In contexts such as embedded and cyber-physical systems, the design of a desired functionality under constraints increasingly requires a parallel execution of different tasks on heterogeneous architectures. The nature of such parallel systems implies a huge complexity in understanding and predicting performance in terms of response time. Indeed, response time depends on many factors associated with the characteristics of both the functionality and the target architecture. State-of-the art strategies derive response time by examining the operations required by each task for both processing and accessing shared resources. This procedure is often followed by the addition or elimination of potential interferences due to task concurrency. Howeve...
Software failures in hard real-time systems may have hazardous effects (industrial disasters, human ...
Two techniques are used to verify if real-time tasks meet their deadlines : schedulability tests tha...
Methods for performing response time analysis of real-timesystems are important, not only for their ...
In contexts such as embedded and cyber-physical systems, the design of a desired functionality under...
International audienceIn embedded and cyber-physical systems, the design of a desired functionality ...
Predictability is of paramount importance in real-time and safety-critical systems, where non-functi...
Hardware platforms are evolving towards parallel and heterogeneous architectures to overcome the inc...
Complex embedded systems today commonly involve a mix of real-time and best-effort applications inte...
La prédictibilité est un aspect important des systèmes temps-réel critiques. Garantir la fonctionnal...
Every computer task generates response times depending on the computer hardware and software. The re...
Timing properties of applications strongly depend on resources that are allocated to them. Applicati...
Les systèmes de commande en réseau (SCR) sont de plus en plus répandus dans le milieu industriel. Il...
In this paper, we introduce a multicore response time analysis (MRTA) framework, which decouples res...
International audienceIn this paper we introduce a response time analysis technique for Synchronous ...
Software failures in hard real-time systems may have hazardous effects (industrial disasters, human ...
Two techniques are used to verify if real-time tasks meet their deadlines : schedulability tests tha...
Methods for performing response time analysis of real-timesystems are important, not only for their ...
In contexts such as embedded and cyber-physical systems, the design of a desired functionality under...
International audienceIn embedded and cyber-physical systems, the design of a desired functionality ...
Predictability is of paramount importance in real-time and safety-critical systems, where non-functi...
Hardware platforms are evolving towards parallel and heterogeneous architectures to overcome the inc...
Complex embedded systems today commonly involve a mix of real-time and best-effort applications inte...
La prédictibilité est un aspect important des systèmes temps-réel critiques. Garantir la fonctionnal...
Every computer task generates response times depending on the computer hardware and software. The re...
Timing properties of applications strongly depend on resources that are allocated to them. Applicati...
Les systèmes de commande en réseau (SCR) sont de plus en plus répandus dans le milieu industriel. Il...
In this paper, we introduce a multicore response time analysis (MRTA) framework, which decouples res...
International audienceIn this paper we introduce a response time analysis technique for Synchronous ...
Software failures in hard real-time systems may have hazardous effects (industrial disasters, human ...
Two techniques are used to verify if real-time tasks meet their deadlines : schedulability tests tha...
Methods for performing response time analysis of real-timesystems are important, not only for their ...