We present a new adaptive fast multipole algorithm and its parallel implementation. The algorithm is kernel-independent in the sense that the evaluation of pairwise interactions does not rely on any analytic expansions, but only utilizes kernel evaluations. The new method provides the enabling technology for many important problems in computational science and engineering. Examples include viscous flows, fracture mechanics and screened Coulombic interactions. Our MPI-based parallel implementation logically separates the computation and communication phases to avoid synchronization in the upward and downward computation passes, and thus allows us to fully exploit computation and communication overlapping. We measure isogranular and fixed-siz...
We present parallel versions of a representative N-body application that uses Greengard and Rokhlin&...
Algorithms and working expressions for a grid-based fast multipole method (GB-FMM) have been develop...
AbstractWe present a parallel Poisson solver on distributed computing environments. In the solver, t...
We present a new adaptive fast multipole algorithm and its parallel implementation. The algorithm is...
We present a new fast multipole method for particle simulations. The main feature of our algorithm i...
This thesis describes the Fast Multipole Method (FMM). The method reduces the complexity of the Coul...
The N-body problem appears in many computational physics simulations. At each time step the computat...
AbstractThis paper presents a parallel version of the fast multipole method (FMM). The FMM is a rece...
The Fast Multipole Method allows the rapid evaluation of sums of radial basis functions centered at ...
This thesis presents a top to bottom analysis on designing and implementing fast algorithms for curr...
For more than two decades, several forms of fast multipole methods have been extremely successful in...
<b>Invited Lecture at the SIAM <i>"Encuentro Nacional de Ingeniería Matemática,"</i> at Pontificia U...
N-body pairwise interactions are ubiquitous in scientific areas such as astrophysics, fluids mechani...
Among the algorithms that are likely to play a major role in future exascale computing, the fast mul...
In this dissertation, we extend Greengard and Rokhlin's seminal work on fast multipole method (FMM) ...
We present parallel versions of a representative N-body application that uses Greengard and Rokhlin&...
Algorithms and working expressions for a grid-based fast multipole method (GB-FMM) have been develop...
AbstractWe present a parallel Poisson solver on distributed computing environments. In the solver, t...
We present a new adaptive fast multipole algorithm and its parallel implementation. The algorithm is...
We present a new fast multipole method for particle simulations. The main feature of our algorithm i...
This thesis describes the Fast Multipole Method (FMM). The method reduces the complexity of the Coul...
The N-body problem appears in many computational physics simulations. At each time step the computat...
AbstractThis paper presents a parallel version of the fast multipole method (FMM). The FMM is a rece...
The Fast Multipole Method allows the rapid evaluation of sums of radial basis functions centered at ...
This thesis presents a top to bottom analysis on designing and implementing fast algorithms for curr...
For more than two decades, several forms of fast multipole methods have been extremely successful in...
<b>Invited Lecture at the SIAM <i>"Encuentro Nacional de Ingeniería Matemática,"</i> at Pontificia U...
N-body pairwise interactions are ubiquitous in scientific areas such as astrophysics, fluids mechani...
Among the algorithms that are likely to play a major role in future exascale computing, the fast mul...
In this dissertation, we extend Greengard and Rokhlin's seminal work on fast multipole method (FMM) ...
We present parallel versions of a representative N-body application that uses Greengard and Rokhlin&...
Algorithms and working expressions for a grid-based fast multipole method (GB-FMM) have been develop...
AbstractWe present a parallel Poisson solver on distributed computing environments. In the solver, t...