ARINC specification 653-2 describes the interface between application software and underlying middleware in a distributed real-time avionics system. The real-time workload in this system comprises of partitions, where each partition consists of one or more processes. Processes incur blocking and preemption overheads, and can communicate with other processes in the system. In this work, we develop compositional techniques for automated scheduling of such partitions and processes. At present, system designers manually schedule partitions based on interactions they have with the partition vendors. This approach is not only time consuming, but can also result in under utilization of resources
Modern computer systems in aircraft are based on an integrated modular avionic architecture. In this...
International audienceARINC 653 defines a partitioned framework where the partitions are scheduled a...
Modern computer systems in aircraft are often based on an integrated modular avionic architecture. I...
ARINC specification 653-2 describes the interface between application software and underlying middle...
Cyber-physical systems (CPSs) are becoming all-pervasive, and due to increasing complexity they are ...
ARINC specification 653-2 describes the interface between application software and underlying middle...
A Compositional Framework for Avionics (ARINC-653) Systems Cyber-physical systems (CPSs) are becomin...
Avionics software is safe-critical embedded software and its architecture is evolving from tradition...
Abstract—Hierarchical Scheduling (HS) techniques achieve resource partitioning among a set of real-t...
In modern integrated modular avionic systems, applications share hardware resources on a common avio...
We present a co-designed scheduling framework and platform architecture that together support compos...
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...
Integrated modular Avionics (IMA or ARINC 651), as it is currently implemented in large aircrafts, u...
AbstractRecently the integrated modular avionics (IMA) architecture which introduces the concept of ...
Modern computer systems in aircraft are based on an integrated modular avionic architecture. In this...
International audienceARINC 653 defines a partitioned framework where the partitions are scheduled a...
Modern computer systems in aircraft are often based on an integrated modular avionic architecture. I...
ARINC specification 653-2 describes the interface between application software and underlying middle...
Cyber-physical systems (CPSs) are becoming all-pervasive, and due to increasing complexity they are ...
ARINC specification 653-2 describes the interface between application software and underlying middle...
A Compositional Framework for Avionics (ARINC-653) Systems Cyber-physical systems (CPSs) are becomin...
Avionics software is safe-critical embedded software and its architecture is evolving from tradition...
Abstract—Hierarchical Scheduling (HS) techniques achieve resource partitioning among a set of real-t...
In modern integrated modular avionic systems, applications share hardware resources on a common avio...
We present a co-designed scheduling framework and platform architecture that together support compos...
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...
Integrated modular Avionics (IMA or ARINC 651), as it is currently implemented in large aircrafts, u...
AbstractRecently the integrated modular avionics (IMA) architecture which introduces the concept of ...
Modern computer systems in aircraft are based on an integrated modular avionic architecture. In this...
International audienceARINC 653 defines a partitioned framework where the partitions are scheduled a...
Modern computer systems in aircraft are often based on an integrated modular avionic architecture. I...