| 3 (2007) | |||||||||||||||
Abstract | |||||||||||||||
| We consider N processors communicating unidirectionally over a closed transmission channel, or ring. Each message is assembled into a fixed-length packet. Packets to be sent are generated at random times by the processors, and the transit times spent by packets on the ring are also random. Packets being forwarded, i.e., packets already on the ring, have priority over waiting packets. The objective of this paper is to analyze packet waiting times under a greedy policy, within a discrete Markov model that retains the over-all structure of a practical system, but is simple enough so that explicit results can be proved. Independent, identical Bernoulli processes model message generation at the processors, and i.i.d. geometric random variables model the transit times. Our emphasis is on asymptotic behavior for large ring sizes, N, when the respective rate parameters have the scaling =N and =N. Our main result shows that, if the traffic intensity is fixed at ae = = ! 1, then as N! 1 the expected time a message waits to be put on the ring is bounded by a constant. This result verifies that the expected waiting time under the greedy policy is within a constant factor of that under an optimal policy. Processor-Ring Communication: | |||||||||||||||
Details der Publikation | |||||||||||||||
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