Task synchronization and allocation for many-core real-time systems

Task synchronization and allocation for many-core real-time systems

With the emergence of many-core systems, managing blocking costs effectively will soon become a critical issue in the design of real-time systems. In contrast to previous works on multi-core real-time task scheduling algorithms and synchronization protocols, this paper proposes a dedicated-core fram...

Ausführliche Beschreibung

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Bibliographische Detailangaben
Hauptverfasser: Hsiu, Pi-Cheng, Lee, Der-Nien, Kuo, Tei-Wei
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Approximation algorithms
Computer systems organization > Embedded and cyber-physical systems > Embedded systems
Many-core systems
Minimization
Protocols
Real time systems
real-time scheduling
Resource management
Silicon
Software and its engineering > Software organization and properties > Contextual software domains > Operating systems > Process management > Process synchronization
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
Synchronization
task allocation
task synchronization
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Beschreibung
Zusammenfassung:With the emergence of many-core systems, managing blocking costs effectively will soon become a critical issue in the design of real-time systems. In contrast to previous works on multi-core real-time task scheduling algorithms and synchronization protocols, this paper proposes a dedicated-core framework to separate the executions of application tasks and (system) services over cores such that blocking among tasks can be better explored and managed. The rationale behind the framework is that we can exploit the characteristics of many-core systems to resolve the challenges raised by the systems themselves. We define three core minimization problems with respect to the constraints on core configurations, and present corresponding task allocation algorithms with optimal, approximate, and heuristic solutions. The results of simulations conducted to evaluate the proposed framework provide further insights into task scheduling in many-core real-time systems.
DOI:10.1145/2038642.2038656