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Data efficiency and extrapolation trends in neural network interatomic potentials

Joshua A. Vita, Daniel Schwalbe‐Koda

2023Machine Learning Science and Technology20 citationsDOIOpen Access PDF

Abstract

Abstract Recently, key architectural advances have been proposed for neural network interatomic potentials (NNIPs), such as incorporating message-passing networks, equivariance, or many-body expansion terms. Although modern NNIP models exhibit small differences in test accuracy, this metric is still considered the main target when developing new NNIP architectures. In this work, we show how architectural and optimization choices influence the generalization of NNIPs, revealing trends in molecular dynamics (MD) stability, data efficiency, and loss landscapes. Using the 3BPA dataset, we uncover trends in NNIP errors and robustness to noise, showing these metrics are insufficient to predict MD stability in the high-accuracy regime. With a large-scale study on NequIP, MACE, and their optimizers, we show that our metric of loss entropy predicts out-of-distribution error and data efficiency despite being computed only on the training set. This work provides a deep learning justification for probing extrapolation and can inform the development of next-generation NNIPs.

Topics & Concepts

ExtrapolationComputer scienceRobustness (evolution)Metric (unit)Artificial neural networkStability (learning theory)GeneralizationArtificial intelligenceMachine learningAlgorithmData miningMathematicsStatisticsMathematical analysisBiochemistryEconomicsGeneChemistryOperations managementMachine Learning in Materials ScienceProtein Structure and DynamicsComputational Drug Discovery Methods