Accurate estimation of the tick length of a synchronous program is essential for efficient and predictable implementations that are devoid of timing faults. The techniques to determine the tick length statically are classified as worst case reaction time (WCRT) analysis. While a plethora of techniques exist for worst case execution time (WCET) analysis of procedural programs, there are only a handful of techniques for determining the WCRT value of synchronous programs. Most of these techniques produce overestimates and hence are unsuitable for the design of systems that are predictable while being also efficient. In this paper, we present an approach for the accurate estimation of the exact WCRT value of a synchronous program, called its ti...
Estimations of the Worst-Case Execution Time (WCET) are required in providing guarantees for timing ...
The process requirements that govern the development of high-integrity real-time systems make timing...
In this paper, a novel approach to high-level (i.e. architec-ture independent) worst case execution ...
Accurate estimation of the tick length of a synchronous program is essential for efficient and predi...
Accurate estimation of the tick length of a synchronous program is essential for efficient and predi...
International audienceSynchronous programs execute in discrete instants, called ticks. For real-time...
Worst-Case-Execution-Time (WCET) analysis computes upper bounds on the execution time of a program o...
“This material is presented to ensure timely dissemination of scholarly and technical work. Copyrigh...
In real-time systems, an upper-bound on the execution time is mandatory to guarantee all timing cons...
AbstractReactive programs have to react continuously to their inputs. Here the time needed to react ...
In a real-time system, it is crucial to ensure that all tasks of the system hold their deadlines. A ...
Worst-case execution time (WCET) analysis has reached a high level of precision in the analysis of s...
In a real-time system, it is crucial to ensure that all tasks of the system holdtheir deadlines. A m...
“This material is presented to ensure timely dissemination of scholarly and technical work. Copyrigh...
In the last three decades a number of methods have been devised to find upper-bounds for the executi...
Estimations of the Worst-Case Execution Time (WCET) are required in providing guarantees for timing ...
The process requirements that govern the development of high-integrity real-time systems make timing...
In this paper, a novel approach to high-level (i.e. architec-ture independent) worst case execution ...
Accurate estimation of the tick length of a synchronous program is essential for efficient and predi...
Accurate estimation of the tick length of a synchronous program is essential for efficient and predi...
International audienceSynchronous programs execute in discrete instants, called ticks. For real-time...
Worst-Case-Execution-Time (WCET) analysis computes upper bounds on the execution time of a program o...
“This material is presented to ensure timely dissemination of scholarly and technical work. Copyrigh...
In real-time systems, an upper-bound on the execution time is mandatory to guarantee all timing cons...
AbstractReactive programs have to react continuously to their inputs. Here the time needed to react ...
In a real-time system, it is crucial to ensure that all tasks of the system hold their deadlines. A ...
Worst-case execution time (WCET) analysis has reached a high level of precision in the analysis of s...
In a real-time system, it is crucial to ensure that all tasks of the system holdtheir deadlines. A m...
“This material is presented to ensure timely dissemination of scholarly and technical work. Copyrigh...
In the last three decades a number of methods have been devised to find upper-bounds for the executi...
Estimations of the Worst-Case Execution Time (WCET) are required in providing guarantees for timing ...
The process requirements that govern the development of high-integrity real-time systems make timing...
In this paper, a novel approach to high-level (i.e. architec-ture independent) worst case execution ...