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Equivariant Graph Hierarchy-Based Neural Networks (NeurIPS 2022)

Jiaqi Han, Wenbing Huang, Tingyang Xu, Yu Rong

License: MIT

[Paper] [Poster]

Equivariant Graph Hierarchy-Based Neural Networks (EGHNs) are novel graph networks that incorporate automatic hierarchical modeling into equivariant GNNs. The model performs promisingly on various types of complex physical/biochemical systems (e.g., proteins dynamics) by achieving lower simulation error while producing visually interpretable cluster assignments as well. Please refer to our paper for more details.

Overview

Dependencies

python==3.8.10
torch==1.8.0
torch-geometric==2.0.1
scikit-learn==0.24.2
networkx==2.5.1

You may also need mdanalysis if you want to process the protein MD data.

Data Preparation

1. Simulation dataset

Under simulation/datagen path, run the following command:

python -u generate_dataset.py --num-train 5000 --seed 43 --n_complex 5 --average_complex_size 3 --system_types 5

where n_complex is the number of complexes $M$, average_complex_size is the size of each complex in expectation, and system_types indicate the total number of system types.

2. Motion capture dataset

We provide our pre-processed dataset as well as the splits in motion/dataset folder, which can also be found in the repo of GMN.

3. Protein MD

We provide the data preprocessing code in mdanalysis/preprocess.py. One can simply run

python mdanalysis/preprocess.py

after setting the correct data path specified as the variable tmp_path in preprocess.py.

Model Training

1. Simulation dataset

sh start_simulation.sh

2. Motion capture

sh start_mocap.sh

3. Protein MD

sh start_md.sh

Evaluation

For Simulation and Motion datasets, the evaluation (validation and testing) is conducted along with training. For protein MD, we extra offer an evaluation script:

Protein MD

sh start_eval_mdanalysis.sh

Citation

Please consider citing our work if you find it useful:

@inproceedings{
han2022equivariant,
title={Equivariant Graph Hierarchy-Based Neural Networks},
author={Jiaqi Han and Wenbing Huang and Tingyang Xu and Yu Rong},
booktitle={Advances in Neural Information Processing Systems},
year={2022},
url={https://openreview.net/forum?id=ywxtmG1nU_6}
}

Contact

If you have any question, welcome to contact me at:

Jiaqi Han: alexhan99max@gmail.com

About

[NeurIPS 2022] The implementation for the paper "Equivariant Graph Hierarchy-Based Neural Networks".

openreview.net/pdf?id=ywxtmG1nU_6

Topics

hierarchical-models graph-neural-networks equivariant-network ai4science

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MIT license
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