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Transactional Value Prediction Fuad Tabba Andrew W. Hay James R. Goodman
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Document Date: 2009-01-26 21:41:54

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Company

Data Management Systems / TVP / Azul Systems / Amdahl / /

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Event

FDA Phase / Reorganization / M&A / /

Facility

Transactional Value Prediction Fuad Tabba Andrew W. Hay James R. Goodman The University of Auckland / University of Wisconsin GEMS / /

Holiday

Ramadan / /

IndustryTerm

dynamic binary-rewriting software / little processor-local hardware / are producing chips / directory-based cache coherence protocol / conflict management protocol / contention management / typical microarchitecture speculation hardware / multi-processing / software transactional memory / transactional applications / to many different hardware / large scale computing capabilities / cache coherence protocol / hardware solution / lazy version management / distributed computing / software fallback mechanism / coherence protocol / optimistic concurrency processors / object-based software transactions / multicache systems / conflict management / non-transactional applications / conventional best-effort hardware / software engineering tools / multicore processor / /

Organization

University of Wisconsin GEMS / University of Auckland / Stanford / /

Person

Enrique Vallejo / Kevin Lepak / Gurindar Sohi / Michael L. Scott / Adrian Cristal / Michael Swift / Brian T. Lewis / Keir Fraser / Jichuan Chang / Dan Grossman / Jayaram Bobba / Joseph Torrellas / Aditya Bhandari / Laxmi N. Bhuyan / Mateo Valero / David A. Patterson / Lucien M. Censier / James R. Goodman / Michelle Moravan / Christos Kozyrakis / Michael L Scott / Milo Martin / Emmett Witchel / Jaehyuk Huh / Monica S. Lam / Luke Yen / Brian Goetz / Doug Lea / Christopher Rossbach / Daniel Nussbaum / Adam Welc / Fredrik Larsson / Richard Simoni / Anwar Ghuloum / Richard Yoo / Mark D. Hill / Dobb / Herb Sutter / Bengt Werner / Brian R. Murphy / Bratin Saha / Tatiana Shpeisman / Marek Olszewski / Kevin Moore / Mikko Lipasti / C. Scott Ananian / Hsien-Hsin Lee / Kevin E. Moore / John L. Hennessy / Daniel Forsgren / Tim Harris / Donald Porter / Osman S. Unsal / Doug Burger / Victor Luchangco / Peter S. Magnusson / Philip J. Woest / Paul Feautrier / Chi Cao Minh / Mark Moir / Mark D / Daniel Sorin / Gene M. Amdahl / Jim Gray / Bradford Beckmann / Ian Pratt / Johan Hogberg / Chung / William J Bolosky / Mark Horowitz / Maurice Herlihy / Yang Ni / Norman P. Jouppi / Morgan Kaufmann / Nir Shavit / Ravi Rajwar / Gordon Bell / Anant Agarwal / Jeremy Cutler / Michael R Marty / Vijay Menon / David Kroft / Andreas Moestedt / Andreas Reuter / Eliot B Moss / Murali Kadiyala / David A. Wood / Min Xu / Ali-Reza Adl-Tabatabai / Haris Volos / Neelam Goyal / Owen Hofmann / Gustab Hallberg / William N. Scherer III / James R. Larus / David Geer / Martin Rinard / Michael R. Marty / Geoff Koch / Andrew W. Hay James / /

Position

single writer / writer / Porter / /

Product

Transactional Value Prediction / L1 / /

PublishedMedium

IEEE Transactions on Computers / /

Technology

dedicated processor / existing coherence protocol / 2 processors / cache memory / optimistic concurrency processors / operating system / shared memory / upcoming Rock processor / 7 processors / 4 processors / coherence protocol / flash / SPARC-V9 multicore processor / MESTI protocol / underlying cache coherence protocol / directory-based cache coherence protocol / multicore processors / cache coherence protocol / operating systems / conflict management protocol / underlying coherence protocol / Simulation / MESI protocol / local processor / /

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