International audienceWCET analysis is a key activity in the development of safety critical real-time systems. Whether upper bounds on WCETs are obtained using static analysis or measurements, the confidence on the compliance of a system with its temporal requirements directly depends on the confidence on these estimations. Static WCET analysis based on abstract interpretation takes benefits from its formal foundations. However, it also strongly depends on the correctness of the underlying models. We hereby show how we have validated the version of the data flow static analyser of OTAWA applied to the AURIX TC275 target processor
In a real-time system, it is crucial to ensure that all tasks of the system hold their deadlines. A ...
Static path analysis is a key process of Worst Case Execution Time (WCET) estimation, the objective ...
International audienceIn this article, we present OTAWA, a framework for computing the Worst Case Ex...
WCET analysis is a key activity in the development of safety critical real-time systems. Whether upp...
Guaranteeing that the worst-case scenario has been covered for each basic block individually is a ma...
International audienceStatic Analysis (SA) is one of the solutions to estimate upper bounds of Worst...
Precise operation of real-time systems depends on functionally correct computations that are deliver...
A prerequisite for creating a safe and predictable real time computer system is to have knowledge ab...
International audienceMixed-criticality systems integrate components of different criticality. Diffe...
A static Worst-Case Execution Time (WCET) ana-lysis derives upper bounds for the execution times of ...
Mixed-criticality systems integrate components of different criticality. Different criticality level...
Mixed-criticality systems integrate components of different criticality. Different criticality level...
In a real-time system, it is crucial to ensure that all tasks of the system holdtheir deadlines. A m...
Static Worst-Case Execution Time (WCET) ana-lysis is currently taking a step from research to indus-...
To date, measurement-based WCET analysis and static analysis have largely been seen as being at odds...
In a real-time system, it is crucial to ensure that all tasks of the system hold their deadlines. A ...
Static path analysis is a key process of Worst Case Execution Time (WCET) estimation, the objective ...
International audienceIn this article, we present OTAWA, a framework for computing the Worst Case Ex...
WCET analysis is a key activity in the development of safety critical real-time systems. Whether upp...
Guaranteeing that the worst-case scenario has been covered for each basic block individually is a ma...
International audienceStatic Analysis (SA) is one of the solutions to estimate upper bounds of Worst...
Precise operation of real-time systems depends on functionally correct computations that are deliver...
A prerequisite for creating a safe and predictable real time computer system is to have knowledge ab...
International audienceMixed-criticality systems integrate components of different criticality. Diffe...
A static Worst-Case Execution Time (WCET) ana-lysis derives upper bounds for the execution times of ...
Mixed-criticality systems integrate components of different criticality. Different criticality level...
Mixed-criticality systems integrate components of different criticality. Different criticality level...
In a real-time system, it is crucial to ensure that all tasks of the system holdtheir deadlines. A m...
Static Worst-Case Execution Time (WCET) ana-lysis is currently taking a step from research to indus-...
To date, measurement-based WCET analysis and static analysis have largely been seen as being at odds...
In a real-time system, it is crucial to ensure that all tasks of the system hold their deadlines. A ...
Static path analysis is a key process of Worst Case Execution Time (WCET) estimation, the objective ...
International audienceIn this article, we present OTAWA, a framework for computing the Worst Case Ex...