Title :
A Control Theoretic Analysis of Arbitration and Matching Schemes for Packet Switches
Author :
Zhen Guo ; Rojas-Cessa, R.
Author_Institution :
Univ. Heights, Newark
Abstract :
Stability of a switch or router is one of the features of most interest. A stable input buffered switch means that occupancies in any of the input queues converges to a value different from infinity for admissible ingress traffic. Techniques to study stability in a switch are limited and sometimes unsuitable for elaborated schemes. Lyapunov functions have been used to analyze stability in maximum weight matching (MWM) schemes and may be hard to apply in other schemes. Here, we propose an alternative technique and it may be applied to a wide range of selection schemes, and furthermore, to different switch architectures. As an application of this technique, this paper discusses the impact of the granularity of the service time in the stability of an input-queued switch.
Keywords :
packet switching; queueing theory; stability; Lyapunov functions; admissible ingress traffic; arbitration schemes; input-queued switch; matching schemes; maximum weight matching schemes; packet switches; router; Feedback control; H infinity control; Lyapunov method; Optical packet switching; Optical switches; Packet switching; Queueing analysis; Stability analysis; Throughput; Traffic control; dwell time; fluid model; input-buffered; packet switches; stability;
Conference_Titel :
Sarnoff Symposium, 2006 IEEE
Conference_Location :
Princeton, NJ
Print_ISBN :
978-1-4244-0002-7
DOI :
10.1109/SARNOF.2006.4534804
