Fault tolerant delay insensitive inter-chip communication

Yebin Shi, Steve B. Furber, Jim Garside, Luis A. Plana

Research output: Chapter in Book/Report/Conference proceedingConference contributionpeer-review

Abstract

Asynchronous interconnect is a promising technology for communication systems. Delay Insensitive (DI interconnect eliminates relative timing assumptions, offering a robust and flexible approach to on- and inter-chip communication. In the SpiNNaker system - a massively parallel computation platform -a DI system-wide communication infrastructure is employedwhich uses a 4-phase 3-of-6 code for on-chip communication and a 2-phase 2-of-7 code for inter-chip communication. Fault-tolerance has been evaluated by randomly injecting transient glitches into the off-chip wires. Fault simulation reveals that deadlock may occur in either the transmitter or the receiver as handshake protocols are disrupted. Various methods have been tested for reducing oreliminating deadlock, including a novel phase-insensitive 2-phase to 4-phase converter, a priority arbiter for reliable code conversion and a scheme that allows independent resetting of the transmitter and receiver to clear deadlocks. Simulation results confirm that these methods enhance the fault tolerance of the DI communication link, in particular making it significantly more resistant to deadlock. © 2009 IEEE.
Original languageEnglish
Title of host publicationProceedings - International Symposium on Asynchronous Circuits and Systems|Proc. Int. Symp. Asynchr. Circuits Syst.
Place of PublicationUSA
PublisherIEEE
Pages77-84
Number of pages7
ISBN (Print)9780769536163
DOIs
Publication statusPublished - 2009
Event15th International Symposium on Asynchronous Circuits and Systems, ASYNC 2009 - Chapel Hill, NC
Duration: 1 Jul 2009 → …

Conference

Conference15th International Symposium on Asynchronous Circuits and Systems, ASYNC 2009
CityChapel Hill, NC
Period1/07/09 → …

Keywords

  • asynchronous circuits , fault simulation , fault tolerance , integrated circuit interconnections , network-on-chip , phase convertors

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