von Rudorff, GF; Jakobsen, R; Rosso, KM; Blumberger, J; (2017) Improving the Performance of Hybrid Functional-Based Molecular Dynamics Simulation through Screening of Hartree–Fock Exchange Forces. Journal of Chemical Theory and Computation , 13 (5) pp. 2178-2184. 10.1021/acs.jctc.6b01121.

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Abstract

Density functional theory-based molecular dynamics calculations of condensed phase systems often benefit from the use of hybrid functionals. However, their use is computationally very demanding and severely limits the system size and time scale that can be simulated. Several methods have been introduced to accelerate hybrid functional molecular dynamics including Schwarz screening and the auxiliary density matrix method (ADMM). Here we present a simple screening scheme that can be applied in addition to these methods. It works by examining Hartree–Fock exchange (HFX) integrals and subsequently excluding those that contribute very little to any nuclear force component. The resultant force error is corrected by a history-dependent extrapolation scheme. We find that for systems where the calculation of HFX forces is a major bottleneck, a large fraction of the integrals can be neglected without introducing significant errors in the nuclear forces. For instance, for a 2 × 2 × 2 unit cell of CoO, 92% of the HFX integrals that have passed Schwarz screening within the ADMM approach can be neglected leading to a performance gain of a factor of 3 at a negligible error in nuclear forces (≤5 × 10–4 H bohr–1). We also show that total energy conservation and solvation structures are not adversely affected by the screening method.

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