We present a new fast multipole method for particle simulations. The main feature of our algorithm is that it does not require the implementation of multipole expansions of the underlying kernel, and it is based only on kernel evaluations. Instead of using analytic expansions to represent the potential generated by sources inside a box of the hierarchical FMM tree, we use a continuous distribution of an equivalent density on a surface enclosing the box. To find this equivalent density we match its potential to the potential of the original sources at a surface, in the far field, by solving local Dirichlet-type boundary value problems. The far field evaluations are sparsified with singular value decomposition in 2D or fast Fourier transforms...
Abstract. This paper introduces a fast method for the application of sur-face integral operators whi...
For more than two decades, several forms of fast multipole methods have been extremely successful in...
Abstract. This paper introduces a parallel directional fast multipole method (FMM) for solving N-bod...
We present a new fast multipole method for particle simulations. The main feature of our algorithm i...
A kernel-independent adaptive fast multipole algorithm in two and three dimension
Abstract. A version of the fast multipole method (FMM) is described for charge distributions on the ...
A number of physics problems can be modeled by a set of N elements, which have pair-wise interaction...
We present a new adaptive fast multipole algorithm and its parallel implementation. The algorithm is...
A number of physics problems can be modeled by a set of N elements, which have pair-wise interaction...
AbstractWe present a fast, adaptive multiresolution algorithm for applying integral operators with a...
Abstract. This paper introduces a parallel directional fast multipole method (FMM) for solving N-bod...
We present a broadband multilevel fast multipole algorithm (MLFMA) for fast and efficient solutions ...
Fast Multipole Methods (FMMs) based on the oscillatory Helmholtz kernel can reduce the cost of solvi...
Evaluating the energy of a system of N bodies interacting via a pairwise potential is naïvely an O(N...
This program has been imported from the CPC Program Library held at Queen's University Belfast (1969...
Abstract. This paper introduces a fast method for the application of sur-face integral operators whi...
For more than two decades, several forms of fast multipole methods have been extremely successful in...
Abstract. This paper introduces a parallel directional fast multipole method (FMM) for solving N-bod...
We present a new fast multipole method for particle simulations. The main feature of our algorithm i...
A kernel-independent adaptive fast multipole algorithm in two and three dimension
Abstract. A version of the fast multipole method (FMM) is described for charge distributions on the ...
A number of physics problems can be modeled by a set of N elements, which have pair-wise interaction...
We present a new adaptive fast multipole algorithm and its parallel implementation. The algorithm is...
A number of physics problems can be modeled by a set of N elements, which have pair-wise interaction...
AbstractWe present a fast, adaptive multiresolution algorithm for applying integral operators with a...
Abstract. This paper introduces a parallel directional fast multipole method (FMM) for solving N-bod...
We present a broadband multilevel fast multipole algorithm (MLFMA) for fast and efficient solutions ...
Fast Multipole Methods (FMMs) based on the oscillatory Helmholtz kernel can reduce the cost of solvi...
Evaluating the energy of a system of N bodies interacting via a pairwise potential is naïvely an O(N...
This program has been imported from the CPC Program Library held at Queen's University Belfast (1969...
Abstract. This paper introduces a fast method for the application of sur-face integral operators whi...
For more than two decades, several forms of fast multipole methods have been extremely successful in...
Abstract. This paper introduces a parallel directional fast multipole method (FMM) for solving N-bod...