The effectiveness of a new algorithm, parallel tempering, is studied for numerical simulations of biological molecules. These molecules suffer from a rough energy landscape. The resulting slowing down in numerical simulations is overcome by the new method. This is demonstrated by performing simulations with high statistics for one of the simplest peptides, Met-enkephalin. The numerical effectiveness of the new technique was found to be much better than traditional methods and is comparable to sophisticated methods like generalized ensemble techniques
We present here two novel algorithms for simulated tempering simulations, which break the detailed b...
Enhanced sampling algorithms are indispensable when working with highly-disconnected multimodal dist...
The parallel tempering, multicanonical ensemble, and multiple histogram methods are combined into a ...
In this paper, we introduce a parallel continuous simulated tempering (PCST) method for enhanced sam...
Parallel tempering (PT) molecular dynamics simulations have been extensively investigated as a means...
©2001 American Institute of PhysicsThe electronic version of this article is the complete one and ca...
AbstractWe discuss multi-dimensional generalizations of multicanonical algorithm, simulated temperin...
We apply a recently developed adaptive algorithm that systematically improves the efficiency of para...
Journal ArticleWe present a novel simulation algorithm based on tempering a fraction of relaxation-l...
We demonstrate that the multicanonical approach is not restricted to Monte Carlo simulations, but ca...
Molecular dynamics (MD) simulations can describe protein motions in atomic detail, but transitions b...
In this paper various extensions of the parallel-tempering algorithm are developed and their propert...
We compare the efficiency of two prominent techniques for simulation of complex systems: parallel te...
By suitably extending a recent approach [G. Bussi et al, J Am Chem Soc 2006, 128, 13435] we introduc...
We compare the efficiency of two prominent techniques for simulation of complex systems: parallel te...
We present here two novel algorithms for simulated tempering simulations, which break the detailed b...
Enhanced sampling algorithms are indispensable when working with highly-disconnected multimodal dist...
The parallel tempering, multicanonical ensemble, and multiple histogram methods are combined into a ...
In this paper, we introduce a parallel continuous simulated tempering (PCST) method for enhanced sam...
Parallel tempering (PT) molecular dynamics simulations have been extensively investigated as a means...
©2001 American Institute of PhysicsThe electronic version of this article is the complete one and ca...
AbstractWe discuss multi-dimensional generalizations of multicanonical algorithm, simulated temperin...
We apply a recently developed adaptive algorithm that systematically improves the efficiency of para...
Journal ArticleWe present a novel simulation algorithm based on tempering a fraction of relaxation-l...
We demonstrate that the multicanonical approach is not restricted to Monte Carlo simulations, but ca...
Molecular dynamics (MD) simulations can describe protein motions in atomic detail, but transitions b...
In this paper various extensions of the parallel-tempering algorithm are developed and their propert...
We compare the efficiency of two prominent techniques for simulation of complex systems: parallel te...
By suitably extending a recent approach [G. Bussi et al, J Am Chem Soc 2006, 128, 13435] we introduc...
We compare the efficiency of two prominent techniques for simulation of complex systems: parallel te...
We present here two novel algorithms for simulated tempering simulations, which break the detailed b...
Enhanced sampling algorithms are indispensable when working with highly-disconnected multimodal dist...
The parallel tempering, multicanonical ensemble, and multiple histogram methods are combined into a ...