International audienceAdaptively Restrained Molecular Dynamics (ARMD) is a recently introduced particles simulation method that switches positional degrees of freedom on and off during simulation in order to speed up calculations. In the NVE ensemble, ARMD allows users to trade between precision and speed while, in the NVT ensemble, it makes it possible to compute statistical averages faster. Despite the conceptual simplicity of the approach, however, integrating it in existing molecular dynamics packages is non-trivial, in particular since implemented potentials should a priori be rewritten to take advantage of frozen particles and achieve a speed-up. In this paper, we present novel algorithms for integrating ARMD in LAMMPS, a popular mult...
Full atomistic Molecular Dynamics (MD) simulations are very accurate but too costly; however, atomis...
First-principles molecular dynamics (FPMD) and its quantum mechanical-molecular mechanical (QM/MM) e...
Molecular Dynamics (MD) is an important atomistic simulation technique, with widespread use in compu...
International audienceAdaptively Restrained Molecular Dynamics (ARMD) is a recently introduced parti...
International audienceForce computations are one of the most time consuming part in performing Molec...
Molecular Dynamics (MD) is often used to simulate large and complex systems. Although, simulating su...
International audienceAdaptively Restrained Molecular dynamics (ARMD) allows users to perform more i...
Les méthodes de dynamique moléculaire (MD pour Molecular Dynamics en anglais) sont utilisées pour si...
International audienceThe computation of long-range potentials is one of the demanding tasks in Mole...
International audienceIn this paper, we explore the use of Adaptively Restrained (AR) particles for ...
In molecular simulations, the frequencies of the low-frequency modes are many orders of magnitude lo...
International audienceInteraction potentials used in particle simulations are typically written as a...
We present an optimized parallelization scheme for molecular dynamics simulations of large biomolecu...
International audienceModern parallel architectures require applications to generate massive paralle...
The most widely used technique to allow for parallel simulations in molecular dynamics is spatial do...
Full atomistic Molecular Dynamics (MD) simulations are very accurate but too costly; however, atomis...
First-principles molecular dynamics (FPMD) and its quantum mechanical-molecular mechanical (QM/MM) e...
Molecular Dynamics (MD) is an important atomistic simulation technique, with widespread use in compu...
International audienceAdaptively Restrained Molecular Dynamics (ARMD) is a recently introduced parti...
International audienceForce computations are one of the most time consuming part in performing Molec...
Molecular Dynamics (MD) is often used to simulate large and complex systems. Although, simulating su...
International audienceAdaptively Restrained Molecular dynamics (ARMD) allows users to perform more i...
Les méthodes de dynamique moléculaire (MD pour Molecular Dynamics en anglais) sont utilisées pour si...
International audienceThe computation of long-range potentials is one of the demanding tasks in Mole...
International audienceIn this paper, we explore the use of Adaptively Restrained (AR) particles for ...
In molecular simulations, the frequencies of the low-frequency modes are many orders of magnitude lo...
International audienceInteraction potentials used in particle simulations are typically written as a...
We present an optimized parallelization scheme for molecular dynamics simulations of large biomolecu...
International audienceModern parallel architectures require applications to generate massive paralle...
The most widely used technique to allow for parallel simulations in molecular dynamics is spatial do...
Full atomistic Molecular Dynamics (MD) simulations are very accurate but too costly; however, atomis...
First-principles molecular dynamics (FPMD) and its quantum mechanical-molecular mechanical (QM/MM) e...
Molecular Dynamics (MD) is an important atomistic simulation technique, with widespread use in compu...