International audienceTBFMM, for task-based FMM, is a high-performance package that implements the parallel fast multipole method (FMM) in modern C++17. It implements parallel strategies for multicore architectures, i.e. to run on a single computing node. TBFMM was designed to be easily customized thanks to C++ templates and fine control of the C++ classes inter-dependencies. Users can implement new FMM kernels, new types of interacting elements or even new parallelization strategies. As such, it can effectively be used as a simulation toolbox for scientists in physics or applied mathematics. It enables users to perform simulations while delegating the data structure, the algorithm and the parallelization to the library. Besides, TBFMM can ...
We present efficient algorithms to build data structures and the lists needed for fast multipole met...
RPYFMM is a software package for the efficient evaluation of the potential field governed by the Rot...
Solving an N-body problem, electrostatic or gravitational, is a crucial task and the main computatio...
International audienceTBFMM, for task-based FMM, is a high-performance package that implements the p...
<p>This is a z-fold brochure, prepared to accompany our poster on the exaFMM code, presented at the ...
Poster featured at the NVIDIA exhibit booth in the Supercomputing Conference, November 2011, Seattle...
<b>Invited Lecture at the SIAM <i>"Encuentro Nacional de Ingeniería Matemática,"</i> at Pontificia U...
This thesis presents a top to bottom analysis on designing and implementing fast algorithms for curr...
International audienceScalFMM (Parallel Fast Multipole Library for Large Scale Simulations) offers a...
Solving an N-body problem, electrostatic or gravitational, is a crucial task and the main computatio...
The N-body problem appears in many computational physics simulations. At each time step the computat...
International audienceLearn about the fast multipole method (FMM) and its optimization on NVIDIA GPU...
We report on a parallel version of the Fast Multipole Method (FMM) implemented in the classical mole...
International audienceWith the advent of complex modern architectures, the low-level paradigms long ...
The Fast Multipole Method allows the rapid evaluation of sums of radial basis functions centered at ...
We present efficient algorithms to build data structures and the lists needed for fast multipole met...
RPYFMM is a software package for the efficient evaluation of the potential field governed by the Rot...
Solving an N-body problem, electrostatic or gravitational, is a crucial task and the main computatio...
International audienceTBFMM, for task-based FMM, is a high-performance package that implements the p...
<p>This is a z-fold brochure, prepared to accompany our poster on the exaFMM code, presented at the ...
Poster featured at the NVIDIA exhibit booth in the Supercomputing Conference, November 2011, Seattle...
<b>Invited Lecture at the SIAM <i>"Encuentro Nacional de Ingeniería Matemática,"</i> at Pontificia U...
This thesis presents a top to bottom analysis on designing and implementing fast algorithms for curr...
International audienceScalFMM (Parallel Fast Multipole Library for Large Scale Simulations) offers a...
Solving an N-body problem, electrostatic or gravitational, is a crucial task and the main computatio...
The N-body problem appears in many computational physics simulations. At each time step the computat...
International audienceLearn about the fast multipole method (FMM) and its optimization on NVIDIA GPU...
We report on a parallel version of the Fast Multipole Method (FMM) implemented in the classical mole...
International audienceWith the advent of complex modern architectures, the low-level paradigms long ...
The Fast Multipole Method allows the rapid evaluation of sums of radial basis functions centered at ...
We present efficient algorithms to build data structures and the lists needed for fast multipole met...
RPYFMM is a software package for the efficient evaluation of the potential field governed by the Rot...
Solving an N-body problem, electrostatic or gravitational, is a crucial task and the main computatio...