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AlphaNet: Scaling Up Local-frame-based Atomistic Interatomic Potential

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arxiv 2501.07155 v4 pith:NGWEI5J4 submitted 2025-01-13 cs.LG

AlphaNet: Scaling Up Local-frame-based Atomistic Interatomic Potential

classification cs.LG
keywords alphanetinteratomicaccuracycatalysismoleculardiscoverydynamicsefficiency
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Molecular dynamics simulations demand an unprecedented combination of accuracy and scalability to tackle grand challenges in catalysis and materials design. To bridge this gap, we present AlphaNet, a local-frame-based equivariant model that simultaneously improves computational efficiency and predictive precision for interatomic interactions. By constructing equivariant local frames with learnable geometric transitions, AlphaNet encodes atomic environments with enhanced representational capacity, achieving state-of-the-art accuracy in energy and force predictions. Extensive benchmarks on large-scale datasets spanning molecular reactions, crystal stability, and surface catalysis (Matbench Discovery and OC2M) demonstrate its superior performance over existing neural network interatomic potentials while ensuring scalability across diverse system sizes with varying types of interatomic interactions. The synergy of accuracy, efficiency, and transferability positions AlphaNet as a transformative tool for modeling multiscale phenomena, decoding dynamics in catalysis and functional interfaces, with direct implications for accelerating the discovery of complex molecular systems and functional materials.

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  1. DPA4: Pushing the Accuracy-Cost Frontier of Interatomic Potentials with EMFA SO(2) Convolution

    physics.chem-ph 2026-06 unverdicted novelty 7.0

    DPA4 is a new SE(3)-equivariant interatomic potential with EMFA SO(2) convolution that sets new accuracy-cost records on Matbench Discovery and SPICE benchmarks using fewer parameters than prior models.