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Official implementation of ⚡ Flash Diffusion ⚡: Accelerating Any Conditional Diffusion Model for Few Steps Image Generation

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⚡ Flash Diffusion ⚡

This repository is the official implementation of the paper Flash Diffusion: Accelerating Any Conditional Diffusion Model for Few Steps Image Generation.



Images generated using 4 NFEs

In this paper, we propose an efficient, fast, versatile and LoRA-compatible distillation method to accelerate the generation of pre-trained diffusion models: Flash Diffusion. The method reaches state-of-the-art performances in terms of FID and CLIP-Score for few steps image generation on the COCO 2014 and COCO 2017 datasets, while requiring only several GPU hours of training and fewer trainable parameters than existing methods. In addition to its efficiency, the versatility of the method is also exposed across several tasks such as text-to-image, inpainting, face-swapping, super-resolution and using different diffusion models backbones either using a UNet-based denoisers (SD1.5, SDXL) or DiT (Pixart-α), as well as adapters. In all cases, the method allowed to reduce drastically the number of sampling steps while maintaining very high-quality image generation.

Quick access

Method

Our method aims to create a fast, reliable, and adaptable approach for various uses. We propose to train a student model to predict in a single step a denoised multiple-step teacher prediction of a corrupted input sample. Additionally, we sample timesteps from an adaptable distribution that shifts during training to help the student model target specific timesteps.

Results

Flash Diffusion is compatible with various backbones such as

It can also be used to accelerate existing LoRAs in a training-free manner. See this section to know more.

Varying backbones for Text-to-image

Flash Stable Diffusion 3 (MMDiT)

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Flash SDXL (UNet)

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Flash Pixart (DiT)

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Flash SD

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Varying Use-cases

Image-inpainting

Image-upscaling

Face-swapping

T2I-Adapters

Training Free LoRA Acceleration

SDXL LoRAs

Images generated using 4 NFEs

Setup

To be up and running, you need first to create a virtual env with at least python3.10 installed and activate it

With venv

python3.10 -m venv envs/flash_diffusion
source envs/flash_diffusion/bin/activate

With conda

conda create -n flash_diffusion python=3.10
conda activate flash_diffusion

Then install the required dependencies (if on GPU) and the repo in editable mode

pip install --upgrade pip
pip install -r requirements.txt
pip install -e .

Distilling existing T2I models

The main scripts to reproduce the main experiments of the paper are located in the examples. We provide 4 diffirent scripts:

In examples\configs, you will find the configuration yaml associated to each script. The only thing you need is to amend the SHARDS_PATH_OR_URLS section of the yaml so the model is trained on your own data. Please note that this package uses webdataset to handle the datastream and so the urls you use should be fomatted according to the webdataset format. In particular, for those 4 examples, each sample needs to be composed of a jpg file containing the image and a json file containing the caption under the key caption and the image aesthetics score aesthetic_score:

sample = {
    "jpg": dummy_image,
    "json": {
        "caption": "dummy caption",
        "aesthetic_score": 6.0
    }
}

The scripts can then be launched by simply runing

# Set the number of gpus & nodes you want to use
export SLURM_NPROCS=1
export SLURM_NNODES=1

# Distills SD1.5
python3.10 examples/train_flash_sd.py

# Distills SDXL1.0
python3.10 examples/train_flash_sdxl.py

# Distills Pixart-α
python3.10 examples/train_flash_pixart.py

# Distills T2I Canny adapter
python3.10 examples/train_flash_canny_adapter.py

Example of a distillation training with a custom conditional diffusion model

This package is also intended to support custom model distillation.

from copy import deepcopy
from flash.models.unets import DiffusersUNet2DCondWrapper
from flash.models.vae import AutoencoderKLDiffusers, AutoencoderKLDiffusersConfig
from flash.models.embedders import (
    ClipEmbedder,
    ClipEmbedderConfig,
    ClipEmbedderWithProjection,
    ConditionerWrapper,
)

# Create the VAE
vae_config = AutoencoderKLDiffusersConfig(
	"stabilityai/sdxl-vae" # VAE for HF Hub
) 
vae = AutoencoderKLDiffusers(config=vae_config)

## Create the Conditioners ##
# A Clip conditioner returning 2 types of conditioning
embedder_1_config = ClipEmbedderConfig(
    version="stabilityai/stable-diffusion-xl-base-1.0", # from HF Hub
    text_embedder_subfolder="text_encoder_2",
    tokenizer_subfolder="tokenizer_2",
    input_key="text",
    always_return_pooled=True, # Return a 1-dimensional tensor
)
embeddder_1 = ClipEmbedder(config=embedder_1_config)

