Spin glasses -- theoretical models used to capture several physical properties of real glasses -- are mostly studied by Monte Carlo simulations. The associated algorithms have a very large and easily identifiable degree of available parallelism, that can also be easily cast in SIMD form. State-of-the-art multi-and many-core processors and accelerators are therefore a promising computational platform to support these Grand Challenge applications. In this paper we port and optimize for many-core processors a Monte Carlo code for the simulation of the 3D Edwards Anderson spin glass, focusing on a dual eight-core Sandy Bridge processor, and on a Xeon-Phi co-processor based on the new {\em Many Integrated Core} architecture. We present perfo...
We describe Janus, a massively parallel FPGA-based computer optimized for the simulation of spin gla...
In this chapter we describe the Janus supercomputer, a massively parallel FPGA-based system optimize...
In this chapter we describe the Janus supercomputer, a massively parallel FPGA-based system optimize...
We implement Monte Carlo algorithms for the simulation of spin-glass systems and optimize our codes ...
We optimize codes implementing Monte Carlo simulations of spin-glass systems for some multi-core CPU...
We implement a Monte Carlo algorithm for spin glass systems and optimize for the Cell-BE processor, ...
Monte Carlo simulations of the Ising model play an important role in the field of computational stat...
Graphics processing units (GPUs) are recently being used to an increasing degree for general computa...
We describe Janus, an application-driven architecture for Monte Carlo simulations of spin glasses. J...
We present and compare the performances of two many-core architectures: the Nvidia Kepler and the In...
We develop a highly optimized code for simulating the Edwards-Anderson Heisenberg model on graphics ...
AbstractWe consider Monte Carlo simulations of classical spin models of statistical mechanics using ...
This paper describes the architecture and FPGA-based implementation of a massively parallel processi...
We describe Janus, a massively parallel FPGA-based computer optimized for the simulation of spin gla...
Monte Carlo simulations of the Ising model play an important role in the field of computational stat...
We describe Janus, a massively parallel FPGA-based computer optimized for the simulation of spin gla...
In this chapter we describe the Janus supercomputer, a massively parallel FPGA-based system optimize...
In this chapter we describe the Janus supercomputer, a massively parallel FPGA-based system optimize...
We implement Monte Carlo algorithms for the simulation of spin-glass systems and optimize our codes ...
We optimize codes implementing Monte Carlo simulations of spin-glass systems for some multi-core CPU...
We implement a Monte Carlo algorithm for spin glass systems and optimize for the Cell-BE processor, ...
Monte Carlo simulations of the Ising model play an important role in the field of computational stat...
Graphics processing units (GPUs) are recently being used to an increasing degree for general computa...
We describe Janus, an application-driven architecture for Monte Carlo simulations of spin glasses. J...
We present and compare the performances of two many-core architectures: the Nvidia Kepler and the In...
We develop a highly optimized code for simulating the Edwards-Anderson Heisenberg model on graphics ...
AbstractWe consider Monte Carlo simulations of classical spin models of statistical mechanics using ...
This paper describes the architecture and FPGA-based implementation of a massively parallel processi...
We describe Janus, a massively parallel FPGA-based computer optimized for the simulation of spin gla...
Monte Carlo simulations of the Ising model play an important role in the field of computational stat...
We describe Janus, a massively parallel FPGA-based computer optimized for the simulation of spin gla...
In this chapter we describe the Janus supercomputer, a massively parallel FPGA-based system optimize...
In this chapter we describe the Janus supercomputer, a massively parallel FPGA-based system optimize...