We investigate the preemptive scheduling of periodic tasks with hard deadlines. We show that, even in the uniprocessor case, no polynomial time algorithm can test the feasibility of a task system within a constant speedup bound, unless $\ccp=\ccnp$. This result contrasts with recent results for sporadic task systems. For two special cases, synchronous task systems and systems with a constant number of different task types, we provide the first polynomial time constant-speedup feasibility tests for multiprocessor platforms. Furthermore, we show that the problem of testing feasibility is coNP-hard for synchronous multiprocessor tasks systems. The complexity of some of these problems has been open for a long time. We also propose a profit maxi...
We give the first algorithm for testing the feasibility of a system of sporadic real-time tasks on a...
We give the first algorithm for testing the feasibility of a system of sporadic real-time tasks on a...
We give the first algorithm for testing the feasibility of a system of sporadic real-time tasks on a...
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...
The problem of scheduling a set of periodic-time-critical tasks on a single-processor computing syst...
Abstract—Deciding the feasibility of a sporadic task system on a preemptive uniprocessor is a centra...
We devise an approximate feasibility test for multiprocessor real-time scheduling in the sporadic ta...
International audienceIn this paper, we study the global scheduling of periodic task systems on unre...
The problem of preemptive scheduling a set of periodic tasks on multiprocessors is studied from the ...
We devise an approximate feasibility test for multiprocessor real-time scheduling in the sporadic ta...
In this paper, we study the global scheduling of periodic task systems on unrelated multiprocessor p...
Abstract—A central problem in real-time scheduling theory is to decide whether a sporadic task syste...
We give the first algorithm for testing the feasibility of a system of sporadic real-time tasks on a...
We give the first algorithm for testing the feasibility of a system of sporadic real-time tasks on a...
We give the first algorithm for testing the feasibility of a system of sporadic real-time tasks on a...
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...
The problem of scheduling a set of periodic-time-critical tasks on a single-processor computing syst...
Abstract—Deciding the feasibility of a sporadic task system on a preemptive uniprocessor is a centra...
We devise an approximate feasibility test for multiprocessor real-time scheduling in the sporadic ta...
International audienceIn this paper, we study the global scheduling of periodic task systems on unre...
The problem of preemptive scheduling a set of periodic tasks on multiprocessors is studied from the ...
We devise an approximate feasibility test for multiprocessor real-time scheduling in the sporadic ta...
In this paper, we study the global scheduling of periodic task systems on unrelated multiprocessor p...
Abstract—A central problem in real-time scheduling theory is to decide whether a sporadic task syste...
We give the first algorithm for testing the feasibility of a system of sporadic real-time tasks on a...
We give the first algorithm for testing the feasibility of a system of sporadic real-time tasks on a...
We give the first algorithm for testing the feasibility of a system of sporadic real-time tasks on a...