High-performance optical local and metropolitan area networks: enhancements of FDDI and IEEE 802.6 DQDB

The Fiber Distributed Data Interface (FDDI) and the IEEE 802.6 Distributed Queueing Dual Bus (DQDB) are emerging standards for high-speed (45-150 Mb/s) local and metropolitan area networks. Several ways of building on these emerging standards to significantly increase the achievable throughput and lower the end-to-end delay are described. Without increasing the number of transceivers or their rate, substantial throughput increases are obtained by a highly concurrent logical interconnection pattern of user nodes, and the end-to-end delay is decreased by the use of more efficient media-access techniques. The most promising architecture is a multiconnected ring having only two transmitters and two receivers per node, where each node needs to handle or process only a small fraction of the network traffic. In one example, a 24-node, distributed, packet-switched network, with only two 100-Mb/s transmitters and two 100-Mb/s receivers per node, that has a throughput of 1.5 GB/s (15 time the throughput of FDDI) is described. Such a system has the potential to be a follow-on standard to FDDI (or IEEE 802.6) or to provide a high-performance local/metropolitan area network that can interwork with standard systems.<<ETX>>

[1]  Kai Y. Eng,et al.  A multi-fiber ring architecture for distributed lightwave networks , 1988, IEEE International Conference on Communications, - Spanning the Universe..

[2]  Emanuel Dr Ing Hafner,et al.  A Digital Loop Communication System , 1974, IEEE Trans. Commun..

[3]  J. Limb Performance of local area networks at high speed , 1984, IEEE Communications Magazine.

[4]  Peter J. Wild,et al.  SILK: An Implementation of a Buffer Insertion Ring , 1983, IEEE J. Sel. Areas Commun..

[5]  A.S. Acampora,et al.  An overview of lightwave packet networks , 1989, IEEE Network.

[6]  Janak H. Patel Performance of Processor-Memory Interconnections for Multiprocessors , 1981, IEEE Transactions on Computers.

[7]  A. S. Acampora,et al.  Multihop lightwave networks: a new approach to achieve terabit capabilities , 1988, IEEE International Conference on Communications, - Spanning the Universe..

[8]  Mark J. Karol,et al.  A simple adaptive routing scheme for ShuffleNet multihop lightwave networks , 1988, IEEE Global Telecommunications Conference and Exhibition. Communications for the Information Age.

[9]  M. J. Karol Optical interconnection using ShuffleNet multihop networks in multi-connected ring topologies , 1988, SIGCOMM 1988.

[10]  Z.L. Budrikis,et al.  The QPSX MAN , 1988, IEEE Communications Magazine.

[11]  W. Bux Token-ring local-area networks and their performance , 1989 .

[12]  J. Filipiak Access protection for fairness in a distributed queue dual bus metropolitan area network , 1989, IEEE International Conference on Communications, World Prosperity Through Communications,.

[13]  Ming T. Liu,et al.  A loop network for simultaneous transmission of variable-length messages , 1974, ISCA '75.

[14]  Cauligi S. Raghavendra,et al.  Analysis and Simulation of a Class of double Loop Network Architectures , 1984, IEEE Conference on Computer Communications.

[15]  Harold S. Stone,et al.  Parallel Processing with the Perfect Shuffle , 1971, IEEE Transactions on Computers.

[16]  Anthony S. Acampora,et al.  Terabit lightwave networks: The multihop approach , 1987, AT&T Technical Journal.

[17]  Cauligi S. Raghavendra,et al.  A Survey of Multi-Connected Loop Topologies for Local Computer Networks , 1986, Comput. Networks.

[18]  F. Ross,et al.  FDDI - A tutorial , 1986, IEEE Communications Magazine.

[19]  M. J. Karol,et al.  ShuffleNet: an application of generalized perfect shuffles to multihop lightwave networks , 1988, IEEE INFOCOM '88,Seventh Annual Joint Conference of the IEEE Computer and Communcations Societies. Networks: Evolution or Revolution?.

[20]  Nader Mehravari,et al.  Performance of the multichannel multihop lightwave network under nonuniform traffic , 1988, IEEE J. Sel. Areas Commun..

[21]  J.F. Mollenauer Standards for metropolitan area networks , 1988, IEEE Communications Magazine.