Optimised Adaptation of Mixed-criticality Systems with Periodic Tasks on Uniform Multiprocessors in Case of Faults

Abstract

Raimund Kirner, Saverio Iacovelli and Michael Zolda, 'Optimised Adaptation of Mixed-criticality Systems with Periodic Tasks on Uniform Multiprocessors in Case of Faults' paper presented at the IEEE Workshop on Software Technologies for Future Embedded and Ubiquitous Systems (SEUS'15) Auckland, New Zealand. 13-17 April 2015.The standard real-time computing model is based on a notion of deadline that represents both, a design parameter and a critical latency. The tolerance-based real-time com- puting model (TRTCM) extends the standard real-time com- puting model to reflect good engineering practice, where a safety margin is added to the critical latency to obtain the corresponding design parameter. The key feature of TRTCM is to add a tolerance range, which in combination with criticality specifications for services allows for fault- tolerant mixed-criticality scheduling with smooth degrada- tion of service utility in case of resource shortage. In this paper we study the applicability of TRTCM for periodic tasks with mixed criticality on uniform multipro- cessor systems. To optimise the system adaptation in case of resource shortage we formulate utility maximisation based on TRTCM as an optimisation problem. We describe two implementation strategies and derive an optimisation prob- lem to be solved by a constraint solver for each. We use a video processing application for a concrete evaluation. Our results show that TRTCM can provide better utility than standard mixed-criticality approaches where lower critical- ity services are skipped in case of resource shortage