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Using Multiple Vector Channels Improves E(n)-Equivariant Graph Neural Networks

09/06/2023

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by Daniel Lévy, et al.

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We present a natural extension to E(n)-equivariant graph neural networks that uses multiple equivariant vectors per node. We formulate the extension and show that it improves performance across different physical systems benchmark tasks, with minimal differences in runtime or number of parameters. The proposed multichannel EGNN outperforms the standard singlechannel EGNN on N-body charged particle dynamics, molecular property predictions, and predicting the trajectories of solar system bodies. Given the additional benefits and minimal additional cost of multi-channel EGNN, we suggest that this extension may be of practical use to researchers working in machine learning for the physical sciences

Daniel Lévy
12 publications
Sékou-Oumar Kaba
4 publications
Carmelo Gonzales
3 publications
Santiago Miret
14 publications
Siamak Ravanbakhsh
31 publications

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