NAMD is a portable parallel application for biomolecular simulations. NAMD pioneered the use of hybrid spatial and force decomposition, a technique used by most scalable programs for biomolecular simulations, including Blue Matter and Desmond which were described at Supercomputing 2006. This paper describes parallel techniques and optimizations developed to enhance NAMD's scalability, to exploit recent large parallel machines. NAMD is developed using Charm++ and benefits from its adaptive communication-computation overlap and dynamic load balancing, as demonstrated in this paper. We describe some recent optimizations including: pencil decomposition of the Particle Mesh Ewald method, reduction of memory footprint, and topology sensitive load...
We report on a parallel version of the Fast Multipole Method (FMM) implemented in the classical mole...
Copyright: © 2015 Materials Research SocietyThis article discusses novel algorithms for molecular-dy...
Parallel computer programs are used to speed up the calculation of computationally-demanding scienti...
NAMD is a portable parallel application for biomolecular simulations. NAMD pioneered the use of hybr...
Abstract NAMD is a fully featured, production molecular dynamics program for high performance simula...
NAMD is a parallel, object-oriented molecular dynamics program designed for high perfor-mance simula...
A 100-million-atom biomolecular simulation with NAMD is one of the three benchmarks for the NSF-fund...
NAMD is a scalable molecular dynamics application, which has proven its performance on several paral...
We present an optimized parallelization scheme for molecular dynamics simulations of large biomolecu...
Molecular dynamics (MD) is a powerful computer simulation technique providing atomistic resolution a...
NAMD benchmarks were done on five different proteins with varying system sizes (anoplin, kalata B1, ...
AbstractVMD and NAMD are two major molecular dynamics simulation software packages, which can work t...
International audienceForce computations are one of the most time consuming part in performing Molec...
© 2013 American Physical SocietyThis article introduces a highly parallel algorithm for molecular dy...
Significant improvements are presented for the molecular dynamics code ls1 mardyn — a linked cell-ba...
We report on a parallel version of the Fast Multipole Method (FMM) implemented in the classical mole...
Copyright: © 2015 Materials Research SocietyThis article discusses novel algorithms for molecular-dy...
Parallel computer programs are used to speed up the calculation of computationally-demanding scienti...
NAMD is a portable parallel application for biomolecular simulations. NAMD pioneered the use of hybr...
Abstract NAMD is a fully featured, production molecular dynamics program for high performance simula...
NAMD is a parallel, object-oriented molecular dynamics program designed for high perfor-mance simula...
A 100-million-atom biomolecular simulation with NAMD is one of the three benchmarks for the NSF-fund...
NAMD is a scalable molecular dynamics application, which has proven its performance on several paral...
We present an optimized parallelization scheme for molecular dynamics simulations of large biomolecu...
Molecular dynamics (MD) is a powerful computer simulation technique providing atomistic resolution a...
NAMD benchmarks were done on five different proteins with varying system sizes (anoplin, kalata B1, ...
AbstractVMD and NAMD are two major molecular dynamics simulation software packages, which can work t...
International audienceForce computations are one of the most time consuming part in performing Molec...
© 2013 American Physical SocietyThis article introduces a highly parallel algorithm for molecular dy...
Significant improvements are presented for the molecular dynamics code ls1 mardyn — a linked cell-ba...
We report on a parallel version of the Fast Multipole Method (FMM) implemented in the classical mole...
Copyright: © 2015 Materials Research SocietyThis article discusses novel algorithms for molecular-dy...
Parallel computer programs are used to speed up the calculation of computationally-demanding scienti...