Many safety-critical embedded systems are subject to certification requirements; some systems may be required to meet multiple sets of certification requirements, from different certification authorities. Certification requirements in such "mixed-criticality" systems give rise to interesting scheduling problems, that cannot be satisfactorily addressed using techniques from conventional scheduling theory. In this paper, we study a formal model for representing such mixed-criticality workloads. We demonstrate first the intractability of determining whether a system specified in this model can be scheduled to meet all its certification requirements, even for systems subject to merely two sets of certification requirements. Then we quantify, vi...
An increasing trend in safety-critical real-time systems is towards open computing environments, whe...
There is an increasing trend in embedded systems towards implementing multiple functionalities upon ...
In mixed-criticality systems, functionalities of different degrees of importance (or criticalities) ...
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...
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 embedded systems, there is a trend of integrating several different functionalities on a common p...
Systems in many safety-critical application domains are subject to certification requirements. For a...
Modern safety-critical real-time systems are realized via integration of multiple system components ...
Systems in many safety-critical application domains are subject to certification requirements. For a...
The design and analysis of real-time scheduling algorithms for safety-critical systems is a challeng...
The advent of multicore processors has attracted many safety-critical systems, e.g., automotive and ...
An increasing trend in safety-critical real-time systems is towards open computing environments, whe...
There is an increasing trend in embedded systems towards implementing multiple functionalities upon ...
In mixed-criticality systems, functionalities of different degrees of importance (or criticalities) ...
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...
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 embedded systems, there is a trend of integrating several different functionalities on a common p...
Systems in many safety-critical application domains are subject to certification requirements. For a...
Modern safety-critical real-time systems are realized via integration of multiple system components ...
Systems in many safety-critical application domains are subject to certification requirements. For a...
The design and analysis of real-time scheduling algorithms for safety-critical systems is a challeng...
The advent of multicore processors has attracted many safety-critical systems, e.g., automotive and ...
An increasing trend in safety-critical real-time systems is towards open computing environments, whe...
There is an increasing trend in embedded systems towards implementing multiple functionalities upon ...
In mixed-criticality systems, functionalities of different degrees of importance (or criticalities) ...