The problem of estimating a tight and safe Worst-Case Execution Time (WCET), needed for certification in safety-critical environment, is a challenging problem for modern embedded systems. A possible solution proposed in last years is to exploit statistical tools to obtain a probability distribution of the WCET. These probabilistic real-time analyses for WCET are however subject to errors, even when all the applicability hypotheses are satisfied and verified. This is caused by the uncertainties of the probabilistic-WCET distribution estimator. This article aims at improving the measurement-based probabilistic timing analysis approach providing some techniques to analyze and deal with such uncertainties. The so-called region of acceptance mod...
Real-time systems consist of a set of tasks (pieces of code) that are recurrently released to execut...
The increasing automation of safety-critical real-time systems, such as those in cars and planes, le...
The interest in probabilistic real-time is increasing, in response to the lack of traditional static...
The problem of estimating a tight and safe Worst-Case Execution Time (WCET), needed for certificatio...
The difficulties in estimating the Worst-Case Execution Time (WCET) of applications make the use of ...
Estimating the worst-case execution time (WCET) of tasks in a system is an important step in timing ...
Traditional approaches for worst case execution time (WCET) analysis produce values which are very p...
In the last three decades a number of methods have been devised to find upper-bounds for the executi...
Measurement-Based Probabilistic Timing Analysis (MBPTA) produces Probabilistic Worst-Case Execution ...
In this paper we present a measurement-based approach that produces both a WCET (Worst Case Executio...
The worst-case execution time (WCET) is a critical parameter describing the largest value for the ex...
peer reviewedEstimating worst-case execution times (WCET) is an important activity at early design s...
International audienceAll contemporary safety standards require to demonstrate the absence of functi...
Real-time systems consist of a set of tasks (pieces of code) that are recurrently released to execut...
The increasing automation of safety-critical real-time systems, such as those in cars and planes, le...
The interest in probabilistic real-time is increasing, in response to the lack of traditional static...
The problem of estimating a tight and safe Worst-Case Execution Time (WCET), needed for certificatio...
The difficulties in estimating the Worst-Case Execution Time (WCET) of applications make the use of ...
Estimating the worst-case execution time (WCET) of tasks in a system is an important step in timing ...
Traditional approaches for worst case execution time (WCET) analysis produce values which are very p...
In the last three decades a number of methods have been devised to find upper-bounds for the executi...
Measurement-Based Probabilistic Timing Analysis (MBPTA) produces Probabilistic Worst-Case Execution ...
In this paper we present a measurement-based approach that produces both a WCET (Worst Case Executio...
The worst-case execution time (WCET) is a critical parameter describing the largest value for the ex...
peer reviewedEstimating worst-case execution times (WCET) is an important activity at early design s...
International audienceAll contemporary safety standards require to demonstrate the absence of functi...
Real-time systems consist of a set of tasks (pieces of code) that are recurrently released to execut...
The increasing automation of safety-critical real-time systems, such as those in cars and planes, le...
The interest in probabilistic real-time is increasing, in response to the lack of traditional static...