Add to ORKGThe parQ method, up to now only capable of calculating the density of states in the canonical ensemble, is extended to the grand canonical ensemble and compared to the Wang-Landau algorithm, a local-update flat-histogram method. Both algorithms have been implemented so that the performance and the respective benefits with increasing simulation time can be determined and compared
We report a new multicanonical Monte Carlo algorithm to obtain the density of states for physical sy...
While statisticians are well-accustomed to performing exploratory analysis in the modeling stage of ...
We discuss how reweighting and histogram methods for classical systems can be generalized to quantum...
The parQ method, up to now only capable of calculating the density of states in the canonical ensemb...
We presented an efficient algorithm, fast adaptive flat-histogram ensemble (FAFE), to estimate the d...
In Wang–Landau type algorithms, Monte-Carlo updates are performed with respect to the density of sta...
We present an optimized approach for the calculation of the density of fully coupled vibrational sta...
An algorithm to calculate the density of states, based on the well-known Wang-Landau method, is intr...
We present a method for fast computation of the density of states of binary systems. The contributio...
International audienceWhile importance sampling Monte Carlo algorithms have proved to be a crucial t...
We present a novel algorithm to compute the density of states, which is proven to converge to the co...
10 pages, 6 figures, talk at at DISCRETE2014, King's College London, December 2014Finite density qua...
Added a plot showing the efficiency at first order phase transitionsWe present a generalization of t...
Restricted Access. An open-access version is available at arXiv.org (one of the alternative location...
International audienceA novel Monte Carlo flat histogram algorithm is proposed to get the classical ...
We report a new multicanonical Monte Carlo algorithm to obtain the density of states for physical sy...
While statisticians are well-accustomed to performing exploratory analysis in the modeling stage of ...
We discuss how reweighting and histogram methods for classical systems can be generalized to quantum...
The parQ method, up to now only capable of calculating the density of states in the canonical ensemb...
We presented an efficient algorithm, fast adaptive flat-histogram ensemble (FAFE), to estimate the d...
In Wang–Landau type algorithms, Monte-Carlo updates are performed with respect to the density of sta...
We present an optimized approach for the calculation of the density of fully coupled vibrational sta...
An algorithm to calculate the density of states, based on the well-known Wang-Landau method, is intr...
We present a method for fast computation of the density of states of binary systems. The contributio...
International audienceWhile importance sampling Monte Carlo algorithms have proved to be a crucial t...
We present a novel algorithm to compute the density of states, which is proven to converge to the co...
10 pages, 6 figures, talk at at DISCRETE2014, King's College London, December 2014Finite density qua...
Added a plot showing the efficiency at first order phase transitionsWe present a generalization of t...
Restricted Access. An open-access version is available at arXiv.org (one of the alternative location...
International audienceA novel Monte Carlo flat histogram algorithm is proposed to get the classical ...
We report a new multicanonical Monte Carlo algorithm to obtain the density of states for physical sy...
While statisticians are well-accustomed to performing exploratory analysis in the modeling stage of ...
We discuss how reweighting and histogram methods for classical systems can be generalized to quantum...