Many methods to accelerate sampling of molecular configurations are based on the idea that temperature can be used to accelerate rare transitions. These methods typically compute equilibrium properties at a target temperature using reweighting or through Monte Carlo exchanges between replicas at higher temperatures. A recent paper demonstrated that accurate equilibrium densities of states can also be computed through a nonequilibrium ``quench'' process, where sampling is performed at a higher temperature to encourage rapid mixing and then quenched to lower energy states with dissipative dynamics. Here we provide an implementation of the quench dynamics in LAMMPS and evaluate a new formulation of nonequilibrium estimators for the computation...
AbstractNested Sampling (NS) is a parameter space sampling algorithm which can be used for sampling ...
A free energy-guided sampling (FEGS) method is proposed for accelerating exploration of conformation...
In the context of computational drug design, we examine the effectiveness of the enhanced sampling t...
We present a method to explore the free energy landscapes of chemical reactions with post-transition...
Equilibrium sampling is at the core of computational thermodynamics, aiding our understanding of var...
To achieve acceptable accuracy in fast-switching free energy estimates by Jarzynski equality [Phys. ...
The estimation of equilibrium free energy differences is an important problem in computational therm...
Abstract: A promising method for calculating free energy differences F is to generate nonequilibrium...
Configurational freezing (<i>J. Chem. Theory Comput.</i> <b>2011</b>, <i>7</i>, 582) is a method dev...
Molecular dynamics (MD) techniques are widely used in computing free energy changes for conformation...
Biased sampling of collective variables is widely used to accelerate rare events in molecular simula...
We present a new method to compute free energies at a quantum mechanical (QM) level of theory from m...
FAPESP - FUNDAÇÃO DE AMPARO À PESQUISA DO ESTADO DE SÃO PAULOThis article describes nonequilibrium t...
Using simulations or experiments performed at some set of temperatures to learn about the physics or...
New algorithms for sampling and exploring multidimensional free energy surfaces(FES) are developed. ...
AbstractNested Sampling (NS) is a parameter space sampling algorithm which can be used for sampling ...
A free energy-guided sampling (FEGS) method is proposed for accelerating exploration of conformation...
In the context of computational drug design, we examine the effectiveness of the enhanced sampling t...
We present a method to explore the free energy landscapes of chemical reactions with post-transition...
Equilibrium sampling is at the core of computational thermodynamics, aiding our understanding of var...
To achieve acceptable accuracy in fast-switching free energy estimates by Jarzynski equality [Phys. ...
The estimation of equilibrium free energy differences is an important problem in computational therm...
Abstract: A promising method for calculating free energy differences F is to generate nonequilibrium...
Configurational freezing (<i>J. Chem. Theory Comput.</i> <b>2011</b>, <i>7</i>, 582) is a method dev...
Molecular dynamics (MD) techniques are widely used in computing free energy changes for conformation...
Biased sampling of collective variables is widely used to accelerate rare events in molecular simula...
We present a new method to compute free energies at a quantum mechanical (QM) level of theory from m...
FAPESP - FUNDAÇÃO DE AMPARO À PESQUISA DO ESTADO DE SÃO PAULOThis article describes nonequilibrium t...
Using simulations or experiments performed at some set of temperatures to learn about the physics or...
New algorithms for sampling and exploring multidimensional free energy surfaces(FES) are developed. ...
AbstractNested Sampling (NS) is a parameter space sampling algorithm which can be used for sampling ...
A free energy-guided sampling (FEGS) method is proposed for accelerating exploration of conformation...
In the context of computational drug design, we examine the effectiveness of the enhanced sampling t...