Poster featured at the NVIDIA exhibit booth in the Supercomputing Conference, November 2011, Seattle, WA.<div><br></div><div>It was also shown later at the GPU Technology Conference in May 2012 (and that is the version shown on the PDF file).<br> <p>The fast multipole method (FMM) is a numerical engine used in many applications, from acoustics, electrostatics, fluid simulations, wave scattering, and more.</p> <p>Despite its importance, there is a lack of open community code, which arguably has affected its wider adoption. It is also a difficult algorithm to understand and to program, making availability of open-source implementations even more desirable.</p> <p>ExaFMM is an open-source code base to utilize fast multipole algorithms, in para...
An important and computationally demanding part of molecular dynamics simulations is the calculation...
International audienceTBFMM, for task-based FMM, is a high-performance package that implements the p...
In this paper we wish to focus on some recent advances in the Multilevel Fast Multipole Algorithm (M...
<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...
ExaFMM is a highly scalable implementation of the Fast Multipole Method (FMM) – an O(N) algorithm fo...
Among the algorithms that are likely to play a major role in future exascale computing, the fast mul...
A tuned and scalable fast multipole method as a preeminent algorithm for exascale systems Rio Yokota...
Exafmm-t is a kernel-independent fast multipole method library for solving N-body problems. It provi...
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...
Fast summation methods like the FMM are the backbone of a multitude of simulations in MD, astrophysi...
The Fast Multipole Method allows the rapid evaluation of sums of radial basis functions centered at ...
The Fast Multipole Method allows the rapid evaluation of sums of radial basis functions centered at ...
International audienceLearn about the fast multipole method (FMM) and its optimization on NVIDIA GPU...
An important and computationally demanding part of molecular dynamics simulations is the calculation...
International audienceTBFMM, for task-based FMM, is a high-performance package that implements the p...
In this paper we wish to focus on some recent advances in the Multilevel Fast Multipole Algorithm (M...
<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...
ExaFMM is a highly scalable implementation of the Fast Multipole Method (FMM) – an O(N) algorithm fo...
Among the algorithms that are likely to play a major role in future exascale computing, the fast mul...
A tuned and scalable fast multipole method as a preeminent algorithm for exascale systems Rio Yokota...
Exafmm-t is a kernel-independent fast multipole method library for solving N-body problems. It provi...
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...
Fast summation methods like the FMM are the backbone of a multitude of simulations in MD, astrophysi...
The Fast Multipole Method allows the rapid evaluation of sums of radial basis functions centered at ...
The Fast Multipole Method allows the rapid evaluation of sums of radial basis functions centered at ...
International audienceLearn about the fast multipole method (FMM) and its optimization on NVIDIA GPU...
An important and computationally demanding part of molecular dynamics simulations is the calculation...
International audienceTBFMM, for task-based FMM, is a high-performance package that implements the p...
In this paper we wish to focus on some recent advances in the Multilevel Fast Multipole Algorithm (M...