Static schedules are used in safety critical systems to achieve predictable, real-time behavior. While it was possible to construct static schedules manually for simple, single-core systems, the increase in complexity introduced by multi-core processors and the demand for flexible and dynamic engineering processes in the avionics domain, require a novel approach for their automatic generation. This paper describes ongoing trends in the avionics domain to further underline engineering constraints encountered, when introducing multi-core processors in a safety critical area. By focussing on the requirement of a predictable behavior, a model-based approach for the generation of static schedules for complex multi-core systems is presented. It i...
The design of safety-critical systems has typically adopted static techniques to simplify error dete...
Modern computer systems in aircraft are based on an integrated modular avionic architecture. In this...
Avionics software is safe-critical embedded software and its architecture is evolving from tradition...
Future generations of avionic equipments are expected to embed multi-core processors. Using Componen...
Avionics mission computing systems have traditionally been scheduled statically. Static scheduling p...
In the safety critical domain such as in avionics, existing embedded solutions based on single-core ...
With more functionality added to safety-critical avionics systems, new platforms are required to off...
In modern integrated modular avionic systems, applications share hardware resources on a common avio...
With the onset of multi-core chips, the single-core market is closing down. Developing avionics syst...
In modern integrated modular avionic systems, applications share hardware resources on a common avio...
Pre-runtime scheduling of avionic systems is used to ensure that the systems provide the desired fun...
With more functionality added to future safety-critical avionics systems, new platforms are required...
The design of safety-critical systems has typically adopted static techniques to simplify error dete...
Cyber-physical Systems are distributed, embedded systems that interact with their physical environme...
Integrated Modular Avionics (IMA) architectures employ a high-integrity, partitioned environment tha...
The design of safety-critical systems has typically adopted static techniques to simplify error dete...
Modern computer systems in aircraft are based on an integrated modular avionic architecture. In this...
Avionics software is safe-critical embedded software and its architecture is evolving from tradition...
Future generations of avionic equipments are expected to embed multi-core processors. Using Componen...
Avionics mission computing systems have traditionally been scheduled statically. Static scheduling p...
In the safety critical domain such as in avionics, existing embedded solutions based on single-core ...
With more functionality added to safety-critical avionics systems, new platforms are required to off...
In modern integrated modular avionic systems, applications share hardware resources on a common avio...
With the onset of multi-core chips, the single-core market is closing down. Developing avionics syst...
In modern integrated modular avionic systems, applications share hardware resources on a common avio...
Pre-runtime scheduling of avionic systems is used to ensure that the systems provide the desired fun...
With more functionality added to future safety-critical avionics systems, new platforms are required...
The design of safety-critical systems has typically adopted static techniques to simplify error dete...
Cyber-physical Systems are distributed, embedded systems that interact with their physical environme...
Integrated Modular Avionics (IMA) architectures employ a high-integrity, partitioned environment tha...
The design of safety-critical systems has typically adopted static techniques to simplify error dete...
Modern computer systems in aircraft are based on an integrated modular avionic architecture. In this...
Avionics software is safe-critical embedded software and its architecture is evolving from tradition...