International audienceWe present a static analysis framework for real-time task systems running on multi-core processors. Our method analyzes tasks in isolation at the binary level and generates worst-case timing and memory access profiles. These profiles can then be combined to perform an interference analysis at the task system level, as part of a multi-core Worst-Case Response Time (WCRT) analysis. In this paper we introduce a formal description of the models and algorithmic building blocks composing our framework. We also discuss how the memory access profiles generated by our method could be used to feed existing state-of-the-art WCRT frameworks. To the best of our knowledge, it is the first time that a method is documented on how to p...
Worst case execution time (WCET) estimation by static analyzers is being investigated with keen inte...
International audienceThis chapter explains the usual methodology used to estimate worst case execut...
In this paper, we introduce a multicore response time analysis (MRTA) framework, which decouples res...
International audienceWe present a static analysis framework for real-time task systems running on m...
AbsInt is the leading provider of commercial tools for static code-level timing analysis. Its aiT Wo...
The performance and power efficiency of multi-core processors are attractive features for safety-cri...
International audienceAccesses to shared resources in multi-core systems raise predictability issues...
The last decade has witnessed a major shift towards the deployment of embedded applications on multi...
Multicore technology has the potential for drastically increasing productivity of embedded real-time...
Timing matters. This is especially true for safety-critical real-time applications, since human live...
International audienceWe introduce a unified wcet analysis and scheduling framework for real-time ap...
Deployment of multi-core platforms in safety-critical applications requires reliable estimation of w...
Accesses to shared resources in multi-core systems raise predictability issues. The delay in accessi...
International audienceThe aim of this paper is to present a high precision and event-versatile MBPTA...
In a real-time system, it is crucial to ensure that all tasks of the system holdtheir deadlines. A m...
Worst case execution time (WCET) estimation by static analyzers is being investigated with keen inte...
International audienceThis chapter explains the usual methodology used to estimate worst case execut...
In this paper, we introduce a multicore response time analysis (MRTA) framework, which decouples res...
International audienceWe present a static analysis framework for real-time task systems running on m...
AbsInt is the leading provider of commercial tools for static code-level timing analysis. Its aiT Wo...
The performance and power efficiency of multi-core processors are attractive features for safety-cri...
International audienceAccesses to shared resources in multi-core systems raise predictability issues...
The last decade has witnessed a major shift towards the deployment of embedded applications on multi...
Multicore technology has the potential for drastically increasing productivity of embedded real-time...
Timing matters. This is especially true for safety-critical real-time applications, since human live...
International audienceWe introduce a unified wcet analysis and scheduling framework for real-time ap...
Deployment of multi-core platforms in safety-critical applications requires reliable estimation of w...
Accesses to shared resources in multi-core systems raise predictability issues. The delay in accessi...
International audienceThe aim of this paper is to present a high precision and event-versatile MBPTA...
In a real-time system, it is crucial to ensure that all tasks of the system holdtheir deadlines. A m...
Worst case execution time (WCET) estimation by static analyzers is being investigated with keen inte...
International audienceThis chapter explains the usual methodology used to estimate worst case execut...
In this paper, we introduce a multicore response time analysis (MRTA) framework, which decouples res...