利用随机电子结构法计算的力来训练模型

IF 2.9 Q3 CHEMISTRY, PHYSICAL
David M Ceperley, Scott Jensen, Yubo Yang, Hongwei Niu, Carlo Pierleoni, Markus Holzmann
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引用次数: 0

摘要

量子蒙特卡罗(QMC)在生成构建势能面所需的精确数据方面可以发挥非常重要的作用。我们认为,量子蒙特卡罗具有较小的系统偏差和更完整地覆盖相空间的能力等优势。随机噪声可以简化机器学习模型的训练。我们通过分析线性最小二乘法过程中的误差,讨论了随机误差如何影响有效模型的生成。然后,我们分析了噪声对多体硅模型的影响,发现噪声在某些情况下会改善生成的模型。然后,我们研究了 QMC 噪声对最近研究氢气相图时使用的两个高密度氢气机器学习模型的影响。噪声使我们能够估计模型中的误差。最后,我们讨论了未来的研究问题。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Training models using forces computed by stochastic electronic structure methods
Quantum Monte Carlo (QMC) can play a very important role in generating accurate data needed for constructing potential energy surfaces. We argue that QMC has advantages in terms of a smaller systematic bias and an ability to cover phase space more completely. The stochastic noise can ease the training of the machine learning model. We discuss how stochastic errors affect the generation of effective models by analyzing the errors within a linear least squares procedure, finding that there is an advantage to having many relatively imprecise data points for constructing models. We then analyze the effect of noise on a model of many-body silicon finding that noise in some situations improves the resulting model. We then study the effect of QMC noise on two machine learning models of dense hydrogen used in a recent study of its phase diagram. The noise enables us to estimate the errors in the model. We conclude with a discussion of future research problems.
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来源期刊
CiteScore
3.70
自引率
11.50%
发文量
46
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