Convolutional Networks on Graphs for Learning Molecular Fingerprints
About
We introduce a convolutional neural network that operates directly on graphs. These networks allow end-to-end learning of prediction pipelines whose inputs are graphs of arbitrary size and shape. The architecture we present generalizes standard molecular feature extraction methods based on circular fingerprints. We show that these data-driven features are more interpretable, and have better predictive performance on a variety of tasks.
David Duvenaud, Dougal Maclaurin, Jorge Aguilera-Iparraguirre, Rafael G\'omez-Bombarelli, Timothy Hirzel, Al\'an Aspuru-Guzik, Ryan P. Adams• 2015
Related benchmarks
| Task | Dataset | Result | Rank | |
|---|---|---|---|---|
| Node Classification | Pubmed | Accuracy76 | 865 | |
| Graph Classification | MUTAG (10-fold cross-validation) | Accuracy78 | 227 | |
| Graph Classification | PROTEINS (10-fold cross-validation) | Accuracy60 | 223 | |
| Molecular property prediction | MUV (test) | ROC-AUC79.8 | 93 | |
| Node Classification | Cora 3% label rate | Accuracy71.7 | 66 | |
| Node Classification | Cora (0.5% label rate) | Accuracy0.505 | 56 | |
| Node Classification | Cora 1% label rate | Accuracy59.6 | 56 | |
| Node Classification | CiteSeer 0.5% label rate | Accuracy43.9 | 45 | |
| Node Classification | CiteSeer 1% label rate | Accuracy54.3 | 45 | |
| molecule property prediction | HIV MoleculeNet (test) | AUROC81.2 | 40 |
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