| Document Date: 1999-11-15 17:16:45
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City Seattle / / Company Digital Equipment Corporation / Sandia National Laboratories / Intel / / / Facility Prentice Hall / Harvard University / / IndustryTerm equivalent protocol / high-speed networking market / large networking scenarios / receiver-oriented adaptive buffer allocation algorithm / good performance even if future networks / higher-level protocols / inadequate solutions / higher-lever protocols / distributed computing / typical sliding window protocols / universal short-term solution / lighter weight protocol / particular algorithm / less expensive hardware / level protocols / transport protocols / speed networks / transport-level protocol / Control systems / flow control systems / adaptive buffer algorithm / wide-area network / computer communications / flowcontrol protocols / well use existing transport protocols / / OperatingSystem Unix / / Organization Harvard University / ATM Networks H. T. Kung and Robert Morris Division of Applied Sciences / Advanced Research Projects Agency / BNR / / Person Robert Morris / / Position head / network administrator / / ProvinceOrState New Jersey / Washington / Massachusetts / / Technology flowcontrol protocols / higher-level protocols / transport-level protocol / Unix / adapter cards / ATM / existing transport protocols / TCP/IP / OC-3 / lighter weight protocol / flow control system / typical sliding window protocols / particular algorithm / Flow Control / high-level protocols / Simulation / receiver-oriented adaptive buffer allocation algorithm / higher-lever protocols / X.25 / equivalent protocol / network protocols / virtual circuit / adaptive buffer algorithm / /
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This article is to appear in IEEE Network Magazine, March[removed]Credit-Based Flow Control for ATM Networks H. T. Kung and Robert Morris