The advent of multicore processors has attracted many safety-critical systems, e.g., automotive and avionics, to consider integrating multiple functionalities on a single, powerful computing platform. Such integration leads to host functionalities with different criticality levels on the same platform. The design of such \u27\u27mixed-criticality\u27\u27 systems is often subject to certification from one or more certification authorities. Coming up with an effective scheduling policy and its analysis that can guarantee certification of the system at each criticality level, while maximizing the utilization of the processors, is the focus of the research presented in this paper. In this paper, the global, fixed-priority scheduling of a set of...
The design of real-time systems faces two important challenges: incorporating more functions/service...
Modern safety-critical real-time systems are realized via integration of multiple system components ...
International audienceIn this paper we present a probabilistic response time analysis for mixed crit...
The advent of multicore processors has attracted many safety-critical systems, e.g., automotive and ...
The relevance and popularity of mixed-criticality real-time systems precipitously increase in many i...
An increasing trend in safety-critical real-time systems is towards open computing environments, whe...
Many safety-critical embedded systems are subject to certification requirements; some systems may be...
Abstract — The scheduling of mixed-criticality implicit-deadline sporadic task systems on identical ...
Abstract—Scheduling mixed-criticality systems that integrate multiple functionalities with different...
Many safety-critical embedded systems are subject to certification requirements; some systems may be...
Many safety-critical embedded systems are subject to certification requirements; some systems may be...
In conventional real-time systems analysis, each system parameter is specified by a single estimate,...
Traditional fixed-priority scheduling analysis for periodic and sporadic task sets is based on the a...
The capability of hardware is constantly developing in capacity, speed and efficiency. This developm...
Many safety-critical embedded systems are subject to certification requirements; some systems may be...
The design of real-time systems faces two important challenges: incorporating more functions/service...
Modern safety-critical real-time systems are realized via integration of multiple system components ...
International audienceIn this paper we present a probabilistic response time analysis for mixed crit...
The advent of multicore processors has attracted many safety-critical systems, e.g., automotive and ...
The relevance and popularity of mixed-criticality real-time systems precipitously increase in many i...
An increasing trend in safety-critical real-time systems is towards open computing environments, whe...
Many safety-critical embedded systems are subject to certification requirements; some systems may be...
Abstract — The scheduling of mixed-criticality implicit-deadline sporadic task systems on identical ...
Abstract—Scheduling mixed-criticality systems that integrate multiple functionalities with different...
Many safety-critical embedded systems are subject to certification requirements; some systems may be...
Many safety-critical embedded systems are subject to certification requirements; some systems may be...
In conventional real-time systems analysis, each system parameter is specified by a single estimate,...
Traditional fixed-priority scheduling analysis for periodic and sporadic task sets is based on the a...
The capability of hardware is constantly developing in capacity, speed and efficiency. This developm...
Many safety-critical embedded systems are subject to certification requirements; some systems may be...
The design of real-time systems faces two important challenges: incorporating more functions/service...
Modern safety-critical real-time systems are realized via integration of multiple system components ...
International audienceIn this paper we present a probabilistic response time analysis for mixed crit...