Addressing Thermal Nonuniformity in SMT Workloads JONATHAN A. WINTER and DAVID H. ALBONESI Cornell University We explore DTM techniques within the context of uniform and nonuniform SMT workloads. While - David A. Winter - Document - PDFSEARCH.IO

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	Addressing Thermal Nonuniformity in SMT Workloads JONATHAN A. WINTER and DAVID H. ALBONESI Cornell University We explore DTM techniques within the context of uniform and nonuniform SMT workloads. While Add to Reading List Document Date: 2009-03-01 23:54:30 Open Document File Size: 1,75 MB Share Result on Facebook City Burger / Austin / New York / / Company IBM / ACM Inc. / DVS / / Country United States / / Currency USD / / / Facility Cornell University / Penn Plaza / Frank H.T. Rhodes Hall / / / IndustryTerm given technology / dynamic thermal management / software developers / technology node / examined single-threaded processors / simulation infrastructure / appropriate thermal management / multicore systems / / MusicGroup D. H. / / Organization Semiconductor Industry Association / SMT / Center for Circuits and Systems Solutions / Cornell University / / Person Jonathan A. Winter / DAVID H. ALBONESI / / / Position Parallel Architectures General / / Product El / HotSpot / / ProvinceOrState New York / / Technology Alpha / given technology / 70-nm technology / load balancing / SMT processor / DTM algorithm / cache Memory / SRAM / simulation / SMT processors / DVS-based algorithms / steering algorithm / / URL http / SocialTag Microprocessors Parallel computing Threads Flynn's taxonomy Simultaneous multithreading Microarchitecture Multithreading POWER5 Multi-core processor Computer architecture

Addressing Thermal Nonuniformity in SMT Workloads JONATHAN A. WINTER and DAVID H. ALBONESI Cornell University We explore DTM techniques within the context of uniform and nonuniform SMT workloads. WhileAdd to Reading List