Out-of-sequence preventative cell dispatching for multicast input-queued space-memory-memory Clos-network

2011 IEEE 12th International Conference on High Performance Switching and Routing Pub Date : 2011-07-04 DOI:10.1109/HPSR.2011.5986031

Hao Yu, S. Ruepp, M. Berger

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引用次数: 6

Abstract

This paper proposes two out-of-sequence (OOS) preventative cell dispatching algorithms for the multicast input-queued space-memory-memory (IQ-SMM) Clos-network switch architecture, i.e. the multicast flow-based DSRR (MF-DSRR) and the multicast flow-based round-robin (MFRR). Treating each cell independently, the desynchronized static round-robin (DSRR) cell dispatching scheme can evenly distribute cells to the central switching modules, however, its frequent change of the input switching module connection pattern causes a serious OOS problem to the IQ-SMM architecture. Therefore large reassembly buffers are required at the output ports and high reassembly delay can degrade the multicast services. MF-DSRR can reduce the OOS problem and leverages the principle of DSRR to obtain a low complexity, however it fails to eliminate the in-packet OOS where cells of the same packet are disordered. Using more resources compared to MF-DSRR, MFRR is able to eliminate the in-packet OOS, resulting in a significant reduction of reassembly buffer size and delay.

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多播输入队列空间-内存-内存clos网络的无序预防单元调度

针对多播输入排队空间-记忆-记忆(IQ-SMM)闭网交换架构，提出了两种无序(OOS)预防单元调度算法，即基于多播流的DSRR (MF-DSRR)和基于多播流的轮询调度(MFRR)。DSRR(去同步静态轮询)小区调度方案对每个小区进行独立处理，可以将小区均匀地分配到中心交换模块，但由于输入交换模块连接方式的频繁变化，导致IQ-SMM体系结构存在严重的OOS问题。因此，在输出端需要较大的重组缓冲，而高的重组延迟会降低组播服务的质量。MF-DSRR可以减少OOS问题，并利用DSRR的原理获得较低的复杂度，但它不能消除包内OOS，即同一数据包的单元是无序的。与MF-DSRR相比，MFRR使用更多的资源，能够消除包内OOS，从而大大减少了重新组装缓冲区的大小和延迟。

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2011 IEEE 12th International Conference on High Performance Switching and Routing

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