Abstract
This paper discusses the dimensioning of buffers and the bandwidth allocation for data traffic in the ATM network. Data traffic is notoriously complex and bursty, making such dimensioning a difficult task. However, the COMBINE project, when dimensioning their InterWorking Units (IWUs), adopted a Poissonian packet arrival model, based upon the argument that burstiness at timescales higher than that of a packet arrival are a problem to be tackled by flow control at higher layers. This paper presents experimental results from the COMBINE testbed that show that this hypothesis was justified and that good TCP goodput was obtained based upon this dimensioning approach, due to TCP's ability to adapt to network congestion. However, it is also shown that it was the TCP algorithm that was ultimately responsible for controlling the packet loss ratio in the network and not the bandwidth allocation or buffer size. The results highlight the importance of taking into account the mutual influence between the ATM layer and the transport layer congestion control algorithms.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
Explore related subjects
Discover the latest articles, news and stories from top researchers in related subjects.References
I.Norros (ed.), K.Kvols (workpackage leader), IWU design choices based on performance analysis, Deliverable 4, R2032 COMBINE Project, (1993), R2032/KTA/WP1/DS/P/004/b1.
I.Norros, On the use of fractional Brownian motion in the theory of connectionless networks, COST-242 Technical Contribution TD94-33 (1994).
A.E. Conway, A Perspective on the analytical performance evaluation of multilayered communication protocol architectures, J. Select. Areas Commun. 9(1991)4–14.
S.Aalto, I.Norros, J.Virtamo, K.Kvols and S.Manthorpe, Performance aspects of streaming and message modes of interworking,Proc. Interworking 92 Conf., Bern (1992).
ITU-T Recommendation I.371.
W.Leland and D.Wilson, High time-resolution measurement and analysis of LAN traffic: Implications for LAN interconnection,Proc. Infocom 91.
S.Manthorpe and X.Garcia, TCP performance over ATM based LAN interconnection services,Proc. Interop 95 Engineers' Conf. Las Vegas (1995).
S.Robert and C. van den Branden Lambrecht, An SSMP traffic model based on network measurements,1995 IEEE Int. Phoenix Conf. on Computers and Communications Phoenix (1995).
S.Rao, M.Rumekasten and M.Frank, (eds.), Performance results from the heterogeneous broadband testbed with DQDB-ATM interworking units and CL-server, R2032 COMBINE Deliverable 13, R2032/KTA/WP4/DS/P/013/1.
V. Jacobsen and M. Karels, Congestion avoidance and control,Proc. of SIGCOM '88, Stanford (ACM, 1988).
D.E.Comer,Internetworking with TCP/IP—Vol. 1: Principles, Protocols and Architecture, 2nd Ed. (Prentice-Hall, 1991).
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Manthorpe, S. Buffer and bandwidth allocation for TCP data traffic: experimental results. Telecommunication Systems 5, 209–221 (1996). https://doi.org/10.1007/BF02109734
Issue Date:
DOI: https://doi.org/10.1007/BF02109734