Implementation and Evaluation of On-Chip Network Architectures

Driven by the need for higher bandwidth and complexity reduction, off-chip interconnect has evolved from proprietary busses to networked architectures. A similar evolution is occurring in on-chip interconnect. This paper presents the design, implementation and evaluation of one such on-chip network,...

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Hauptverfasser: Gratz, P., Changkyu Kim, McDonald, R., Keckler, S.W., Burger, D.
Format: Tagungsbericht
Sprache:eng ; jpn
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Zusammenfassung:Driven by the need for higher bandwidth and complexity reduction, off-chip interconnect has evolved from proprietary busses to networked architectures. A similar evolution is occurring in on-chip interconnect. This paper presents the design, implementation and evaluation of one such on-chip network, the TRIPS OCN. The OCN is a wormhole routed, 4x10, 2D mesh network with four virtual channels. It provides a high bandwidth, low latency interconnect between the TRIPS processors, L2 cache banks and I/O units. We discuss the tradeoffs made in the design of the OCN, in particular why area and complexity were traded off against latency. We then evaluate the OCN using synthetic as well as realistic loads. We found that synthetic benchmarks do not provide sufficient indication of the behavior of realistic loads on this network. Finally, we examine the effect of link bandwidth and router FIFO depth on overall performance.
ISSN:1063-6404
2576-6996
DOI:10.1109/ICCD.2006.4380859