Synthesis of Task and Message Activation Models in Real-Time Distributed Automotive Systems

Synthesis of Task and Message Activation Models in Real-Time Distributed Automotive Systems

Modern automotive architectures support the execution of distributed safety- and time-critical functions on a complex networked system with several buses and tens of ECUs. Schedulability theory allows the analysis of the worst case end-to-end latencies and the evaluation of the possible architecture...

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Hauptverfasser: Wei Zheng, Di Natale, M., Pinello, C., Giusto, P., Vincentelli, A.S.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Aerospace electronics
Application software
Automotive engineering
Constraint optimization
Delay
Jitter
Processor scheduling
Real time systems
Time factors
Timing
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Beschreibung
Zusammenfassung:Modern automotive architectures support the execution of distributed safety- and time-critical functions on a complex networked system with several buses and tens of ECUs. Schedulability theory allows the analysis of the worst case end-to-end latencies and the evaluation of the possible architecture configurations options with respect to timing constraints. The paper presents an optimization framework, based on an ILP formulation of the problem, to select the communication and synchronization model that leverages the trade-offs between the purely periodic and the precedence constrained data-driven activation models to meet the latency and jitter requirements of the application. The authors demonstrate its effectiveness by optimizing a complex automotive architecture
ISSN:1530-1591
1558-1101
DOI:10.1109/DATE.2007.364573