A new perspective on building efficient and expressive 3D equivariant graph neural networks

Du, Weitao, Du, Yuanqi, Wang, Limei, Feng, Dieqiao, Wang, Guifeng, Ji, Shuiwang, Gomes, Carla, Ma, Zhi-Ming

arXiv.org Artificial Intelligence 

Geometric deep learning enables the encoding of physical symmetries in modeling 3D objects. Despite rapid progress in encoding 3D symmetries into Graph Neural Networks (GNNs), a comprehensive evaluation of the expressiveness of these networks through a local-to-global analysis lacks today. In this paper, we propose a local hierarchy of 3D isomorphism to evaluate the expressive power of equivariant GNNs and investigate the process of representing global geometric information from local patches. Our work leads to two crucial modules for designing expressive and efficient geometric GNNs; namely local substructure encoding (LSE) and frame transition encoding (FTE). To demonstrate the applicability of our theory, we propose LEFTNet which effectively implements these modules and achieves state-of-the-art performance on both scalar-valued and vector-valued molecular property prediction tasks.

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