Abstract—Recently, there have been several promising tech-niques developed for schedulability analysis and response time analysis for multiprocessor systems based on over-approximation. This paper contains two contributions. First, to improve the analysis precision, we apply Baruah’s window analysis framework [6] to response time analysis for sporadic tasks on multiprocessor systems where the deadlines of tasks are within their periods. The crucial observation is that for global fixed priority scheduling, a response time bound of each task can be efficiently estimated by fixed-point computation without enumerating all the busy window sizes as in [6] for schedulability analysis. The technique is proven to dominate theoretically state-of-the-...
In this paper, we present and prove exact best-case response time and improved jitter analysis of re...
A new technique was recently introduced by Bonifaci et al. for the analysis of real-time systems sch...
A new technique was recently introduced by Bonifaci et al. for the analysis of real-time systems sch...
Abstract—In this paper we address the problem of schedulabil-ity analysis for a set of sporadic task...
Abstract—As multiprocessor systems are increasingly used in real-time environments, scheduling and s...
In the last years, a progressive migration from single processor chips to multi-core computing devic...
Since worst case response times must be determined repeatedly during the interactive design of real-...
One of the major sources of pessimism in the response time analysis (RTA) of globally scheduled real...
Abstract—In this paper, the author extends the traditional exact schedulability analysis for fixed p...
In this paper, we address the problem of schedulability analysis of a set of real-time periodic (or ...
To determine schedulability of priority-driven periodic tasksets on multi-processor systems, it is n...
Abstract—We address the problem of schedulability analysis for a set of sporadic real-time tasks sch...
International audienceIn this paper, we present a conjecture for exact best-case response times of p...
This paper addresses the schedulability problem of periodic and sporadic real-time task sets with co...
In this paper, we present and prove exact best-case response time and improved jitter analysis of re...
A new technique was recently introduced by Bonifaci et al. for the analysis of real-time systems sch...
A new technique was recently introduced by Bonifaci et al. for the analysis of real-time systems sch...
Abstract—In this paper we address the problem of schedulabil-ity analysis for a set of sporadic task...
Abstract—As multiprocessor systems are increasingly used in real-time environments, scheduling and s...
In the last years, a progressive migration from single processor chips to multi-core computing devic...
Since worst case response times must be determined repeatedly during the interactive design of real-...
One of the major sources of pessimism in the response time analysis (RTA) of globally scheduled real...
Abstract—In this paper, the author extends the traditional exact schedulability analysis for fixed p...
In this paper, we address the problem of schedulability analysis of a set of real-time periodic (or ...
To determine schedulability of priority-driven periodic tasksets on multi-processor systems, it is n...
Abstract—We address the problem of schedulability analysis for a set of sporadic real-time tasks sch...
International audienceIn this paper, we present a conjecture for exact best-case response times of p...
This paper addresses the schedulability problem of periodic and sporadic real-time task sets with co...
In this paper, we present and prove exact best-case response time and improved jitter analysis of re...
A new technique was recently introduced by Bonifaci et al. for the analysis of real-time systems sch...
A new technique was recently introduced by Bonifaci et al. for the analysis of real-time systems sch...