Motivated by the lack of response-time analyses for non-preemptive global scheduling that consider shared resources, this paper provides such an analysis for global job-level fixed-priority (JLFP) scheduling policies and FIFO-ordered spin locks. The proposed analysis computes response-time bounds for a set of resource-sharing jobs subject to release jitter and execution-time uncertainties by implicitly exploring all possible execution scenarios using state-abstraction and state-pruning techniques. A large-scale empirical evaluation of the proposed analysis shows it to be substantially less pessimistic than simple execution-time inflation methods, thanks to the explicit modeling of contention for shared resources and scenario-aware blocking ...
Enormous efforts have been spent in the derivation of sufficient schedulability tests for popular gl...
Fixed-priority preemption-threshold scheduling (FPTS) has been proposed as a generalization of fixed...
In this paper, we present and prove exact best-case response time and improved jitter analysis of re...
Motivated by the lack of response-time analyses for non-preemptive global scheduling that consider s...
With the proliferation of multicore platforms, the embedded systems world has shifted more and more ...
An effective way to increase the timing predictability of multicore platforms is to use non-preempti...
Bounding worst-case blocking delays due to lock contention is a fundamental problem in the analysis ...
This paper provides an exact and sustainable schedulability test for a set of non-preemptive jobs sc...
Most recurrent real-time applications can be modeled as a set of sequential code segments (or blocks...
Most recurrent real-time applications can be modeled as a set of sequential code segments (or blocks...
Limited preemptive (LP) scheduling has been demonstrated to effectively improve the schedulability o...
Abstract—Multiprocessor real-time locking protocols that are asymptotically optimal under suspension...
In this paper a limited pre-emptive global fixed task priority scheduling policy for multiprocessors...
Abstract—In this paper we address the problem of schedulabil-ity analysis for a set of sporadic task...
Enormous efforts have been spent in the derivation of sufficient schedulability tests for popular gl...
Fixed-priority preemption-threshold scheduling (FPTS) has been proposed as a generalization of fixed...
In this paper, we present and prove exact best-case response time and improved jitter analysis of re...
Motivated by the lack of response-time analyses for non-preemptive global scheduling that consider s...
With the proliferation of multicore platforms, the embedded systems world has shifted more and more ...
An effective way to increase the timing predictability of multicore platforms is to use non-preempti...
Bounding worst-case blocking delays due to lock contention is a fundamental problem in the analysis ...
This paper provides an exact and sustainable schedulability test for a set of non-preemptive jobs sc...
Most recurrent real-time applications can be modeled as a set of sequential code segments (or blocks...
Most recurrent real-time applications can be modeled as a set of sequential code segments (or blocks...
Limited preemptive (LP) scheduling has been demonstrated to effectively improve the schedulability o...
Abstract—Multiprocessor real-time locking protocols that are asymptotically optimal under suspension...
In this paper a limited pre-emptive global fixed task priority scheduling policy for multiprocessors...
Abstract—In this paper we address the problem of schedulabil-ity analysis for a set of sporadic task...
Enormous efforts have been spent in the derivation of sufficient schedulability tests for popular gl...
Fixed-priority preemption-threshold scheduling (FPTS) has been proposed as a generalization of fixed...
In this paper, we present and prove exact best-case response time and improved jitter analysis of re...