Title :
Mixed Critical Earliest Deadline First
Author :
Socci, Dario ; Poplavko, Peter ; Bensalem, Saddek ; Bozga, Marius
Author_Institution :
VERIMAG, UJF-Grenoble 1, Grenoble, France
Abstract :
Using the advances of the modern microelectronics technology, the safety-critical systems, such as avionics, can reduce their costs by integrating multiple tasks on one device. This makes such systems essentially mixed-critical, as this brings together different tasks whose safety assurance requirements may differ significantly. In the context of mixed-critical scheduling theory, we studied the dual criticality problem of scheduling a finite set of hard real-time jobs. In this work we propose an algorithm which is proved to dominate OCBP, a state-of-the art algorithm for this problem that is optimal over fixed job priority algorithms. We show through empirical studies that our algorithm can reduce the set of non-schedulable instances by a factor of two or, under certain assumptions, by a factor of four, when compared to OCBP.
Keywords :
safety-critical software; scheduling; OCBP algorithm; fixed job priority algorithm; hard real-time jobs scheduling; microelectronics technology; mixed critical earliest deadline first scheduling; mixed-critical scheduling theory; own-criticality based priority; safety assurance requirement; safety-critical system; Bismuth; Optimal scheduling; Processor scheduling; Real-time systems; Schedules; Scheduling; Switches;
Conference_Titel :
Real-Time Systems (ECRTS), 2013 25th Euromicro Conference on
Conference_Location :
Paris
DOI :
10.1109/ECRTS.2013.20
