Exafmm-t is a kernel-independent fast multipole method library for solving N-body problems. It provides both C++ and Python APIs. We use pybind11 to create Python bindings from C++ code. Exafmm-t aims to deliver compelling performance with a simple code design and a user-friendly interface. It currently supports both potential and force calculation of Laplace, low-frequency Helmholtz and modified Helmholtz (Yukawa) kernel in 3D. In addition, users can easily add other non-oscillatory kernels under exafmm-t's framework. The full documentation is available here
Abstract. We have developed a new formulation for fast calculation of far-field force of fast multip...
International audienceTBFMM, for task-based FMM, is a high-performance package that implements the p...
Among the algorithms that are likely to play a major role in future exascale computing, the fast mul...
Poster featured at the NVIDIA exhibit booth in the Supercomputing Conference, November 2011, Seattle...
ExaFMM is a highly scalable implementation of the Fast Multipole Method (FMM) – an O(N) algorithm fo...
<p>This is a z-fold brochure, prepared to accompany our poster on the exaFMM code, presented at the ...
<b>Invited Lecture at the SIAM <i>"Encuentro Nacional de Ingeniería Matemática,"</i> at Pontificia U...
RPYFMM is a software package for the efficient evaluation of the potential field governed by the Rot...
International audienceScalFMM (Parallel Fast Multipole Library for Large Scale Simulations) offers a...
RPYFMM is a software package for the efficient evaluation of the potential field governed by the Rot...
A tuned and scalable fast multipole method as a preeminent algorithm for exascale systems Rio Yokota...
Computational physics problems often have a common set of aspects to them that any particular numeri...
For more than two decades, several forms of fast multipole methods have been extremely successful in...
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...
Abstract. We have developed a new formulation for fast calculation of far-field force of fast multip...
International audienceTBFMM, for task-based FMM, is a high-performance package that implements the p...
Among the algorithms that are likely to play a major role in future exascale computing, the fast mul...
Poster featured at the NVIDIA exhibit booth in the Supercomputing Conference, November 2011, Seattle...
ExaFMM is a highly scalable implementation of the Fast Multipole Method (FMM) – an O(N) algorithm fo...
<p>This is a z-fold brochure, prepared to accompany our poster on the exaFMM code, presented at the ...
<b>Invited Lecture at the SIAM <i>"Encuentro Nacional de Ingeniería Matemática,"</i> at Pontificia U...
RPYFMM is a software package for the efficient evaluation of the potential field governed by the Rot...
International audienceScalFMM (Parallel Fast Multipole Library for Large Scale Simulations) offers a...
RPYFMM is a software package for the efficient evaluation of the potential field governed by the Rot...
A tuned and scalable fast multipole method as a preeminent algorithm for exascale systems Rio Yokota...
Computational physics problems often have a common set of aspects to them that any particular numeri...
For more than two decades, several forms of fast multipole methods have been extremely successful in...
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...
Abstract. We have developed a new formulation for fast calculation of far-field force of fast multip...
International audienceTBFMM, for task-based FMM, is a high-performance package that implements the p...
Among the algorithms that are likely to play a major role in future exascale computing, the fast mul...