IEEE Computer / Cambridge University Press / S. A. Brandt S. A. / GPU / IEEE Distributed Computer Systems / Managed Multi-Core Systems / Microsoft / Amdahl / Intel Corporation / Wait Times / /
IndustryTerm
Software engineering / background applications / parallel computing / satellite kernels / dispatcher groups / multi-phase applications / web browser / mainstream applications / resource management / parallel software / personal computing devices / parallel web browser / proposed multicore operating systems / Online adaptation / server systems / examined scheduling algorithms / vision processing / earliest deadline first scheduling algorithm / multicore systems / spatio-temporal thread scheduling algorithm / high throughput computing / parallel applications / software stack / multicore operating systems / online measurement / feasible algorithms / x86 processors / latencysensitive applications / concurrent systems / commodity hardware / energy efficiency / computing / multicore computing / particular scheduling algorithms / co-scheduling applications / highperformance computing / /
OperatingSystem
Linux / Solaris / /
Organization
Cambridge University / OpenMP Architecture Review Board / /
Person
Rebecca Isaacs / Timothy Roscoe / Andrew Baumann / Paul Barham / Adrian Schüpbach / Simon Peter / L. Peterson / V / Tim Harris / /
Position
application-specific user-level thread scheduler / individual planner / Solaris scheduler / OS scheduler / visual performance model for multicore architectures / scheduler / RBED scheduler / CPU driver / planner / co-operative / Implementation The scheduler / /
ProgrammingLanguage
Prolog / C++ / /
Technology
examined scheduling algorithms / virtual machine / Linux / spatio-temporal thread scheduling algorithm / machine learning / operating system / scheduling algorithm / Quality of Service / operating systems / CMP / particular scheduling algorithms / http / feasible algorithms / x86 processors / /