==Phrack Inc.== Volume Three, Issue 26, File 4 of 11 The Future Transcendent Saga continues... ___________________________________________________ | | | | | | NSFnet | | | | | | | | National Science Foundation Network | | | | | | | | brought to you by | | | | | | | | Knight Lightning | | | | | | | | April 16, 1989 | | |_|_______________________________________________|_| NSF Network Links Scientific Community And SuperComputer Centers When the National Science Foundation (NSF) established its national supercomputer centers in 1985, it also planned to create a communications network that would give remote locations access to these state-of-the-art facilities. NSF planners envisioned a system they dubbed "NSFNET." Based on a "backbone" connecting the supercomputer centers, NSFNET would combine existing networks and newly created ones into an InterNet, or network of networks, to serve the centers and their users. In addition to gaining access to the centers' computing technology, researchers at geographically dispersed locations would be part of a nationwide research network across which they could exchange scientific information. Although the primary role of NSFNET remains access to NSF-funded supercomputers and other unique scientific resources, its use as a general-purpose network, which enables scientists to share research findings, is becoming increasingly important. NSFnet Components %%%%%%%%%%%%%%%%% NSFNET is organized as a three-level hierarchy: The backbone; autonomously administered wide-area networks serving communities of researchers; and campus networks. The backbone has been in use since July 1986 and is fully operational. It provides redundant paths among NSF supercomputer centers. While several wide-area networks are already connected to the NSFNET backbone, more are being built with partial funding from NSF and will be connected as they are completed (see the section on NSFnet Component Networks). SuperComputer Centers %%%%%%%%%%%%%%%%%%%%% NSF created the supercomputer centers in response to a growing concern that a lack of access to sophisticated computing facilities had severely constrained academic research. A project solicitation in June 1984 resulted in the creation of the following centers -- the John Von Neumann National Supercomputer Center in Princeton, New Jersey, the San Diego Supercomputer Center on the campus of the University of California at San Diego, the National Center for Supercomputing Applications at the University of Illinois, the Cornell National Supercomputer Facility at Cornell University, and the Pittsburgh Supercomputing Center under joint operation by Westinghouse Electric Corporation, Carnegie-Mellon University, and the University of Pittsburgh. All the centers are multi-disciplinary and are available to any researcher who is eligible for NSF support. They offer access to computers made by Cray Research, Inc., Control Data Corporation, ETA, and IBM. The Scientific Computing Division of the National Center for Atmospheric Research is the sixth center which is part of NSFNET. The SCD has been providing advanced computing services to the atmospheric sciences community since the late 1960s. Protocols %%%%%%%%% NSFNET is using the TCP/IP protocols of the DARPA InterNet as the initial standard. The system will work toward adopting international standards as they become established. The protocols link networks that are based on different technologies and connection protocols, and provide a unified set of transport and application protocols. As the NSFNET system continues to evolve, the typical user working at a terminal or work station will be able to connect to and use various computer resources -- including the supercomputer centers -- to run interactive and batch jobs, receive output, transfer files, and communicate with colleagues throughout the nation via electronic mail. Most researchers will have either a terminal linked to a local super-minicomputer or a graphics work station. These will be connected to a local area network that is connected to a campus network, and, via a gateway system, to a wide-area network. Management %%%%%%%%%% Four institutions are sharing the interim management of NSFNET: The University of Illinois (overall project management and network engineering), Cornell University (network operations and initial technical support), the University of Southern California Information Sciences Institute (protocol enhancement and high-level technical support), and the University Corporation for Atmospheric Research (management of the NSF Network Service Center through a contract with BBN Laboratories, Inc.). NSF Network Service Center %%%%%%%%%%%%%%%%%%%%%%%%%% The NSF Network Service Center (NNSC) is providing general information about NSFNET, including the status of NSF-supported component networks and supercomputer centers. The NNSC, located at BBN Laboratories Inc. in Cambridge, MA, is an NSF-sponsored project of the University Corporation for Atmospheric Research. The NNSC, which currently has information and documents on line and in printed form, plans to distribute news through network mailing lists, bulletins, newsletters, and on-line reports. The NNSC also maintains a database of contact points and sources of additional information about the NSFNET component networks and supercomputer centers. When prospective or current users do not know whom to call concerning their questions about NSFNET use, they should contact the NNSC. The NNSC will answer general questions, and, for detailed information relating to specific components of NSFNET, will help users find the appropriate contact for further assistance. In addition the NNSC will encourage the development and identification of local campus network technical support to better serve NSFNET users in the future. Connecting To NSFnet %%%%%%%%%%%%%%%%%%%% NSFNET is part of a collection of interconnected IP-networks referred to as the InterNet. IP, the Internet Protocol, is a network protocol which allows heterogeneous networks to combine into a single virtual network. TCP, the Transmission Control Protocol, is a transport protocol which implements the packet loss and error-detection mechanisms required to maintain a reliable connection between two points on the network. TCP/IP therefore offers reliable delivery of data between heterogeneous computers on diverse networks. An example of an application which uses TCP/IP is TELNET, which provides virtual terminal service across the network. Only IP-based networks can connect to the Internet; therefore, an organization that plans to use NSFnet either must have an existing IP network or have access to one. Many large universities and technical firms have links to the InterNet in place. The computer science department of a university or the engineering support division of a company are most likely to have IP connectivity or to have information on the local connections that exist. Prospective users can ask the NNSC to determine whether an organization is already connected to the Internet. If an organization does not have an IP link, it can obtain one in several ways: *NSF has a program that funds the connecting of organizations to the NSF regional/state/community networks that are part of NSFNET. The NNSC has more information on this program. *The Computer Science Network, CSNET, provides gateway service to several IP-networks, including NSFNET. To get CSNET service, an organization must become a CSNET member. *Users may be able to get access to NSFNET through time-share accounts on machines at other organizations, such as local universities or companies. Some supercomputer centers support access systems other than NSFNET, such as Bitnet, commercial X.25 networks, and dial-up lines, which do not use IP-based protocols. The Supercomputer Centers' user services organizations can provide more information on these alternatives (see list). NSF COMPONENT NETWORKS STATE AND REGIONAL NETWORKS BARRNET (California's Bay Area Regional Research Network) MERIT ( Michigan Educational Research Network) MIDNET (Midwest Network) NORTHWESTNET (Northwestern states) NYSERNET (New York State Educational and Research Network) SESQUINET (the Texas Sesquicentennial Network) SURANET (the Southeastern Universities Research Association Network) WESTNET (Southwestern states) CONSORTIUM NETWORKS JVNCNET connects the John Von Neumann National Supercomputer Center at Princeton, NJ, with a number of universities. PSCAANET is the network of the Pittsburgh Supercomputing Center Academic Affiliates group. SDSCNET is centered at the San Diego Supercomputer Center. _______________________________________________________________________________