GPU-Accelerated On-the-fly Nonadiabatic Semiclassical Dynamics

09 July 2024, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

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.

Keywords

Electronic structure
Semiclassical methods
Quantum chemical dynamics
Excitation energies
Nonadiabatic Dynamics

Supplementary weblinks

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