Part 1 Protocol architecture I: reducing protocol ordering constraints to improve performance, D. Feldmeier and A. McAuley; putting the transport layer on VLSI - the PROMPT protocol chip, T. Balraj and Y. Yemini; the Heidelberg high speed transport system - first performance results, T. Schuett and M. Farber. Part 2 Protocol architecture II: high-speed OSI protocol bypass algorithm with window flow control, Y. Thia and C. Woodside; a new label-based source routing for multi-ring networks, Y. Ofek et al. Part 3 Medium access: a performance analysis of S++ - a MAC protocol for high-speed networks, G. Watson and S. Tohme; a simple scheme for slot reuse without latency in dual bus, O. Sharon and A. Segall. Part 4 Applications and resource management: resource allocation protocol for multiparty connections in broadband networks, E. Chow; using high-performance networks to enable computational aeroscience applications, M. Johnson. Part 5 ATM I: interfacing a multiprocessor protocol engine to an ATM network, M. McCutcheon et al; private ATM networks, D. Greaves and D. McAuley. Part 6 ATM II: reliability of adaptation layers, D. Greene and B. Lyles. Part 7 Host interface I: the Bay Bridge, a high speed bridge/router, R. Edell et al; a parallel approach to OSI connection-oriented protocols, M. Goldberg et al. Part 8 Host interface II: multiprocessing in high performance IP routers, A. Tantawy and M. Zitterbart; FINE - a high-speed transport protocol family and its advanced service interface, W. Zimmer.
