International audienceEstimation of worst-case execution times (WCETs) is required to validate the temporal behavior of hard real time systems. Heptane is an open-source software program that estimates upper bounds of execution times on MIPS and ARM v7 architectures, offered to the WCET estimation community to experiment new WCET estimation techniques. The software architecture of Heptane was designed to be as modular and extensible as possible to facilitate the integration of new approaches. This paper is devoted to a description of Heptane, and includes information on the analyses it implements, how to use it and extend it
ii In real-time systems the execution time of a program is crucial, missing a deadline can have cata...
Nowadays, up to 98 % of all manufactured computer processors worldwide are used in embedded systems....
The difficulties in estimating the Worst-Case Execution Time (WCET) of applications make the use of ...
Estimation of worst-case execution times (WCETs) is required to validate the temporal behavior of ha...
The determination of upper bounds on execution times, commonly called Worst-Case Execution Times (WC...
Estimations of the Worst-Case Execution Time (WCET) are required in providing guarantees for timing ...
In this article we give an overview of the Worst-Case Execution Time (WCET) analysis research perfor...
International audienceThis chapter explains the usual methodology used to estimate worst case execut...
Timeliness is a critical aspect of real-time systems since both functional and temporal properties m...
Despite the scientic advances in the worst-case execution-time (WCET) analysis, there is hardly any ...
International audienceCritical embedded systems are generally composed of repetitive tasks that must...
Traditional approaches for worst case execution time (WCET) analysis produce values which are very p...
Today, traditional mechanical and electrical systems are replaced with special ICT (Information and ...
In the last three decades a number of methods have been devised to find upper-bounds for the executi...
AbstractKnowing the program timing characteristics is fundamental to the successful design and execu...
ii In real-time systems the execution time of a program is crucial, missing a deadline can have cata...
Nowadays, up to 98 % of all manufactured computer processors worldwide are used in embedded systems....
The difficulties in estimating the Worst-Case Execution Time (WCET) of applications make the use of ...
Estimation of worst-case execution times (WCETs) is required to validate the temporal behavior of ha...
The determination of upper bounds on execution times, commonly called Worst-Case Execution Times (WC...
Estimations of the Worst-Case Execution Time (WCET) are required in providing guarantees for timing ...
In this article we give an overview of the Worst-Case Execution Time (WCET) analysis research perfor...
International audienceThis chapter explains the usual methodology used to estimate worst case execut...
Timeliness is a critical aspect of real-time systems since both functional and temporal properties m...
Despite the scientic advances in the worst-case execution-time (WCET) analysis, there is hardly any ...
International audienceCritical embedded systems are generally composed of repetitive tasks that must...
Traditional approaches for worst case execution time (WCET) analysis produce values which are very p...
Today, traditional mechanical and electrical systems are replaced with special ICT (Information and ...
In the last three decades a number of methods have been devised to find upper-bounds for the executi...
AbstractKnowing the program timing characteristics is fundamental to the successful design and execu...
ii In real-time systems the execution time of a program is crucial, missing a deadline can have cata...
Nowadays, up to 98 % of all manufactured computer processors worldwide are used in embedded systems....
The difficulties in estimating the Worst-Case Execution Time (WCET) of applications make the use of ...