Sören Schreiner and Razi Seyyedi and Maher Fakih and Kim Grüttner and Wolfgang Nebel
International Conference on Embedded Computer Systems: Architectures, Modeling and Simulation (SAMOS) XVIII, Samos Island, Greece, July 15-19, 2018
Mixed-Criticality Real-Time Embedded Systems (MCRTES) allow the integration of independent functions with different safety requirements. Furthermore, the implementation of MCRTES on Multiprocessor system-on-chips (MPSoC) is becoming more and more interesting due to their energy efficiency and performance advantages over distributed single core architectures.While this shift to highly integrated MPSoCs has performance, size and cost advantages, it also poses new challenges. Among them are the temporal and spatial segregation of independent application, allowing each application to fulfill their timing requirements, and the consistent use of power management techniques. This becomes very important, since an inconsistent power management can smash the temporal segregation and lead to timing violations and finally to a failure of the overall system.This work proposes an initial approach for a functional power management verification of Time-Triggered systems, which can be used to implement MCRTES. The proposed verification approach compares a trace of a formal system level power management specification against a trace of the target platform software implementation obtained via its execution on an instrumented virtual platform. Our results on the evaluation of a MCRTES of a UAV computer confirm the applicability our approach.
7 / 2018
inproceedings
SafePower Safe and secure mixed-criticality systems with low power requirements