Add to ORKGThis paper provides an exact and sustainable schedulability test for a set of non-preemptive jobs scheduled with a fixed-job-priority (FJP) policy upon a uniprocessor. Both classic work-conserving and recent non-work-conserving schedulers are supported. Jobs may exhibit both release jitter and execution time variation. Both best- and worst-case response time bounds are derived. No prior response-time analysis (RTA) for this general setting is both exact and sustainable, nor does any prior RTA support non-work-conserving schedulers. The proposed analysis works by building a schedule graph that precisely abstracts all possible execution scenarios. Key to deferring the state-space explosion problem is a novel path-merging technique that collap...
In most practical systems, periodic tasks commonly contribute to the major parts of application task...
Real-time systems usually consist of a set of periodic and sporadic tasks. Periodic tasks can be div...
Fixed-priority scheduling with preemption thresholds (FPTS) is supported by the AUTOSAR and OSEK sta...
An effective way to increase the timing predictability of multicore platforms is to use non-preempti...
Abstract—In this paper, the author extends the traditional exact schedulability analysis for fixed p...
For any real-time system, being predictable with respect to time is a basic necessity. The combinati...
Non-preemptive scheduling is known for its lower efficiency in meeting temporal constraints when com...
We study the schedulability analysis problem for nonpreemptive scheduling algorithms on multiprocess...
Abstract—In this paper we address the problem of schedulabil-ity analysis for a set of sporadic task...
Preemptive scheduling often generates a significant runtime overhead that may increase task worst-ca...
Most recurrent real-time applications can be modeled as a set of sequential code segments (or blocks...
Fixed-priority scheduling with deferred preemption (FPDS) has been proposed in the literature as a v...
Exact schedulability analysis of limited-preemptive (or non-preemptive) real-time workloads with var...
As the real-time computing industry moves away from static cyclic executive-based scheduling toward...
Most recurrent real-time applications can be modeled as a set of sequential code segments (or blocks...
In most practical systems, periodic tasks commonly contribute to the major parts of application task...
Real-time systems usually consist of a set of periodic and sporadic tasks. Periodic tasks can be div...
Fixed-priority scheduling with preemption thresholds (FPTS) is supported by the AUTOSAR and OSEK sta...
An effective way to increase the timing predictability of multicore platforms is to use non-preempti...
Abstract—In this paper, the author extends the traditional exact schedulability analysis for fixed p...
For any real-time system, being predictable with respect to time is a basic necessity. The combinati...
Non-preemptive scheduling is known for its lower efficiency in meeting temporal constraints when com...
We study the schedulability analysis problem for nonpreemptive scheduling algorithms on multiprocess...
Abstract—In this paper we address the problem of schedulabil-ity analysis for a set of sporadic task...
Preemptive scheduling often generates a significant runtime overhead that may increase task worst-ca...
Most recurrent real-time applications can be modeled as a set of sequential code segments (or blocks...
Fixed-priority scheduling with deferred preemption (FPDS) has been proposed in the literature as a v...
Exact schedulability analysis of limited-preemptive (or non-preemptive) real-time workloads with var...
As the real-time computing industry moves away from static cyclic executive-based scheduling toward...
Most recurrent real-time applications can be modeled as a set of sequential code segments (or blocks...
In most practical systems, periodic tasks commonly contribute to the major parts of application task...
Real-time systems usually consist of a set of periodic and sporadic tasks. Periodic tasks can be div...
Fixed-priority scheduling with preemption thresholds (FPTS) is supported by the AUTOSAR and OSEK sta...