Most real-time scheduling algorithms schedule tasks with regard to their worst case computation times. Resources reclaiming refers to the problem of utilizing the resources left unused by a task when it executes in less than its worst case computation time, or when a task is deleted from the current schedule. Resource reclaiming is a very important issue in dynamic real-time multiprocessor environments. In this paper, we present dynamic resource reclaiming algorithms that are effective, avoid any run time anomalies, and have bounded overhead costs that are independent of the number of tasks in the schedule. Each task is assumed to have a worst case computation time, a deadline, and a set of resourcerequirements. The algorithms utilize the i...
The computation time of scalable tasks depends on the number of processors allocated to them in mult...
The scheduling of real-time tasks with fault-tolerant requirements has been an important problem in ...
This paper describes a heuristic approach for solving the problem of dynamically scheduling tasks in...
Resource reclaiming refers to the problem of utilizing the resources left unused by a task when it e...
In a dynamic real-time environment, predictability needs to be provided in the face of unpredictable...
The scheduling of tasks in multiprocessor real-time systems has attracted many researchers in the re...
This dissertation examines a fundamental problem in the theory of real-time scheduling. Real-time sc...
Resource reclaiming schemes are applied in reservation-based real-time uniprocessor systems to suppo...
International audienceWhen integrating hard, soft and non-real-time tasks in general purpose operati...
When integrating hard, soft and non-real-time tasks in general purpose operating systems, it is nece...
The design of real-time systems is an activity that involves meticulous planning and management of m...
Efficient scheduling algorithms based on heuristic functions are developed for scheduling a set of t...
Among the issues in adaptive real time system is the efficiency of the scheduling algorithm to satis...
Multicore processors promise higher throughput at lower power consumption than single core processor...
Imprecise computation can reduce the proportion of tasks violating their time constraints in a hard ...
The computation time of scalable tasks depends on the number of processors allocated to them in mult...
The scheduling of real-time tasks with fault-tolerant requirements has been an important problem in ...
This paper describes a heuristic approach for solving the problem of dynamically scheduling tasks in...
Resource reclaiming refers to the problem of utilizing the resources left unused by a task when it e...
In a dynamic real-time environment, predictability needs to be provided in the face of unpredictable...
The scheduling of tasks in multiprocessor real-time systems has attracted many researchers in the re...
This dissertation examines a fundamental problem in the theory of real-time scheduling. Real-time sc...
Resource reclaiming schemes are applied in reservation-based real-time uniprocessor systems to suppo...
International audienceWhen integrating hard, soft and non-real-time tasks in general purpose operati...
When integrating hard, soft and non-real-time tasks in general purpose operating systems, it is nece...
The design of real-time systems is an activity that involves meticulous planning and management of m...
Efficient scheduling algorithms based on heuristic functions are developed for scheduling a set of t...
Among the issues in adaptive real time system is the efficiency of the scheduling algorithm to satis...
Multicore processors promise higher throughput at lower power consumption than single core processor...
Imprecise computation can reduce the proportion of tasks violating their time constraints in a hard ...
The computation time of scalable tasks depends on the number of processors allocated to them in mult...
The scheduling of real-time tasks with fault-tolerant requirements has been an important problem in ...
This paper describes a heuristic approach for solving the problem of dynamically scheduling tasks in...