| ==Phrack Inc.== |
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| Volume Three, Issue 26, File 4 of 11 |
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| The Future Transcendent Saga continues... |
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| | | NSFnet | | |
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| | | National Science Foundation Network | | |
| | | | | |
| | | brought to you by | | |
| | | | | |
| | | Knight Lightning | | |
| | | | | |
| | | April 16, 1989 | | |
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| NSF Network Links Scientific Community And SuperComputer Centers |
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| 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. |
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| 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). |
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| 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. |
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| 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. |
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| 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.). |
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| 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. |
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| 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. |
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| 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. |
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| In addition the NNSC will encourage the development and identification of local |
| campus network technical support to better serve NSFNET users in the future. |
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| 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. |
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| 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. |
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| If an organization does not have an IP link, it can obtain one in several ways: |
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| *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. |
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| *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. |
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| *Users may be able to get access to NSFNET through time-share |
| accounts on machines at other organizations, such as local |
| universities or companies. |
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| 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). |
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| NSF COMPONENT NETWORKS |
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| STATE AND REGIONAL NETWORKS |
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| 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) |
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| CONSORTIUM NETWORKS |
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| 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. |
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