International audienceProportionate-fair (Pfair) scheduling is a particulary promising global scheduling technique for multiprocessor systems. Actually three Pfair scheduling algorithms have been proved optimal for scheduling periodic, sporadic and rate-based tasks on a real-time multiprocessor. However, task migration is unrestricted under Pfair scheduling. In the worst case, a task may be migrated each time it is scheduled. To correct this problem, we propose to complement initial Pfair scheduling algorithm by some heuristics that strive to minimize the total number of migrations. Experimental simulations are presented to evaluate and compare the proposed heuristics and we show that the number of migrations can be substantially reduced by...
The earliest-pseudo-deadline-first (EPDF) Pfair algorithm is more efficient than other known Pfair s...
In hard real-time systems, a signicant disparity in schedu-lability exists between EDF-based schedul...
We investigate the power of migration in real-time multiprocessor scheduling with preemption. We sho...
International audienceA number of optimal algorithms exists for scheduling of periodic taskset with ...
There has been much recent interest in the use of the earliest-deadline-first (EDF) algorithm for sc...
International audienceIn this paper, we focus on the static-priority scheduling of periodic hard rea...
We consider Pfair scheduling in real-time multiprocessor systems. Under Pfair scheduling, tasks are ...
The PD2 Pfair/ERfair scheduling algorithm is the most efficient known algorithm for optimally schedu...
This paper addresses the schedulability problem of periodic and sporadic real-time task sets with co...
International audienceWe focus on the real-time multiprocessor scheduling of periodic tasksets. We p...
AbstractThe PD2 Pfair/ERfair scheduling algorithm is the most efficient known algorithm for optimall...
PD2 uses a simpler tie-breaking scheme than PD to disambiguate equal deadlines. We present a series ...
The multiprocessor scheduling scheme NPS-F for sporadic tasks has a high utilisation bound and an ov...
Pfair scheduling was proposed by Baruah, Cohen, Plaxton, and Varvel as a nonwork-conserving way of o...
AbstractIn this paper we present a modification of Local Remaining Execution (LRE-TL) real-time mult...
The earliest-pseudo-deadline-first (EPDF) Pfair algorithm is more efficient than other known Pfair s...
In hard real-time systems, a signicant disparity in schedu-lability exists between EDF-based schedul...
We investigate the power of migration in real-time multiprocessor scheduling with preemption. We sho...
International audienceA number of optimal algorithms exists for scheduling of periodic taskset with ...
There has been much recent interest in the use of the earliest-deadline-first (EDF) algorithm for sc...
International audienceIn this paper, we focus on the static-priority scheduling of periodic hard rea...
We consider Pfair scheduling in real-time multiprocessor systems. Under Pfair scheduling, tasks are ...
The PD2 Pfair/ERfair scheduling algorithm is the most efficient known algorithm for optimally schedu...
This paper addresses the schedulability problem of periodic and sporadic real-time task sets with co...
International audienceWe focus on the real-time multiprocessor scheduling of periodic tasksets. We p...
AbstractThe PD2 Pfair/ERfair scheduling algorithm is the most efficient known algorithm for optimall...
PD2 uses a simpler tie-breaking scheme than PD to disambiguate equal deadlines. We present a series ...
The multiprocessor scheduling scheme NPS-F for sporadic tasks has a high utilisation bound and an ov...
Pfair scheduling was proposed by Baruah, Cohen, Plaxton, and Varvel as a nonwork-conserving way of o...
AbstractIn this paper we present a modification of Local Remaining Execution (LRE-TL) real-time mult...
The earliest-pseudo-deadline-first (EPDF) Pfair algorithm is more efficient than other known Pfair s...
In hard real-time systems, a signicant disparity in schedu-lability exists between EDF-based schedul...
We investigate the power of migration in real-time multiprocessor scheduling with preemption. We sho...