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Official Implementation of Multi-Masked Aggregators for Graph Neural Networks in Pytorch and PyTorch Geometric

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Multi-Mask Aggregators for GNNs

Implementation of Multi-Masked Aggregators for Graph Neural Networks in Pytorch and PyTorch Geometric.

PWC

One of the most critical operations in graph neural networks (GNNs) is the aggregation operation, which aims to extract information from neighbors of the target node. Several convolution methods have been proposed such as standard graph convolution (GCN), graph attention (GAT), and message passing (MPNN). In this study, we propose an aggregation method called Multi-Mask Aggregators (MMA), where the model learns a weighted mask for each aggregator before collecting neighboring messages. MMA draws similarities with the GAT and MPNN but has some theoretical and practical advantages. Intuitively, our framework is not limited by the number of heads from GAT and has more discriminative than an MPNN. The performance of MMA was compared with the well-known baseline methods in both node classification and graph regression tasks on widely-used benchmarking datasets, and it has shown improved performance.

Check out our paper below for more details

MMA: Multi-Masked Aggregators for Graph Neural Networks,
Ahmet Sarıgün, Ahmet S. Rifaioğlu, OpenReview, 2022

Overview

In node_classification folder, it contains;

  • data/: Datasets (Cora, Citeseer, Pubmed) for Node Classification
  • utils.py: Loading Dataset
  • layers.py: GCN and Multi-Masked Aggregator Layers
  • models.py: Multi-Masked Aggregators Model
  • scalers.py: Scalers for Multi Aggregators
  • train.py: Training for Node Classification

In graph_regression folder, it contains;

  • mask_aggr.py: Multi Mask Layers for each Aggreation
  • mma_conv.py: MultiMaskConv
  • mma.py: Training scripts for ZINC dataset

Requirements

  • Python 3.8
  • PyTorch 1.9
  • CUDA 11.1

Datasets

  • Node Classification: Pubmed, Citeseer, Cora.
  • Graph Regression: ZINC

Usage

Node Classification

Go to node_classification folder by:

cd node_classification/
  • For Node classification on Pubmed:
python train.py --aggregators min,min2,min3,min4 --dataset "pubmed" --lr=0.01 --epochs=500 --weight_decay=5e-4 --hidden=16 --dropout=0.5
  • For Node classification on Citeseer:
python train.py --aggregators min,min2,min3 --dataset "citeseer" --lr=0.01 --epochs=500 --weight_decay=3e-4 --hidden=128 --dropout=0.5
  • For Node classification on Cora:
python train.py --aggregators mean,mean2 --dataset "cora" --lr=0.001 --epochs=200 --weight_decay=3e-4 --hidden=64 --dropout=0.75

Graph Regression

Go to graph_regression folder and run:

cd graph_regression/
python mma.py --aggregators min,max --weight_decay 3e-4 --scalers identity,amplification,linear --lr 0.0001 --epochs 10000

License

MIT

Citation

@inproceedings{sar{\i}g{\"u}n2022multimask,
  title={Multi-Mask Aggregators for Graph Neural Networks},
  author={Ahmet Sar{\i}g{\"u}n and Ahmet Sureyya Rifaioglu},
  booktitle={Learning on Graphs Conference},
  year={2022},
  url={https://openreview.net/forum?id=hZ3b8CskgC}
}

References

In each file, we indicate whether a function or script is imported from another source. Here are some excellent sources from which we benefit: