This article proposes a bounded interference method, based on statistical evaluations, for online detection and tolerance of any fault capable of causing a deadline miss. The proposed method requires data that can be gathered during the profiling and worst-case execution time (WCET) analysis phase. This article describes the method, its application, and then it presents an avionic mixed-criticality use case for experimental evaluation, considering both dual-core and quad-core platforms. Results show that faults that can cause a timing violation are correctly identified while other faults that do not introduce a significant temporal interference can be tolerated to avoid high recovery overheads
The Context: Hard Real-Time Systems Safety-critical applications: ¢ Avionics, automotive, train in...
The advent of multicore processors complicates timing analysis owing to the need to account for the ...
With more functionality added to safety-critical avionics systems, new platforms are required to off...
This article proposes a bounded interference method, based on statistical evaluations, for online de...
Timing matters. This is especially true for safety-critical real-time applications, since human live...
The performance and power efficiency of multi-core processors are attractive features for safety-cri...
In this paper a novel technique is proposed for online detection of timing interference in multicore...
While there is significant interest in the use of COTS multicore platforms for Real-time Systems, th...
With more functionality added to future safety-critical avionics systems, new platforms are required...
The demand for increased computing performance is driving industry in critical-embedded systems (CES...
Commercial of the shelf multicore processors suffer from timing interferences between cores which co...
International audienceMany/multi-cores architectures provide tremendous increase in computation powe...
AbsInt is the leading provider of commercial tools for static code-level timing analysis. Its aiT Wo...
Artificial system interaction with the real environment is in general based on the deployment of pro...
Deployment of multi-core platforms in safety-critical applications requires reliable estimation of w...
The Context: Hard Real-Time Systems Safety-critical applications: ¢ Avionics, automotive, train in...
The advent of multicore processors complicates timing analysis owing to the need to account for the ...
With more functionality added to safety-critical avionics systems, new platforms are required to off...
This article proposes a bounded interference method, based on statistical evaluations, for online de...
Timing matters. This is especially true for safety-critical real-time applications, since human live...
The performance and power efficiency of multi-core processors are attractive features for safety-cri...
In this paper a novel technique is proposed for online detection of timing interference in multicore...
While there is significant interest in the use of COTS multicore platforms for Real-time Systems, th...
With more functionality added to future safety-critical avionics systems, new platforms are required...
The demand for increased computing performance is driving industry in critical-embedded systems (CES...
Commercial of the shelf multicore processors suffer from timing interferences between cores which co...
International audienceMany/multi-cores architectures provide tremendous increase in computation powe...
AbsInt is the leading provider of commercial tools for static code-level timing analysis. Its aiT Wo...
Artificial system interaction with the real environment is in general based on the deployment of pro...
Deployment of multi-core platforms in safety-critical applications requires reliable estimation of w...
The Context: Hard Real-Time Systems Safety-critical applications: ¢ Avionics, automotive, train in...
The advent of multicore processors complicates timing analysis owing to the need to account for the ...
With more functionality added to safety-critical avionics systems, new platforms are required to off...