Title :
Dynamic priority schemes for fast packet switches
Author :
Wong, P.C. ; Yeung, M.S.
Author_Institution :
Dept. of Inf. Eng., Chinese Univ. of Hong Kong, Shatin, Hong Kong
Abstract :
It is well known that ATM switches with a shared input queue perform better than switches with separated input queueing. Nevertheless, most existing ATM switches have certain forms of separated input queueing. We study a class of dynamic priority schemes which can facilitate buffer sharing and delay guarantee for input queueing switches, and can guarantee the switching delay. Buffer sharing is achieved by the queueing control priority discipline (QCPD), which assigns a higher priority to an input queue which has more queued packets. Delay guarantee is achieved by the blocking control priority discipline (BCPD), which assigns the highest priority to a HOL cell which has been blocked for more than a certain number of times. We show that a combination of the two, the hybrid control priority discipline (HCPD), can achieve both benefits
Keywords :
B-ISDN; asynchronous transfer mode; buffer storage; delays; packet switching; queueing theory; switching networks; telecommunication control; telecommunication switching; ATM switches; B-ISDN; blocking control priority discipline; buffer sharing; delay guarantee; dynamic priority schemes; fast packet switches; head of line cell; hybrid control priority discipline; input queueing switches; network control; queued packets; queueing control priority discipline; separated input queueing; shared input queue; switching delay; Asynchronous transfer mode; Buffer overflow; Communication system traffic control; Delay effects; Laboratories; Level control; Multiplexing; Packet switching; Switches; Traffic control;
Conference_Titel :
Communications, 1995. ICC '95 Seattle, 'Gateway to Globalization', 1995 IEEE International Conference on
Conference_Location :
Seattle, WA
Print_ISBN :
0-7803-2486-2
DOI :
10.1109/ICC.1995.525226
