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How to validate machine-learned interatomic potentials

Joe D. Morrow, John L. A. Gardner, Volker L. Deringer

2023The Journal of Chemical Physics116 citationsDOIOpen Access PDF

Abstract

Machine learning (ML) approaches enable large-scale atomistic simulations with near-quantum-mechanical accuracy. With the growing availability of these methods, there arises a need for careful validation, particularly for physically agnostic models-that is, for potentials that extract the nature of atomic interactions from reference data. Here, we review the basic principles behind ML potentials and their validation for atomic-scale material modeling. We discuss the best practice in defining error metrics based on numerical performance, as well as physically guided validation. We give specific recommendations that we hope will be useful for the wider community, including those researchers who intend to use ML potentials for materials "off the shelf."

Topics & Concepts

Computer scienceScale (ratio)Atomic unitsQuantumMachine learningPhysicsQuantum mechanicsMachine Learning in Materials ScienceElectron and X-Ray Spectroscopy TechniquesElectronic and Structural Properties of Oxides
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