Add to ORKGSubmitted to SIAM Journal of Scientific ComputingIn this paper we propose a new parareal algorithm for parallelizing in time molecular dynamics problems. The original structure of this algorithm allows one to consider multi-time stepping, namely two levels of temporal discretization, providing a larger range for the fine and coarse solvers definition. We also prove the symplecticity of this method, which is an expected behavior of the molecular dynamics integrators. The relevance of this algorithm is numerically demonstrated by applying it to three-dimensional atomic lattices on parallel computer architectures. For lattices of more than 20000 atoms we get attractive speed-up with proper choice for the coarse solver definition and for the nu...
AbstractA parallel-in-time, multiscale interaction procedure is introduced for systems described at ...
Abstract. We introduce a micro-macro parareal algorithm for the time-parallel integration of multisc...
We review recently developed decomposition algorithms for molecular dynamics and spin dynamics simul...
Submitted to SIAM Journal of Scientific ComputingIn this paper we propose a new parareal algorithm f...
International audienceWhile there have been many progress in the field of multiscale simulations in ...
International audienceWhile there have been many progress in the field of multiscale simulations in ...
International audienceThe aim of this article is to design parareal algorithms in the context of the...
In this paper, we consider the problem of accelerating the numerical simulation of time dependent pr...
In this paper, we propose a variant of the parareal algorithm for time-dependent problems involving ...
International audienceThe parareal in time algorithm allows to efficiently use parallel computing fo...
In this paper, we will report our recent effort to apply the parareal algorithm to the time parallel...
The overall Hamiltonian structure of the Quantum-Classical Molecular Dynamics model makes -- analogo...
The description of the symplectic multi-step algorithm for integration of the equations of motion wi...
The parareal in time algorithm allows for efficient parallel numerical simulations of time...
The numerical studies of control problems in quantum chemistry go through the computer simulation of...
AbstractA parallel-in-time, multiscale interaction procedure is introduced for systems described at ...
Abstract. We introduce a micro-macro parareal algorithm for the time-parallel integration of multisc...
We review recently developed decomposition algorithms for molecular dynamics and spin dynamics simul...
Submitted to SIAM Journal of Scientific ComputingIn this paper we propose a new parareal algorithm f...
International audienceWhile there have been many progress in the field of multiscale simulations in ...
International audienceWhile there have been many progress in the field of multiscale simulations in ...
International audienceThe aim of this article is to design parareal algorithms in the context of the...
In this paper, we consider the problem of accelerating the numerical simulation of time dependent pr...
In this paper, we propose a variant of the parareal algorithm for time-dependent problems involving ...
International audienceThe parareal in time algorithm allows to efficiently use parallel computing fo...
In this paper, we will report our recent effort to apply the parareal algorithm to the time parallel...
The overall Hamiltonian structure of the Quantum-Classical Molecular Dynamics model makes -- analogo...
The description of the symplectic multi-step algorithm for integration of the equations of motion wi...
The parareal in time algorithm allows for efficient parallel numerical simulations of time...
The numerical studies of control problems in quantum chemistry go through the computer simulation of...
AbstractA parallel-in-time, multiscale interaction procedure is introduced for systems described at ...
Abstract. We introduce a micro-macro parareal algorithm for the time-parallel integration of multisc...
We review recently developed decomposition algorithms for molecular dynamics and spin dynamics simul...