This paper extends analysis of the Adaptive Mixed Criticality (AMC) scheme for fixed-priority preemptive scheduling of mixed-criticality systems to include tasks with arbitrary deadlines. Both of the previously published schedulability tests, AMC-rtb and AMC-max are extended to cater for tasks with deadlines that may be greater than their periods. Evaluations show that the simpler method, AMC-rtb-Arb, remains a viable approach that performs almost as well as the more complex alternative, AMC-max-Arb, when tasks with arbitrary deadlines are considered
International audienceIn this paper we present a probabilistic response time analysis for mixed crit...
Abstract—In this paper we address the problem of schedulabil-ity analysis for a set of sporadic task...
An increasing trend in safety-critical real-time systems is towards open computing environments, whe...
The well-known model of Vestal aims to avoid excessive pessimism in the quantifcation of the process...
This paper provides analysis of the Adaptive Mixed Criticality (AMC) scheduling scheme for mixed-cri...
The capability of hardware is constantly developing in capacity, speed and efficiency. This developm...
Current adaptive mixed criticality scheduling policies as-sume a high criticality mode in which all ...
Systems in many safety-critical application domains are subject to certification requirements. In su...
AbstractSafety-critical avionics systems which become more complex and tend to integrate multiple fu...
The well-known model of Vestal aims to avoid excessive pessimism in the quantification of the proces...
International audienceCurrent adaptive mixed criticality scheduling policies assume a high criticali...
In this paper, we study the scheduling problem of the imprecise mixed-criticality model (IMC) under ...
The advent of multicore processors has attracted many safety-critical systems, e.g., automotive and ...
International audienceThis paper introduces probabilistic analysis for fixed priority preemptive sch...
In this paper we approach the problem of Mixed Criticality (MC) for probabilistic real-time systems ...
International audienceIn this paper we present a probabilistic response time analysis for mixed crit...
Abstract—In this paper we address the problem of schedulabil-ity analysis for a set of sporadic task...
An increasing trend in safety-critical real-time systems is towards open computing environments, whe...
The well-known model of Vestal aims to avoid excessive pessimism in the quantifcation of the process...
This paper provides analysis of the Adaptive Mixed Criticality (AMC) scheduling scheme for mixed-cri...
The capability of hardware is constantly developing in capacity, speed and efficiency. This developm...
Current adaptive mixed criticality scheduling policies as-sume a high criticality mode in which all ...
Systems in many safety-critical application domains are subject to certification requirements. In su...
AbstractSafety-critical avionics systems which become more complex and tend to integrate multiple fu...
The well-known model of Vestal aims to avoid excessive pessimism in the quantification of the proces...
International audienceCurrent adaptive mixed criticality scheduling policies assume a high criticali...
In this paper, we study the scheduling problem of the imprecise mixed-criticality model (IMC) under ...
The advent of multicore processors has attracted many safety-critical systems, e.g., automotive and ...
International audienceThis paper introduces probabilistic analysis for fixed priority preemptive sch...
In this paper we approach the problem of Mixed Criticality (MC) for probabilistic real-time systems ...
International audienceIn this paper we present a probabilistic response time analysis for mixed crit...
Abstract—In this paper we address the problem of schedulabil-ity analysis for a set of sporadic task...
An increasing trend in safety-critical real-time systems is towards open computing environments, whe...