The use of increasingly complex hardware and software platforms in response to the ever rising performance demands of modern real-time systems complicates the verification and validation of their timing behaviour, which form a time-and-effort-intensive step of system qualification or certification. In this paper we relate the current state of practice in measurement-based timing analysis, the predominant choice for industrial developers, to the proceedings of the PROXIMA (Probabilistic real-time control of mixed-criticality multicore systems) project in that very field. We recall the difficulties that the shift towards more complex computing platforms causes in that regard. Then we discuss the probabilistic approach proposed by PROXIMA to o...
Probabilistic Timing Analysis (PTA) allows complex hardware acceleration features, which defeat clas...
Probabilistic Timing Analysis (PTA) allows complex hardware acceleration features, which defeat clas...
Estimating the worst-case execution time in modern architecture is a non-trivial problem. The presen...
The use of increasingly complex hardware and software platforms in response to the ever rising perfo...
This position paper outlines the innovative probabilistic approach being taken by the EU Integrated ...
Timing Validation and Verification (V&V) is an important step in real-time system design, in which a...
The pressing market demand for competitive performance/cost ratios compels Critical Real-Time Embedd...
Timing Verification is a fundamental step in real-time embedded systems, with measurement-based timi...
International audienceStatic timing analysis is the state-of-the-art practice of ascertaining the ti...
The unabated increase in the complexity of the hardware and software components of modern embedded r...
This survey covers probabilistic timing analysis techniques for real-time systems. It reviews and cr...
Static Timing Analysis is the state-of-the-art practice to ascertain the timing behaviour of current...
The rigorous application of static timing analysis requires a large and costly amount of detail know...
Critical Real-Time Embedded Systems (CRTES) industry needs increasingly complex hardware to attain t...
Probabilistic Timing Analysis (PTA) allows complex hardware acceleration features, which defeat clas...
Probabilistic Timing Analysis (PTA) allows complex hardware acceleration features, which defeat clas...
Estimating the worst-case execution time in modern architecture is a non-trivial problem. The presen...
The use of increasingly complex hardware and software platforms in response to the ever rising perfo...
This position paper outlines the innovative probabilistic approach being taken by the EU Integrated ...
Timing Validation and Verification (V&V) is an important step in real-time system design, in which a...
The pressing market demand for competitive performance/cost ratios compels Critical Real-Time Embedd...
Timing Verification is a fundamental step in real-time embedded systems, with measurement-based timi...
International audienceStatic timing analysis is the state-of-the-art practice of ascertaining the ti...
The unabated increase in the complexity of the hardware and software components of modern embedded r...
This survey covers probabilistic timing analysis techniques for real-time systems. It reviews and cr...
Static Timing Analysis is the state-of-the-art practice to ascertain the timing behaviour of current...
The rigorous application of static timing analysis requires a large and costly amount of detail know...
Critical Real-Time Embedded Systems (CRTES) industry needs increasingly complex hardware to attain t...
Probabilistic Timing Analysis (PTA) allows complex hardware acceleration features, which defeat clas...
Probabilistic Timing Analysis (PTA) allows complex hardware acceleration features, which defeat clas...
Estimating the worst-case execution time in modern architecture is a non-trivial problem. The presen...