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City Cambridge / / Company General Electric Corporation / Interconnection Networks / IBM Corporation / Amax / Artificial Intelligence Laboratory / / Currency USD / / Facility Massachusetts Institute of Technology / Artificial Intelligence Laboratory / / IndustryTerm loaded networks / physical network / conventional network / multicomputer networks / n-cube networks / arbitration algorithm / loaded network / iWARP processing element / k-ary n-cube networks / flow-control protocol / multistage networks / packet-switched networks / butterfly networks / multistage network / logical networks / conventional networks / bidirectional network / k-ary n-cube mesh network / parallel processing / seteral multistage networks / cyclic network / voice and data / street network / flow control protocol / steady state solution / channel scheduling algorithm / stage networks / mesh networks / torus routing chip / / NaturalFeature Implementation Issues Virtual channel / Physical channel / / Organization Defense Advanced Research Projects Agency / National Science Foundation / Laboratory for Computer Science / Massachusetts Institute of Technology / / Person William J. Dally / / Position author / driver / head / / ProvinceOrState Massachusetts / / Technology arbitration algorithm / Flow Control / simulation / flow-control protocol / torus routing chip / flow control protocol / packet-switched / parallel processing / routing algorithm / channel scheduling algorithm / /
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194 IEEE TRANSACTIONS ON PARALLEL AND DISTRIBUTED SYSTEMS, VOL. 3, NO. 2, MARCH 1992 Virtual-Channel Flow Control William J. Dally, Member, IEEE