Computer Science University of Rochester Rochester / Swim Caching Tomcatv Test Pipeline / Intel Barcelona Research Center / /
IndustryTerm
energy optimization / energy improvement / software pipelining / synchronous processor / on-line control algorithm / offline algorithm / then energy improvements / data regrouping algorithm / overall energy savings / energy impact / energy breakdown / energy improvements / Energy benefit / server systems / domain memory domain total energy reduction baseline machine / energy vs. performance / energy saving technique / energy savings / energy consumptions / on-line method / energy / off-line control algorithm / benchmark applications / pb energy / adaptive hardware / source-to-source locality-based fusion algorithm / energy consumption / program energy / off-line algorithm / minimal energy / conventional superscalar processor / processor energy consumption / adaptive processors / on-line algorithm / energy efficiency / energy-efficient task scheduling / simplified energy model / aimed at saving energy / /
Organization
National Science Foundation / Computer Science University of Rochester Rochester / New York / Department of Electrical and Computer Engineering / Department of Electrical / /
Person
Li / Michael L. Scott / Chen Ding / David H. Albonesi / /
Position
Prime Minister / PM PM / demand forward / time PM / /
The Energy Impact of Aggressive Loop Fusion ∗ YongKang Zhu? , Grigorios Magklis‡ , Michael L. Scott† , Chen Ding† , and David H. Albonesi? ? Department of Electrical and Computer Engineering †