Vita.Liu & Layland provided a utilization bound test which is applicable to rate-monotonic priority assignment, when all tasks deadlines axe at the end of their periods. Subsequently, Lehoczky and others provided an exact schedulability criterion which is applicable to any arbitrary priority assignment scheme, with no restriction on task deadlines, which can be used when all task computation times are known exactly. In this work we fill an important gap between these two, by presenting a technique for deriving utilization bounds, based on linear programming, that is applicable to any fixed priority scheduling, but does not require knowledge of exact task computation times
Efficient schedulability tests are required for analyz-ing large task systems or for designing on-li...
A new feasibility test for preemptive scheduling of periodic or sporadic real-time tasks on a single...
Utilization bounds for Earliest Deadline First(EDF) and Rate Monotonic(RM) scheduling are known and ...
Guaranteeing satisfaction of timing constraints of a real time system is an important aspect in har...
This paper presents a set of sufficient-only, but accurate schedulability tests for fixed-priority s...
In high throughput applications, such as in multimedia, it is preferable to fully utilize computing ...
The workload of many real-time systems can be characterized as a set of preemptable jobs with linear...
[[abstract]]Real-time scheduling for task sets has been studied, and the corresponding schedulabilit...
In this paper, we address the problem of schedulability analysis of a set of real-time periodic (or ...
In this paper, global fixed-priority multiprocessor scheduling of a set of sporadic real-time tasks ...
Abstract—In this paper, the author extends the traditional exact schedulability analysis for fixed p...
In this paper, we investigate the quality of several linear-time schedulability tests for preemptive...
[[abstract]]Real-time systems using rate-monotonic fixed priority scheduling can be checked for sche...
[[abstract]]Real-time systems using rate-monotonic fixed priority scheduling can be checked for sche...
[[abstract]]Real-time systems using rate monotonic fixed priority scheduling can be checked for sche...
Efficient schedulability tests are required for analyz-ing large task systems or for designing on-li...
A new feasibility test for preemptive scheduling of periodic or sporadic real-time tasks on a single...
Utilization bounds for Earliest Deadline First(EDF) and Rate Monotonic(RM) scheduling are known and ...
Guaranteeing satisfaction of timing constraints of a real time system is an important aspect in har...
This paper presents a set of sufficient-only, but accurate schedulability tests for fixed-priority s...
In high throughput applications, such as in multimedia, it is preferable to fully utilize computing ...
The workload of many real-time systems can be characterized as a set of preemptable jobs with linear...
[[abstract]]Real-time scheduling for task sets has been studied, and the corresponding schedulabilit...
In this paper, we address the problem of schedulability analysis of a set of real-time periodic (or ...
In this paper, global fixed-priority multiprocessor scheduling of a set of sporadic real-time tasks ...
Abstract—In this paper, the author extends the traditional exact schedulability analysis for fixed p...
In this paper, we investigate the quality of several linear-time schedulability tests for preemptive...
[[abstract]]Real-time systems using rate-monotonic fixed priority scheduling can be checked for sche...
[[abstract]]Real-time systems using rate-monotonic fixed priority scheduling can be checked for sche...
[[abstract]]Real-time systems using rate monotonic fixed priority scheduling can be checked for sche...
Efficient schedulability tests are required for analyz-ing large task systems or for designing on-li...
A new feasibility test for preemptive scheduling of periodic or sporadic real-time tasks on a single...
Utilization bounds for Earliest Deadline First(EDF) and Rate Monotonic(RM) scheduling are known and ...