International audienceForce computations are one of the most time consuming part in performing Molecular Dynamics (MD) simulations. Adaptively Restrained Molecular Dynamics (ARMD) makes it possible to perform fewer force calculations by adap-tively restraining particles positions. This paper introduces parallel algorithms for single-pass incremental force computations to take advantage of adaptive restraints using the Message Passage Interface (MPI) standard. The proposed algorithms are implemented and validated in LAMMPS, however, these algorithms can be applied to other MD simulators. We compared our algorithms with LAMMPS for performance and scalability measurements
A cyclic force decomposition algorithm is examined for parallelising three body interactions. The al...
Copyright: © 2015 Materials Research SocietyThis article discusses novel algorithms for molecular-dy...
The acceleration of molecular dynamics (MD) simulations using high-performance reconfigurable comput...
International audienceForce computations are one of the most time consuming part in performing Molec...
Molecular Dynamics (MD) is often used to simulate large and complex systems. Although, simulating su...
International audienceAdaptively Restrained Molecular Dynamics (ARMD) is a recently introduced parti...
Les méthodes de dynamique moléculaire (MD pour Molecular Dynamics en anglais) sont utilisées pour si...
International audienceAdaptively Restrained Molecular dynamics (ARMD) allows users to perform more i...
Published under license in Journal of Physics: Conference Series.Recently, an alternative strategy f...
This paper describes the techniques and methodologies employed during parallelization of the Molecul...
We examine parallel algorithms for molecular dynamics simulations involving long-range induction int...
International audienceModern parallel architectures require applications to generate massive paralle...
Parallel computer programs are used to speed up the calculation of computationally-demanding scienti...
Molecular dynamics simulation is a well-established technique for modeling complex many-particle sys...
We present an optimized parallelization scheme for molecular dynamics simulations of large biomolecu...
A cyclic force decomposition algorithm is examined for parallelising three body interactions. The al...
Copyright: © 2015 Materials Research SocietyThis article discusses novel algorithms for molecular-dy...
The acceleration of molecular dynamics (MD) simulations using high-performance reconfigurable comput...
International audienceForce computations are one of the most time consuming part in performing Molec...
Molecular Dynamics (MD) is often used to simulate large and complex systems. Although, simulating su...
International audienceAdaptively Restrained Molecular Dynamics (ARMD) is a recently introduced parti...
Les méthodes de dynamique moléculaire (MD pour Molecular Dynamics en anglais) sont utilisées pour si...
International audienceAdaptively Restrained Molecular dynamics (ARMD) allows users to perform more i...
Published under license in Journal of Physics: Conference Series.Recently, an alternative strategy f...
This paper describes the techniques and methodologies employed during parallelization of the Molecul...
We examine parallel algorithms for molecular dynamics simulations involving long-range induction int...
International audienceModern parallel architectures require applications to generate massive paralle...
Parallel computer programs are used to speed up the calculation of computationally-demanding scienti...
Molecular dynamics simulation is a well-established technique for modeling complex many-particle sys...
We present an optimized parallelization scheme for molecular dynamics simulations of large biomolecu...
A cyclic force decomposition algorithm is examined for parallelising three body interactions. The al...
Copyright: © 2015 Materials Research SocietyThis article discusses novel algorithms for molecular-dy...
The acceleration of molecular dynamics (MD) simulations using high-performance reconfigurable comput...