Theme Feature Scalable Processors in the Billion-Transistor Era: IRAM Conventional architectures will not efficiently scale a hundredfold to - Neal Patterson - Document - PDFSEARCH.IO - Document Search Engine

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	Theme Feature Scalable Processors in the Billion-Transistor Era: IRAM Conventional architectures will not efficiently scale a hundredfold to Add to Reading List Document Date: 1997-08-20 20:39:53 Open Document File Size: 83,21 KB Share Result on Facebook City Piscataway / San Mateo / New York / / Company Silicon Graphics / Sun Microsystems / ACM Press / IEEE Press / Intel / Cray Research / / Country Greece / / Currency USD / / / Facility National Technical University of Athens / Duke University / University of Washington / University of Crete / University of California / Harvard University / College of William / Cornell University / Cambridge University / Oberlin College / University of Minnesota / / IndustryTerm memory-intensive database applications / vector processing / portable electronic systems / faster processors / memory systems / scalar processor / software development / real estate / metal / Energy consumption / microprocessor chips / mature compiler technology / higher energy efficiency / Energy efficiency / billion-transistor chips / aggressive superscalar processor / software migration / larger systems / potential solution / generalpurpose systems / data mining / Even integer applications / dual-issue processor / software model / low-power processor / immature compiler technology / vector processor / on-chip / Vector processors / / OperatingSystem Windows NT / / Organization Cambridge University / USENIX Assoc. / Cornell University / Duke University / Computer Science Division / University of Crete / US Defense Advanced Research Projects Agency / University of Washington / Seattle / Harvard University / College of William and Mary / MIT / University of California / Berkeley / Carnegie Mellon / Univ. of California / Oberlin College / University of California / Los Angeles / University of Minnesota / National Technical University of Athens / / Person Richard Fromm / Kimberly Keeton / Neal Cardwell / Jason Golbus / Richard Fromm Jason Golbus Benjamin / Kimberly Keeton Randi Thomas Noah / Benjamin Gribstad Kimberly Keeton Randi / David Patterson Thomas Anderson Krste Asanovic / Randi Thomas Noah Treuhaft Katherine / Benjamin Gribstad / Jason Golbus Benjamin Gribstad Kimberly / Noah Treuhaft / Katherine Yelick / Morgan Kaufmann / Randi Thomas / Neal Cardwell Richard Fromm Jason / Thomas Anderson / David Patterson / Krste Asanovi / / Position Pardee Chair / associate professor / programmer / / ProvinceOrState Minnesota / New York / Mississippi / California / New Jersey / / Technology RAM / R10000 processors / cache memory / SRAM / scalar processor / integrated circuits / mature compiler technology / low-power processor / encryption / immature compiler technology / IRAM technology / billion-transistor chips / DRAM chip / microprocessor chips / Alpha / aggressive superscalar processor / dual-issue processor / vector processor / Vector processors / Perl / IRAM chip / production chips / RISC processor / http / data mining / gigabit / Gigabit Ethernet / / URL http / SocialTag Computer engineering Central processing unit Parallel computing Computer memory Microprocessors The Berkeley IRAM Project Microarchitecture Superscalar Vector processor Computing