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Performance of two complementary machine-learned potentials in modelling chemically complex systems

Engineering and Technology

Performance of two complementary machine-learned potentials in modelling chemically complex systems

K. Gubaev, V. Zaverkin, et al.

This research investigates the performance of two advanced machine-learned potentials—the moment tensor potential and the Gaussian moment neural network—in modeling the Ta-V-Cr-W alloy family, showcasing their abilities to describe complex configurational and vibrational properties with high accuracy. The study was conducted by Konstantin Gubaev, Viktor Zaverkin, Prashanth Srinivasan, Andrew Ian Duff, Johannes Kästner, and Blazej Grabowski.

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Playback language: English
Abstract
This paper explores the performance of two complementary machine-learned potentials—the moment tensor potential (MTP) and the Gaussian moment neural network (GM-NN)—in modeling the Ta-V-Cr-W alloy family. Both models accurately describe configurational and vibrational degrees of freedom, achieving low root-mean-square-errors (RMSEs) in energies and forces, even for compositions not included in the training data. MTPs demonstrate faster convergence during training, while GM-NNs offer faster execution speeds. Active learning proves partially beneficial, requiring integration with traditional data generation.
Publisher
npj Computational Materials
Published On
May 17, 2023
Authors
Konstantin Gubaev, Viktor Zaverkin, Prashanth Srinivasan, Andrew Ian Duff, Johannes Kästner, Blazej Grabowski
Tags
machine learning
moment tensor potential
Gaussian moment neural network
Ta-V-Cr-W alloys
active learning

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