Add to ORKGNo on-line scheduling algorithm operating in an uniprocessor environment can guarantee to obtain a useful processor utilization greater than 0.25 under conditions of overload. This result holds in the general case, where the deadlines of the input tasks can be arbitrarily "tight". We address here the issue of improving overload performance in environments where there is a limit on the tightness of task deadlines. In particular, we present a new scheduling algorithm, ROBUST, that efficiently takes advantage of these limits to provide improved overload performance and is asymptotically optimal. We also introduce the concept of overload tolerance, wherein a system's overload performance never falls below its design capacity, and describe how R...
All intrinsic properties of the earliest deadline task scheduling discipline are compiled and discus...
giorgiosssupsssupit spurisssupsssupit In this paper we present a comparative study among scheduling...
All intrinsic properties of the earliest deadline task scheduling discipline are compiled and discus...
No on-line scheduling algorithm operating in an uniprocessor environment can guarantee to obtain a u...
It has been proven that no on-line scheduling algorithm can guarantee a processor utilization greate...
No on-line scheduling algorithm operating in a unipro-cessor environment can guarantee to obtain an ...
The problem of uniprocessor scheduling under conditions of overload is investigated. The system obje...
In this paper we present a comparative study among scheduling algorithms which use different priorit...
Hard real-time task scheduling in a dynamic environment has been an important area of research, posi...
In real-time systems, a task is required to be completed before its deadline. When workload is heavy...
For most computer systems, even short periods of overload degrade performance signi - cantly. The n...
AbstractThe following scheduling problem is studied: We are given a set of tasks with release times,...
In this paper we introduce a robust earliest deadline scheduling algorithm for deal ing with hard ap...
This paper compares the performance of three classes of scheduling algorithms for real-time systems ...
196 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1999.Allowing a real-time system t...
All intrinsic properties of the earliest deadline task scheduling discipline are compiled and discus...
giorgiosssupsssupit spurisssupsssupit In this paper we present a comparative study among scheduling...
All intrinsic properties of the earliest deadline task scheduling discipline are compiled and discus...
No on-line scheduling algorithm operating in an uniprocessor environment can guarantee to obtain a u...
It has been proven that no on-line scheduling algorithm can guarantee a processor utilization greate...
No on-line scheduling algorithm operating in a unipro-cessor environment can guarantee to obtain an ...
The problem of uniprocessor scheduling under conditions of overload is investigated. The system obje...
In this paper we present a comparative study among scheduling algorithms which use different priorit...
Hard real-time task scheduling in a dynamic environment has been an important area of research, posi...
In real-time systems, a task is required to be completed before its deadline. When workload is heavy...
For most computer systems, even short periods of overload degrade performance signi - cantly. The n...
AbstractThe following scheduling problem is studied: We are given a set of tasks with release times,...
In this paper we introduce a robust earliest deadline scheduling algorithm for deal ing with hard ap...
This paper compares the performance of three classes of scheduling algorithms for real-time systems ...
196 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1999.Allowing a real-time system t...
All intrinsic properties of the earliest deadline task scheduling discipline are compiled and discus...
giorgiosssupsssupit spurisssupsssupit In this paper we present a comparative study among scheduling...
All intrinsic properties of the earliest deadline task scheduling discipline are compiled and discus...