AbstractWe consider Monte Carlo simulations of classical spin models of statistical mechanics using the massively parallel architecture provided by graphics processing units (GPUs). We discuss simulations of models with discrete and continuous variables, and using an array of algorithms ranging from single-spin flip Metropolis updates over cluster algorithms to multicanonical and Wang-Landau techniques to judge the scope and limitations of GPU accelerated computation in this field. For most simulations discussed, we find significant speed-ups by two to three orders of magnitude as compared to single-threaded CPU implementations
We present a case-study on the utility of graphics cards to perform massively parallel sim ulation w...
Monte Carlo simulations of the Ising model play an important role in the field of computational stat...
AbstractWe investigate new programming techniques for parallel tempering Monte Carlo simulations of ...
AbstractWe consider Monte Carlo simulations of classical spin models of statistical mechanics using ...
Graphics processing units (GPUs) are recently being used to an increasing degree for general computa...
Abstract: Lattice spin models are useful for studying critical phenomena and allow the extraction of...
Data-parallel accelerator devices such as Graphical Processing Units (GPUs) are providing dramatic p...
In this contribution we describe an efficient GPU implementation of the Monte-Carlo simulation of th...
We implement Monte Carlo algorithms for the simulation of spin-glass systems and optimize our codes ...
Population annealing is a promising recent approach for Monte Carlo simulations in statistical physi...
We present a case study on the utility of graphics cards to perform massively parallel simulation of...
Monte Carlo simulations of the Ising model play an important role in the field of computational stat...
It is shown micromagnetic and atomistic spin dynamics simulations can use multiple GPUs in order to ...
We present a case-study on the utility of graphics cards to perform massively parallel simulation of...
We optimize codes implementing Monte Carlo simulations of spin-glass systems for some multi-core CPU...
We present a case-study on the utility of graphics cards to perform massively parallel sim ulation w...
Monte Carlo simulations of the Ising model play an important role in the field of computational stat...
AbstractWe investigate new programming techniques for parallel tempering Monte Carlo simulations of ...
AbstractWe consider Monte Carlo simulations of classical spin models of statistical mechanics using ...
Graphics processing units (GPUs) are recently being used to an increasing degree for general computa...
Abstract: Lattice spin models are useful for studying critical phenomena and allow the extraction of...
Data-parallel accelerator devices such as Graphical Processing Units (GPUs) are providing dramatic p...
In this contribution we describe an efficient GPU implementation of the Monte-Carlo simulation of th...
We implement Monte Carlo algorithms for the simulation of spin-glass systems and optimize our codes ...
Population annealing is a promising recent approach for Monte Carlo simulations in statistical physi...
We present a case study on the utility of graphics cards to perform massively parallel simulation of...
Monte Carlo simulations of the Ising model play an important role in the field of computational stat...
It is shown micromagnetic and atomistic spin dynamics simulations can use multiple GPUs in order to ...
We present a case-study on the utility of graphics cards to perform massively parallel simulation of...
We optimize codes implementing Monte Carlo simulations of spin-glass systems for some multi-core CPU...
We present a case-study on the utility of graphics cards to perform massively parallel sim ulation w...
Monte Carlo simulations of the Ising model play an important role in the field of computational stat...
AbstractWe investigate new programming techniques for parallel tempering Monte Carlo simulations of ...