基于缓冲交叉条的并行分组交换机

2010 IEEE Global Telecommunications Conference GLOBECOM 2010 Pub Date : 2010-12-01 DOI:10.1109/GLOCOM.2010.5683131

Zhuo Sun, M. Karimi, Deng Pan, Zhenyu Yang, N. Pissinou

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引用次数: 2

摘要

并行分组交换机(PPS)通过组合多个交换网络的容量，提供巨大的聚合带宽。现有的pps大多采用输出队列交换机作为交换结构，这不仅需要加速，而且实现成本高。本文提出了一种基于缓冲交叉条的并行分组交换机(BCB- PPS)，该交换机的交换结构不需要加速。我们提出了批处理- wf2q算法将分组分发到并行交换结构，并利用sMUX算法在交换结构中调度分组传输。这样的设计使简单的轮循算法能够有效地从交换结构收集数据包。此外，我们的设计不需要数据包重排序，因此在外部或内部输出都不需要缓冲区。我们证明了BCB-PPS具有严格的延迟保证和有界的缓冲区大小。最后，我们给出了仿真数据来验证分析结果并评估我们设计的性能。

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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Buffered Crossbar Based Parallel Packet Switch

A parallel packet switch (PPS) provides huge aggregate bandwidth by combining the capacities of multiple switching fabrics. Most existing PPSs use output queued switches as the switching fabrics, which require speedup and result in high implementation cost. In this paper, we present a buffered crossbar based parallel packet switch (BCB- PPS), whose switching fabrics need no speedup. We propose the Batch-WF2Q algorithm to dispatch packets to the parallel switching fabrics, and leverage the sMUX algorithm in to schedule packet transmission for the switching fabrics. Such a design enables a simple round-robin algorithm to efficiently collect packets from the switching fabrics. In addition, our design requires no packet resequencing, and thus needs no buffers at either external or internal outputs. We show that BCB-PPS has tight delay guarantees and bounded buffer sizes. Finally, we present simulation data to verify the analytical results and to evaluate the performance of our design.

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2010 IEEE Global Telecommunications Conference GLOBECOM 2010

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