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Hierarchical parallelization of divide‐and‐conquer density functional tight‐binding molecular dynamics and metadynamics simulations

Yoshifumi Nishimura, Hiromi Nakai

2020Journal of Computational Chemistry16 citationsDOI

Abstract

Massively parallel divide-and-conquer density functional tight-binding (DC-DFTB) molecular dynamics and metadynamics simulations are efficient approaches for describing various chemical reactions and dynamic processes of large complex systems via quantum mechanics. In this study, DC-DFTB simulations were combined with multi-replica techniques. Specifically, multiple walkers metadynamics, replica exchange molecular dynamics, and parallel tempering metadynamics methods were implemented hierarchically into the in-house Dcdftbmd program. Test simulations in an aqueous phase of the internal rotation of formamide and conformational changes of dialanine showed that the newly developed extensions increase the sampling efficiency and the exploration capabilities in DC-DFTB configuration space.

Topics & Concepts

MetadynamicsMolecular dynamicsDivide and conquer algorithmsReplicaTight bindingMassively parallelComputer scienceStatistical physicsParallel temperingComputational chemistryComputational scienceChemical physicsPhysicsParallel computingChemistryElectronic structureAlgorithmArtificial intelligenceMonte Carlo molecular modelingBayesian probabilityVisual artsMarkov chain Monte CarloArtAdvanced Chemical Physics StudiesSpectroscopy and Quantum Chemical StudiesProtein Structure and Dynamics
Hierarchical parallelization of divide‐and‐conquer density functional tight‐binding molecular dynamics and metadynamics simulations | Litcius