I point to some challenges for WCET analysis offered in the transition to integrated mixed-criticality systems (MCSs) and to multi-core platforms, claim that proposed certification standards are inadequate, show that the MCS model heavily used by the scheduling community is fraught, and clarify why the traditional abstract interface between WCET analysis and schedulability analysis is obsolete. A central point is the insistence on sound approaches. I give a detailed account of how the most rigid certification procedures, those of the avionics domain, are satisfied, to defend the validity of my claims
Outstanding paper awardRTNS '19: Proceedings of the 27th International Conference on Real-Time Netwo...
The capability of hardware is constantly developing in capacity, speed and efficiency. This developm...
Scheduling Mixed-Criticality (MC) workload is a challenging problem in real-time computing. Earliest...
International audienceMixed-criticality systems integrate components of different criticality. Diffe...
Mixed-criticality systems integrate components of different criticality. Different criticality level...
Mixed-criticality systems integrate components of different criticality. Different criticality level...
With the rapid evolution of commercial hardware platforms, in most application domains, the industry...
23rd International Conference on Real-Time Networks and Systems (RTNS 2015). 4 to 6, Nov, 2015, Main...
Most prior work on mixed-criticality (MC) scheduling has focused on a model in which multiple WCET p...
Research on mixed-criticality scheduling has flourished since Vestal’s seminal 2007 paper, but more ...
Mixed criticality systems have recently received much attention both in research and in industrial d...
This survey covers research into mixed criticality systems that has been published since Vestal’s se...
Abstract-In 2007, Vestal proposed Mixed-Criticality Scheduling (MCS) to increase utilisation despite...
In mixed-criticality systems, functionalities of different degrees of importance (or criticalities) ...
Most existing research on Mixed-Criticality (MC) scheduling (see [1] for a review) has focused on de...
Outstanding paper awardRTNS '19: Proceedings of the 27th International Conference on Real-Time Netwo...
The capability of hardware is constantly developing in capacity, speed and efficiency. This developm...
Scheduling Mixed-Criticality (MC) workload is a challenging problem in real-time computing. Earliest...
International audienceMixed-criticality systems integrate components of different criticality. Diffe...
Mixed-criticality systems integrate components of different criticality. Different criticality level...
Mixed-criticality systems integrate components of different criticality. Different criticality level...
With the rapid evolution of commercial hardware platforms, in most application domains, the industry...
23rd International Conference on Real-Time Networks and Systems (RTNS 2015). 4 to 6, Nov, 2015, Main...
Most prior work on mixed-criticality (MC) scheduling has focused on a model in which multiple WCET p...
Research on mixed-criticality scheduling has flourished since Vestal’s seminal 2007 paper, but more ...
Mixed criticality systems have recently received much attention both in research and in industrial d...
This survey covers research into mixed criticality systems that has been published since Vestal’s se...
Abstract-In 2007, Vestal proposed Mixed-Criticality Scheduling (MCS) to increase utilisation despite...
In mixed-criticality systems, functionalities of different degrees of importance (or criticalities) ...
Most existing research on Mixed-Criticality (MC) scheduling (see [1] for a review) has focused on de...
Outstanding paper awardRTNS '19: Proceedings of the 27th International Conference on Real-Time Netwo...
The capability of hardware is constantly developing in capacity, speed and efficiency. This developm...
Scheduling Mixed-Criticality (MC) workload is a challenging problem in real-time computing. Earliest...