Bibliograph. Daten | Das, Sanjib: Analysis and Simulation of Scheduling Techniques for Real-Time Embedded Multi-core Architectures. Universität Stuttgart, Fakultät Informatik, Elektrotechnik und Informationstechnik, Masterarbeit Nr. 3578 (2014). 63 Seiten, englisch.
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CR-Klassif. | C.1.4 (Processor Architectures, Parallel Architectures) D.4.7 (Operating Systems Organization and Design) D.4.8 (Operating Systems Performance) I.6.6 (Simulation Output Analysis) I.6.7 (Simulation Support Systems)
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Kurzfassung | In this modern era of technological progress, multi-core processors have brought significant and consequential improvements in the available processing potential to the world of real-time embedded systems. These improvements impose a rapid increment of software complexity as well as processing demand placed on the underlying hardware. As a consequence, the need for efficient yet predictable multi-core scheduling techniques is on the rise.
As part of this thesis, in-depth research of currently available multi-core scheduling techniques, belonging to both partitioned and global approaches, is done in the context of real-time embedded systems. The emphasis is on the degree of their usability on hard real-time systems, focusing on the scheduling techniques offering better processor affinity and the lower number of context switching. Also, an extensive research of currently available real-time test-beds as well as real-time operating systems is performed.
Finally, a subset of the analyzed multi-core scheduling techniques comprising PSN-EDF, GSN-EDF, PD$^{2}$ and PD$^{2*}$ is simulated on the real-time test-bed LITMUS$^{RT}$.
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Volltext und andere Links | PDF (953820 Bytes)
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Abteilung(en) | Universität Stuttgart, Institut für Softwaretechnologie, Programmiersprachen und Übersetzerbau
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Betreuer | Prokharau, Mikhail |
Eingabedatum | 27. November 2014 |
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