Global optimization of parameters in the reactive force field ReaxFF for SiOH

We have used unbiased global optimization to fit a reactive force field to a given set of reference data. Specifically, we have employed genetic algorithms (GA) to fit ReaxFF to SiOH data, using an in-house GA code that is parallelized across reference data items via the message-passing interface (M...

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Veröffentlicht in:	arXiv.org 2019-09
Hauptverfasser:	Larsson, H R, A C T van Duin, Hartke, B
Format:	Artikel
Sprache:	eng
Schlagworte:	Computer Science - Neural and Evolutionary Computing Error analysis Genetic algorithms Global optimization Message passing Nonlinear programming Optimization Parallel processing Parameters Physics - Chemical Physics Physics - Computational Physics
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creator	Larsson, H R A C T van Duin Hartke, B
description	We have used unbiased global optimization to fit a reactive force field to a given set of reference data. Specifically, we have employed genetic algorithms (GA) to fit ReaxFF to SiOH data, using an in-house GA code that is parallelized across reference data items via the message-passing interface (MPI). Details of GA tuning turn out to be far less important for global optimization efficiency than using suitable ranges within which the parameters are varied. To establish these ranges, either prior knowledge can be used or successive stages of GA optimizations, each building upon the best parameter vectors and ranges found in the previous stage. We finally arrive at optimized force fields with smaller error measures than those published previously. Hence, this optimization approach will contribute to converting force-field fitting from a specialist task to an everyday commodity, even for the more difficult case of reactive force fields.
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subjects	Computer Science - Neural and Evolutionary Computing Error analysis Genetic algorithms Global optimization Message passing Nonlinear programming Optimization Parallel processing Parameters Physics - Chemical Physics Physics - Computational Physics
title	Global optimization of parameters in the reactive force field ReaxFF for SiOH
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