International audienceWe introduce high-order formulas for the computation of statistical averages based on the long-time simulation of molecular dynamics trajectories. In some cases, this allows us to significantly improve the convergence rate of time averages toward ensemble averages. We provide some numerical examples that show the efficiency of our scheme. When trajectories are approximated using symplectic integration schemes (such as velocity Verlet), we give some error bounds that allow one to fix the parameters of the computation in order to reach a given desired accuracy in the most efficient manner
Many recently introduced enhanced sampling techniques are based on biasing coarse descriptors (colle...
.ABSTRACT: We evaluate several multiple time step MTS molecular .dynamics MD methods with respect to...
This article is concerned with the averaging principle and its extensions for stochastic dynamical s...
International audienceWe introduce high-order formulas for the computation of statistical averages b...
We introduce high-order averaging formulae for the computation of statistical averages on the basis ...
Even if our model for the molecular system is exact, computational resources limit the simu-lation l...
Molecular dynamics (MD) computations aim to simulate materials at the atomic level by approximating...
Step errors (local errors, called also truncation errors) of the algorithms used in molecular dynami...
Statistical averages in a variety of many-body problems can be efficiently calculated through determ...
Mapped averaging is a new framework for statistical mechanics that prescribes ways to compute prope...
Mapped averaging is a recently published scheme for the reformulation of ensemble averages. The fram...
Classical molecular dynamics simulation of a macromolecule requires the use of an efficient time-ste...
International audienceThe objective of molecular dynamics computations is to infer macroscopic prope...
International audienceThe equations of the temperature-accelerated molecular dynamics (TAMD) method ...
ABSTRACT. Statistical averages in a variety of many-body problems can be efficiently calculated thro...
Many recently introduced enhanced sampling techniques are based on biasing coarse descriptors (colle...
.ABSTRACT: We evaluate several multiple time step MTS molecular .dynamics MD methods with respect to...
This article is concerned with the averaging principle and its extensions for stochastic dynamical s...
International audienceWe introduce high-order formulas for the computation of statistical averages b...
We introduce high-order averaging formulae for the computation of statistical averages on the basis ...
Even if our model for the molecular system is exact, computational resources limit the simu-lation l...
Molecular dynamics (MD) computations aim to simulate materials at the atomic level by approximating...
Step errors (local errors, called also truncation errors) of the algorithms used in molecular dynami...
Statistical averages in a variety of many-body problems can be efficiently calculated through determ...
Mapped averaging is a new framework for statistical mechanics that prescribes ways to compute prope...
Mapped averaging is a recently published scheme for the reformulation of ensemble averages. The fram...
Classical molecular dynamics simulation of a macromolecule requires the use of an efficient time-ste...
International audienceThe objective of molecular dynamics computations is to infer macroscopic prope...
International audienceThe equations of the temperature-accelerated molecular dynamics (TAMD) method ...
ABSTRACT. Statistical averages in a variety of many-body problems can be efficiently calculated thro...
Many recently introduced enhanced sampling techniques are based on biasing coarse descriptors (colle...
.ABSTRACT: We evaluate several multiple time step MTS molecular .dynamics MD methods with respect to...
This article is concerned with the averaging principle and its extensions for stochastic dynamical s...