In this work, we develop the accurate error estimates for three state-of-art algorithms of long-range electrostatic interaction in inhomogeneous and correlated molecular systems. They are the Ewald summation, the smooth particle mesh Ewald (SPME) and the staggered mesh Ewald methods. Two branches of force computation, namely the ik- and analytical differentiation, are considered. All the estimates are developed by proposing a more general framework: if the error force is of pairwise form, then the root-mean-square force error is composed of three additive parts, the homogeneity error, the inhomogeneity error and the correlation error. Computationally scalable estimates (estimating the errors at the cost O(N log N)) are developed for all the...
Chapter 2. In this review, we discuss current methods and developments in the treatment of electrost...
This thesis is concerned with algorithms for evaluating the Coulomb potential en- ergy and forces du...
Within molecular dynamics simulations of protein–solvent systems the exact evaluation of long-range ...
We construct an accurate error estimate for the root mean square force error of the smooth particle ...
Abstract: A method is presented for the efficient evaluation of long-range electrostatic forces in c...
The appropriate treatment of long-range Coulombic forces is an area of great interest in the biomole...
We draw on an old technique for improving the accuracy of mesh-based field calculations to extend th...
An accurate time evolution of charged species having exponentially smeared out charge density (Slate...
For inhomogeneous systems with interfaces, the inclusion of long-range dispersion interactions is ne...
ABSTRACT: Within molecular dynamics simulations of protein]solvent systems the exact evaluation of l...
An N⋅log(N) method for evaluating electrostatic energies and forces of large periodic systems is pre...
Ewald summation method, based on Non-Uniform FFTs (ENUF) to compute the electrostatic interactions a...
The multilevel summation method computes an approximation to the pairwise electrostatic interaction ...
To evaluate electrostatics interactions, Molecular dynamics (MD) simulations rely on Particle Mesh E...
Electrostatic interactions in molecular simulations are usually evaluated by employing the Ewald sum...
Chapter 2. In this review, we discuss current methods and developments in the treatment of electrost...
This thesis is concerned with algorithms for evaluating the Coulomb potential en- ergy and forces du...
Within molecular dynamics simulations of protein–solvent systems the exact evaluation of long-range ...
We construct an accurate error estimate for the root mean square force error of the smooth particle ...
Abstract: A method is presented for the efficient evaluation of long-range electrostatic forces in c...
The appropriate treatment of long-range Coulombic forces is an area of great interest in the biomole...
We draw on an old technique for improving the accuracy of mesh-based field calculations to extend th...
An accurate time evolution of charged species having exponentially smeared out charge density (Slate...
For inhomogeneous systems with interfaces, the inclusion of long-range dispersion interactions is ne...
ABSTRACT: Within molecular dynamics simulations of protein]solvent systems the exact evaluation of l...
An N⋅log(N) method for evaluating electrostatic energies and forces of large periodic systems is pre...
Ewald summation method, based on Non-Uniform FFTs (ENUF) to compute the electrostatic interactions a...
The multilevel summation method computes an approximation to the pairwise electrostatic interaction ...
To evaluate electrostatics interactions, Molecular dynamics (MD) simulations rely on Particle Mesh E...
Electrostatic interactions in molecular simulations are usually evaluated by employing the Ewald sum...
Chapter 2. In this review, we discuss current methods and developments in the treatment of electrost...
This thesis is concerned with algorithms for evaluating the Coulomb potential en- ergy and forces du...
Within molecular dynamics simulations of protein–solvent systems the exact evaluation of long-range ...