# Embedder acting on a lr image injected in the UNET via concatenation
embedder_2_config = TorchNNEmbedderConfig(
    nn_modules=["torch.nn.Conv2d"],
    nn_modules_kwargs=[
       dict(
          in_channels=3,
	  out_channels=6,
          kernel_size=3,
          padding=1,
          stride=2,
       ),
    ],
    input_key="downsampled_image",
    unconditional_conditioning_rate=request.param,
)
embedder_2 = TorchNNEmbedder(config=embedder_2_config)

conditioner_wrapper = ConditionerWrapper(
    conditioners=[embedder1, embedder2]
)

# Create the Teacher denoiser
unet = DiffusersUNet2DCondWrapper(
    in_channels=4 + 6,  # VAE channels + concat conditioning
    out_channels=4,  # VAE channels
    cross_attention_dim=1280,  # cross-attention conditioning
    projection_class_embeddings_input_dim=1280,  # add conditioning
    class_embed_type="projection",
)

# Load the teacher weights
...

# Create the student denoiser
student_denoiser = deepcopy(teacher_denoiser)

Inference with a Hugging Face pipeline 🤗

import torch
from diffusers import PixArtAlphaPipeline, Transformer2DModel, LCMScheduler
from peft import PeftModel

# Load LoRA
transformer = Transformer2DModel.from_pretrained(
    "PixArt-alpha/PixArt-XL-2-1024-MS",
    subfolder="transformer",
    torch_dtype=torch.float16
)
transformer = PeftModel.from_pretrained(
    transformer,
    "jasperai/flash-pixart"
)

# Pipeline
pipe = PixArtAlphaPipeline.from_pretrained(
    "PixArt-alpha/PixArt-XL-2-1024-MS",
    transformer=transformer,
    torch_dtype=torch.float16
)

# Scheduler
pipe.scheduler = LCMScheduler.from_pretrained(
    "PixArt-alpha/PixArt-XL-2-1024-MS",
    subfolder="scheduler",
    timestep_spacing="trailing",
)

pipe.to("cuda")

prompt = "A raccoon reading a book in a lush forest."

image = pipe(prompt, num_inference_steps=4, guidance_scale=0).images[0]

Using Flash in ComfyUI

To use FlashSDXL locally using Comfyui you need to :

  1. Make sure your comfyUI install is up to date
  2. Download the checkpoint from huggingface. In case you wonder how, go to "Files and Version" go to comfy folder and hit the download button next to the FlashSDXL.safetensors
  3. Move the new checkpoint file to your local comfyUI/models/loras/. folder Use it as a LoRA on top of sd_xl_base_1.0_0.9vae.safetensors, a simple comfyui workflow.json is provided in this repo inc examples/comfy

Disclaimer : Model has been trained to work with a cfg scale of 1 and a lcm scheduler but parameters can be tweaked a bit.

Combining Flash Diffusion with Existing LoRAs 🎨

Flash Diffusion models can also be combined with existing LoRAs to unlock few steps generation in a training free manner. They can be integrated straight to Hugging Face pipelines. See an example below.

from diffusers import DiffusionPipeline, LCMScheduler
import torch

user_lora_id = "TheLastBen/Papercut_SDXL"
trigger_word = "papercut"

flash_lora_id = "jasperai/flash-sdxl"

# Load Pipeline
pipe = DiffusionPipeline.from_pretrained(
    "stabilityai/stable-diffusion-xl-base-1.0",
    variant="fp16"
)

# Set scheduler
pipe.scheduler = LCMScheduler.from_config(
    pipe.scheduler.config
)

# Load LoRAs
pipe.load_lora_weights(flash_lora_id, adapter_name="flash")
pipe.load_lora_weights(user_lora_id, adapter_name="lora")

pipe.set_adapters(["flash", "lora"], adapter_weights=[1.0, 1.0])
pipe.to(device="cuda", dtype=torch.float16)

prompt = f"{trigger_word} a cute corgi"

image = pipe(
    prompt,
    num_inference_steps=4,
    guidance_scale=0
).images[0]

License

This code is released under the Creative Commons BY-NC 4.0 license.

Citation

If you find this work useful or use it in your research, please consider citing us

@misc{chadebec2024flash,
      title={Flash Diffusion: Accelerating Any Conditional Diffusion Model for Few Steps Image Generation}, 
      author={Clement Chadebec and Onur Tasar and Eyal Benaroche and Benjamin Aubin},
      year={2024},
      eprint={2406.02347},
      archivePrefix={arXiv},
      primaryClass={cs.CV}
}