In this paper, we focus on modelling the timing aspects of binary programs running on architectures featuring caches and pipelines. The objective is to obtain a timed automaton model to compute tight bounds for the worst-case execution time (WCET) of the programs using model-checking tehcniques.Author gratefully acknowledges the funding from projects TEC2011-28666-C04-02, TEC2014-58036-C4-3-R and grant BES-2012-055572, awarded by the Spanish Ministry of Economy and Competitivity
Safety critical real-time applications in aviation, automotive and industrial automation have to gua...
In this paper we use a Markovian model previously applied to cache related delay modeling and preemp...
While caches have become invaluable for higher-end architectures due to their ability to hide, in pa...
In this paper, we focus on modelling the timing aspects of binary programs running on architectures ...
International audienceOn real-time systems running under timing constraints, scheduling can be perfo...
Abstract. In this paper we introduce a framework for computing up-per bounds yet accurate WCET for h...
When constructing real-time systems, safe and tight estimations of the worst case execution time (WC...
Worst-Case-Execution-Time (WCET) analysis computes upper bounds on the execution time of a program o...
Abstract—It is predicted that multicores will be increasingly used in future embedded real-time syst...
The computation of the Worst Case Execution Time (WCET) is an essential step for the verification an...
With the advent of increasingly complex hardware in real-time embedded systems (processors with perf...
A timing anomaly is a counterintuitive timing behavior in the sense that a local fast execution slow...
International audienceSafety-critical systems require guarantees on their worst-case execution times...
Estimating the Worst Case Execution Time (WCET) of a program on a given processor is important for t...
Static program analysis is a proven approach for obtaining safe and tight upper bounds on the worst-...
Safety critical real-time applications in aviation, automotive and industrial automation have to gua...
In this paper we use a Markovian model previously applied to cache related delay modeling and preemp...
While caches have become invaluable for higher-end architectures due to their ability to hide, in pa...
In this paper, we focus on modelling the timing aspects of binary programs running on architectures ...
International audienceOn real-time systems running under timing constraints, scheduling can be perfo...
Abstract. In this paper we introduce a framework for computing up-per bounds yet accurate WCET for h...
When constructing real-time systems, safe and tight estimations of the worst case execution time (WC...
Worst-Case-Execution-Time (WCET) analysis computes upper bounds on the execution time of a program o...
Abstract—It is predicted that multicores will be increasingly used in future embedded real-time syst...
The computation of the Worst Case Execution Time (WCET) is an essential step for the verification an...
With the advent of increasingly complex hardware in real-time embedded systems (processors with perf...
A timing anomaly is a counterintuitive timing behavior in the sense that a local fast execution slow...
International audienceSafety-critical systems require guarantees on their worst-case execution times...
Estimating the Worst Case Execution Time (WCET) of a program on a given processor is important for t...
Static program analysis is a proven approach for obtaining safe and tight upper bounds on the worst-...
Safety critical real-time applications in aviation, automotive and industrial automation have to gua...
In this paper we use a Markovian model previously applied to cache related delay modeling and preemp...
While caches have become invaluable for higher-end architectures due to their ability to hide, in pa...