FSGNN

Implementation of FSGNN. For more details, please refer to our paper Experiments were conducted with following setup:
Pytorch: 1.6.0
Python: 3.8.5
Cuda: 10.2.89 Trained on NVIDIA V100 GPU.

Summary of results

Dataset	3-hop Accuracy(%)	8-hop Accuracy(%)	16-hop Accuracy(%)	32-hop Accuracy(%)
Cora	87.73	87.93	87.91	87.83
Citeseer	77.19	77.40	77.46	77.46
Pubmed	89.73	89.75	89.60	89.63
Chameleon	78.14	78.27	78.36	78.53
Wisconsin	88.43	87.84	88.04	88.24
Texas	87.30	87.30	86.76	86.76
Cornell	87.03	87.84	86.76	88.11
Squirrel	73.48	74.10	73.95	74.15
Actor	35.67	35.75	35.25	35.22
Actor(no-norm)	37.63	37.75	37.67	37.62

To run node classification on different hops:

3-hop : ./run_classification_3_hop.sh

8-hop : ./run_classification_8_hop.sh

16-hop : ./run_classification_16_hop.sh

32-hop : ./run_classification_32_hop.sh

In addition, we include model accuracy of Actor dataset without using hop-normalization, as model shows higher accuracy in this setting.

Some more interesting results coming soon!

ogbn-papers100M (large-scale dataset)

Improved model than mentioned in paper with extra FC layer. Please run python process_large.py in folder named large_data first to create data splits.

Then run ./run_ogbn_papers.sh to train the model.

Accuracy shown below is average over five runs with random seeds 0-4.

Dataset	4-hop Accuracy (%)
ogbn-papers100M	68.07

(Results may vary slightly with a different platform, e.g. use of different GPU. In such case, for best performance, some hyperparameter search may be required. Please refer to PyTorch documentation for more details.)

Datasets and parts of preprocessing code were taken from Geom-GCN and GCNII repositories. We thank the authors of these papers for sharing their code.

Implementation of FSGNN

Related tags

Overview

FSGNN

Owner

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