Throughput maximization for periodic real-time systems under the maximal temperature constraint

Throughput maximization for periodic real-time systems under the maximal temperature constraint

We study the problem on how to maximize the throughput for a periodic real-time system under the given peak temperature constraint. We assume that different tasks in our system may have different power and thermal characteristics. Two algorithms are presented in this paper. The first one is built up...

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Bibliographische Detailangaben
Hauptverfasser: Huang, Huang, Quan, Gang, Fan, Jeffrey, Qiu, Meikang
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Computer systems organization > Embedded and cyber-physical systems > Embedded systems
Dynamic voltage/frequency scaling
Program processors
Real time systems
Schedules
Software and its engineering > Software organization and properties > Software system structures > Embedded software
Software and its engineering > Software organization and properties > Software system structures > Real-time systems software
Switches
Switching circuits
Task sequencing
Temperature
Thermal aware real-time scheduling
Throughput
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Beschreibung
Zusammenfassung:We study the problem on how to maximize the throughput for a periodic real-time system under the given peak temperature constraint. We assume that different tasks in our system may have different power and thermal characteristics. Two algorithms are presented in this paper. The first one is built upon processors that can be either in active or sleep mode. By judiciously selecting tasks with different thermal characteristics as well as alternating the processor active/sleep mode, our approach can improve the throughput upon the existing techniques by 21% in average. We further extend this approach for processors with dynamic voltage/frequency scaling (DVFS) capability. Our experiments show that an improvement of 24% can be achieved when compared with the existing methods.
ISSN:0738-100X
DOI:10.1145/2024724.2024811