An empirical study of TCP/IP performance over ATM1This paper was also presented at the Transport Protocols for High Speed Broadband Networks Workshop, at Globecom'96, in Westminster, London, UK, on 22 November, 1996.1

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Abstract

This paper outlines some basic performance characteristics of the Transmission Control Protocol/Internet Protocol (TCP/IP) over Asynchronous Transfer Mode (ATM). It also discusses a few solutions to assure acceptable TCP/IP performance over ATM which are implemented by the industry during the last couple of years. The conclusions in this paper are based on empirical TCP/IP performance test results collected on a DS3 ATM research testbed, architected with commercially available IP and ATM equipment. TCP/IP performance can vary widely and suffer significantly over ATM networks with large bandwidth*delay products. First, it is essential that the TCP window size matches the bandwidth*delay product of the end-to-end connection to fully utilize the bandwidth provided by the broadband network. Even if the window size meets this criteria, TCP performance can still be unacceptable, especially if the buffering within the ATM network is limited. A single limited-buffer bottleneck is sufficient to degrade the performance of a TCP connection when multiple traffic sources congest the bottleneck resource, such as in ATM networks with small buffer switches. One approach to assure acceptable TCP/IP performance is to limit the data rate into the bottleneck resource by exercising rate control at the entry to the ATM network. A better solution is to provide sufficient buffering within the ATM network.