The parallelisation of a sequential nonequilibrium molecular dynamics (NEMD) code for simulating polymer melts is presented. The issues impacting the efficiency of the parallel executable are probed. Various techniques, such as loop interchange, loop fusion and code restructure, have been applied to the incremental OpenMP parallelisation. Significant performance improvement and speed up are achieved for large sized systems when the parallelized code is compared to the existing sequential code. The parallelised code has successfully been applied to simulate the shear rheology of a polymer melt system
AbstractAdvances in parallel supercomputing now make possible molecular-based engineering and scienc...
Molecular dynamics is used for simulating chemical systems with the goal of studying a large range o...
In this paper we describe a practical implementation of parallel computation for the molecular dynam...
The parallelisation of a sequential nonequilibrium molecular dynamics (NEMD) code for simulating pol...
Article dans revue scientifique avec comité de lecture.The parallelization of a sequentiel molecular...
Molecular dynamics simulation has become an important tool for testing and developing hypotheses abo...
We have developed and implemented parallel algorithms for the molecular dynamics simulation of synth...
The final report for a Laboratory Directed Research and Development project entitled, Molecular Simu...
This PhD thesis deals with the investigation of polymer-melt viscosity from coarse-grained simulatio...
We discuss the advantages of parallelization by multithreading on graphics processing units (GPUs) f...
Algorithms developed to enable the use of atomistic molecular simulation methods with parallel compu...
In this thesis we investigated three different aspects of polymer dynamics using molecular dynamics ...
AbstractWe investigate new programming techniques for parallel tempering Monte Carlo simulations of ...
Nonequilibrium molecular dynamics (NEMD) is introduced. Examples are presented to show how thermodyn...
Molecular dynamics simulation is a well-established technique for modeling complex many-particle sys...
AbstractAdvances in parallel supercomputing now make possible molecular-based engineering and scienc...
Molecular dynamics is used for simulating chemical systems with the goal of studying a large range o...
In this paper we describe a practical implementation of parallel computation for the molecular dynam...
The parallelisation of a sequential nonequilibrium molecular dynamics (NEMD) code for simulating pol...
Article dans revue scientifique avec comité de lecture.The parallelization of a sequentiel molecular...
Molecular dynamics simulation has become an important tool for testing and developing hypotheses abo...
We have developed and implemented parallel algorithms for the molecular dynamics simulation of synth...
The final report for a Laboratory Directed Research and Development project entitled, Molecular Simu...
This PhD thesis deals with the investigation of polymer-melt viscosity from coarse-grained simulatio...
We discuss the advantages of parallelization by multithreading on graphics processing units (GPUs) f...
Algorithms developed to enable the use of atomistic molecular simulation methods with parallel compu...
In this thesis we investigated three different aspects of polymer dynamics using molecular dynamics ...
AbstractWe investigate new programming techniques for parallel tempering Monte Carlo simulations of ...
Nonequilibrium molecular dynamics (NEMD) is introduced. Examples are presented to show how thermodyn...
Molecular dynamics simulation is a well-established technique for modeling complex many-particle sys...
AbstractAdvances in parallel supercomputing now make possible molecular-based engineering and scienc...
Molecular dynamics is used for simulating chemical systems with the goal of studying a large range o...
In this paper we describe a practical implementation of parallel computation for the molecular dynam...