Rapid development processes and higher customer requirements lead to increasing integration of software solutions in the automotive industry’s products. Today, several electronic control units communicate by bus systems like CAN and provide computation of complex algorithms. This increasingly requires a controlled timing behavior. The following diploma thesis investigates how the timing analysis tool SymTA/S can be used in the software development process of the ZF Friedrichshafen AG.Within the scope of several scenarios, the benefits of using it, the difficulties in using it and the questions that can not be answered by the timing analysis tool are examined. (new: additional files
Abstract—Safety-critical automotive systems must fulfill hard real-time constraints for reliability ...
International audienceDistributed, software-intensive systems (e.g., in the automotive sector) must ...
Automotive systems are characterized today by increasing complexity, limited resources and more and ...
Rapid development processes and higher customer requirements lead to increasing integration of softw...
Rapid development processes and higher customer requirements lead to increasing integration of softw...
Timing analysis tools in a model-driven development environment Descripción: This paper discuss...
TIMMO Project aimed to develop a Domain specific Modeling language for handling timing information w...
This chapter focuses on the analysis of the timing behavior of software applications that expose rea...
Cars, trains, trucks, telecom networks and industrial robots are examples of products relying on com...
The complexity of software running on vehicular embedded systems is constantly increasing and this ...
Aujourd'hui, les applications automobiles sont devenues de plus en plus complexes avec des ressource...
Nowadays, time plays a very important role in the field of SW development. Estimation of development...
Abstract Embedded hard real-time systems need reliable guarantees for the satisfaction of their timi...
International audienceDevelopers of safety-critical real-time systems have to ensure that their syst...
This talk presents the general landscape of timing analysis as it is being used today in the design ...
Abstract—Safety-critical automotive systems must fulfill hard real-time constraints for reliability ...
International audienceDistributed, software-intensive systems (e.g., in the automotive sector) must ...
Automotive systems are characterized today by increasing complexity, limited resources and more and ...
Rapid development processes and higher customer requirements lead to increasing integration of softw...
Rapid development processes and higher customer requirements lead to increasing integration of softw...
Timing analysis tools in a model-driven development environment Descripción: This paper discuss...
TIMMO Project aimed to develop a Domain specific Modeling language for handling timing information w...
This chapter focuses on the analysis of the timing behavior of software applications that expose rea...
Cars, trains, trucks, telecom networks and industrial robots are examples of products relying on com...
The complexity of software running on vehicular embedded systems is constantly increasing and this ...
Aujourd'hui, les applications automobiles sont devenues de plus en plus complexes avec des ressource...
Nowadays, time plays a very important role in the field of SW development. Estimation of development...
Abstract Embedded hard real-time systems need reliable guarantees for the satisfaction of their timi...
International audienceDevelopers of safety-critical real-time systems have to ensure that their syst...
This talk presents the general landscape of timing analysis as it is being used today in the design ...
Abstract—Safety-critical automotive systems must fulfill hard real-time constraints for reliability ...
International audienceDistributed, software-intensive systems (e.g., in the automotive sector) must ...
Automotive systems are characterized today by increasing complexity, limited resources and more and ...