Author:
Altman Eitan,Liu Zhen,Righter Rhonda
Abstract
Achieving high throughput in input-queued switches has been
found to be difficult, especially when traffic is nonuniform
in the sense that different inputs have very different
cell generation rates. We show that for general arrival
processes, 100% throughput can be achieved with a simple
algorithm that is very easy to implement.We consider a switch in which in each time slot, at most
one cell may be transmitted from each input, and at most
one cell may be received at each output. Cells that are
destined for output j arrive at input i
according to a stationary and ergodic process, and arrivals
are queued at the input. The problem is to decide which
inputs are to transmit to which outputs in each time slot
in order to maximize throughput. Necessary conditions for
stability are that the total arrival rate to each input
must be less than 1, and the total arrival rate destined
to each output must be less than 1. We propose a simple
scheduling algorithm and show that with this algorithm
the necessary conditions for stability are also sufficient.
Publisher
Cambridge University Press (CUP)
Subject
Industrial and Manufacturing Engineering,Management Science and Operations Research,Statistics, Probability and Uncertainty,Statistics and Probability
Cited by
5 articles.
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