A smooth particle mesh Ewald method

Ulrich Essmann; L. Perera; Max L. Berkowitz; Tom Darden; Hsing Lee; Lee G. Pedersen

doi:10.1063/1.470117

A smooth particle mesh Ewald method

Ulrich Essmann(University of North Carolina at Chapel Hill), L. Perera(University of North Carolina at Chapel Hill), Max L. Berkowitz(University of North Carolina at Chapel Hill), Tom Darden(National Institute of Environmental Health Sciences), Hsing Lee(National Institute of Environmental Health Sciences), Lee G. Pedersen(National Institute of Environmental Health Sciences)

The Journal of Chemical Physics

November 15, 1995

10.1063/1.470117

Cited by 22,766

Abstract

The previously developed particle mesh Ewald method is reformulated in terms of efficient B-spline interpolation of the structure factors. This reformulation allows a natural extension of the method to potentials of the form 1/rp with p≥1. Furthermore, efficient calculation of the virial tensor follows. Use of B-splines in place of Lagrange interpolation leads to analytic gradients as well as a significant improvement in the accuracy. We demonstrate that arbitrary accuracy can be achieved, independent of system size N, at a cost that scales as N log(N). For biomolecular systems with many thousands of atoms this method permits the use of Ewald summation at a computational cost comparable to that of a simple truncation method of 10 Å or less.

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