晶体缺陷的QM/MM方法。第3部分:机器学习MM模型

Multiscale Model. Simul. Pub Date : 2022-12-20 DOI:10.1137/21m1441122

Huajie Chen, C. Ortner, Yangshuai Wang

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引用次数: 19

摘要

我们开发并分析了晶体缺陷的一致QM/MM(量子/经典)混合模型的框架，该模型承认一般的原子相互作用，包括传统的脱壳原子相互作用势以及最先进的“机器学习原子相互作用势”。我们(i)根据MM和QM模型之间的匹配条件建立了QM/MM近似的先验误差估计，并且(ii)演示了如何使用这些匹配条件构建专门用于QM/MM模拟的实际机器学习MM势。

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QM/MM Methods for Crystalline Defects. Part 3: Machine-Learned MM Models

We develop and analyze a framework for consistent QM/MM (quantum/classic) hybrid models of crystalline defects, which admits general atomistic interactions including traditional off-the-shell interatomic potentials as well as state of art “machine-learned interatomic potentials”. We (i) establish an a priori error estimate for the QM/MM approximations in terms of matching conditions between the MM and QM models, and (ii) demonstrate how to use these matching conditions to construct pracical machine learned MM potentials specifically for QM/MM simulations.

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Multiscale Model. Simul.

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