Molecular dynamics is used to study the time evolution of systems of atoms. It is common to constrain bond lengths in order to increase the time step of the simulation. Here we accelerate Newton's method for solving the constraint equations for a system consisting of many identical small molecules. Starting with a modular and generic base code using a sequential data layout, we apply three different optimization techniques. The compiled code approach is used to generate subroutines equivalent to a single step of Newton's method for a user specified molecule. Differing from the generic subroutines, these specific routines contain no loops and no indirect addressing. Interleaving the data describing different molecules generates vectorizable ...
Computer simulation of proteins in aqueous solution at the atomic level of resolution is still limit...
A novel formulation for tight binding total energy calculations and tight binding molecular dynamics...
Abstract: Molecular simulations have become a powerful tool in investigating the micro-scopic behavi...
Molecular dynamics is used to study the time evolution of systems of atoms. It is common to constrai...
Molecular dynamics is used to study the time evolution of systems of atoms. It is common to constrai...
Molecular dynamics is used to study the time evolution of systems of atoms. It is common to constrai...
In molecular dynamics simulations we can often increase the time step by imposing constraints on bon...
In this article we present a new LINear Constraint Solver (LINCS) for molecular simulations with bon...
A new computational technique is described that uses distance constraints to calculate empirical pot...
Atomistic molecular dynamics simulations of biomolecules are critical for generating narratives abou...
Computational chemistry allows researchers to experiment in sillico: by running a computer simulatio...
Minisymposium: 1215 Computational Strategies and Algorithms for Improving Molecular Simulations orga...
SHAKE is a widely used algorithm to impose general holonomic constraints during molecular simulation...
In this article, we present a new LINear Constraint Solver (LINCS) for molecular simulations with bo...
First-principles molecular dynamics (FPMD) and its quantum mechanical-molecular mechanical (QM/MM) e...
Computer simulation of proteins in aqueous solution at the atomic level of resolution is still limit...
A novel formulation for tight binding total energy calculations and tight binding molecular dynamics...
Abstract: Molecular simulations have become a powerful tool in investigating the micro-scopic behavi...
Molecular dynamics is used to study the time evolution of systems of atoms. It is common to constrai...
Molecular dynamics is used to study the time evolution of systems of atoms. It is common to constrai...
Molecular dynamics is used to study the time evolution of systems of atoms. It is common to constrai...
In molecular dynamics simulations we can often increase the time step by imposing constraints on bon...
In this article we present a new LINear Constraint Solver (LINCS) for molecular simulations with bon...
A new computational technique is described that uses distance constraints to calculate empirical pot...
Atomistic molecular dynamics simulations of biomolecules are critical for generating narratives abou...
Computational chemistry allows researchers to experiment in sillico: by running a computer simulatio...
Minisymposium: 1215 Computational Strategies and Algorithms for Improving Molecular Simulations orga...
SHAKE is a widely used algorithm to impose general holonomic constraints during molecular simulation...
In this article, we present a new LINear Constraint Solver (LINCS) for molecular simulations with bo...
First-principles molecular dynamics (FPMD) and its quantum mechanical-molecular mechanical (QM/MM) e...
Computer simulation of proteins in aqueous solution at the atomic level of resolution is still limit...
A novel formulation for tight binding total energy calculations and tight binding molecular dynamics...
Abstract: Molecular simulations have become a powerful tool in investigating the micro-scopic behavi...