| Document Date: 2012-06-13 00:42:15
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City San Francisco / New York / Feedback / / Company Cisco / / Country Germany / United States / / / Facility Electronic Engineering The University of Hong Kong Hong Kong / University of California at Berkeley / / IndustryTerm speed switches/routers / iSLIP scheduling algorithm / communications switches / communications overheads / port-based scheduling algorithm / Internet routers / local area networks / multi-rack high-performance router / above algorithm / iSLIP algorithm / port-based scheduling algorithms / Internet Routers using Optics / ease algorithms / maximum weight matching algorithm / / Organization University of California / University of Hong Kong Hong Kong / / Person Nick McKeown / Isaac Keslassy / N. McKeown / V / Bing Hu / / Position scheduler / simple scheduler / / ProvinceOrState New York / California / Ontario / / PublishedMedium IEEE Transactions on Communications / / Technology maximum weight matching algorithm / iSLIP algorithm / above algorithm / specific port-based scheduling algorithm / t-1 / FFF algorithm / Internet routers / load balancing / proposed algorithm / port-based scheduling algorithms / six algorithms / ease algorithms / port-based scheduling algorithm / previous algorithms / existing algorithms / simulation / scheduling algorithm / following algorithms / local area networks / EDF algorithms / LQF algorithm / high speed switches/routers / three port-based scheduling algorithms / iSLIP scheduling algorithm / /
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