NETWORKS FOR THE PROFESSIONAL CAMPUS ENVIRONMENT

This chapter describes the challenges of effectively utilizing distributed resources in a new Professional Campus Environment. In this environment, the synthesis and manipulation of multimedia data from physically distinct locations is a critical activity which requires development of advanced network technology. Such a network will make use of fiber-optic interconnects, highthroughput, low-latency data transfer protocols and visualization servers based on scalable clusters of high-performance workstations. Cost-effective delivery of high-resolution real-time image data is possible if the visualization clusters are interconnected via a very broadband backbone. We describe an approach which makes use of advanced networking technologies including a multi-Gbps parallel fiber-optic link technology currently being developed as part of a HewlettPackard/USC program. The major challenge and goal of this campus-based network is to develop and demonstrate efficient Gbps data transfer within and between cluster servers. A long term objective is to realize a practical networked interactive-visualization system capable of serving remote campus locations.

[1]  Ronald A. Nordin,et al.  A system design perspective on optical interconnection technology , 1993, AT&T Technical Journal.

[2]  Mohammed Ismail,et al.  Multimedia Technology for Applications , 1998 .

[3]  A. F. J. Levi,et al.  Subpicosecond skew in multimode fibre ribbon for synchronous data transmission , 1995 .

[4]  K. H. Hahn POLO-parallel optical links for gigabyte/s data communications , 1995, LEOS '95. IEEE Lasers and Electro-Optics Society 1995 Annual Meeting. 8th Annual Meeting. Conference Proceedings.

[5]  Mrt Tan,et al.  Large area multitransverse-mode VCSELs for modal noise reduction in multimode fibre systems , 1993 .

[6]  Charles L. Seitz,et al.  Myrinet: A Gigabit-per-Second Local Area Network , 1995, IEEE Micro.

[7]  Scott B. Marovich,et al.  Hamlyn: a high-performance network interface with sender-based memory management , 1995 .

[8]  Seth Copen Goldstein,et al.  Active messages: a mechanism for integrating communication and computation , 1998, ISCA '98.

[9]  T. Satake,et al.  MT multifiber connectors and new applications , 1994, 1994 Proceedings. 44th Electronic Components and Technology Conference.

[10]  Michael C. Browne,et al.  S-Connect: from networks of workstations to supercomputer performance , 1995, Proceedings 22nd Annual International Symposium on Computer Architecture.

[11]  David Banks,et al.  User-space protocols deliver high performance to applications on a low-cost Gb/s LAN , 1994, SIGCOMM '94.

[12]  Corporate IEEE Standard for Scalable Coherent Interface, Science: IEEE Std. 1596-1992 , 1993 .

[13]  Yoram Ofek,et al.  MetaRing-a full-duplex ring with fairness and spatial reuse , 1993, IEEE Trans. Commun..