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ACSD
2009
IEEE
2009
IEEE
Biologically-Inspired Massively-Parallel Architectures - Computing Beyond a Million Processors
The SpiNNaker project aims to develop parallel computer systems with more than a million embedded processors. The goal of the project is to support largescale simulations of systems of spiking neurons in biological real time, an application that is highly parallel but also places very high loads on the communication infrastructure due to the very high connectivity of biological neurons. The scale of the machine requires fault-tolerance and power-efficiency to influence the design throughout, and the development has resulted in innovation at every level of design, including a self-timed inter-chip communication system that is resistant to glitch-induced deadlock and ‘emergency’ hardware packet re-routing around failed inter-chip links, through to run-time support for functional migration and real-time fault mitigation.
Real-time TrafficACSD 2009 | Biological Neurons | Biological Real Time | Hardware | Self-timed Inter-chip Communication |
| Added | 18 May 2010 |
| Updated | 18 May 2010 |
| Type | Conference |
| Year | 2009 |
| Where | ACSD |
| Authors | Stephen B. Furber, Andrew D. Brown |
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