ABSTRACT: Effective parallel tempering simulations rely crucially on a properly chosen sequence of temperatures. While it is desirable to achieve a uniform exchange acceptance rate across neighboring replicas, finding a set of temperatures that achieves this end is often a difficult task, in particular for systems undergoing phase transitions. Here we present a method for determination of optimal replica spacings, which is based upon knowledge of local minima in the potential energy landscape. Working within the harmonic superposition approximation, we derive an analytic expression for the parallel tempering acceptance rate as a function of the replica temperatures. For a particular system and a given database of minima, we show how this ex...
We have devised a systematic approach to converge a replica exchange molecular dynamics simulation b...
Journal ArticleWe present a novel simulation algorithm based on tempering a fraction of relaxation-l...
We derive simple analytical expressions for the error and computational efficiency of simulated temp...
We propose a simple algorithm able to identify a set of temperatures for a Parallel Tempering Monte ...
We study the dynamics of parallel tempering simulations, also known as the replica exchange techniqu...
We introduce an algorithm for systematically improving the efficiency of parallel tempering Monte Ca...
We apply a recently developed adaptive algorithm that systematically improves the efficiency of para...
Selection of temperature sequence and bias factor is a critical step for the preparation of Parallel...
We present a Monte Carlo algorithm that facilitates efficient parallel tempering simulations of the ...
Parallel tempering, also known as replica exchange sampling, is an important method for simulating c...
The present paper explores a simple approach to the question of parallel tempering temperature selec...
Parallel tempering, also known as replica exchange Monte Carlo, is studied in the context of two sim...
Abstract: Generation of equilibrium configurations is the major obstacle for numerical investigation...
Use knowledge about the minima of the energy landscape obtained using global optimization techniques...
We study generalizations of parallel tempering, also known as replica exchange method, that aim at m...
We have devised a systematic approach to converge a replica exchange molecular dynamics simulation b...
Journal ArticleWe present a novel simulation algorithm based on tempering a fraction of relaxation-l...
We derive simple analytical expressions for the error and computational efficiency of simulated temp...
We propose a simple algorithm able to identify a set of temperatures for a Parallel Tempering Monte ...
We study the dynamics of parallel tempering simulations, also known as the replica exchange techniqu...
We introduce an algorithm for systematically improving the efficiency of parallel tempering Monte Ca...
We apply a recently developed adaptive algorithm that systematically improves the efficiency of para...
Selection of temperature sequence and bias factor is a critical step for the preparation of Parallel...
We present a Monte Carlo algorithm that facilitates efficient parallel tempering simulations of the ...
Parallel tempering, also known as replica exchange sampling, is an important method for simulating c...
The present paper explores a simple approach to the question of parallel tempering temperature selec...
Parallel tempering, also known as replica exchange Monte Carlo, is studied in the context of two sim...
Abstract: Generation of equilibrium configurations is the major obstacle for numerical investigation...
Use knowledge about the minima of the energy landscape obtained using global optimization techniques...
We study generalizations of parallel tempering, also known as replica exchange method, that aim at m...
We have devised a systematic approach to converge a replica exchange molecular dynamics simulation b...
Journal ArticleWe present a novel simulation algorithm based on tempering a fraction of relaxation-l...
We derive simple analytical expressions for the error and computational efficiency of simulated temp...