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MedSegDiff - Pytorch

Implementation of MedSegDiff in Pytorch - SOTA medical segmentation out of Baidu using DDPM and enhanced conditioning on the feature level, with filtering of features in fourier space.

Appreciation

  • StabilityAI for the generous sponsorship, as well as my other sponsors out there

  • Isamu and Daniel for adding a training script for a skin lesion dataset!

Install

$ pip install med-seg-diff-pytorch

Usage

import torch
from med_seg_diff_pytorch import Unet, MedSegDiff

model = Unet(
    dim = 64,
    image_size = 128,
    mask_channels = 1,          # segmentation has 1 channel
    input_img_channels = 3,     # input images have 3 channels
    dim_mults = (1, 2, 4, 8)
)

diffusion = MedSegDiff(
    model,
    timesteps = 1000
).cuda()

segmented_imgs = torch.rand(8, 1, 128, 128)  # inputs are normalized from 0 to 1
input_imgs = torch.rand(8, 3, 128, 128)

loss = diffusion(segmented_imgs, input_imgs)
loss.backward()

# after a lot of training

pred = diffusion.sample(input_imgs)     # pass in your unsegmented images
pred.shape                              # predicted segmented images - (8, 3, 128, 128)

Training

Command to run

accelerate launch driver.py --mask_channels=1 --input_img_channels=3 --image_size=64 --data_path='./data' --dim=64 --epochs=100 --batch_size=1 --scale_lr --gradient_accumulation_steps=4

If you want to add in self condition where we condition with the mask we have so far, do --self_condition

Todo

  • some basic training code, with Trainer taking in custom dataset tailored for medical image formats - thanks to @isamu-isozaki
  • full blown transformer of any depth in the middle, as done in simple diffusion

Citations

@article{Wu2022MedSegDiffMI,
    title   = {MedSegDiff: Medical Image Segmentation with Diffusion Probabilistic Model},
    author  = {Junde Wu and Huihui Fang and Yu Zhang and Yehui Yang and Yanwu Xu},
    journal = {ArXiv},
    year    = {2022},
    volume  = {abs/2211.00611}
}
@inproceedings{Hoogeboom2023simpleDE,
    title   = {simple diffusion: End-to-end diffusion for high resolution images},
    author  = {Emiel Hoogeboom and Jonathan Heek and Tim Salimans},
    year    = {2023}
}