Title of article
Generalized ensemble simulations for complex systems Original Research Article
Author/Authors
Bernd A. Berg، نويسنده ,
Issue Information
دوهفته نامه با شماره پیاپی سال 2002
Pages
6
From page
52
To page
57
Abstract
The most efficient MC weights for the calculation of physical, canonical expectation values are not necessarily those of the canonical ensemble. The use of suitably generalized ensembles can lead to a much faster convergence of the simulation. Although not realized by nature, these ensembles can be implemented on computers. In recent years generalized ensembles have in particular been studied for the simulation of complex systems. For these systems it is typical that conflicting constraints lead to free energy barriers, which fragment the configuration space. Examples of major interest are spin glasses and proteins. In my overview I first comment on the strengths and weaknesses of a few major approaches, multicanonical simulations, transition variable methods, and parallel tempering. Subsequently, two applications are presented: a new analysis of the Parisi overlap distribution for the 3D Edwards–Anderson Ising spin glass and the helix-coil transition of amino-acid homo-oligomers.
Keywords
Markov chain Monte Carlo simulations , Parallel tempering , First order phase transitions , Complex systems , Spin glasses , Proteins , Peptides , Multicanonical , Transition matrix
Journal title
Computer Physics Communications
Serial Year
2002
Journal title
Computer Physics Communications
Record number
1135961
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