This paper describes the architecture and FPGA-based implementation of a massively parallel processing system (IANUS), carefully tailored to the computing requirements of a class of simulation problems relevant in statistical physics. We first discuss the system architecture in general and then focus on the configuration of the system for Monte Carlo simulation of spin-glass systems. This is the first large-scale application of the machine, on which IANUS achieves impressive performance. Our architecture uses large-scale on chip parallelism (~1000 computing cores on each processor) so it is a relevant example in the quickly expanding field of many-core architectures
Janus is a modular, massively parallel, and reconfigurable FPGA-based computing system. Each Janus m...
Summary. — Janus is an FPGA-based computer optimized for the simulation of spin glasses or similar c...
This paper describes the architecture, the development and the implementation of Janus II, a new gen...
This paper describes the architecture and FPGA-based implementation of a massively parallel processi...
We describe the hardwired implementation of algorithms for Monte Carlo simulations of a large class ...
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 describe Janus, a massively parallel FPGA-based computer optimized for the simulation of spin gla...
This paper describes JANUS, a modular massively parallel and reconfigurable FPGA-based computing sys...
We describe Janus, a massively parallel FPGA-based computer optimized for the simulation of spin gla...
Spin-glasses have become one of the most computing-demanding problems of the last 50 years in Statis...
Janus is an FPGA-based computer optimized for the simulation of spin glasses or similar condensed ma...
We describe Janus, an application-driven architecture for Monte Carlo simulations of spin glasses. J...
Janus is a modular, massively parallel, and reconfigurable FPGA-based computing system. Each Janus m...
Summary. — Janus is an FPGA-based computer optimized for the simulation of spin glasses or similar c...
This paper describes the architecture, the development and the implementation of Janus II, a new gen...
This paper describes the architecture and FPGA-based implementation of a massively parallel processi...
We describe the hardwired implementation of algorithms for Monte Carlo simulations of a large class ...
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 describe Janus, a massively parallel FPGA-based computer optimized for the simulation of spin gla...
This paper describes JANUS, a modular massively parallel and reconfigurable FPGA-based computing sys...
We describe Janus, a massively parallel FPGA-based computer optimized for the simulation of spin gla...
Spin-glasses have become one of the most computing-demanding problems of the last 50 years in Statis...
Janus is an FPGA-based computer optimized for the simulation of spin glasses or similar condensed ma...
We describe Janus, an application-driven architecture for Monte Carlo simulations of spin glasses. J...
Janus is a modular, massively parallel, and reconfigurable FPGA-based computing system. Each Janus m...
Summary. — Janus is an FPGA-based computer optimized for the simulation of spin glasses or similar c...
This paper describes the architecture, the development and the implementation of Janus II, a new gen...