We present projection sorting, an algorithmic approach to determining pairwise short-range forces between particles in molecular dynamics simulations. We show it can be more effective than the standard approaches when particle density is non-uniform. We implement tuned versions of the algorithm in the context of a biophysical simulation of chromosome condensation, for the modern Intel Broadwell and Knights Landing architectures, across multiple nodes. We demonstrate up to 5x overall speedup and good scaling to large problem sizes and processor counts
For the purpose of molecular dynamics simulations of large biopolymers we have developed a new metho...
International audienceForce computations are one of the most time consuming part in performing Molec...
International audienceModern parallel architectures require applications to generate massive paralle...
We present projection sorting, an algorithmic approach to determining pairwise short-range forces be...
We present optimisations applied to a bespoke biophysical molecular dynamics simulation designed to ...
© 2013 American Physical SocietyThis article introduces a highly parallel algorithm for molecular dy...
Copyright: © 2015 Materials Research SocietyThis article discusses novel algorithms for molecular-dy...
The acceleration of molecular dynamics (MD) simulations using high performance reconfigurable comput...
A highly efficient procedure for calculating forces in a molecular dynamics simulation on a vector c...
The acceleration of molecular dynamics (MD) simulations using high-performance reconfigurable comput...
Published under license in Journal of Physics: Conference Series.Recently, an alternative strategy f...
We present an scalable algorithm for short-range Molecular Dynamics which minimizes interprocessor c...
A new algorithm for calculating intermolecular pair forces in molecular dynamics (MD) simulations on...
We report the design and performance of a computational molecular dynamics (MD) code for 400 million...
Molecular Dynamics (MD) is often used to simulate large and complex systems. Although, simulating su...
For the purpose of molecular dynamics simulations of large biopolymers we have developed a new metho...
International audienceForce computations are one of the most time consuming part in performing Molec...
International audienceModern parallel architectures require applications to generate massive paralle...
We present projection sorting, an algorithmic approach to determining pairwise short-range forces be...
We present optimisations applied to a bespoke biophysical molecular dynamics simulation designed to ...
© 2013 American Physical SocietyThis article introduces a highly parallel algorithm for molecular dy...
Copyright: © 2015 Materials Research SocietyThis article discusses novel algorithms for molecular-dy...
The acceleration of molecular dynamics (MD) simulations using high performance reconfigurable comput...
A highly efficient procedure for calculating forces in a molecular dynamics simulation on a vector c...
The acceleration of molecular dynamics (MD) simulations using high-performance reconfigurable comput...
Published under license in Journal of Physics: Conference Series.Recently, an alternative strategy f...
We present an scalable algorithm for short-range Molecular Dynamics which minimizes interprocessor c...
A new algorithm for calculating intermolecular pair forces in molecular dynamics (MD) simulations on...
We report the design and performance of a computational molecular dynamics (MD) code for 400 million...
Molecular Dynamics (MD) is often used to simulate large and complex systems. Although, simulating su...
For the purpose of molecular dynamics simulations of large biopolymers we have developed a new metho...
International audienceForce computations are one of the most time consuming part in performing Molec...
International audienceModern parallel architectures require applications to generate massive paralle...