JOURNAL ARTICLE
Verifying timing properties for distributed real-time systems using timing constraint Petri nets
Abstract
Timing analysis is essential to the development of valid computer systems especially for a distributed real-time system. We present both static and dynamic analysis procedures to verify timing properties of distributed real-time systems using timing constraint Petri nets (TCPNs). With both derived static information and collected dynamic data, we can locate a faulty task in a distributed real-time system using a timing behavior cross reference task. After a faulty task has been pinpointed the causes of a timing constraint violation in a faulty task can be identified.
Keywords:
Computer science Petri net Constraint (computer-aided design) Task (project management) Static timing analysis Time constraint Distributed computing Real-time computing Stochastic Petri net Embedded system Engineering
Metrics
4
Cited By
0.34
FWCI (Field Weighted Citation Impact)
8
Refs
0.56
Citation Normalized Percentile
Is in top 1%
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Citation History
Topics
Petri Nets in System Modeling
Physical Sciences → Computer Science → Computational Theory and Mathematics
Real-Time Systems Scheduling
Physical Sciences → Computer Science → Hardware and Architecture
Formal Methods in Verification
Physical Sciences → Computer Science → Computational Theory and Mathematics
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