Static worst-case execution time (WCET) analysis is done by modeling the hardware behavior. In this paper we describe a WCET analysis technique to analyze systems with function caches, a special kind of instruction cache that caches whole functions only. This cache was designed with the aim to be more predictable for the worst-case than existing instruction caches. Within this paper we developed a cache analysis technique for the function cache. One of the new concepts of this analysis technique is the local persistence analysis, which allows to precisely model the function cache
Cache memories have been extensively used to bridge the gap between high speed processors and relati...
To compute a worst-case execution time (WCET) estimate for a program running on a safety-critical ha...
International audienceOn real-time systems running under timing constraints, scheduling can be perfo...
Static worst-case execution time (WCET) analysis is done by modeling the hardware behavior. In this ...
Safety critical real-time applications in aviation, automotive and industrial automation have to gua...
Worst-Case Execution Time (WCET) is an important metric for programs running on real-time systems, a...
This paper describes techniques to estimate the worst case execution time of executable code on arch...
When designing hard real-time embedded systems, it is required to estimate the worst-case execution ...
With the advent of increasingly complex hardware in real-time embedded systems (processors with perf...
Abstract — Caches in Embedded Systems improve average case performance, but they are a source of unp...
International audienceSafety-critical systems require guarantees on their worst-case execution times...
Worst-case execution time (WCET) analysis of systems with data caches is one of the key challenges i...
Abstract—Analyzing the worst-case execution time, the WCET, of a program or task is an important act...
International audienceThis chapter explains the usual methodology used to estimate worst case execut...
Hard real-time systems need a time-predictable computing platform to enable static worst-case execut...
Cache memories have been extensively used to bridge the gap between high speed processors and relati...
To compute a worst-case execution time (WCET) estimate for a program running on a safety-critical ha...
International audienceOn real-time systems running under timing constraints, scheduling can be perfo...
Static worst-case execution time (WCET) analysis is done by modeling the hardware behavior. In this ...
Safety critical real-time applications in aviation, automotive and industrial automation have to gua...
Worst-Case Execution Time (WCET) is an important metric for programs running on real-time systems, a...
This paper describes techniques to estimate the worst case execution time of executable code on arch...
When designing hard real-time embedded systems, it is required to estimate the worst-case execution ...
With the advent of increasingly complex hardware in real-time embedded systems (processors with perf...
Abstract — Caches in Embedded Systems improve average case performance, but they are a source of unp...
International audienceSafety-critical systems require guarantees on their worst-case execution times...
Worst-case execution time (WCET) analysis of systems with data caches is one of the key challenges i...
Abstract—Analyzing the worst-case execution time, the WCET, of a program or task is an important act...
International audienceThis chapter explains the usual methodology used to estimate worst case execut...
Hard real-time systems need a time-predictable computing platform to enable static worst-case execut...
Cache memories have been extensively used to bridge the gap between high speed processors and relati...
To compute a worst-case execution time (WCET) estimate for a program running on a safety-critical ha...
International audienceOn real-time systems running under timing constraints, scheduling can be perfo...