We introduce a unified wcet analysis and scheduling framework for real-time applications deployed on multicore architectures. Our method does not follow a particular programming model, meaning that any piece of existing code (in particular legacy) can be re-used, and aims at reducing automatically the worst-case number of timing interferences between tasks. Our method is based on the notion of Time Interest Points (tips), which are instructions that can generate and/or suffer from timing interferences. We show how such points can be extracted from the binary code of applications and selected prior to performing the wcet analysis. We then represent real-time tasks as sequences of time intervals separated by tips, and schedule those tasks so ...
Designing time-predictable architectures to support the requirements of hard real-time systems is th...
For safety-critical real-time embedded systems, the worst-case execution time (WCET) analysis — dete...
“This material is presented to ensure timely dissemination of scholarly and technical work. Copyrigh...
We introduce a unified wcet analysis and scheduling framework for real-time applications deployed on...
In order to meet performance/low energy/integration requirements, parallel architectures (multithrea...
AbsInt is the leading provider of commercial tools for static code-level timing analysis. Its aiT Wo...
Over-approximated Worst-Case Execution Time (WCET) estimations for multi-cores lead to safe, but ove...
The performance and power efficiency of multi-core processors are attractive features for safety-cri...
Tomorrow\u27s real-time embedded systems will be built upon multicore architectures. This raises two...
Worst-Case-Execution-Time (WCET) analysis computes upper bounds on the execution time of a program o...
With the advent of multi-core platforms, research in the field of hard real-time has recently consid...
The complexity of hardware and software architectures used in today\u27s embedded systems make a hie...
REACTION 2014. 3rd International Workshop on Real-time and Distributed Computing in Emerging Applica...
Multicore technology has the potential for drastically increasing productivity of embedded real-time...
Embedded systems are becoming ubiquitous in our daily life. Due to close interaction with physical w...
Designing time-predictable architectures to support the requirements of hard real-time systems is th...
For safety-critical real-time embedded systems, the worst-case execution time (WCET) analysis — dete...
“This material is presented to ensure timely dissemination of scholarly and technical work. Copyrigh...
We introduce a unified wcet analysis and scheduling framework for real-time applications deployed on...
In order to meet performance/low energy/integration requirements, parallel architectures (multithrea...
AbsInt is the leading provider of commercial tools for static code-level timing analysis. Its aiT Wo...
Over-approximated Worst-Case Execution Time (WCET) estimations for multi-cores lead to safe, but ove...
The performance and power efficiency of multi-core processors are attractive features for safety-cri...
Tomorrow\u27s real-time embedded systems will be built upon multicore architectures. This raises two...
Worst-Case-Execution-Time (WCET) analysis computes upper bounds on the execution time of a program o...
With the advent of multi-core platforms, research in the field of hard real-time has recently consid...
The complexity of hardware and software architectures used in today\u27s embedded systems make a hie...
REACTION 2014. 3rd International Workshop on Real-time and Distributed Computing in Emerging Applica...
Multicore technology has the potential for drastically increasing productivity of embedded real-time...
Embedded systems are becoming ubiquitous in our daily life. Due to close interaction with physical w...
Designing time-predictable architectures to support the requirements of hard real-time systems is th...
For safety-critical real-time embedded systems, the worst-case execution time (WCET) analysis — dete...
“This material is presented to ensure timely dissemination of scholarly and technical work. Copyrigh...