Add to ORKGThis paper studies multiprocessor scheduling for aperiodic tasks where future arrivals are unknown. A previously proposed priority-driven scheduling algorithm for periodic tasks with migration capability is extended to aperiodic scheduling and is shown to have a capacity bound of 0.5. This bound is close to the best achievable for a priority-driven scheduling algorithm. With an infinite number of processors, no priority-driven scheduling algorithm can perform better. We also propose a simple admission controller which guarantees that admitted tasks meet their deadlines and for many workloads, it admits tasks so that the utilization can be kept above the capacity bound
When hard periodic and firm aperiodic tasks are jointly scheduled in the same system, the processor ...
In this paper we present five new on--line algorithms for servicing soft aperiodic requests in real-...
fastnetit giorgio sssupit In this paper we present ve new online algorithms for servicing soft aper...
This paper studies multiprocessor scheduling for aperiodic tasks where future arrivals are unknown. ...
This paper studies multiprocessor scheduling for aperiodic tasks where future arrivals are unknown. ...
This paper studies multiprocessor scheduling for aperiodic tasks where future arrivals are unknown. ...
In this paper we present a global scheduling method for shared memory multiprocessor systems that pr...
This thesis deals with the problem of scheduling a set of tasks to meet deadlines on a computer with...
This chapter deals with the problem of scheduling a set oftasks to meet deadlines on a computer with...
This thesis deals with the problem of scheduling a set of tasks to meet deadlines on a computer with...
This chapter deals with the problem of scheduling a set of tasks to meet deadlines on a computer wit...
This paper presents real-time scheduling techniques for reducing the response time of aperiodic task...
This paper presents a new algorithm for fixed-priority scheduling of sporadic task systems on multip...
In this paper we present five new on-line algorithms for servicing soft aperiodic requests in real-t...
Multi-processor systems consist of more than one processor and are mostly used for computationally i...
When hard periodic and firm aperiodic tasks are jointly scheduled in the same system, the processor ...
In this paper we present five new on--line algorithms for servicing soft aperiodic requests in real-...
fastnetit giorgio sssupit In this paper we present ve new online algorithms for servicing soft aper...
This paper studies multiprocessor scheduling for aperiodic tasks where future arrivals are unknown. ...
This paper studies multiprocessor scheduling for aperiodic tasks where future arrivals are unknown. ...
This paper studies multiprocessor scheduling for aperiodic tasks where future arrivals are unknown. ...
In this paper we present a global scheduling method for shared memory multiprocessor systems that pr...
This thesis deals with the problem of scheduling a set of tasks to meet deadlines on a computer with...
This chapter deals with the problem of scheduling a set oftasks to meet deadlines on a computer with...
This thesis deals with the problem of scheduling a set of tasks to meet deadlines on a computer with...
This chapter deals with the problem of scheduling a set of tasks to meet deadlines on a computer wit...
This paper presents real-time scheduling techniques for reducing the response time of aperiodic task...
This paper presents a new algorithm for fixed-priority scheduling of sporadic task systems on multip...
In this paper we present five new on-line algorithms for servicing soft aperiodic requests in real-t...
Multi-processor systems consist of more than one processor and are mostly used for computationally i...
When hard periodic and firm aperiodic tasks are jointly scheduled in the same system, the processor ...
In this paper we present five new on--line algorithms for servicing soft aperiodic requests in real-...
fastnetit giorgio sssupit In this paper we present ve new online algorithms for servicing soft aper...