From the most powerful supercomputers to multicore desktops and laptops, parallel computing architectures have been in the mainstream for some time. However, numerical schemes for calculating free energies in molecular systems that directly leverage this hardware paradigm, usually taking the form of multiple-replica strategies, are just now on the cusp of becoming standard practice. Here, we present a modification of the popular molecular dynamics program NAMD that is envisioned to facilitate the use of powerful multiple-replica strategies to improve ergodic sampling for a specific class of free-energy methods known as adaptive biasing force. We describe the software implementation in a so-called multiple-walker context, alongside the inter...
Replica-exchange molecular dynamics (REMD) has been proven to efficiently improve the convergence of...
We present a novel free-energy calculation method that constructively integrates two distinct classe...
A new method is proposed to calculate alchemical free-energy differences based on molecular dynamics...
International audienceThe adaptive biasing force (ABF) scheme is a powerful molecular-dynamics based...
In the host of numerical schemes devised to calculate free energy differences by way of geometric tr...
Proper use of the adaptive biasing force (ABF) algorithm in free-energy calculations needs certain p...
By suitably extending a recent approach [Bussi, G.; et al. J. Am. Chem. Soc. 2006, 128, 13435] we in...
Abstract: A new implementation of the adaptive biasing force (ABF) method is described. This impleme...
International audienceIn the host of numerical schemes devised to calculate free energy differences ...
Recently, we have introduced a new method, metadynamics, which is able to sample rarely occurring tr...
4 pages, 1 FigureWe propose a formulation of adaptive computation of free energy differences, in the...
Molecular simulation is an essential tool in understanding complex chemical and biochemical processe...
An extremely scalable computational strategy is described for calculations of the potential of mean ...
The single-most important quantity for describing biomolecular and chemical systems at equilibrium i...
Replica-exchange molecular dynamics (REMD) has been proven to efficiently improve the convergence of...
We present a novel free-energy calculation method that constructively integrates two distinct classe...
A new method is proposed to calculate alchemical free-energy differences based on molecular dynamics...
International audienceThe adaptive biasing force (ABF) scheme is a powerful molecular-dynamics based...
In the host of numerical schemes devised to calculate free energy differences by way of geometric tr...
Proper use of the adaptive biasing force (ABF) algorithm in free-energy calculations needs certain p...
By suitably extending a recent approach [Bussi, G.; et al. J. Am. Chem. Soc. 2006, 128, 13435] we in...
Abstract: A new implementation of the adaptive biasing force (ABF) method is described. This impleme...
International audienceIn the host of numerical schemes devised to calculate free energy differences ...
Recently, we have introduced a new method, metadynamics, which is able to sample rarely occurring tr...
4 pages, 1 FigureWe propose a formulation of adaptive computation of free energy differences, in the...
Molecular simulation is an essential tool in understanding complex chemical and biochemical processe...
An extremely scalable computational strategy is described for calculations of the potential of mean ...
The single-most important quantity for describing biomolecular and chemical systems at equilibrium i...
Replica-exchange molecular dynamics (REMD) has been proven to efficiently improve the convergence of...
We present a novel free-energy calculation method that constructively integrates two distinct classe...
A new method is proposed to calculate alchemical free-energy differences based on molecular dynamics...