Estimating Probabilistic Safe WCET Ranges of Real-Time Systems at Design Stages
July 20, 2020 Β· Declared Dead Β· π ACM Transactions on Software Engineering and Methodology
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Authors
Jaekwon Lee, Seung Yeob Shin, Shiva Nejati, Lionel C. Briand, Yago Isasi Parache
arXiv ID
2007.10490
Category
cs.SE: Software Engineering
Citations
11
Venue
ACM Transactions on Software Engineering and Methodology
Last Checked
4 months ago
Abstract
Estimating worst-case execution times (WCET) is an important activity at early design stages of real-time systems. Based on WCET estimates, engineers make design and implementation decisions to ensure that task executions always complete before their specified deadlines. However, in practice, engineers often cannot provide precise point WCET estimates and prefer to provide plausible WCET ranges. Given a set of real-time tasks with such ranges, we provide an automated technique to determine for what WCET values the system is likely to meet its deadlines, and hence operate safely with a probabilistic guarantee. Our approach combines a search algorithm for generating worst-case scheduling scenarios with polynomial logistic regression for inferring probabilistic safe WCET ranges. We evaluated our approach by applying it to three industrial systems from different domains and several synthetic systems. Our approach efficiently and accurately estimates probabilistic safe WCET ranges within which deadlines are likely to be satisfied with a high degree of confidence.
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