GPU 加速的即时非绝热半经典动力学。

IF 3.1 2区化学 Q3 CHEMISTRY, PHYSICAL Journal of Chemical Physics Pub Date : 2024-08-28 DOI:10.1063/5.0223628

Christopher A Myers, Ken Miyazaki, Thomas Trepl, Christine M Isborn, Nandini Ananth

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引用次数: 0

摘要

通过将线性化半经典动力学方法与 TeraChem 电子结构程序对接，实现了 GPU 加速的即时非绝热动力学。我们描述了 "PySCES "代码接口的计算工作流程，这是一个用于即时电子结构半经典动力学的 Python 代码，包括在多个 GPU 节点上的并行化。我们展示了该代码的能力，并给出了两个基准系统的时间：溶于乙腈的富勒烯和一个电荷转移系统，在该系统中，光激发锌酞菁供体通过多种电子状态在超快时间尺度上将电荷转移到富勒烯受体。我们的研究为采用高效的半经典方法来模拟复杂分子、材料和凝聚相系统的非绝热激发态动力学铺平了道路。

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GPU-accelerated on-the-fly nonadiabatic semiclassical dynamics.

GPU-accelerated on-the-fly nonadiabatic dynamics is enabled by interfacing the linearized semiclassical dynamics approach with the TeraChem electronic structure program. We describe the computational workflow of the "PySCES" code interface, a Python code for semiclassical dynamics with on-the-fly electronic structure, including parallelization over multiple GPU nodes. We showcase the abilities of this code and present timings for two benchmark systems: fulvene solvated in acetonitrile and a charge transfer system in which a photoexcited zinc-phthalocyanine donor transfers charge to a fullerene acceptor through multiple electronic states on an ultrafast timescale. Our implementation paves the way for an efficient semiclassical approach to model the nonadiabatic excited state dynamics of complex molecules, materials, and condensed phase systems.

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来源期刊

Journal of Chemical Physics 物理-物理：原子、分子和化学物理

CiteScore

7.40

自引率

15.90%

发文量

1615

审稿时长

2 months

期刊介绍： The Journal of Chemical Physics publishes quantitative and rigorous science of long-lasting value in methods and applications of chemical physics. The Journal also publishes brief Communications of significant new findings, Perspectives on the latest advances in the field, and Special Topic issues. The Journal focuses on innovative research in experimental and theoretical areas of chemical physics, including spectroscopy, dynamics, kinetics, statistical mechanics, and quantum mechanics. In addition, topical areas such as polymers, soft matter, materials, surfaces/interfaces, and systems of biological relevance are of increasing importance. Topical coverage includes: Theoretical Methods and Algorithms Advanced Experimental Techniques Atoms, Molecules, and Clusters Liquids, Glasses, and Crystals Surfaces, Interfaces, and Materials Polymers and Soft Matter Biological Molecules and Networks.