Minimizing scheduling complexity with a Clos-network space-space-memory (SSM) packet switch

2013 IEEE 14th International Conference on High Performance Switching and Routing (HPSR) Pub Date : 2013-07-08 DOI:10.1109/HPSR.2013.6602284

Chuan-Bi Lin, R. Rojas-Cessa

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引用次数: 3

Abstract

In this paper we propose a three-stage space-space-memory (SSM) Clos-network switch that uses crosspoint buffers in the third-stage modules to eliminate the need for performing multiple iterations in for port matching. We show that the proposed switch not only reduces the configuration complexity of space-space-space (S3) switches but also improves switching performance and relaxes configuration timing. We demonstrate these advantages by comparing the performance of the proposed switch using the weighted module-first no-port (WFM-NP) matching scheme to that of a S3 switch using the original scheduling scheme (with port matching). For higher utilization of the SSM switch, we propose the weighted central-module-link matching (WCMM) scheme. The WCMM scheme rescinds multiple iterations for module matching and yet, it achieves higher performance than the WFM-NP scheme. The advantages of the SSM switch are achieved without memory speedup. The memory addition is a small cost to trade for complexity reduction and performance improvement.

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使用Clos-network - space-space-memory (SSM)分组交换机最小化调度复杂性

在本文中，我们提出了一种三级空间-空间-内存(SSM) clos网络交换机，该交换机在第三级模块中使用交叉点缓冲区来消除对端口匹配执行多次迭代的需要。我们证明了所提出的交换机不仅降低了空间-空间-空间(S3)交换机的配置复杂性，而且还提高了交换性能并放宽了配置时间。我们通过比较使用加权模块优先无端口(WFM-NP)匹配方案的交换机与使用原始调度方案(端口匹配)的S3交换机的性能来证明这些优点。为了提高SSM交换机的利用率，我们提出了加权中心模块链路匹配(WCMM)方案。WCMM方案取消了模块匹配的多次迭代，但其性能优于WFM-NP方案。SSM交换机的优点是在没有内存加速的情况下实现的。为了降低复杂性和提高性能，增加内存是一个很小的代价。

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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2013 IEEE 14th International Conference on High Performance Switching and Routing (HPSR)

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