HIGH-SPEED COMMUNICATION NETWORKS HIGH-SPEED COMMUNICATION NETWORKS Edited by Harry Perros North Carolina State University Raleigh, North Carolina Springer Science+Business Media, LLC Library of Congress Cataloging-In-Publ1catIon Data High-speed communication networks / edited by Harry Perros. p. cm. "Proceedings of TMComm '92"—T.p. verso. Includes bibliographical references and index. ISBN 978-1-4613-6527-3 ISBN 978-1-4615-3450-1 (eBooK) DOI 10.1007/978-1-4615-3450-1 1. Local area networks (Computer networks)—Congresses. I. Perros, Harry G. II. IEEE Conference on Communications Software (1992 : Raleigh, N.C.) TK5105.7.H54 1992 004.6--dc20 92-26600 CIP Proceedings of TriComm '92: High-Speed Communications Networks, held February 27-28, 1992, in Raleigh, North Carolina ISBN 978-1-4613-6527-3 © 1992 Springer Science+Business Media New York Originally published by Plenum Press, New York in 1992 Softcover reprint of the hardcover ist edition 1992 All rights reserved No part of this book may be reproduced, stored in a retrieval system, or transmitted in any form or by any means, electronic, mechanical, photocopying, microfilming, recording, or otherwise, without written permission from the Publisher PROGRAM COMMITTEE AND SPONSORSHIP ConferenceC hairman Harry Perros, NC StateU niversity Program Committee Brad Makrucki, BellSouth Arne Nilsson, NC StateU niversity Raif Onvural, IBM ResearchT riangle Park Dan Stevenson,M CNC Yannis Viniotis, NC StateU niversity Sponsorship ComputerS cienceD epartment,N C State University Centerf or Communicationsa nd Signal Processing,N C StateU niversity IEEE CommunicationsS ociety, EasternN C Chapter IBM ResearchT riangle Park v PREFACE TriComm '92 was the fifth in the series of Research Triangle conferences on Computer Communications. This series emerged from a need to provide a forum for the people who are actively involved in Research and Development in the Research Triangle area in which they could present and discuss new ideas in Computer Communications. TriComm '92 was dedicated to High Speed networks. In particular, the program was developed around the following themes: local ATM, preventive and reactive congestion control. routing. transport protocols. traffic measurements, software engineering for telecommunication systems. and standards. I would like to thank all the speakers who agreed to present a paper. and the members of the program committee who patiently refereed the papers despite their busy schedules. I would also like to thank Mr. Ed Bowen, IBM, Research Triangle Park, for covering the expenses for the preparation of the pre-conference proceedings. and Dr. Raif Onvural. IBM, Research Triangle Park, for overseeing the photocopying of the proceedings. I would also like to thank my "Guardian Angel" Ms. Margaret Hudacko. Center for Communications and Signal Processing. North Carolina State University, who made all the local arrangements. Without her help, this conference would have been a complete disaster. Many thanks also go to Norene Miller. Center for Communications and Signal Processing. North Carolina State University. Finally. I would like to thank Mr. Charles Lord, Eastern NC Chapter of the IEEE Communications SOCiety. for providing us with mailing lists. Harry Perros Conference Chairman Computer Science Department North Carolina State University vii CONTENTS LocalATM Architecture of Local and Metropolitan ATM Networks: New Trends ............................................ 3 G. Pujolle Supercomputer Communications as an Application for ATM Local Area Networks ................................. 15 D. Winkelstein and D. Stevenson Gigabit Local Area Networks ................................ 25 A. Pierce and D. Casey Congestion Control I An Overview of Bandwidth Management Procedures in High-Speed Networks ......................................... 35 L. Gun and R. Guerin Performance of the Buffered Leaky Bucket PoliCing Mechanism ...... 47 D.S. Holtsinger and H.G. Perros Congestion Control II Explicit Foward Congestion Notification in ATM Networks .......... 73 B.A. Makrucki A Novel Architecture and Flow Control Scheme for Private ATM Networks ......................................... 97 S.V. Jagannath and I. Viniotis Gateway Congestion Controls in High-Speed Backbone Networks ... 109 S. Fdida and H. Santoso Standards What's New in B-ISDN Standards? 125 W.O. Rice and D. Spears ix Routing Routing in ATM Networks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 139 R.O. Onvural and I. Nikola1dis A Queueing-Network Model for Half-Duplex Routing in Data Communication Networks . . . . . . . . . . . . . . . . . . . . . . . . . . .. 151 V.G. Kulkarni and S. Stidham, Jr. Transport Protocols The Xpress Transfer Protocol .............................. 161 AC. Weaver Radiology Communications for Imaging Systems . . . . . . . . . . . . . . .. 171 W.J. Chimiak High-Speed Transport Protocol Evaluation in the VISTAnet Project .......................................... 183 Y.-H. Chang Traffic Measurements Traffic Models for ISDN and B-ISDN Users .................... 205 P.E. Wirth and K.S. Meier-Hellstern Traffic Characterization in a Wide Area Network ................ 213 L.J. Bottomley and AA Nilsson Telecommunications Software EDgIneering Engineering of Telecommunications Software .................. 