This program has been imported from the CPC Program Library held at Queen's University Belfast (1969-2018) Abstract A Fortran program package is introduced for the rapid evaluation of the screened Coulomb interactions of N particles in three dimensions. The method utilizes an adaptive oct-tree structure, and is based on the new version of fast multipole method in which the exponential expansions are used to diagonalize the multipole-to-local translations. The program and its full description, as well as several closely related packages are also available at http://www.fastmultipole.org/. This paper is a br... Title of program: FMM-Yukawa Catalogue Id: AEEQ_v1_0 Nature of problem To evaluate the screened Coulomb potential and force fiel...
Arnold A, Fahrenberger F, Holm C, et al. Comparison of scalable fast methods for long-range interact...
N-body pairwise interactions are ubiquitous in scientific areas such as astrophysics, fluids mechani...
We present tests of comparison between our versions of the Fast Multipole Algorithm (FMA) and the tr...
This program has been imported from the CPC Program Library held at Queen's University Belfast (1969...
This program has been imported from the CPC Program Library held at Queen's University Belfast (1969...
A number of computational techniques are described that reduce the effort related to the continuous ...
Computer simulations of complex particle systems play an increasingly important role across a broad ...
This thesis describes the Fast Multipole Method (FMM). The method reduces the complexity of the Coul...
We present a numerical method to efficiently and accurately recompute the Coulomb potential of a lar...
We introduce the continuous fast multipole method (CFMM), a generalization of the fast multipole met...
Evaluating the energy of a system of N bodies interacting via a pairwise potential is naïvely an O(N...
The simulation of classical particle systems by means of molecular dynamics techniques requires the ...
AbstractThis paper presents a parallel version of the fast multipole method (FMM). The FMM is a rece...
We present a new fast multipole method for particle simulations. The main feature of our algorithm i...
This article introduces a novel approach to increase the performances of N-body simulations. In an N...
Arnold A, Fahrenberger F, Holm C, et al. Comparison of scalable fast methods for long-range interact...
N-body pairwise interactions are ubiquitous in scientific areas such as astrophysics, fluids mechani...
We present tests of comparison between our versions of the Fast Multipole Algorithm (FMA) and the tr...
This program has been imported from the CPC Program Library held at Queen's University Belfast (1969...
This program has been imported from the CPC Program Library held at Queen's University Belfast (1969...
A number of computational techniques are described that reduce the effort related to the continuous ...
Computer simulations of complex particle systems play an increasingly important role across a broad ...
This thesis describes the Fast Multipole Method (FMM). The method reduces the complexity of the Coul...
We present a numerical method to efficiently and accurately recompute the Coulomb potential of a lar...
We introduce the continuous fast multipole method (CFMM), a generalization of the fast multipole met...
Evaluating the energy of a system of N bodies interacting via a pairwise potential is naïvely an O(N...
The simulation of classical particle systems by means of molecular dynamics techniques requires the ...
AbstractThis paper presents a parallel version of the fast multipole method (FMM). The FMM is a rece...
We present a new fast multipole method for particle simulations. The main feature of our algorithm i...
This article introduces a novel approach to increase the performances of N-body simulations. In an N...
Arnold A, Fahrenberger F, Holm C, et al. Comparison of scalable fast methods for long-range interact...
N-body pairwise interactions are ubiquitous in scientific areas such as astrophysics, fluids mechani...
We present tests of comparison between our versions of the Fast Multipole Algorithm (FMA) and the tr...