Molecular dynamics simulation has become an important tool for testing and developing hypotheses about chemical and physical processes. Since the required amount of computing power is tremendous there is a strong interest in parallel algorithms. We deal with efficient algorithms on MIMD computers for a special class of macromolecules, namely synthetic polymers, which play a very important role in industry. This makes it worthwhile to design fast parallel algorithms specifically for them. Contrary to existing parallel algorithms, our algorithms take the structure of synthetic polymers into account which allows faster simulation of their dynamics
Molecular dynamics simulations play an increasingly important role in the rational design of (nano)-...
Computer simulations of condensed phases and biochemical systems have lead to profound new insight ...
We have developed and built several clusters of Personal Computers (PCs) that we use to perform para...
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...
For the purpose of molecular dynamics simulations of large biopolymers we have built a parallel comp...
A parallel algorithm is developed that allows efficient Langevin--dynamics simulations of macromolec...
A novel algorithm is developed for the simulation of polymer chains suspended in a solvent. The poly...
Algorithms developed to enable the use of atomistic molecular simulation methods with parallel compu...
Classical Molecular Dynamics (MD) simulations provide insight into the properties of many soft-matte...
Computer simulation of polymer chain is carried out by Monte Carlo method in this paper. The propert...
AbstractThe capabilities of polymer science and computational chemistry are reaching a point of conv...
This paper is concerned with the development of techniques for massively parallel computation at th...
Molecular simulation is an indispensable tool in many different disciplines such as physics, biology...
A novel, parallelised approach to Monte Carlo simulations for the computation of full molecular weig...
Molecular dynamics simulations play an increasingly important role in the rational design of (nano)-...
Computer simulations of condensed phases and biochemical systems have lead to profound new insight ...
We have developed and built several clusters of Personal Computers (PCs) that we use to perform para...
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...
For the purpose of molecular dynamics simulations of large biopolymers we have built a parallel comp...
A parallel algorithm is developed that allows efficient Langevin--dynamics simulations of macromolec...
A novel algorithm is developed for the simulation of polymer chains suspended in a solvent. The poly...
Algorithms developed to enable the use of atomistic molecular simulation methods with parallel compu...
Classical Molecular Dynamics (MD) simulations provide insight into the properties of many soft-matte...
Computer simulation of polymer chain is carried out by Monte Carlo method in this paper. The propert...
AbstractThe capabilities of polymer science and computational chemistry are reaching a point of conv...
This paper is concerned with the development of techniques for massively parallel computation at th...
Molecular simulation is an indispensable tool in many different disciplines such as physics, biology...
A novel, parallelised approach to Monte Carlo simulations for the computation of full molecular weig...
Molecular dynamics simulations play an increasingly important role in the rational design of (nano)-...
Computer simulations of condensed phases and biochemical systems have lead to profound new insight ...
We have developed and built several clusters of Personal Computers (PCs) that we use to perform para...