPU training, configure GPUs in cfgs/launcher/multi.yaml
hcp_train --cfg cfgs/train/py/your_config.py

# Single-GPU training, configure GPU in cfgs/launcher/single.yaml
hcp_train_1gpu --cfg cfgs/train/py/your_config.py

You can also override config items via command line:

# Override base model path
hcp_train --cfg cfgs/train/py/your_config.py model.wrapper.models.ckpt_path=pretrained_model_path

Image Generation

Use the workflow defined in the Python config to generate images:

hcp_run --cfg cfgs/workflow/text2img.py

Or override parameters via command line:

hcp_run --cfg cfgs/workflow/text2img_cli.py \
    pretrained_model=pretrained_model_path \
    prompt='positive_prompt' \
    negative_prompt='negative_prompt' \
    seed=42

📚 Tutorials


Contributing

We welcome contributions to support more models and features.


Team

Maintained by HCP-Lab at Sun Yat-sen University.


Citation

@article{DBLP:journals/corr/abs-2211-11337,
  author    = {Ziyi Dong and
               Pengxu Wei and
               Liang Lin},
  title     = {DreamArtist: Towards Controllable One-Shot Text-to-Image Generation
               via Positive-Negative Prompt-Tuning},
  journal   = {CoRR},
  volume    = {abs/2211.11337},
  year      = {2022},
  doi       = {10.48550/arXiv.2211.11337},
  eprinttype = {arXiv},
  eprint    = {2211.11337},
}

Core symbols most depended-on inside this repo

Shape

Method 574
Function 182
Class 158

Languages

Python100%

Modules by API surface

hcpdiff/workflow/diffusion.py39 symbols
hcpdiff/models/lora_layers_patch.py35 symbols
hcpdiff/models/lora_base_patch.py33 symbols
hcpdiff/models/lora_layers.py32 symbols
hcpdiff/models/lora_base.py27 symbols
hcpdiff/diffusion/sampler/sigma_scheduler/base.py24 symbols
hcpdiff/models/wrapper/sd.py23 symbols
hcpdiff/diffusion/sampler/base.py23 symbols
hcpdiff/utils/utils.py22 symbols
hcpdiff/utils/net_utils.py21 symbols
hcpdiff/data/handler/text.py21 symbols
hcpdiff/models/compose/compose_hook.py17 symbols

For agents

$ claude mcp add HCP-Diffusion \
  -- python -m otcore.mcp_server <graph>

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