AbstractWe consider real-time systems in highly safety context where tasks have to meet strict deadlines. Tasks are periodic, may have offsets, share critical resources and be precedence constrained. Off-line scheduling should be of great help for such systems, but methods proposed in the literature cannot deal with them. Our aim is to extend and improve the well-known cyclicity result of Leung and Merill to every scheduling algorithm and to systems of interacting tasks with offsets. One of the main benefit of our result is to enable the use of off-line scheduling methods for those real-time critical systems
International audienceIn this paper, we address the problem of scheduling periodic, possibly self-su...
International audienceNon-preemptive real-time scheduling and the corresponding schedulability analy...
We address the problem of providing compositional hard real-time guarantees in a hierarchy of schedu...
AbstractWe consider real-time systems in highly safety context where tasks have to meet strict deadl...
International audienceClassical approaches based on preemption, such as RM (Rate Monotonic), DM (Dea...
The stringent timing constraints as well as the functional correctness are essential requirements of...
The hard deadline model is very popular in real-time research, but is representative or applicable t...
In this paper, we study the global scheduling of periodic task systems on unrelated multiprocessor p...
International audienceIn this paper, we study the global scheduling of periodic task systems on unre...
Parameter variability and the existence of complex constraints between tasks are assured features of...
Schedulability for compositional real-time systems has been the focus of a great deal of recent rese...
International audienceThe need for supporting dynamic real-time environments where changes in worklo...
International audienceIn this paper we provide a schedulability test for dependant periodic task sys...
AbstractIn this paper, we consider offline validation of hard real-time systems composed of both per...
International audienceIn this paper, we address the problem of scheduling periodic, possibly self-su...
International audienceIn this paper, we address the problem of scheduling periodic, possibly self-su...
International audienceNon-preemptive real-time scheduling and the corresponding schedulability analy...
We address the problem of providing compositional hard real-time guarantees in a hierarchy of schedu...
AbstractWe consider real-time systems in highly safety context where tasks have to meet strict deadl...
International audienceClassical approaches based on preemption, such as RM (Rate Monotonic), DM (Dea...
The stringent timing constraints as well as the functional correctness are essential requirements of...
The hard deadline model is very popular in real-time research, but is representative or applicable t...
In this paper, we study the global scheduling of periodic task systems on unrelated multiprocessor p...
International audienceIn this paper, we study the global scheduling of periodic task systems on unre...
Parameter variability and the existence of complex constraints between tasks are assured features of...
Schedulability for compositional real-time systems has been the focus of a great deal of recent rese...
International audienceThe need for supporting dynamic real-time environments where changes in worklo...
International audienceIn this paper we provide a schedulability test for dependant periodic task sys...
AbstractIn this paper, we consider offline validation of hard real-time systems composed of both per...
International audienceIn this paper, we address the problem of scheduling periodic, possibly self-su...
International audienceIn this paper, we address the problem of scheduling periodic, possibly self-su...
International audienceNon-preemptive real-time scheduling and the corresponding schedulability analy...
We address the problem of providing compositional hard real-time guarantees in a hierarchy of schedu...