As multicore processors become ever more prevalent, it is important for real-time programs to take advantage of intra-task parallelism in order to support computation-intensive applications with tight deadlines. In this thesis, we consider the Global Earliest Deadline First (GEDF) scheduling policy for task sets consisting of parallel tasks. Each task can be represented by a directed acyclic graph (DAG) where nodes represent computational work and edges represent dependences between nodes. In this model, we prove that GEDF provides a capacity augmentation bound of 4-2/m and a resource augmentation bound of 2-1/m. The capacity augmentation bound acts as a linear-time schedulability test since it guarantees that any task set with total utiliz...
Multiprocessor hardware platforms are now being considered for embedded systems, due to their high c...
Most recurrent real-time applications can be modeled as a set of sequential code segments (or blocks...
This paper presents a heterogeneous model of real time task system with novel processing rate work p...
International audienceIn this paper, we study the problem of real-time scheduling of parallel tasks ...
Capacity augmentation bound is a widely used quantitative metric in theoretical studies of schedulab...
International audienceThe sporadic DAG task model exposes parallelism that may exist within individu...
International audienceParallelism is becoming more important nowadays due to the increasing use of m...
We present a novel federated scheduling approach for parallel real-time tasks under a general direct...
Recently, multi-core processors have become mainstream in processor design. To take full advantage o...
Prior work has shown that the global earliest-deadline-first (GEDF) scheduler is soft real-time (SRT...
This paper presents a heterogeneous model of real time task system with novel processing rate work p...
2016 IEEE Real-Time Systems Symposium, RTSS 2016, Portugal, 29 November - 2 December 2016Real-time s...
International audienceThe scheduling of real-time parallel tasks on multiprocessor systems is more c...
Abstract—Real-time scheduling is the theoretical basis of real-time systems engineering. Earliest De...
The preemptive real-time scheduling of sporadic parallel task systems is studied. We present an algo...
Multiprocessor hardware platforms are now being considered for embedded systems, due to their high c...
Most recurrent real-time applications can be modeled as a set of sequential code segments (or blocks...
This paper presents a heterogeneous model of real time task system with novel processing rate work p...
International audienceIn this paper, we study the problem of real-time scheduling of parallel tasks ...
Capacity augmentation bound is a widely used quantitative metric in theoretical studies of schedulab...
International audienceThe sporadic DAG task model exposes parallelism that may exist within individu...
International audienceParallelism is becoming more important nowadays due to the increasing use of m...
We present a novel federated scheduling approach for parallel real-time tasks under a general direct...
Recently, multi-core processors have become mainstream in processor design. To take full advantage o...
Prior work has shown that the global earliest-deadline-first (GEDF) scheduler is soft real-time (SRT...
This paper presents a heterogeneous model of real time task system with novel processing rate work p...
2016 IEEE Real-Time Systems Symposium, RTSS 2016, Portugal, 29 November - 2 December 2016Real-time s...
International audienceThe scheduling of real-time parallel tasks on multiprocessor systems is more c...
Abstract—Real-time scheduling is the theoretical basis of real-time systems engineering. Earliest De...
The preemptive real-time scheduling of sporadic parallel task systems is studied. We present an algo...
Multiprocessor hardware platforms are now being considered for embedded systems, due to their high c...
Most recurrent real-time applications can be modeled as a set of sequential code segments (or blocks...
This paper presents a heterogeneous model of real time task system with novel processing rate work p...