CIXB-1:组合式输入-单cell-交叉点缓冲开关

2001 IEEE Workshop on High Performance Switching and Routing (IEEE Cat. No.01TH8552) Pub Date : 2001-05-29 DOI:10.1109/HPSR.2001.923655

R. Rojas-Cessa, Eiji Oki, Z. Jing, Hung-Hsiang Jonathan Chao

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引用次数: 227

摘要

缓冲横杆被认为是非缓冲横杆的替代方案，以提高交换吞吐量。缓冲交叉条的缺点是内存量与端口数量的平方成正比(O(N/sup 2/))。当缓冲区大小保持在最小大小以使实现可行时，这不是主要限制。对于较小的缓冲区大小，交换模块的端口数量不受内存大小的限制，而是受引脚数的限制。我们提出了一种新的架构:一种组合输入-一个单元-交叉点缓冲交叉条(CIXB-1)，在输入和轮询仲裁处具有虚拟输出队列(VOQs)。我们证明了所提出的架构可以在均匀流量下提供100%的吞吐量。CIXB-1为可行的实现提供了几个优点，例如可伸缩性和时间放松。根据目前可用的存储技术，一个单元交叉点缓冲开关对于32/spl倍/32的织物模块是可行的。

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CIXB-1: combined input-one-cell-crosspoint buffered switch

Buffered crossbars have been considered as an alternative for non-buffered crossbars to improve switching throughput. The drawback of a buffered crossbar is the memory amount that is proportional to the square of the number of ports (O(N/sup 2/)). This is not the main limitation when the buffer size is kept to a minimum size such that implementation is feasible. For a small buffer size, the number of ports of a switch module is not limited by the memory amount but by the pin count. We propose a novel architecture: a combined input-one-cell-crosspoint buffer crossbar (CIXB-1) with virtual output queues (VOQs) at the inputs and round-robin arbitration. We show that the proposed architecture can provide 100% throughput under uniform traffic. A CIXB-1 offers several advantages for a feasible implementation such as scalability and timing relaxation. With the currently available memory technology, a one-cell-crosspoint buffered switch is feasible for a 32/spl times/32 fabric module.

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来源期刊

2001 IEEE Workshop on High Performance Switching and Routing (IEEE Cat. No.01TH8552)

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