We present a co-designed scheduling framework and platform architecture that together support compositional scheduling of real-time systems. The architecture is built on the Xen virtualization platform, and relies on compositional scheduling theory that uses periodic resource models as component interfaces.We implement resource models as periodic servers and consider enhancements to periodic server design that significantly improve response times of tasks and resource utilization in the system while preserving theoretical schedulability results. We present an extensive evaluation of our implementation using workloads from an avionics case study as well as synthetic ones
This paper introduces a reconfigurable compositional schedul-ing framework, in which the hierarchica...
Recent years have witnessed two major trends in the development of complex real-time embedded system...
The hierarchical real-time scheduling framework is a widely accepted model to facilitate the design ...
We present a co-designed scheduling framework and platform architecture that support compositional s...
We present a co-designed scheduling framework and platform architecture that together support compos...
We present a co-designed scheduling framework and platform architecture that support compositional s...
It is desirable to develop large complex systems using components based on systematic abstrac-tion a...
Abstract—Virtualization has been receiving increasing at-tention in embedded real-time systems. Howe...
Our goal is to develop a compositional real-time scheduling framework so that global (system-level) ...
We address the problem of providing compositional hard real-time guarantees in a hierarchy of schedu...
The paper revisits the generation of interfaces for compositional real-time scheduling. Following an...
In this paper, we extend the compositional scheduling framework to enable the integration of an exis...
Embedded systems are complex as a whole but consist of smaller independent modules interacting with ...
ARINC specification 653-2 describes the interface between application software and underlying middle...
Recent years have witnessed two major trends in the development of complex real-time embedded system...
This paper introduces a reconfigurable compositional schedul-ing framework, in which the hierarchica...
Recent years have witnessed two major trends in the development of complex real-time embedded system...
The hierarchical real-time scheduling framework is a widely accepted model to facilitate the design ...
We present a co-designed scheduling framework and platform architecture that support compositional s...
We present a co-designed scheduling framework and platform architecture that together support compos...
We present a co-designed scheduling framework and platform architecture that support compositional s...
It is desirable to develop large complex systems using components based on systematic abstrac-tion a...
Abstract—Virtualization has been receiving increasing at-tention in embedded real-time systems. Howe...
Our goal is to develop a compositional real-time scheduling framework so that global (system-level) ...
We address the problem of providing compositional hard real-time guarantees in a hierarchy of schedu...
The paper revisits the generation of interfaces for compositional real-time scheduling. Following an...
In this paper, we extend the compositional scheduling framework to enable the integration of an exis...
Embedded systems are complex as a whole but consist of smaller independent modules interacting with ...
ARINC specification 653-2 describes the interface between application software and underlying middle...
Recent years have witnessed two major trends in the development of complex real-time embedded system...
This paper introduces a reconfigurable compositional schedul-ing framework, in which the hierarchica...
Recent years have witnessed two major trends in the development of complex real-time embedded system...
The hierarchical real-time scheduling framework is a widely accepted model to facilitate the design ...