We present Tinker-HP, a massively MPI parallel package dedicated to classical molecular dynamics (MD) and to multiscale simulations, using advanced polarizable force fields (PFF) encompassing distributed multipoles electrostatics. Tinker-HP is an evolution of the popular Tinker package code that conserves its simplicity of use and its reference double precision implementation for CPUs. Grounded on interdisciplinary efforts with applied mathematics, Tinker-HP allows for long polarizable MD simulations on large systems up to millions of atoms. We detail in the paper the newly developed extension of massively parallel 3D spatial decomposition to point dipole polarizable models as well as their coupling to efficient Krylov iterative and non-ite...
Advanced potential energy surfaces are defined as theoretical models that explicitly include many-bo...
The primary focus of this dissertation is the acceleration of the evaluation of the self-consistent ...
In this paper, we investigate various numerical strategies to compute the direct space polarization ...
We present Tinker-HP, a massively MPI parallel package dedicated to classical molecular dynamics (MD...
International audienceWe present the extension of the Tinker-HP package (Lagardere, et al. Chem. Sci...
International audienceIn this article, we present a parallel implementation of point dipole-based po...
In this article, we present a parallel implementation of point dipole-based polarizable force fields...
International audienceSteered Molecular Dynamic (SMD) is a powerful technique able to accelerate rar...
This paper is dedicated to the massively parallel implementation of Steered Molecular Dynamics in th...
Steered molecular dynamic (SMD) is a powerful technique able to accelerate rare event sampling in Mo...
International audienceWe present, for the first time, scalable polarizable molecular dynamics (MD) s...
Advanced potential energy surfaces are defined as theoretical models that explicitly include many-bo...
Advanced potential energy surfaces are defined as theoretical models that explicitly include many-bo...
The primary focus of this dissertation is the acceleration of the evaluation of the self-consistent ...
In this paper, we investigate various numerical strategies to compute the direct space polarization ...
We present Tinker-HP, a massively MPI parallel package dedicated to classical molecular dynamics (MD...
International audienceWe present the extension of the Tinker-HP package (Lagardere, et al. Chem. Sci...
International audienceIn this article, we present a parallel implementation of point dipole-based po...
In this article, we present a parallel implementation of point dipole-based polarizable force fields...
International audienceSteered Molecular Dynamic (SMD) is a powerful technique able to accelerate rar...
This paper is dedicated to the massively parallel implementation of Steered Molecular Dynamics in th...
Steered molecular dynamic (SMD) is a powerful technique able to accelerate rare event sampling in Mo...
International audienceWe present, for the first time, scalable polarizable molecular dynamics (MD) s...
Advanced potential energy surfaces are defined as theoretical models that explicitly include many-bo...
Advanced potential energy surfaces are defined as theoretical models that explicitly include many-bo...
The primary focus of this dissertation is the acceleration of the evaluation of the self-consistent ...
In this paper, we investigate various numerical strategies to compute the direct space polarization ...