Data-parallel Langevin dynamics simulations of Josephson junction arrays
Copyright policy )Data-parallel Langevin dynamics simulations of Josephson junction arrays
Abstract We discuss the advantages of parallel computing with respect to both computing speed and coding techniques. As an example of an application, we show results of dynamical simulations of two dimensional Josephson lattices in external magnetic fields. Using data parallel computing, we are able to study the dynamics of very large systems and identify the interplay between spatial and temporal scales in complex systems.
- Los Alamos National Laboratory United States
Langevin dynamics simulations, parallel computing, data-parallel programming, Modes of computation (nondeterministic, parallel, interactive, probabilistic, etc.), Josephson junction arrays, Simulation, Josephson lattices
Langevin dynamics simulations, parallel computing, data-parallel programming, Modes of computation (nondeterministic, parallel, interactive, probabilistic, etc.), Josephson junction arrays, Simulation, Josephson lattices
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