A time slot is defined as contention-free if the number of jobs with remaining executions in the slot is no larger than the number of processors, or contending, otherwise. Then an important property holds that in any contention-free slot, all jobs with remaining executions are guaranteed to be scheduled as long as the scheduler is work-conserving. This article aims at improving schedulability by utilizing the contention-free slots. To achieve this, this article presents a policy (called CF policy) that moves some job executions from contending slots to contention-free ones. This policy can be employed by any work-conserving, preemptive scheduling algorithm, and we show that any algorithm extended with this policy dominates the original algo...
This paper addresses the schedulability problem of periodic and sporadic real-time task sets with co...
The workload of many real-time systems can be characterized as a set of preemptable jobs with linear...
This paper presents a real-time scheduling algorithm with high schedulability and few preemptions fo...
It is widely assumed that scheduling real-time tasks becomes more difficult as their deadlines get s...
International audienceCommercial-off-the-shelf (COTS) platforms feature several cores that share and...
Hard real- time multiprocessor scheduling has seen, in recent years, the flourishing of semi-partiti...
The scheduling of tasks in multiprocessor real-time systems has attracted many researchers in the re...
We present a new sufficient condition for the schedulability of preemptable, periodic, hard-real-tim...
A major obstacle towards the adoption of multi-core platforms for real-time systems is given by the ...
Preemptive schedulers have been widely adopted in single processor real-time systems to avoid the bl...
In this paper, we address the problem of schedulability analysis of a set of real-time periodic (or ...
Non-preemptive tasks with strict periods are usually adopted in practical multi-core real-time syste...
We study the schedulability analysis problem for nonpreemptive scheduling algorithms on multiprocess...
ii BIPASA CHATTOPADHYAY: Integrating pragmatic constraints and behaviors into real-time scheduling t...
This paper provides an exact and sustainable schedulability test for a set of non-preemptive jobs sc...
This paper addresses the schedulability problem of periodic and sporadic real-time task sets with co...
The workload of many real-time systems can be characterized as a set of preemptable jobs with linear...
This paper presents a real-time scheduling algorithm with high schedulability and few preemptions fo...
It is widely assumed that scheduling real-time tasks becomes more difficult as their deadlines get s...
International audienceCommercial-off-the-shelf (COTS) platforms feature several cores that share and...
Hard real- time multiprocessor scheduling has seen, in recent years, the flourishing of semi-partiti...
The scheduling of tasks in multiprocessor real-time systems has attracted many researchers in the re...
We present a new sufficient condition for the schedulability of preemptable, periodic, hard-real-tim...
A major obstacle towards the adoption of multi-core platforms for real-time systems is given by the ...
Preemptive schedulers have been widely adopted in single processor real-time systems to avoid the bl...
In this paper, we address the problem of schedulability analysis of a set of real-time periodic (or ...
Non-preemptive tasks with strict periods are usually adopted in practical multi-core real-time syste...
We study the schedulability analysis problem for nonpreemptive scheduling algorithms on multiprocess...
ii BIPASA CHATTOPADHYAY: Integrating pragmatic constraints and behaviors into real-time scheduling t...
This paper provides an exact and sustainable schedulability test for a set of non-preemptive jobs sc...
This paper addresses the schedulability problem of periodic and sporadic real-time task sets with co...
The workload of many real-time systems can be characterized as a set of preemptable jobs with linear...
This paper presents a real-time scheduling algorithm with high schedulability and few preemptions fo...