Compositional specification of real time embedded systems by priority time Petri Nets

Mahfoudhi, Adel; Kacem, Yessine Hadj; Karamti, Walid; Abid, Mohamed

doi:10.1007/s11227-011-0557-9

Cited by 8 publications

(5 citation statements)

References 17 publications

(14 reference statements)

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“…This presentation of Time is dedicated to deterministic real time systems. When the value is equal to zero, then the corresponding transition is called immediate transition [19,25,33].…”

Section: Dynamic Priority Time Petri Netsmentioning

confidence: 99%

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Transformation process of RTS scheduling analysis requirements from UML/MARTE to dynamic priority time Petri Nets

Mahfoudhi

Karamti

2015

J Supercomput

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The real-time system (RTS) design is a major challenge due to the complexity of the considered application and the appearance of multiprocessor architectures. Most of the research in this area is interested in high abstraction level methods to decrease the design convolution. In particular, the Unified Modeling Language (UML) profiles and the Model Driven Engineering (MDE) aim at being an adequate solution to support the whole life cycle of RTS design with its real-time constraints and performance issues. Based on MDE and the Modeling and Analysis of Real-Time and Embedded systems (MARTE) profile, the present manuscript proposes an interactive partitioning scheduling of RTS running on multiprocessor architecture. A special attention is paid to the scheduling analysis step to accelerate the exploration of HW/SW space solution. Starting from a candidate solution modeled with UML activity and annotated with MARTE stereotypes, a mapping process to dynamic priority time Petri Nets (dPTPN) was defined. The considered dPTPN is able to prove the schedulability or provide a counterexample to determine the partitions causes of temporal fault. This counterexample presents a useful feedback to the HW/SW space solution explorer in the aim to exclude all solution containing the described partitions.

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“…This presentation of Time is dedicated to deterministic real time systems. When the value is equal to zero, then the corresponding transition is called immediate transition [19,25,33].…”

Section: Dynamic Priority Time Petri Netsmentioning

confidence: 99%

“…As an efficient formalism, the Petri Nets has proven its capacity to analyze the schedulability of an RTS [4,19,30,33,40]. Therefore, it is interesting to extend this formalism to analyze a partitioned RTS running on multiprocessor architecture.…”

Section: Introductionmentioning

confidence: 99%

Transformation process of RTS scheduling analysis requirements from UML/MARTE to dynamic priority time Petri Nets

Mahfoudhi

Karamti

2015

J Supercomput

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“…This property is valid because the dPTPN deals with the conflict of enabled transitions problem via a dynamic calculus of priorities and only the transition with the highest value of priority is fired. Consequently, the dF T s contains only independent transitions [6,13] that can all be crossed together. The novel resulting marking is the combination of a collection of sub-states that can be created if each enabled transition is fired apart.…”

Section: Finding Successormentioning

confidence: 99%

States Graph Generation from dynamic Priority Time Petri Nets

Karamti¹,

Mahfoudhi²

2013

IJOPCSM

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“…In this method, a priority is inserted on the input arcs of the dependent transitions (Kacem et al, 2010).Moreover, this method allows to master the complexity of the PTPN model by eliminating the use of another component, such as inhibitor arcs, to specify priorities. To control the size of the PTPN model, a hierarchical modeling was proposed in (Mahfoudhi et al, 2011).…”

Section: Related Workmentioning

confidence: 99%

A FORMAL METHOD FOR SCHEDULING ANALYSIS OF A PARTITIONED MULTIPROCESSOR SYSTEM - Dynamic Priority Time Petri Nets

2012

Proceedings of the 2nd International Conference on Pervasive Embedded Computing and Communication Systems

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In order to examine whether the timing constraints of a Real-Time application are met, we propose an extension of Time Petri Nets model that takes into account the scheduling of a set of tasks distributed over a multiprocessor architecture. This paper is concerned with dynamic Priority-driven scheduling, whose policy is known to be supported by a new formalism called dynamic Priority Time Petri Nets (dPTPN). Its ultimate objective is to show how to deal with the Least Laxity First Scheduling policy with a set of periodic independent tasks. Besides, the use of dynamic priorities gives a determinism aspect to the model in which a crossing of concurrent transitions exists. Therefore, the execution of the model is accelerated and the number of accessible states is decreased.

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Compositional specification of real time embedded systems by priority time Petri Nets

Cited by 8 publications

References 17 publications

Transformation process of RTS scheduling analysis requirements from UML/MARTE to dynamic priority time Petri Nets

Transformation process of RTS scheduling analysis requirements from UML/MARTE to dynamic priority time Petri Nets

States Graph Generation from dynamic Priority Time Petri Nets

A FORMAL METHOD FOR SCHEDULING ANALYSIS OF A PARTITIONED MULTIPROCESSOR SYSTEM - Dynamic Priority Time Petri Nets

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