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Robust training of machine learning interatomic potentials with dimensionality reduction and stratified sampling

Ji Qi, Tsz Wai Ko, Brandon C. Wood, Tuan Anh Pham, Shyue Ping Ong

2024npj Computational Materials86 citationsDOIOpen Access PDF

Abstract

Abstract Machine learning interatomic potentials (MLIPs) enable accurate simulations of materials at scales beyond that accessible by ab initio methods and play an increasingly important role in the study and design of materials. However, MLIPs are only as accurate and robust as the data on which they are trained. Here, we present DImensionality-Reduced Encoded Clusters with sTratified (DIRECT) sampling as an approach to select a robust training set of structures from a large and complex configuration space. By applying DIRECT sampling on the Materials Project relaxation trajectories dataset with over one million structures and 89 elements, we develop an improved materials 3-body graph network (M3GNet) universal potential that extrapolates more reliably to unseen structures. We further show that molecular dynamics (MD) simulations with the M3GNet universal potential can be used instead of expensive ab initio MD to rapidly create a large configuration space for target systems. We combined this scheme with DIRECT sampling to develop a reliable moment tensor potential for titanium hydrides without the need for iterative augmentation of training structures. This work paves the way for robust high-throughput development of MLIPs across any compositional complexity.

Topics & Concepts

Computer scienceCurse of dimensionalityDimensionality reductionSampling (signal processing)Interatomic potentialMachine learningArtificial intelligenceComputational scienceMolecular dynamicsComputational chemistryChemistryFilter (signal processing)Computer visionMachine Learning in Materials ScienceX-ray Diffraction in CrystallographyCatalysis and Oxidation Reactions
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