Many-core processors offer massively parallel computation power representing a good opportunity for the design of highly integrated avionics systems. Such designs must face several challenges among which 1) temporal isolation must be ensured between applications and 2) bounds of WCET must be computed for real-time safety critical applications. In order to partially address those issues, we propose an appropriate execution model, that restricts the applications behaviours, which has been implemented on the Kalray MPPA-256. We tested the correctness of the approach through a series of benchmarks and the implementation of a case study
Deployment of multi-core platforms in safety-critical applications requires reliable estimation of w...
While the computing industry has shifted from single-core to multi-core processors for performance g...
International audienceFor the last decades, industries from the safety-critical domain have been usi...
International audienceMany-core processors offer massively parallel computation power representing a...
During the last 25 years, the need for computational power aboard aircrafts has been constantly grow...
We focus in this thesis on issues related to COTS multi-core processors mastering, especially regard...
Dans cette thèse, nous étudions l’adéquation de l’architecture distribuée des processeurs pluricoeur...
Commercial of the shelf multicore processors suffer from timing interferences between cores which co...
Most critical systems are subject to hard real-time requirements. These systems are more and more co...
With the increasing use of multi-core platforms in safety-related domains, aircraft system integrato...
Multicore processors promise to offer the performance as well as the reduced space, weight and power...
Complex embedded systems today commonly involve a mix of real-time and best-effort applications inte...
The performance and power efficiency of multi-core processors are attractive features for safety-cri...
International audienceThe paper describes a pragmatic solution to the parallel execution of hard rea...
In the safety critical domain such as in avionics, existing embedded solutions based on single-core ...
Deployment of multi-core platforms in safety-critical applications requires reliable estimation of w...
While the computing industry has shifted from single-core to multi-core processors for performance g...
International audienceFor the last decades, industries from the safety-critical domain have been usi...
International audienceMany-core processors offer massively parallel computation power representing a...
During the last 25 years, the need for computational power aboard aircrafts has been constantly grow...
We focus in this thesis on issues related to COTS multi-core processors mastering, especially regard...
Dans cette thèse, nous étudions l’adéquation de l’architecture distribuée des processeurs pluricoeur...
Commercial of the shelf multicore processors suffer from timing interferences between cores which co...
Most critical systems are subject to hard real-time requirements. These systems are more and more co...
With the increasing use of multi-core platforms in safety-related domains, aircraft system integrato...
Multicore processors promise to offer the performance as well as the reduced space, weight and power...
Complex embedded systems today commonly involve a mix of real-time and best-effort applications inte...
The performance and power efficiency of multi-core processors are attractive features for safety-cri...
International audienceThe paper describes a pragmatic solution to the parallel execution of hard rea...
In the safety critical domain such as in avionics, existing embedded solutions based on single-core ...
Deployment of multi-core platforms in safety-critical applications requires reliable estimation of w...
While the computing industry has shifted from single-core to multi-core processors for performance g...
International audienceFor the last decades, industries from the safety-critical domain have been usi...