Abstract NAMD is a fully featured, production molecular dynamics program for high performance simulation of large biomolecular systems. We have previously, at SC2000, presented scaling results for simulations with cutoff electrostatics on up to 2048 processors of the ASCI Red machine, achieved with an object-based hybrid force and spatial decomposition scheme and an aggressive measurement-based predictive load balancing framework. We extend this work by demonstrating similar scaling on the much faster processors of the PSC Lemieux Alpha cluster, and for simulations employing efficient (order N log N) particle mesh Ewald full electrostatics. This unprecedented scalability in a biomolecular simulation code has been attained through latency to...
NAMD benchmarks were done on five different proteins with varying system sizes (anoplin, kalata B1, ...
International audienceForce computations are one of the most time consuming part in performing Molec...
High-Performance Computing is impacting on all biomedical sciences, including molecular biophysics. ...
NAMD is a portable parallel application for biomolecular simulations. NAMD pioneered the use of hybr...
NAMD is a parallel, object-oriented molecular dynamics program designed for high perfor-mance simula...
NAMD is a parallel, object-oriented molecular dynamics program designed for high performance simulat...
A 100-million-atom biomolecular simulation with NAMD is one of the three benchmarks for the NSF-fund...
We present an optimized parallelization scheme for molecular dynamics simulations of large biomolecu...
NAMD is a scalable molecular dynamics application, which has demonstrated its performance on several...
Molecular dynamics (MD) is a powerful computer simulation technique providing atomistic resolution a...
Atomistic simulations of large biomolecular systems with chemicalvariability such as constant pH dyn...
Abstract—Special-purpose computing hardware can provide significantly better performance and power e...
For the purpose of molecular dynamics simulations of large biopolymers we have built a parallel comp...
Molecular simulation is an indispensable tool in many different disciplines such as physics, biology...
Typical biomolecular systems such as cellular membranes, DNA, and protein complexes are highly charg...
NAMD benchmarks were done on five different proteins with varying system sizes (anoplin, kalata B1, ...
International audienceForce computations are one of the most time consuming part in performing Molec...
High-Performance Computing is impacting on all biomedical sciences, including molecular biophysics. ...
NAMD is a portable parallel application for biomolecular simulations. NAMD pioneered the use of hybr...
NAMD is a parallel, object-oriented molecular dynamics program designed for high perfor-mance simula...
NAMD is a parallel, object-oriented molecular dynamics program designed for high performance simulat...
A 100-million-atom biomolecular simulation with NAMD is one of the three benchmarks for the NSF-fund...
We present an optimized parallelization scheme for molecular dynamics simulations of large biomolecu...
NAMD is a scalable molecular dynamics application, which has demonstrated its performance on several...
Molecular dynamics (MD) is a powerful computer simulation technique providing atomistic resolution a...
Atomistic simulations of large biomolecular systems with chemicalvariability such as constant pH dyn...
Abstract—Special-purpose computing hardware can provide significantly better performance and power e...
For the purpose of molecular dynamics simulations of large biopolymers we have built a parallel comp...
Molecular simulation is an indispensable tool in many different disciplines such as physics, biology...
Typical biomolecular systems such as cellular membranes, DNA, and protein complexes are highly charg...
NAMD benchmarks were done on five different proteins with varying system sizes (anoplin, kalata B1, ...
International audienceForce computations are one of the most time consuming part in performing Molec...
High-Performance Computing is impacting on all biomedical sciences, including molecular biophysics. ...