A smooth particle mesh Ewald method

A smooth particle mesh Ewald method

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 foll...

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Veröffentlicht in:The Journal of chemical physics 1995-11, Vol.103 (19), p.8577-8593
Hauptverfasser: Essmann, Ulrich, Perera, Lalith, Berkowitz, Max L., Darden, Tom, Lee, Hsing, Pedersen, Lee G.
Format: Artikel
Sprache:eng
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Zusammenfassung: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.
ISSN:0021-9606
1089-7690
DOI:10.1063/1.470117