In this paper we present an approach to mapping and scheduling of distributed embedded systems for hard real-time applications, aiming at minimizing the system modification cost. We consider an incremental design process that starts from an already existing system running a set of applications. We are interested to implement new functionality so that the already running applications are disturbed as little as possible and there is a good chance that, later, new functionality can easily be added to the resulted system. The mapping and scheduling problem are considered in the context of a realistic communication model based on a TDMA protocol
The increasing popularity of multi-core System-on-Chip platforms introduces new challenges, both in ...
International audienceCurrent avionics architectures use complex processors, which are shared by man...
Modern embedded systems tend to consist of multiple processors like multicore DSP (Digital Signal Pr...
We present an approach to static priority preemptive process scheduling for the synthesis of hard re...
We present an approach to static priority preemptive process scheduling for the synthesis of hard re...
Abstract–We are interested in mapping hard real-time ap-plications on distributed heterogeneous arch...
Time-triggered protocol (TTP) is a time-division multiple access (TDMA)-based bus protocol designed ...
Day by day, we are witnessing a considerable increase in number and range of applications which enta...
Abstract—In this paper we address the mapping of mixed-criticality hard real-time applications on di...
This paper describes a new, sensitivity-driven algo-rithm for the co-synthesis of real-time distribu...
In this paper we are interested in implementing mixed-criticality real-time embedded applications on...
Safety-critical applications have to function correctly even in presence of faults. This thesis deal...
Optimal Design of Distributed Control and Embedded Systems focuses on the design of special control ...
We introduce a new approach to take into account the memory architecture and the memory mapping in t...
Abstract—Task assignment and subsequent schedule synthesis in distributed real time systems is a pro...
The increasing popularity of multi-core System-on-Chip platforms introduces new challenges, both in ...
International audienceCurrent avionics architectures use complex processors, which are shared by man...
Modern embedded systems tend to consist of multiple processors like multicore DSP (Digital Signal Pr...
We present an approach to static priority preemptive process scheduling for the synthesis of hard re...
We present an approach to static priority preemptive process scheduling for the synthesis of hard re...
Abstract–We are interested in mapping hard real-time ap-plications on distributed heterogeneous arch...
Time-triggered protocol (TTP) is a time-division multiple access (TDMA)-based bus protocol designed ...
Day by day, we are witnessing a considerable increase in number and range of applications which enta...
Abstract—In this paper we address the mapping of mixed-criticality hard real-time applications on di...
This paper describes a new, sensitivity-driven algo-rithm for the co-synthesis of real-time distribu...
In this paper we are interested in implementing mixed-criticality real-time embedded applications on...
Safety-critical applications have to function correctly even in presence of faults. This thesis deal...
Optimal Design of Distributed Control and Embedded Systems focuses on the design of special control ...
We introduce a new approach to take into account the memory architecture and the memory mapping in t...
Abstract—Task assignment and subsequent schedule synthesis in distributed real time systems is a pro...
The increasing popularity of multi-core System-on-Chip platforms introduces new challenges, both in ...
International audienceCurrent avionics architectures use complex processors, which are shared by man...
Modern embedded systems tend to consist of multiple processors like multicore DSP (Digital Signal Pr...