SHAKE is a widely used algorithm to impose general holonomic constraints during molecular simulations. By imposing constraints on stiff degrees of freedom that require integration with small time steps (without the constraints) we are able to calculate trajectories with time steps larger by approximately a factor of two. The larger time step makes it possible to run longer simulations. Another approach to extend the scope of Molecular Dynamics is parallelization. Parallelization speeds up the calculation of the forces between the atoms and makes it possible to compute longer trajectories with better statistics for thermodynamic and kinetic averages. A combination of SHAKE and parallelism is therefore highly desired. Unfortunately, the most ...
SHAKE and RATTLE algorithms are widely used in molecular dynamics simulations and for this reason ar...
A molecular-dynamics program typically takes several man-years to write and therefore is representat...
Full atomistic Molecular Dynamics (MD) simulations are very accurate but too costly; however, atomis...
An algorithm is presented for running SHAKE in parallel. SHAKE is a widely used approach to compute ...
This paper describes the techniques and methodologies employed during parallelization of the Molecul...
An algorithm, called RATTLE, for integrating the equations of motion in molecular dynamics calculati...
Published under license in Journal of Physics: Conference Series.Recently, an alternative strategy f...
Parallel computer programs are used to speed up the calculation of computationally-demanding scienti...
Computational chemistry allows researchers to experiment in sillico: by running a computer simulatio...
Copyright: © 2015 Materials Research SocietyThis article discusses novel algorithms for molecular-dy...
This paper discusses the comprehensive performance profiling, improvement, and benchmarking of a Mol...
Molecular mechanics and dynamics are becoming widely used to perform simulations of molecular system...
Algorithms developed to enable the use of atomistic molecular simulation methods with parallel compu...
We describe a method to impose constraints in a molecular dynamics simulation. A technique developed...
Molecular Dynamics (MD) is an important atomistic simulation technique, with widespread use in compu...
SHAKE and RATTLE algorithms are widely used in molecular dynamics simulations and for this reason ar...
A molecular-dynamics program typically takes several man-years to write and therefore is representat...
Full atomistic Molecular Dynamics (MD) simulations are very accurate but too costly; however, atomis...
An algorithm is presented for running SHAKE in parallel. SHAKE is a widely used approach to compute ...
This paper describes the techniques and methodologies employed during parallelization of the Molecul...
An algorithm, called RATTLE, for integrating the equations of motion in molecular dynamics calculati...
Published under license in Journal of Physics: Conference Series.Recently, an alternative strategy f...
Parallel computer programs are used to speed up the calculation of computationally-demanding scienti...
Computational chemistry allows researchers to experiment in sillico: by running a computer simulatio...
Copyright: © 2015 Materials Research SocietyThis article discusses novel algorithms for molecular-dy...
This paper discusses the comprehensive performance profiling, improvement, and benchmarking of a Mol...
Molecular mechanics and dynamics are becoming widely used to perform simulations of molecular system...
Algorithms developed to enable the use of atomistic molecular simulation methods with parallel compu...
We describe a method to impose constraints in a molecular dynamics simulation. A technique developed...
Molecular Dynamics (MD) is an important atomistic simulation technique, with widespread use in compu...
SHAKE and RATTLE algorithms are widely used in molecular dynamics simulations and for this reason ar...
A molecular-dynamics program typically takes several man-years to write and therefore is representat...
Full atomistic Molecular Dynamics (MD) simulations are very accurate but too costly; however, atomis...