Simulation study of World Wide Web tra c over the ATMABR

Abstract

Asynchronous transfer mode (ATM) is the technology chosen for implementing the Broadband Integrated Services Digital Network (B-ISDN). The performance of Internet protocols over ATM is an extremely important research area. As web traac forms a major portion of the Internet traac, we model world wide web (WWW) servers and clients running over an ATM network using the available bit rate (ABR) service. The WWW servers are modeled using a variant of the SPECweb96 1 benchmark, while the WWW clients are based on a model proposed in 2]. The traac generated is typically bursty, having active and idle transmission periods. A timeout occurs after a certain idle interval. During idle periods, the underlying TCP congestion windows remain large until the timer expires. When the application becomes active again, these large windows may be used to send data in a burst. This raises the possibility of large queues at the switches, if the source rates are not controlled by ABR. We study this problem and show that ABR scales well to a large number of bursty TCP sources in the system.

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Cite this paper

@inproceedings{Vandalore1998SimulationSO, title={Simulation study of World Wide Web tra c over the ATMABR}, author={Bobby Vandalore and Shivkumar Kalyanaraman and Raj Jain and Rohit Goyal and Sonia Fahmy}, year={1998} }