OOO pipeline / Disciplined Approximate Programming Hadi Esmaeilzadeh Adrian Sampson Luis Ceze University of Washington Department / Store Queue Size / store Integer / Truffle pipeline / /
IndustryTerm
data processing plane / particular energy-saving techniques / energy savings potential / lower energy cost / software-engineering tools / unnecessary hardware / energy breakdown / energy-aware compiler optimizations / nm technology node / dual-voltage data processing plane / broadcast network / Software efforts / flood-filler algorithm / media processing / energy reduction / energy savings / raster image processing application / energy usage / energy / energy savings opportunities / tag forwarding network / data movement/processing plane starts / energy consumption / data movement/processing plane / approximation-aware processor / reported energy savings / energy-efficiency improvements / jMonkeyEngine triangleintersection algorithm / approximate operations / architecture supporting approximate computing / power-aware computing / scientific algorithms / energy reduction potential / in-order and out-of-order processors / energy efficiency / bypass network / energy reductions / software control / waste energy / learning algorithms / data movement/processing / triangleintersection algorithm / explored managing energy / /
OperatingSystem
Android / /
Organization
Data Movement / University of Washington Department of Computer Science & Engineering / Computer Systems Organization / /
Person
Doug Burger / Hadi Esmaeilzadeh Adrian Sampson Luis / /
Position
explicit programmer / General / scheduler / programmer / /
Product
functional units / /
ProgrammingLanguage
Java / FP / V / L / /
Technology
Alpha / Bar code / triangleintersection algorithm / mobile phones / jMonkeyEngine triangleintersection algorithm / machine learning / Android / SRAM / operating system / Quality of Service / flood-filler algorithm / image processing / Operating Systems / mobile devices / Java / smartphones / approximation-aware processor / caching / typical in-order and out-of-order processors / /