Compared to traditional software design, the design of embedded software is even more challenging: In addition to the correct implementation of the systems, one has to consider non-functional constraints such as real-time behavior, reliability, and energy consumption. Moreover, many embedded systems are used in safety-critical applications where errors can lead to enormous damages and even to the loss of human live. For this reason, formal verification is applied in many design flows using different kinds of formal verification methods. The synchronous model of computation has shown to be well-suited in this context. Its core is the paradigm of perfect synchrony which assumes that the overall system behavior is divided into a sequence of r...
Programming embedded systems applications involve writing concurrent, event-driven and timing-aware ...
peer reviewedOur work is a contribution towards addressing what Thomas Henziger called the grand cha...
Abstract: Timed systems are notoriously hard to debug and to verify because the continuous nature of...
The design of electronic Embedded Systems relies on a number of different engineering disciplines. A...
An huge amount of computational models and programming languages have been proposed for the descrip...
AbstractThe synchronous modeling paradigm provides strong correctness guarantees for embedded system...
Abstract—This paper addresses the design of reactive real-time embedded systems. Such systems are of...
In modern times, human life is intrinsically depending on real-time embedded systems (RTES) with inc...
International audienceThe synchronous modeling paradigm provides strong correctness guarantees for e...
Embedded reactive systems underpin various safety-critical applications wherein they interact with o...
Pervasive smart devices link embedded concerns to information technology in a single, resource-const...
Modern embedded systems encompass a fast increasing range of applications, spanning from automotive ...
Synchronous programming languages are well-suited for the implementation and verification of real-ti...
Synchronous programming languages are programming languages with an abstract (logical) notion of tim...
Editor: Abstract. Synchronous programming is available through several formally defined languages ha...
Programming embedded systems applications involve writing concurrent, event-driven and timing-aware ...
peer reviewedOur work is a contribution towards addressing what Thomas Henziger called the grand cha...
Abstract: Timed systems are notoriously hard to debug and to verify because the continuous nature of...
The design of electronic Embedded Systems relies on a number of different engineering disciplines. A...
An huge amount of computational models and programming languages have been proposed for the descrip...
AbstractThe synchronous modeling paradigm provides strong correctness guarantees for embedded system...
Abstract—This paper addresses the design of reactive real-time embedded systems. Such systems are of...
In modern times, human life is intrinsically depending on real-time embedded systems (RTES) with inc...
International audienceThe synchronous modeling paradigm provides strong correctness guarantees for e...
Embedded reactive systems underpin various safety-critical applications wherein they interact with o...
Pervasive smart devices link embedded concerns to information technology in a single, resource-const...
Modern embedded systems encompass a fast increasing range of applications, spanning from automotive ...
Synchronous programming languages are well-suited for the implementation and verification of real-ti...
Synchronous programming languages are programming languages with an abstract (logical) notion of tim...
Editor: Abstract. Synchronous programming is available through several formally defined languages ha...
Programming embedded systems applications involve writing concurrent, event-driven and timing-aware ...
peer reviewedOur work is a contribution towards addressing what Thomas Henziger called the grand cha...
Abstract: Timed systems are notoriously hard to debug and to verify because the continuous nature of...