The spatial domain of Molecular Dynamics simulations is usually a regular box that can be easily divided in subdomains for parallel processing. Recent efforts aimed at simulating complex biological systems, like the blood flow inside arteries, require the execution of Parallel Molecular Dynamics (PMD) in vessels that have, by nature, an irregular shape. In those cases, the geometry of the domain becomes an additional input parameter that directly influences the outcome of the simulation. In this paper we discuss the problems due to the parallelization of MD in complex geometries and show an efficient and general method to perform MD in irregular domain
Methods for performing large-scale parallel Molecular Dynamics(MD) simulations are investigated. A ...
This article presents the parallel implementation of a new multiscale model that is currently develo...
Simulations of nanoscale systems where fluid mechanics plays an important role are required to help ...
The parallel implementation of MUPHY, a concurrent multiscale code for large-scale hemodynamic simul...
ABSTRACT. To achieve scalable parallel performance in Molecular Dynamics Simulations, we have modele...
Simulations of nanoscale systems where fluid mechanics plays an important role are required to help ...
The implementation of parallel molecular dynamics techniques is discussed in the context of the simu...
This paper investigates two numerical implementations of continuum boundary conditions in parallel h...
Simulations of nanoscale systems where fluid mechanics plays an important role are required to help ...
A new algorithm for calculating intermolecular pair forces in molecular dynamics (MD) simulations on...
In this talk I discuss the general question of the portability of Molecular Dynamics codes for diffu...
Molecular Dynamics (MD) simulations are an integral method in the computational studies of material...
Simulations of nanoscale systems where fluid mechanics plays an important role are required to help ...
Flexible multibody dynamics simulations have been performed sequentially on a single processor becau...
Numerical simulation of blood flows in compliant arteries is becoming an useful tool in studying the...
Methods for performing large-scale parallel Molecular Dynamics(MD) simulations are investigated. A ...
This article presents the parallel implementation of a new multiscale model that is currently develo...
Simulations of nanoscale systems where fluid mechanics plays an important role are required to help ...
The parallel implementation of MUPHY, a concurrent multiscale code for large-scale hemodynamic simul...
ABSTRACT. To achieve scalable parallel performance in Molecular Dynamics Simulations, we have modele...
Simulations of nanoscale systems where fluid mechanics plays an important role are required to help ...
The implementation of parallel molecular dynamics techniques is discussed in the context of the simu...
This paper investigates two numerical implementations of continuum boundary conditions in parallel h...
Simulations of nanoscale systems where fluid mechanics plays an important role are required to help ...
A new algorithm for calculating intermolecular pair forces in molecular dynamics (MD) simulations on...
In this talk I discuss the general question of the portability of Molecular Dynamics codes for diffu...
Molecular Dynamics (MD) simulations are an integral method in the computational studies of material...
Simulations of nanoscale systems where fluid mechanics plays an important role are required to help ...
Flexible multibody dynamics simulations have been performed sequentially on a single processor becau...
Numerical simulation of blood flows in compliant arteries is becoming an useful tool in studying the...
Methods for performing large-scale parallel Molecular Dynamics(MD) simulations are investigated. A ...
This article presents the parallel implementation of a new multiscale model that is currently develo...
Simulations of nanoscale systems where fluid mechanics plays an important role are required to help ...