Many recently introduced enhanced sampling techniques are based on biasing coarse descriptors (collective variables) of a molecular system on the fly. Sometimes the calculation of such collective variables is expensive and becomes a bottleneck in molecular dynamics simulations. An algorithm to treat smooth biasing forces within a multiple time step framework is here discussed. The implementation is simple and allows a speed up when expensive collective variables are employed. The gain can be substantial when using massively parallel or GPU-based molecular dynamics software. Moreover, a theoretical framework to assess the sampling accuracy is introduced, which can be used to assess the choice of the integration time step in both single and m...
Enhanced sampling algorithms have emerged as powerful methods to extend the utility of molecular dyn...
We review a selection of methods for performing enhanced sampling in molecular dynamics simulations....
Monte Carlo (MC) methods have a long-standing history as partners of molecular dynamics (MD) to simu...
Many recently introduced enhanced sampling techniques are based on biasing coarse descriptors (colle...
To enhance efficiency in molecular dynamics simulations, forces that vary slowly are often evaluated...
Molecular dynamics (MD) simulations are a powerful tool to follow the time evolution of biomolecular...
Reversible multiple timescale (MTS) integration algorithms have long been recognized as a straightfo...
Abstract: Multiple time scale methodologies have gained widespread use in molecular dynamics simulat...
In multiscale molecular dynamics simulations the accuracy of detailed models is combined with the ef...
I will present some numerical challenges raised by the simulation of materials at the atomistic leve...
In multiscale molecular dynamics simulations the accuracy of detailed models is combined with the ef...
Even if our model for the molecular system is exact, computational resources limit the simu-lation l...
AbstractWe will discuss herein issues on the proper time step in molecular dynamics simulations. Det...
.ABSTRACT: We evaluate several multiple time step MTS molecular .dynamics MD methods with respect to...
Molecular Dynamics (MD) is an important atomistic simulation technique, with widespread use in compu...
Enhanced sampling algorithms have emerged as powerful methods to extend the utility of molecular dyn...
We review a selection of methods for performing enhanced sampling in molecular dynamics simulations....
Monte Carlo (MC) methods have a long-standing history as partners of molecular dynamics (MD) to simu...
Many recently introduced enhanced sampling techniques are based on biasing coarse descriptors (colle...
To enhance efficiency in molecular dynamics simulations, forces that vary slowly are often evaluated...
Molecular dynamics (MD) simulations are a powerful tool to follow the time evolution of biomolecular...
Reversible multiple timescale (MTS) integration algorithms have long been recognized as a straightfo...
Abstract: Multiple time scale methodologies have gained widespread use in molecular dynamics simulat...
In multiscale molecular dynamics simulations the accuracy of detailed models is combined with the ef...
I will present some numerical challenges raised by the simulation of materials at the atomistic leve...
In multiscale molecular dynamics simulations the accuracy of detailed models is combined with the ef...
Even if our model for the molecular system is exact, computational resources limit the simu-lation l...
AbstractWe will discuss herein issues on the proper time step in molecular dynamics simulations. Det...
.ABSTRACT: We evaluate several multiple time step MTS molecular .dynamics MD methods with respect to...
Molecular Dynamics (MD) is an important atomistic simulation technique, with widespread use in compu...
Enhanced sampling algorithms have emerged as powerful methods to extend the utility of molecular dyn...
We review a selection of methods for performing enhanced sampling in molecular dynamics simulations....
Monte Carlo (MC) methods have a long-standing history as partners of molecular dynamics (MD) to simu...