RÉSUMÉ: Avionics are highly regulated systems and their criticality requires determinism. Single-core systems have a single processor running, hence only one execution flow, making them easily predictable in execution. However, manufacturers are moving towards multi-core processors manufacturing only. Avionics systems are thus compelled to transition from single-core to multi-core architectures. Mechanisms to mitigate the loss of determinism when using multi-core architectures must be developed to take profit from the paral- lelism offered by them. This work focuses on partitioned avionics systems and more precisely Real-Time Operating Systems (RTOS) in avionics. We propose a trace-based framework that analyzes application be- havior. It al...
International audienceAvionic systems are integrating more and more functions to cope with the incre...
Static schedules are used in safety critical systems to achieve predictable, real-time behavior. Whi...
Simulators help computer architects optimize system designs. The limited performance of simulators e...
With more functionality added to safety-critical avionics systems, new platforms are required to off...
In the safety critical domain such as in avionics, existing embedded solutions based on single-core ...
With the increasing use of multi-core platforms in safety-related domains, aircraft system integrato...
Future generations of avionic equipments are expected to embed multi-core processors. Using Componen...
Cyber-physical systems (CPS) integrate sensing, computing, communication and actuation capabilities ...
Modern avionic system development is undergoing a major transition, from federated systems to Integr...
Deployment of multi-core platforms in safety-critical applications requires reliable estimation of w...
As multiprocessor systems-on-chip become a reality, perfor-mance modeling becomes a challenge. To qu...
Memory subsystem, in particular, cache design is important for both high performance and embedded co...
With the onset of multi-core chips, the single-core market is closing down. Developing avionics syst...
We present a cache performance modeling methodology that facilitates the tuning of uniprocessor cach...
Cache partitioning and sharing is critical to the effective utilization of multicore processors. How...
International audienceAvionic systems are integrating more and more functions to cope with the incre...
Static schedules are used in safety critical systems to achieve predictable, real-time behavior. Whi...
Simulators help computer architects optimize system designs. The limited performance of simulators e...
With more functionality added to safety-critical avionics systems, new platforms are required to off...
In the safety critical domain such as in avionics, existing embedded solutions based on single-core ...
With the increasing use of multi-core platforms in safety-related domains, aircraft system integrato...
Future generations of avionic equipments are expected to embed multi-core processors. Using Componen...
Cyber-physical systems (CPS) integrate sensing, computing, communication and actuation capabilities ...
Modern avionic system development is undergoing a major transition, from federated systems to Integr...
Deployment of multi-core platforms in safety-critical applications requires reliable estimation of w...
As multiprocessor systems-on-chip become a reality, perfor-mance modeling becomes a challenge. To qu...
Memory subsystem, in particular, cache design is important for both high performance and embedded co...
With the onset of multi-core chips, the single-core market is closing down. Developing avionics syst...
We present a cache performance modeling methodology that facilitates the tuning of uniprocessor cach...
Cache partitioning and sharing is critical to the effective utilization of multicore processors. How...
International audienceAvionic systems are integrating more and more functions to cope with the incre...
Static schedules are used in safety critical systems to achieve predictable, real-time behavior. Whi...
Simulators help computer architects optimize system designs. The limited performance of simulators e...