We show a methodology for the computation of the probability of deadline miss for a periodic real-time task scheduled by a resource reservation algorithm. We propose a modelling technique for the system that reduces the computation of such a probability to that of the steady state probability of an infinite state Discrete Time Markov Chain with a periodic structure. This structure is exploited to develop an efficient numeric solution where different accuracy/computation time trade-offs can be obtained by operating on the granularity of the model. More importantly we offer a closed form conservative bound for the probability of a deadline miss. Our experiments reveal that the bound remains reasonably close to the experimental probability in ...
Exact stochastic analysis of most real-time systems under preemptive priority-driven scheduling is u...
This paper addresses the problem of optimum allocation of distributed real-time workflows with proba...
International audienceIn this paper, we are interested in scheduling and checkpointing stochastic jo...
We show a methodology for the computation of the probability of deadline miss for a periodic real-ti...
An unmistakable trend in embedded systems is the growth of soft real-time computing. A soft real-ti...
A large class of modern real-time applications exhibits important variations in the computation time...
In recent years, series of important achievements have paved the way for the introduction of probabi...
This paper describes an algorithm to determine the performance of real-time systems with tasks using...
Abstract Investigations into deadline guarantees in real-time systems have traditionally been domina...
This paper explores the probability of deadline misses for a set of constrained-deadline sporadic so...
Abstract—In recent years a series of important achievements have paved the way for the introduction ...
Requests for a given resource arrive in a rate- Poisson stream, each specifying a future time interv...
This paper describes a stochastic analysis framework for general priority-driven periodic real-time ...
Exact stochastic analysis of most real-time systems under preemptive priority-driven scheduling is u...
This paper addresses the problem of optimum allocation of distributed real-time workflows with proba...
International audienceIn this paper, we are interested in scheduling and checkpointing stochastic jo...
We show a methodology for the computation of the probability of deadline miss for a periodic real-ti...
An unmistakable trend in embedded systems is the growth of soft real-time computing. A soft real-ti...
A large class of modern real-time applications exhibits important variations in the computation time...
In recent years, series of important achievements have paved the way for the introduction of probabi...
This paper describes an algorithm to determine the performance of real-time systems with tasks using...
Abstract Investigations into deadline guarantees in real-time systems have traditionally been domina...
This paper explores the probability of deadline misses for a set of constrained-deadline sporadic so...
Abstract—In recent years a series of important achievements have paved the way for the introduction ...
Requests for a given resource arrive in a rate- Poisson stream, each specifying a future time interv...
This paper describes a stochastic analysis framework for general priority-driven periodic real-time ...
Exact stochastic analysis of most real-time systems under preemptive priority-driven scheduling is u...
This paper addresses the problem of optimum allocation of distributed real-time workflows with proba...
International audienceIn this paper, we are interested in scheduling and checkpointing stochastic jo...