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PyTorch Connectomics

Introduction

The field of connectomics aims to reconstruct the wiring diagram of the brain by mapping the neural connections at the level of individual synapses. Recent advances in electronic microscopy (EM) have enabled the collection of a large number of image stacks at nanometer resolution, but the annotation requires expertise and is super time-consuming. Here we provide a deep learning framework powered by PyTorch for automatic and semi-automatic data annotation in connectomics. This repository is actively under development by Visual Computing Group (VCG) at Harvard University.

Key Features

  • Multitask Learning
  • Active Learning
  • CPU and GPU Parallelism

If you want new features that are relatively easy to implement (e.g., loss functions, models), please open a feature requirement discussion in issues or implement by yourself and submit a pull request. For other features that requires substantial amount of design and coding, please contact the author directly.

Environment

The code is developed and tested under the following configurations.

  • Hardware: 1-8 Nvidia GPUs (with at least 12G GPU memories) (change SYSTEM.NUM_GPU accordingly)
  • Software: CentOS Linux 7.4 (Core), CUDA>=9.0, Python>=3.7, PyTorch>=1.4.0

Installation

Create a new conda environment:

conda create -n py3_torch python=3.7
source activate py3_torch
conda install pytorch torchvision cudatoolkit=9.2 -c pytorch

Please note that this package is developed on the Harvard FASRC cluster, where the current version of the Nvidia driver installed is 396.26 that supports Cuda version 9. More information about GPU computing on the FASRC cluster can be found here.

Download and install the package:

git clone git@github.com:zudi-lin/pytorch_connectomics.git
cd pytorch_connectomics
pip install -r requirements.txt
pip install --editable .

For more information and frequently asked questions about installation, please check the installation guide. If you meet compilation errors, please check TROUBLESHOOTING.md.

Visualization

Training

  • Visualize the training loss and validation images using tensorboardX.
  • Use TensorBoard with tensorboard --logdir runs (needs to install TensorFlow).

Test

  • Visualize the affinity graph and segmentation using Neuroglancer.

Notes

Data Augmentation

We provide a data augmentation interface several different kinds of commonly used augmentation method for EM images. The interface is pure-python, and operate on and output only numpy arrays, so it can be easily incorporated into any kinds of python-based deep learning frameworks (e.g., TensorFlow). For more details about the design of the data augmentation module, please check the documentation.

Model Zoo

We provide several encoder-decoder architectures, which can be found here. Those models can be applied to any kinds of semantic segmentation tasks of 3D image stacks. We also provide benchmark results on SNEMI3D neuron segmentation challenges here with detailed training specifications for users to reproduce.

Syncronized Batch Normalization on PyTorch

Previous works have suggested that a reasonable large batch size can improve the performance of detection and segmentation models. Here we use a syncronized batch normalization module that computes the mean and standard-deviation across all devices during training. Please refer to Synchronized-BatchNorm-PyTorch for details. The implementation is pure-python, and uses unbiased variance to update the moving average, and use sqrt(max(var, eps)) instead of sqrt(var + eps).

Acknowledgement

This project is built upon numerous previous projects. Especially, we'd like to thank the contributors of the following github repositories:

License

This project is licensed under the MIT License - see the LICENSE file for details.

Citation

If you find PyTorch Connectomics useful in your research, please cite:

@misc{lin2019pytorchconnectomics,
  author =       {Zudi Lin and Donglai Wei},
  title =        {PyTorch Connectomics},
  howpublished = {\url{https://github.com/zudi-lin/pytorch_connectomics}},
  year =         {2019}
}

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PyTorch Connectomics: segmentation toolbox for EM connectomics

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