Geometry Optimization with Machine Trained Topological Atoms

机译：机器训练拓扑原子的几何优化

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The geometry optimization of a water molecule with a novel type of energy function called FFLUX is presented, which bypasses the traditional bonded potentials. Instead, topologically-partitioned atomic energies are trained by the machine learning method kriging to predict their IQA atomic energies for a previously unseen molecular geometry. Proof-of-concept that FFLUX’s architecture is suitable for geometry optimization is rigorously demonstrated. It is found that accurate kriging models can optimize 2000 distorted geometries to within 0.28 kJ mol⁻¹ of the corresponding ab initio energy, and 50% of those to within 0.05 kJ mol⁻¹. Kriging models are robust enough to optimize the molecular geometry to sub-noise accuracy, when two thirds of the geometric inputs are outside the training range of that model. Finally, the individual components of the potential energy are analyzed, and chemical intuition is reflected in the independent behavior of the three energy terms

E_{intra}^{A}

(intra-atomic),

V_{cl}^{AA'}

(electrostatic) and

V_{x}^{AA'}

(exchange), in contrast to standard force fields.

机译：提出了一种具有新型能量函数FFLUX的水分子的几何优化，它绕开了传统的键合势。取而代之的是，通过机器学习方法kriging对拓扑分区的原子能进行训练，以预测先前未知的分子几何形状的IQA原子能。严格证明了FFLUX的体系结构适合几何优化的概念证明。结果发现，精确的克里格模型可以优化2000个畸变的几何形状，使其在相应的从头能量的0.28 kJ mol ^{-1 范围内，其中50％的几何形状可以在0.05 kJ mol ^{-1的范围内优化。当三分之二的几何输入超出该模型的训练范围时，克里格模型具有足够的鲁棒性，可以优化分子的几何形状以达到亚噪声精度。最后，分析了势能的各个组成部分，并且化学直觉反映在三个能量项的独立行为中。 $E内部A（原子内），VclAA'（静电）和VxAA'（交换），与标准相比力场。$}}

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期刊名称 Scientific Reports
作者
François Zielinski; Peter I. Maxwell; Timothy L. Fletcher; Stuart J. Davie; Nicodemo Di Pasquale; Salvatore Cardamone; Matthew J. L. Mills; Paul L. A. Popelier;
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年(卷),期 -1(7),-1
年度 -1
页码 12817
总页数 18
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1. Machine Learning of Dynamic Electron Correlation Energies from Topological Atoms [J] . McDonagh James L., Silva Arnaldo F., Vincent Mark A., Journal of chemical theory and computation: JCTC . 2018,第1期

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2. Topological and parametric optimization of gear trains [J] . Albert Swantner, Matthew I. Campbell Engineering Optimization . 2012,第8a12期

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4. The Geometry Optimization of Argon Atom Clusters Using Differential Evolution Algorithm [C] . Yongxiang Zhao, Shengwu Xiong, Ning Xu Computational Science - ICCS 2007 pt.4; Lecture Notes in Computer Science; 4490 . 2007

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5. Optimization of machining strategy and process planning of complex geometry. [D] . Youssef, Amro M. Fikry. 2004

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6. CASTELO: clustered atom subtypes aided lead optimization—a combined machine learning and molecular modeling method [O] . Leili Zhang, Giacomo Domeniconi, Chih-Chieh Yang, 2021

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7. Geometry Optimization with Machine Trained Topological Atoms [O] . Zielinski, Francois, Maxwell, Peter, Fletcher, Timothy, 2017

机译：机器训练拓扑原子的几何优化
8. Development of a Model of Machine Hand Eye Coordination and Program Specifications for a Topological Machine Vision System [R] . 1972

机译：拓扑机器视觉系统的机器手眼协调模型及程序规范的开发

Geometry Optimization with Machine Trained Topological Atoms

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