弹性缓冲片上网络的路由器设计

Proceedings of the Conference on High Performance Computing Networking, Storage and Analysis Pub Date : 2009-11-14 DOI:10.1145/1654059.1654062

George Michelogiannakis, W. Dally

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引用次数: 24

摘要

本文通过对三种具有代表性的弹性缓冲路由器的设计进行评价，探讨了弹性缓冲路由器的设计空间。我们提出了一种增强的两阶段EB路由器，通过使用前瞻性路由并将[17]基准路由器中的三槽输出EBs替换为两槽EBs，该路由器通过减少42%的周期时间和减少20%的占用面积来实现吞吐量最大化。我们还提出了一个单级路由器，它合并了两个管道阶段，以避免管道开销。与增强型两级路由器相比，如果两者在相同时钟频率下工作，则该设计可将零负载延迟降低24%;此外，与增强型两级路由器相比，单级路由器每传输比特所需的能量和占用的面积分别减少了29%和30%。但增强型两级路由器的周期时间比单级路由器短26%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Router designs for elastic buffer on-chip networks

This paper explores the design space of elastic buffer (EB) routers by evaluating three representative designs. We propose an enhanced two-stage EB router which maximizes throughput by achieving a 42% reduction in cycle time and 20% reduction in occupied area by using look-ahead routing and replacing the three-slot output EBs in the baseline router of [17] with two-slot EBs. We also propose a single-stage router which merges the two pipeline stages to avoid pipelining overhead. This design reduces zero-load latency by 24% compared to the enhanced two-stage router if both are operated at the same clock frequency; moreover, the single-stage router reduces the required energy per transferred bit and occupied area by 29% and 30% respectively, compared to the enhanced two-stage router. However, the cycle time of the enhanced two-stage router is 26% smaller than that of the single-stage router.

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Proceedings of the Conference on High Performance Computing Networking, Storage and Analysis

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