We present tests of comparison between our versions of the Fast Multipole Algorithm (FMA) and the tree-code to evaluate gravitational forces in particle systems. We have optimized Greengard’s original version of FMA allowing for a more efficient criterion of well-separation between boxes, to improve the adaptivity of the method (which is very important in highly inhomogeneous situations) and to permit the smoothing of gravitational interactions. The results of our tests indicate that the tree-code is 2–4 times faster than the FMA for clumped distributions and 3–9 times for homogeneous distributions, at least in the interval of N here investigated (N · 2 ¢ 105) and at the same level of accuracy (error»10¡3). This order of accuracy is genera...
In this paper, we study data structures for use in N-body simulation. We concentrate on the spatial ...
Evaluating the energy of a system of N bodies interacting via a pairwise potential is naïvely an O(N...
We present preliminary results on the parallelization of a Tree-Code for evaluating gravitational fo...
The approximate computation of all gravitational forces between N interacting particles via the fast...
Abstract We discuss the performance characteristics of using the modification of the tree code sugge...
We have implemented the fast multipole method (FMM) on a special-purpose computer GRAPE (GRAvity piP...
Context.N-body simulations are widely used for galactic dynamics studies. Several different algorith...
International audienceContext.N-body simulations are widely used for galactic dynamics studies. Seve...
This work compares three algorithms for the three dimensional N-body problem, the Barnes-Hut algorit...
We develop an algorithm that computes the gravitational potentials and forces on N point-masses int...
AbstractThis paper presents a parallel version of the fast multipole method (FMM). The FMM is a rece...
We present a detailed analysis of the error budget for the TreePM method for doing cosmological N-Bo...
This article introduces a novel approach to increase the performances of N-body simulations. In an N...
A number of computational techniques are described that reduce the effort related to the continuous ...
This thesis describes the Fast Multipole Method (FMM). The method reduces the complexity of the Coul...
In this paper, we study data structures for use in N-body simulation. We concentrate on the spatial ...
Evaluating the energy of a system of N bodies interacting via a pairwise potential is naïvely an O(N...
We present preliminary results on the parallelization of a Tree-Code for evaluating gravitational fo...
The approximate computation of all gravitational forces between N interacting particles via the fast...
Abstract We discuss the performance characteristics of using the modification of the tree code sugge...
We have implemented the fast multipole method (FMM) on a special-purpose computer GRAPE (GRAvity piP...
Context.N-body simulations are widely used for galactic dynamics studies. Several different algorith...
International audienceContext.N-body simulations are widely used for galactic dynamics studies. Seve...
This work compares three algorithms for the three dimensional N-body problem, the Barnes-Hut algorit...
We develop an algorithm that computes the gravitational potentials and forces on N point-masses int...
AbstractThis paper presents a parallel version of the fast multipole method (FMM). The FMM is a rece...
We present a detailed analysis of the error budget for the TreePM method for doing cosmological N-Bo...
This article introduces a novel approach to increase the performances of N-body simulations. In an N...
A number of computational techniques are described that reduce the effort related to the continuous ...
This thesis describes the Fast Multipole Method (FMM). The method reduces the complexity of the Coul...
In this paper, we study data structures for use in N-body simulation. We concentrate on the spatial ...
Evaluating the energy of a system of N bodies interacting via a pairwise potential is naïvely an O(N...
We present preliminary results on the parallelization of a Tree-Code for evaluating gravitational fo...