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mlp-surpassing-the-limits-of-ab-initio

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Join us for the live webinars on:

August 1, 2, 3 2023

The presentation showcases the ease and versatility of the MedeA software for unlocking the power of MLPs to address three sample problems of engineering importance. We demonstrate how MedeA enables users to expertly and efficiently generate and apply MLPs to predict phase transitions, simulate an interfacial diffusion process, and model the kinetics of nanoparticle impacts on surfaces.

Optimizing the performance of engineering materials requires an ability to control their microstructure and predict their fundamental properties on engineering length and time scales. To this end, ever-increasing computational power and the rise of artificial intelligence have given rise to atomistic simulation capabilities for virtual experimentation with unprecedented accuracy, based on machine learned interatomic potentials (MLPs).


MLPs are uniquely enabling for high fidelity mesoscale material modeling by virtue of their basis in arbitrarily large training sets of ab initioresults. Machine-learned potentials (MLPs) thus provide a unique means to extend the proven fidelity, reliability, and maturity of ab initio methods to the mesoscale where users may study the collective behavior of millions or more of atoms and sample millions of atomic configurations.


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