This paper is proposing a general periodicity result concerning any deterministic and memoryless scheduling algorithm (including non-work-conserving algorithms), for any context, on identical multiprocessor platforms. By context we mean the hardware architecture (uniprocessor, multicore), as well as task constraints like critical sections, precedence constraints, self-suspension, etc. Since the result is based only on the releases and deadlines, it is independent from any other parameter. Note that we do not claim that the given interval is minimal, but it is an upper bound for any cycle of any feasible schedule provided by any deterministic and memoryless scheduler
International audienceThe use of computers to control safety-critical real-time functions has increa...
This paper addresses the schedulability problem of periodic and sporadic real-time task sets with co...
In this paper, we address the problem of schedulability analysis of a set of real-time periodic (or ...
This paper is proposing a general periodicity result concerning any deterministic and memoryless sch...
International audienceThis paper gives and proves correct a simulation interval for any schedule gen...
In this paper we study the global scheduling of periodic task systems upon uniform multiprocessor pl...
URL : http://www.date-conference.com/conference/proceedings/PAPERS/2007/YEAR_DATE07.phpInternational...
International audienceIn this paper, we study the global scheduling of periodic task systems on unre...
In this paper, we study the global scheduling of periodic task systems on unrelated multiprocessor p...
The problem of scheduling a set of periodic-time-critical tasks on a single-processor computing syst...
This paper concerns sets of periodic independent real-time tasks with hard deadlines, in a multiproc...
We present a new sufficient condition for the schedulability of preemptable, periodic, hard-real-tim...
We investigate the preemptive scheduling of periodic tasks with hard deadlines. We show that, even i...
We investigate the preemptive scheduling of periodic tasks with hard deadlines. We show that, even i...
This paper focuses on real-time nonpreemptive multiprocessor scheduling with precedence and strict p...
International audienceThe use of computers to control safety-critical real-time functions has increa...
This paper addresses the schedulability problem of periodic and sporadic real-time task sets with co...
In this paper, we address the problem of schedulability analysis of a set of real-time periodic (or ...
This paper is proposing a general periodicity result concerning any deterministic and memoryless sch...
International audienceThis paper gives and proves correct a simulation interval for any schedule gen...
In this paper we study the global scheduling of periodic task systems upon uniform multiprocessor pl...
URL : http://www.date-conference.com/conference/proceedings/PAPERS/2007/YEAR_DATE07.phpInternational...
International audienceIn this paper, we study the global scheduling of periodic task systems on unre...
In this paper, we study the global scheduling of periodic task systems on unrelated multiprocessor p...
The problem of scheduling a set of periodic-time-critical tasks on a single-processor computing syst...
This paper concerns sets of periodic independent real-time tasks with hard deadlines, in a multiproc...
We present a new sufficient condition for the schedulability of preemptable, periodic, hard-real-tim...
We investigate the preemptive scheduling of periodic tasks with hard deadlines. We show that, even i...
We investigate the preemptive scheduling of periodic tasks with hard deadlines. We show that, even i...
This paper focuses on real-time nonpreemptive multiprocessor scheduling with precedence and strict p...
International audienceThe use of computers to control safety-critical real-time functions has increa...
This paper addresses the schedulability problem of periodic and sporadic real-time task sets with co...
In this paper, we address the problem of schedulability analysis of a set of real-time periodic (or ...