Title :
Fair scheduling in input-queued switches under inadmissible traffic
Author :
Kumar, Neha ; Pan, Rong ; Shah, Devavrat
Author_Institution :
Dept. of Electr. Eng. & Comput. Sci., Stanford Univ., CA, USA
fDate :
29 Nov.-3 Dec. 2004
Abstract :
In recent years, several high-throughput low-delay scheduling algorithms have been designed for input-queued (IQ) switches, assuming admissible traffic. In this paper, we focus on queueing systems that violate admissibility criteria. We show that in a single-server system with multiple queues, the longest queue first (LQF) policy disallows a fair allocation of service rates. We also describe the duality shared by LQF´s rate allocation and a fair rate allocation. In general, we demonstrate that the rate allocation performed by the maximum weight matching (MWM) scheduling algorithm in overloaded IQ switches is unfair. We attribute this to the lack of coordination between admission control and scheduling, and propose fair scheduling algorithms that minimize delay for nonoverloaded queues.
Keywords :
bandwidth allocation; delays; minimisation; quality of service; queueing theory; scheduling; telecommunication congestion control; telecommunication switching; telecommunication traffic; LQF policy; MWM scheduling; admission control; delay minimization; fair rate allocation; fair scheduling; inadmissible traffic; input-queued switches; longest queue first; maximum weight matching; multiple queues; nonoverloaded queues; overloaded IQ switches; quality of service; queueing systems; single-server system; Admission control; Algorithm design and analysis; Delay; Quality of service; Queueing analysis; Scheduling algorithm; Stochastic processes; Switches; Throughput; Traffic control;
Conference_Titel :
Global Telecommunications Conference, 2004. GLOBECOM '04. IEEE
Print_ISBN :
0-7803-8794-5
DOI :
10.1109/GLOCOM.2004.1378274
