International audienceThe Phylog project aims at offering a model-based software-aided certification framework for aeronautical systems based on multi/many-core architectures. Certifying such platforms will entail fulfilling the high level objectives of the MCP-CRI / CAST-32A position paper. Among those, two types of analysis are required: interference and safety analyses. Because of the large size of the platforms and their complexity, those analyses can lead to combinatorial explosion and to some misinterpretation. To tackle these issues, we explore a service-based modelling approach that leads to a simplification of the analyses and to the highlighting of salient properties, making the adaptation of the certification argumentation effici...
Future generations of avionic equipments are expected to embed multi-core processors. Using Componen...
Avionics, like any other safety-critical real-time systems, pose unique challenges on system design,...
Modern aircraft are complex systems with numerous interacting hardware and software components. To m...
International audienceThe Phylog project aims at offering a model-based software-aided certification...
International audienceThe PHYLOG project aims at offering a model-based software-aided certification...
International audienceTo embed multi-core COTS processors in an avionic product, the platform must b...
Aircraft on-board systems architectures are defined by the subsystems and the connections among them...
With the onset of multi-and many-core chips, the single-core market is closing down. Those chips con...
Software certification is a common approach in the aerospace domain to ensure safety, quality and de...
International audienceThe CAST-32A provides some guidelines to help certify multi-core-based systems...
Presented at Work in Progress Session, The 28th GI/ITG International Conference on Architecture of C...
Safety critical systems (e.g., an avionics control system for safe flight) are often required to ach...
Unlike practices in electrical and mechanical equipment engineering, Cyber-Physical Systems (CPS) do...
Today, large civil aircraft incorporate a vast array of complex and coupled subsystems with thousand...
Aviation electronics (avionics) are sophisticated and distributed systems aboard an airplane. The co...
Future generations of avionic equipments are expected to embed multi-core processors. Using Componen...
Avionics, like any other safety-critical real-time systems, pose unique challenges on system design,...
Modern aircraft are complex systems with numerous interacting hardware and software components. To m...
International audienceThe Phylog project aims at offering a model-based software-aided certification...
International audienceThe PHYLOG project aims at offering a model-based software-aided certification...
International audienceTo embed multi-core COTS processors in an avionic product, the platform must b...
Aircraft on-board systems architectures are defined by the subsystems and the connections among them...
With the onset of multi-and many-core chips, the single-core market is closing down. Those chips con...
Software certification is a common approach in the aerospace domain to ensure safety, quality and de...
International audienceThe CAST-32A provides some guidelines to help certify multi-core-based systems...
Presented at Work in Progress Session, The 28th GI/ITG International Conference on Architecture of C...
Safety critical systems (e.g., an avionics control system for safe flight) are often required to ach...
Unlike practices in electrical and mechanical equipment engineering, Cyber-Physical Systems (CPS) do...
Today, large civil aircraft incorporate a vast array of complex and coupled subsystems with thousand...
Aviation electronics (avionics) are sophisticated and distributed systems aboard an airplane. The co...
Future generations of avionic equipments are expected to embed multi-core processors. Using Componen...
Avionics, like any other safety-critical real-time systems, pose unique challenges on system design,...
Modern aircraft are complex systems with numerous interacting hardware and software components. To m...