An important and computationally demanding part of molecular dynamics simulations is the calculation of long-range electrostatic interactions. Today, the prevalent method to compute these interactions is particle mesh Ewald (PME). The PME implementation in the GROMACS molecular dynamics package is extremely fast on individual GPU nodes. However, for large scale multinode parallel simulations, PME becomes the main scaling bottleneck as it requires all-to-all communication between the nodes; as a consequence, the number of exchanged messages scales quadratically with the number of involved nodes in that communication step. To enable efficient and scalable biomolecular simulations on future exascale supercomputers, clearly a method with a bett...
Within molecular dynamics simulations of protein–solvent systems the exact evaluation of long-range ...
International audienceThe computation of long-range potentials is one of the demanding tasks in Mole...
The Fast Multipole Method allows the rapid evaluation of sums of radial basis functions centered at ...
A significant and computationally most demanding part of molecular dynamics simulations is the calcu...
Atomistic simulations of large biomolecular systems with chemicalvariability such as constant pH dyn...
Solving an N-body problem, electrostatic or gravitational, is a crucial task and the main computatio...
Based on our critique of requirements for performing an efficient molecular dynamics simulation with...
We report on a parallel version of the Fast Multipole Method (FMM) implemented in the classical mole...
Multipole-based algorithms allow for reduction in the effort required to solve the N - body problem ...
Algorithms and working expressions for a grid-based fast multipole method (GB-FMM) have been develop...
Solving an N-body problem, electrostatic or gravitational, is a crucial task and the main computatio...
Typical biomolecular systems such as cellular membranes, DNA, and protein complexes are highly charg...
This thesis presents a top to bottom analysis on designing and implementing fast algorithms for curr...
<b>Invited Lecture at the SIAM <i>"Encuentro Nacional de Ingeniería Matemática,"</i> at Pontificia U...
To evaluate electrostatics interactions, Molecular dynamics (MD) simulations rely on Particle Mesh E...
Within molecular dynamics simulations of protein–solvent systems the exact evaluation of long-range ...
International audienceThe computation of long-range potentials is one of the demanding tasks in Mole...
The Fast Multipole Method allows the rapid evaluation of sums of radial basis functions centered at ...
A significant and computationally most demanding part of molecular dynamics simulations is the calcu...
Atomistic simulations of large biomolecular systems with chemicalvariability such as constant pH dyn...
Solving an N-body problem, electrostatic or gravitational, is a crucial task and the main computatio...
Based on our critique of requirements for performing an efficient molecular dynamics simulation with...
We report on a parallel version of the Fast Multipole Method (FMM) implemented in the classical mole...
Multipole-based algorithms allow for reduction in the effort required to solve the N - body problem ...
Algorithms and working expressions for a grid-based fast multipole method (GB-FMM) have been develop...
Solving an N-body problem, electrostatic or gravitational, is a crucial task and the main computatio...
Typical biomolecular systems such as cellular membranes, DNA, and protein complexes are highly charg...
This thesis presents a top to bottom analysis on designing and implementing fast algorithms for curr...
<b>Invited Lecture at the SIAM <i>"Encuentro Nacional de Ingeniería Matemática,"</i> at Pontificia U...
To evaluate electrostatics interactions, Molecular dynamics (MD) simulations rely on Particle Mesh E...
Within molecular dynamics simulations of protein–solvent systems the exact evaluation of long-range ...
International audienceThe computation of long-range potentials is one of the demanding tasks in Mole...
The Fast Multipole Method allows the rapid evaluation of sums of radial basis functions centered at ...