Known algorithms capable of scheduling implicit-deadline sporadic tasks over identical processors at up to 100% utilisation invariably involve numerous preemptions and migrations. To the challenge of devising a scheduling scheme with as few preemptions and migrations as possible, for a given guaranteed utilisation bound, we respond with the algorithm NPS-F. It is configurable with a parameter, trading off guaranteed schedulable utilisation (up to 100%) vs preemptions. For any possible configuration, NPS-F introduces fewer preemptions than any other known algorithm matching its utilisation bound. A clustered variant of the algorithm, for systems made of multicore chips, eliminates (costly) off-chip task migrations, by dividing processors ...
The optimality of the Earliest Deadline First scheduler for uniprocessor systems is one of the main ...
Preemptive scheduling of periodically arriving tasks on a multiprocessor is considered. We show that...
This paper presents a new algorithm for fixed-priority scheduling of sporadic task systems on multip...
Consider the problem of scheduling n sporadic tasks so as to meet deadlines on m identical processor...
Consider the problem of scheduling n sporadic tasks so as to meet deadlines on m identical processor...
Consider the problem of scheduling a set of periodically arriving tasks on a multiprocessor with the...
A new algorithm is proposed for scheduling preemptible arbitrary-deadline sporadic task systems upon...
Consider the problem of designing an algorithm with a high utilisation bound for scheduling sporadi...
Fixed-priority preemptive scheduling of independent periodic tasks on a homogeneous multiprocessor i...
This paper presents a new algorithm for scheduling of sporadic task systems with arbitrary deadlines...
Algorithms based on semi-partitioned scheduling have been proposed as a viable alternative between t...
During the past decades of research in Real-Time systems, non-preemptive scheduling and fully preemp...
The multiprocessor scheduling scheme NPS-F for sporadic tasks has a highutilisation bound and an ove...
The multiprocessor scheduling scheme NPS-F for sporadic tasks has a high utilisation bound and an ov...
Jeff Edmonds y Donald D. Chinn y Tim Brecht y Xiaotie Deng y Department of Computer Science Y...
The optimality of the Earliest Deadline First scheduler for uniprocessor systems is one of the main ...
Preemptive scheduling of periodically arriving tasks on a multiprocessor is considered. We show that...
This paper presents a new algorithm for fixed-priority scheduling of sporadic task systems on multip...
Consider the problem of scheduling n sporadic tasks so as to meet deadlines on m identical processor...
Consider the problem of scheduling n sporadic tasks so as to meet deadlines on m identical processor...
Consider the problem of scheduling a set of periodically arriving tasks on a multiprocessor with the...
A new algorithm is proposed for scheduling preemptible arbitrary-deadline sporadic task systems upon...
Consider the problem of designing an algorithm with a high utilisation bound for scheduling sporadi...
Fixed-priority preemptive scheduling of independent periodic tasks on a homogeneous multiprocessor i...
This paper presents a new algorithm for scheduling of sporadic task systems with arbitrary deadlines...
Algorithms based on semi-partitioned scheduling have been proposed as a viable alternative between t...
During the past decades of research in Real-Time systems, non-preemptive scheduling and fully preemp...
The multiprocessor scheduling scheme NPS-F for sporadic tasks has a highutilisation bound and an ove...
The multiprocessor scheduling scheme NPS-F for sporadic tasks has a high utilisation bound and an ov...
Jeff Edmonds y Donald D. Chinn y Tim Brecht y Xiaotie Deng y Department of Computer Science Y...
The optimality of the Earliest Deadline First scheduler for uniprocessor systems is one of the main ...
Preemptive scheduling of periodically arriving tasks on a multiprocessor is considered. We show that...
This paper presents a new algorithm for fixed-priority scheduling of sporadic task systems on multip...