Abstract-Modern embedded applications typically integrate a multitude of functionalities with potentially different criticality levels into a single system. Without appropriate preconditions, the integration of mixed-criticality subsystems can lead to a significant and potentially unacceptable increase of engineering and certification costs. A promising solution is to incorporate mechanisms that establish multiple partitions with strict temporal and spatial separation between the individual partitions. In this approach, subsystems with different levels of criticality can be placed in different partitions and can be verified and validated in isolation. The MultiPARTES FP7 project aims at supporting mixedcriticality integration for embedded s...
Safety-critical applications in cyber-physical domains such as avionics and automotive systems requi...
Digital transformation causes the deployment of vast quantities of heterogeneous software components...
The System-on-Chip revolution has not impacted the field of safety-critical systems as widely as the...
The development of mixed-criticality virtualized multi-core systems poses new challenges that are be...
The common availability of multiple processors in modern CPU devices and the need to reduce cost of ...
Partitioning is a common approach to developing mixed-criticality systems, where partitions are isol...
The continuous increment of processors computational power and the requirements on additional functi...
The current approach to developing mixed-criticality sys- tems is by partitioning the hardware resou...
International audienceHeterogeneous multicore platforms have become an attractive choice to deploy m...
International audienceThe transition from conventional federated archi-tectures to integrated archit...
In this paper we propose a hybrid solution to ensure results correctness when deploying several appl...
With the emergence of multicore embedded System on Chip (SoC), the integration of several applicatio...
There is an ongoing trend in several embedded industries to consolidate multiple subsystems onto t...
In real-time and safety-critical systems, the move towards multi-cores is becoming unavoidable to sa...
Mixed criticality systems are composed of a set of applications with di erent criticality levels. Th...
Safety-critical applications in cyber-physical domains such as avionics and automotive systems requi...
Digital transformation causes the deployment of vast quantities of heterogeneous software components...
The System-on-Chip revolution has not impacted the field of safety-critical systems as widely as the...
The development of mixed-criticality virtualized multi-core systems poses new challenges that are be...
The common availability of multiple processors in modern CPU devices and the need to reduce cost of ...
Partitioning is a common approach to developing mixed-criticality systems, where partitions are isol...
The continuous increment of processors computational power and the requirements on additional functi...
The current approach to developing mixed-criticality sys- tems is by partitioning the hardware resou...
International audienceHeterogeneous multicore platforms have become an attractive choice to deploy m...
International audienceThe transition from conventional federated archi-tectures to integrated archit...
In this paper we propose a hybrid solution to ensure results correctness when deploying several appl...
With the emergence of multicore embedded System on Chip (SoC), the integration of several applicatio...
There is an ongoing trend in several embedded industries to consolidate multiple subsystems onto t...
In real-time and safety-critical systems, the move towards multi-cores is becoming unavoidable to sa...
Mixed criticality systems are composed of a set of applications with di erent criticality levels. Th...
Safety-critical applications in cyber-physical domains such as avionics and automotive systems requi...
Digital transformation causes the deployment of vast quantities of heterogeneous software components...
The System-on-Chip revolution has not impacted the field of safety-critical systems as widely as the...