227 M.A Vouk Reliability of Telecommunications Software: Assessing Sensitivity of Least Squares Reliability Estimates ............... 239 W.D. Jones Software Metrics and the Quality of Telecommunication Software .............................................. 255 T.M. Khoshgoftaar and J.C. Munson INDEX ............................................... 267 x LOCAL ATM ARCHITECTURE OF LOCAL AND METROPOLITAN ATM NETWORKS: NEW TRENDS Guy Pujolle Laboratoire MASI 45 avenue des Etats-Unis 78000 Versailles, France ABSTRACT Future generations of LAN s will reach Gbps speeds. One of the main challenges in this environment is the integration of different types of traffic on the same medium with different service requirements in terms of throughput, delay, delay dispersion, reliability and sequenced delivery. In the mean time, high-speed telecommunication technology has been emerging through Broadband ISDNs (Integrated Services Data Networks) with ATM (Asynchronous Transfer Mode) being the transport mode, being standardized by the CCITT Study Group XVIII. The purpose of this paper is to propose two new architectures for high speed LANs and MANs based on ATM. INTRODUCTION Computer communication world is evolving towards high-bandwidth that makes it feasible to integrate different classes of services into the same medium, i.e., graphical visualization, I/O channel access, military command and control application, broadband ISDN connection, etc. For example, the speed of the I/O access channel is increasing very quickly. The ANSI standard channel HSC (High Speed Channel) operates at 800 Mbps and has already been adopted by IBM (HSC channel) and Cray (HSX channel). The HIPPI (HIgh Performance Parallel Interface) reaches 1.6 Gbps. With the introduction of more powerful processors, the workstations should be able to access servers at speeds of 2 to 10 Mbps. Considering the fact that the throughput of the I/O interface of a workstation is about 50 Kbps per Mips, several workstations working together will ask for much higher throughputs. First generation LAN s are well represented by Ethernet and Token Ring. The second generation LANs/MANs provide speeds of 100 Mbps, i.e., FDDI LAN. With the advances in technology, the third generation of LANs and MANs should reach the Gbps speeds. However, in this environment, different types of traffic will require different service characteristics of throughput, delay, delay dispersion, reliability and sequenced delivery which have to be taken into account in the third generation architecture proposals. There are a numbt:r of critical research issues for the third generation architectures to become a reality. • The Medium Access Control has to be flexible to provide various classes of services with different service requirements. • The OSI protocol has been developed for architectures of general purpose low speed networks. It is necessary to reevaluate the applicability of these protocols in this High-Speed Communication Networks, Edited by H. Perros Plenum Press, New York, 1992 3 environment. In particular, it is necessary to develop a new transport protocol. Some proposals reported in the literature include UDP (User Datagram Protocol), RDP (Reliable Datagram Protocol), LDP (Loader/Debugger Protocol), NETBLT (High-speed Block Transfer Protocol), NVP (Network Voice Protocol), PVP (packet Video Protocol), CMTP (Versatile Message Transaction Protocol). • At 1 Gbps, the number of outstanding frames will be about thousands, requiring strict flow control mechanisms At the same time, in the WAN field, Broadband ISDN (Integrated Services Data Network) is emerging as the standard for high-speed telecommunications. A B-ISDN network is conceived as an all-purpose digital network. The standardization of B-ISDN is in progress. The transport mode is expected to follow the ATM principle, chosen by the CCITT Study Group XVIII. Recommendation 1.121 describes the ATM technique, with a cell format illustrated in Fig. 1. An interested reader may refer to references 1 to 13 for more information on AT M networks. Despite the tremendous research activity in B-ISDN networks, the architectures for Gbps LANs/MANs have not received much attention in the literature. The purpose of this paper is to introduce two proposals developed for High Speed LANs and MANs based on ATM. SUBSCRIBER ACCESS AND REFERENCE CONFIGURATION The subscriber access reference configuration defined by the CCITT is illustrated in Fig. 2. The interested reader may refer to Bauch14 and Goeldner15 for more information. Broadband-Network Termination 1 (B-NTl) and the Broadband-Network Termination 2 (B-NT2) provides the access between the Terminal Equipment (TE) and the Local Exchange (LE). Network access from the TE takes place through the interface SB. The Termination B-NTI is adapted to the requirements of the relevant subscriber, and is usually under his responsibility. It may be a multiplexer, a PBX or a LAN. The boundary with the public network is referred to the TB interface. The B-NTI is the physical termination of the 5 bytes 48 bytes bits 8-bit header error check field generic flow 2-bit reserved field control field 2 bit payload type field Figure 1. The A TM cell Figure 2. The reference configuration 4