Title :
Feasibility of fluid event-driven simulation for ATM networks
Author :
Kesidis, G. ; Singh, A. ; Cheung, D. ; Kwok, W.W.
Author_Institution :
Dept. of Electr. & Comput. Eng., Waterloo Univ., Ont., Canada
Abstract :
We describe an ATM network simulator that uses Markov-modulated fluid models for the sources as well as fluid leaky buckets and fluid bandwidth schedulers. The generalized processor sharing (GPS) and “idling” bandwidth schedulers are described. We argue for the use of the idling scheduler over GPS. Based on this fluid model, a simulator for ATM networks has been developed. The simulator employs the well-known discrete event-driven approach. Finally, simulation results are given that, in particular, compare the performance of fluid and “cell-level” simulators. The experimental results indicate that while the fluid simulator is much faster for ATM networks with certain characteristics, some key issues still need to be addressed to widen the applicability of this approach
Keywords :
B-ISDN; Markov processes; asynchronous transfer mode; discrete event simulation; modulation; processor scheduling; queueing theory; ATM networks; B-ISDN; FIFO queues; Markov-modulated fluid models; cell-level simulators; discrete event-driven; experimental results; fluid bandwidth schedulers; fluid event-driven simulation; fluid leaky buckets; generalized processor sharing; idling bandwidth schedulers; performance; simulation results; Asynchronous transfer mode; Bandwidth; Discrete event simulation; Fluid dynamics; Global Positioning System; Quality of service; Scheduling; Switches; Telecommunication traffic; Traffic control;
Conference_Titel :
Global Telecommunications Conference, 1996. GLOBECOM '96. 'Communications: The Key to Global Prosperity
Conference_Location :
London
Print_ISBN :
0-7803-3336-5
DOI :
10.1109/GLOCOM.1996.591988
