The adoption of multi- and many-core processors in avionic applications is still limited by certification concerns, mainly due to non-deterministic behavior. In this paper, we review requirements of avionic applications, and we identify some of the critical issues that they are going to face on many-core processors. We then propose a preliminary version of a network-on-chip architecture suitable for airworthiness certification, which combines quality-of-service and fault-tolerance
Future technology trends envision that next-generation Multiprocessors Systems-on- Chip (MPSoCs) wil...
Les processeurs mono-coeurs traditionnels ne sont plus suffisants pour répondre aux besoins croissan...
Multi-processor system-on-chip (MPSoC) devices are a well known replacement of single-core devices....
The adoption of multi- and many-core processors in avionic applications is still limited by certific...
Presented at Work in Progress Session, The 28th GI/ITG International Conference on Architecture of C...
Networks-on-Chip (NoC) based many-core processors can not only increase system performance but also ...
Modern Network-on-Chip-based Multiprocessor Systems-on-Chip (NoC-based MPSoCs) bear the potential fo...
International audienceFuture avionic applications will require higher computation performance while ...
Work in Progress Session, 21st IEEE Real-Time and Embedded Techonology and Applications Symposium (R...
International audienceThe interconnection of many-cores by an avionics full duplex switched Ethernet...
Some industrial domains, characterized by particularly strict safety standards – e.g., avionics – a...
Future generations of avionic equipments are expected to embed multi-core processors. Using Componen...
In the safety critical domain such as in avionics, existing embedded solutions based on single-core ...
This article proposes a bounded interference method, based on statistical evaluations, for online de...
International audienceMany-core architectures are more promising hardware to design real-time system...
Future technology trends envision that next-generation Multiprocessors Systems-on- Chip (MPSoCs) wil...
Les processeurs mono-coeurs traditionnels ne sont plus suffisants pour répondre aux besoins croissan...
Multi-processor system-on-chip (MPSoC) devices are a well known replacement of single-core devices....
The adoption of multi- and many-core processors in avionic applications is still limited by certific...
Presented at Work in Progress Session, The 28th GI/ITG International Conference on Architecture of C...
Networks-on-Chip (NoC) based many-core processors can not only increase system performance but also ...
Modern Network-on-Chip-based Multiprocessor Systems-on-Chip (NoC-based MPSoCs) bear the potential fo...
International audienceFuture avionic applications will require higher computation performance while ...
Work in Progress Session, 21st IEEE Real-Time and Embedded Techonology and Applications Symposium (R...
International audienceThe interconnection of many-cores by an avionics full duplex switched Ethernet...
Some industrial domains, characterized by particularly strict safety standards – e.g., avionics – a...
Future generations of avionic equipments are expected to embed multi-core processors. Using Componen...
In the safety critical domain such as in avionics, existing embedded solutions based on single-core ...
This article proposes a bounded interference method, based on statistical evaluations, for online de...
International audienceMany-core architectures are more promising hardware to design real-time system...
Future technology trends envision that next-generation Multiprocessors Systems-on- Chip (MPSoCs) wil...
Les processeurs mono-coeurs traditionnels ne sont plus suffisants pour répondre aux besoins croissan...
Multi-processor system-on-chip (MPSoC) devices are a well known replacement of single-core devices....