In this paper we discuss the limitations of and the precautions to account for when using Extreme Value Theory (EVT) to compute upper bounds to the execution time of programs. We analyse the requirements placed by EVT on the observations to be made of the events of interest, and the conditions that render safe the computations of execution time upper bounds. We also study the requirements that a recent EVT-based timing analysis technique, Measurement-Based Probabilistic Timing Analysis (MBPTA), introduces, besides those imposed by EVT, on the computing system under analysis to increase the trustworthiness of the upper bounds that it computes
The primary challenge of time-critical systems is to ensure that a task completes its execution befo...
This paper considers the use of Extreme Value Theory (EVT) to model worst-case execution times. In p...
In this paper we present a measurement-based approach that produces both a WCET (Worst Case Executio...
In this paper we discuss the limitations of and the precautions to account for when using Extreme Va...
This paper describes in detail the estimation algorithm of upper bound prediction of the time acquis...
Several techniques have been proposed to upper-bound the worst-case execution time behaviour of prog...
Measurement-based approaches with extreme value worst-case estimations are beginning to be proficien...
The Measurement-Based Probabilistic Timing Analysis (MBPTA) infers probabilistic Worst-Case Executio...
International audienceThe Worst-Case Execution Time (WCET) is a critical parameter describing the la...
Over the last few years, considerable interest has arisen in measurement-based probabilistic timing ...
Measurement-Based Probabilistic Timing Analysis, a probabilistic real-time computing method, is base...
Dans les systèmes informatiques temps réel, les tâches logicielles sont contraintes par le temps. Po...
International audienceIn this paper, we revisit the problem of using Extreme Value Theory (EVT) in t...
The worst-case execution time (WCET) is a critical parameter describing the largest value for the ex...
In this article we introduce the statistical theory foundation of probabilistic real-time computing:...
The primary challenge of time-critical systems is to ensure that a task completes its execution befo...
This paper considers the use of Extreme Value Theory (EVT) to model worst-case execution times. In p...
In this paper we present a measurement-based approach that produces both a WCET (Worst Case Executio...
In this paper we discuss the limitations of and the precautions to account for when using Extreme Va...
This paper describes in detail the estimation algorithm of upper bound prediction of the time acquis...
Several techniques have been proposed to upper-bound the worst-case execution time behaviour of prog...
Measurement-based approaches with extreme value worst-case estimations are beginning to be proficien...
The Measurement-Based Probabilistic Timing Analysis (MBPTA) infers probabilistic Worst-Case Executio...
International audienceThe Worst-Case Execution Time (WCET) is a critical parameter describing the la...
Over the last few years, considerable interest has arisen in measurement-based probabilistic timing ...
Measurement-Based Probabilistic Timing Analysis, a probabilistic real-time computing method, is base...
Dans les systèmes informatiques temps réel, les tâches logicielles sont contraintes par le temps. Po...
International audienceIn this paper, we revisit the problem of using Extreme Value Theory (EVT) in t...
The worst-case execution time (WCET) is a critical parameter describing the largest value for the ex...
In this article we introduce the statistical theory foundation of probabilistic real-time computing:...
The primary challenge of time-critical systems is to ensure that a task completes its execution befo...
This paper considers the use of Extreme Value Theory (EVT) to model worst-case execution times. In p...
In this paper we present a measurement-based approach that produces both a WCET (Worst Case Executio...