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Discrepancies and error evaluation metrics for machine learning interatomic potentials

Yunsheng Liu, Xingfeng He, Yifei Mo

2023npj Computational Materials44 citationsDOIOpen Access PDF

Abstract

Abstract Machine learning interatomic potentials (MLIPs) are a promising technique for atomic modeling. While small errors are widely reported for MLIPs, an open concern is whether MLIPs can accurately reproduce atomistic dynamics and related physical properties in molecular dynamics (MD) simulations. In this study, we examine the state-of-the-art MLIPs and uncover several discrepancies related to atom dynamics, defects, and rare events (REs), compared to ab initio methods. We find that low averaged errors by current MLIP testing are insufficient, and develop quantitative metrics that better indicate the accurate prediction of atomic dynamics by MLIPs. The MLIPs optimized by the RE-based evaluation metrics are demonstrated to have improved prediction in multiple properties. The identified errors, the evaluation metrics, and the proposed process of developing such metrics are general to MLIPs, thus providing valuable guidance for future testing and improvements of accurate and reliable MLIPs for atomistic modeling.

Topics & Concepts

Computer scienceMolecular dynamicsInteratomic potentialAtom (system on chip)Process (computing)Machine learningArtificial intelligenceStatistical physicsData miningPhysicsComputational chemistryChemistryOperating systemEmbedded systemMachine Learning in Materials ScienceX-ray Diffraction in CrystallographyNuclear Materials and Properties
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