To analyze complex and heterogeneous real-time embedded systems, recent works have proposed interface techniques between real-time calculus (RTC) and timed automata (TA), in order to take advantage of the strengths of each technique for analyzing various components. But the time to analyze a state-based component modeled by TA may be prohibitively high, due to the state space explosion problem. In this paper, we propose a framework of granularity-based interfacing to speed up the analysis of a TA modeled component. First, we abstract fine models to work with event streams at coarse granularity. We perform analysis of the component at multiple coarse granularities and then based on RTC theory, we derive lower and upper bounds on arrival patt...
Many real-time embedded systems process event streams that are composed of a finite number of differ...
This paper advocates a rigorously formal and compositional style for obtaining key performance and/o...
The Real-Time Calculus (RTC) [19] is a framework to analyze heterogeneous real-time systems that pro...
To analyze complex and heterogeneous real-time embedded systems, recent works have proposed interfac...
To analyze complex and heterogeneous real-time embedded systems, recent works have proposed interfac...
Abstract: To analyze the complex and heterogenous real-time embedded systems, recent works have prop...
This paper presents a compositional and hybrid approach for the performance analysis of distributed ...
The Real-Time Calculus (RTC) framework proposed in [5, 16] and subsequently extended [17, 18] is tar...
We show that timed automata can be used to model and to analyze timeliness properties of embedded sy...
We present a framework (Real-Time Calculus) for analysing various system properties pertaining to ti...
Abstract We present a tool for compositional timing and performance analysis of real-time systems mo...
Abstract: Timed systems are notoriously hard to debug and to verify because the continuous nature of...
International audienceOver the last few years, Real-Time Calculus has been used extensively to model...
Part 5: ARAMIS Special SessionInternational audienceFor most embedded safety-critical systems not on...
The timing behavior of real-time systems is often validated through timing analyses, which are yet j...
Many real-time embedded systems process event streams that are composed of a finite number of differ...
This paper advocates a rigorously formal and compositional style for obtaining key performance and/o...
The Real-Time Calculus (RTC) [19] is a framework to analyze heterogeneous real-time systems that pro...
To analyze complex and heterogeneous real-time embedded systems, recent works have proposed interfac...
To analyze complex and heterogeneous real-time embedded systems, recent works have proposed interfac...
Abstract: To analyze the complex and heterogenous real-time embedded systems, recent works have prop...
This paper presents a compositional and hybrid approach for the performance analysis of distributed ...
The Real-Time Calculus (RTC) framework proposed in [5, 16] and subsequently extended [17, 18] is tar...
We show that timed automata can be used to model and to analyze timeliness properties of embedded sy...
We present a framework (Real-Time Calculus) for analysing various system properties pertaining to ti...
Abstract We present a tool for compositional timing and performance analysis of real-time systems mo...
Abstract: Timed systems are notoriously hard to debug and to verify because the continuous nature of...
International audienceOver the last few years, Real-Time Calculus has been used extensively to model...
Part 5: ARAMIS Special SessionInternational audienceFor most embedded safety-critical systems not on...
The timing behavior of real-time systems is often validated through timing analyses, which are yet j...
Many real-time embedded systems process event streams that are composed of a finite number of differ...
This paper advocates a rigorously formal and compositional style for obtaining key performance and/o...
The Real-Time Calculus (RTC) [19] is a framework to analyze heterogeneous real-time systems that pro...