The execution time of software for hard real-time systems must be predictable. Further, safe and not overly pessimistic bounds for the worst-case execution time (WCET) must be computable. We conceived a programming strategy called WCET-oriented programming and a code transformation strategy, the single-path conversion, that aid programmers in producing code that meets these requirements. These strategies avoid and eliminate input-data dependencies in the code. The paper describes the formal analysis, based on abstract interpretation, that identifies input-data dependencies in the code and thus forms the basis for the strategies provided for hard real-time code development.Peer reviewe
Traditional approaches for worst case execution time (WCET) analysis produce values which are very p...
In this article we give an overview of the Worst-Case Execution Time (WCET) analysis research perfor...
In the last three decades a number of methods have been devised to find upper-bounds for the executi...
The execution time of soft-ware for hard real-time systems must be predictable. Further safe and not...
Abstract: Traditional Worst-Case Execution-Time (WCET) analysis is very complex. It has to deal with...
Knowledge of the worst-case execution time of software components is essential in safety-critical ha...
To guarantee timeliness in hard real-time systems the knowledge of the worst-case execution time (WC...
“This material is presented to ensure timely dissemination of scholarly and technical work. Copyrigh...
In a real-time system, it is crucial to ensure that all tasks of the system hold their deadlines. A ...
The single-path software/hardware architecture has been conceived with the goal to support real-time...
Being able to compute worst-case execution time bounds for tasks of an embedded software system with...
In a real-time system, it is crucial to ensure that all tasks of the system holdtheir deadlines. A m...
In this article, the problem of finding a tight estimate on the worst-case execution time (WCET) of ...
Timing analysis is a crucial test for dependable hard real-time systems (DHRTS). The calculation of ...
Despite the scientic advances in the worst-case execution-time (WCET) analysis, there is hardly any ...
Traditional approaches for worst case execution time (WCET) analysis produce values which are very p...
In this article we give an overview of the Worst-Case Execution Time (WCET) analysis research perfor...
In the last three decades a number of methods have been devised to find upper-bounds for the executi...
The execution time of soft-ware for hard real-time systems must be predictable. Further safe and not...
Abstract: Traditional Worst-Case Execution-Time (WCET) analysis is very complex. It has to deal with...
Knowledge of the worst-case execution time of software components is essential in safety-critical ha...
To guarantee timeliness in hard real-time systems the knowledge of the worst-case execution time (WC...
“This material is presented to ensure timely dissemination of scholarly and technical work. Copyrigh...
In a real-time system, it is crucial to ensure that all tasks of the system hold their deadlines. A ...
The single-path software/hardware architecture has been conceived with the goal to support real-time...
Being able to compute worst-case execution time bounds for tasks of an embedded software system with...
In a real-time system, it is crucial to ensure that all tasks of the system holdtheir deadlines. A m...
In this article, the problem of finding a tight estimate on the worst-case execution time (WCET) of ...
Timing analysis is a crucial test for dependable hard real-time systems (DHRTS). The calculation of ...
Despite the scientic advances in the worst-case execution-time (WCET) analysis, there is hardly any ...
Traditional approaches for worst case execution time (WCET) analysis produce values which are very p...
In this article we give an overview of the Worst-Case Execution Time (WCET) analysis research perfor...
In the last three decades a number of methods have been devised to find upper-bounds for the executi...