App Store / Nickolai Zeldovich† Stanford University / /
IndustryTerm
Internet access / wrap utility designed to isolate applications / precise resource accounting / accumulated energy / time-sharing systems / echo server / energy management mechanisms / energy profiles / smart applications / energy-aware image scaling / user space accounting / energy principals / energy-constrained computing devices / system energy use / device-level accounting / store energy / web browser / malicious energy hog / resource management / energy visibility / reduced available energy / energy use / essence run operating systems / energy accounting / energy-aware features / stationary device / energy using reserves / uncooperative applications / system energy / energy savings / energy usage / energy / energy reserve levels / energy equal / energy accounting estimates / energy consumption / energy present / ground applications / mobile phone energy accounting systems / power management / cellular data network / acquired energy / graphical web browser / energy control / sufficient energy / always-on systems / energy sandboxing / less energy / energy budget / energy efficiency / foreground applications / energy allotment / energy-unrestricted network stack / energy level dips / wireless data interface / end-user computing platform / background applications / periodic background applications / energy hoarding / coarse energy control / web browsers / application energy consumption / reserve energy / energy management limitations / designed applications / energy reserve / fundamental solution / energy-aware applications / control energy / legacy applications / overhead and decreasing energy efficiency / energy policies / energy reserves / energy-aware scaling / excess energy / low-function proprietary applications / malicious applications / mobile phone operating systems / prior systems / energy cost / energy allocation / netd networking stack / large applications / poor energy management / even energy-unaware applications / Early systems / energy-hungry devices / dynamic energy-aware applications / unused energy / energy model / /
OperatingSystem
Unix / Mac OS X / Linux / Android / Unix system / POSIX / /
Organization
US Federal Reserve / MIT / Stanford University / /
Person
Ryan Stutsman / Stephen M. Rumble / Philip Levis / /
Position
General / manager application / task manager / CPU scheduler / manager reserve and a low powered background reserve / manager runs / scheduler / /
Product
iPhone / Dream / Dream (Google G1) / a modern smartphone based on the Qualcomm MSM7201A chipset / CPU / Dream (Google G1) / /
ProgrammingLanguage
DC / /
SportsLeague
Stanford University / /
Technology
ARM processor / Linux / API / mobile phones / Operating System / shared memory / Mobile Devices / flow control / Flash / floating point unit / ARM11 processor / Unix / smartphone / GPS / streaming video / Android / mobile device / UDP / operating systems / cellular telephone / Unix system / /
Energy Management in Mobile Devices with the Cinder Operating System Arjun Roy, Stephen M. Rumble, Ryan Stutsman, Philip Levis, David Mazi`eres, Nickolai Zeldovich† Stanford University and MIT CSAIL† Abstract