A fast noniterative scheduler for input-queued switches with unbuffered crossbars

Author

Chen, Kevin F. ; Sha, Edwin H -M ; Zheng, S.Q.

Author_Institution

Dept. of Comput. Sci., Texas Univ., Richardson, TX, USA

fYear

2005

fDate

7-9 Dec. 2005

Abstract

Most high-end switches use an input-queued or a combined input- and output-queued architecture. The switch fabrics of these architectures commonly use an iterative scheduling system such as iSLIP. Iterative schedulers are not very scalable and can be slow. We propose and study a new fabric scheduling scheme that is fast and scalable. This scheduler finds maximum matching in a single iteration. It provides full throughput and incurs very low delay. It is fair and of low complexity. It greatly outperforms traditional iterative schedulers. It also renders arbitration egress memory unnecessary. Its only drawback is that it requires the support of several reads to an input memory at the same time. But simulations show this drawback is immaterial as read multiplicity is very low in various traffic conditions.

Keywords

queueing theory; telecommunication switching; fabric scheduling scheme; iSLIP; input-queued switches; iterative scheduling system; noniterative scheduler; output-queued architecture; switch fabrics; unbuffered crossbars; Computer architecture; Computer science; Delay; Fabrics; Iterative algorithms; Packet switching; Processor scheduling; Switches; Throughput; Traffic control;

fLanguage

English

Publisher

ieee

Conference_Titel

Parallel Architectures,Algorithms and Networks, 2005. ISPAN 2005. Proceedings. 8th International Symposium on

ISSN

1087-4089

Print_ISBN

0-7695-2509-1

Type

conf

DOI

10.1109/ISPAN.2005.7

Filename

1575831