DocumentCode
3622622
Title
Compositional Quantitative Reasoning
Author
K. Chatterjee;L. de Alfaro;M. Faella;T.A. Henzinger;R. Majumdar;M. Stoelinga
Author_Institution
UC Berkeley, CA
fYear
2006
fDate
6/28/1905 12:00:00 AM
Firstpage
179
Lastpage
188
Abstract
We present a compositional theory of system verification, where specifications assign real-numbered costs to systems. These costs can express a wide variety of quantitative system properties, such as resource consumption, price, or a measure of how well a system satisfies its specification. The theory supports the composition of systems and specifications, and the hiding of variables. Boolean refinement relations are replaced by real-numbered distances between descriptions of a system at different levels of detail. We show that the classical Boolean rules for compositional reasoning have quantitative counterparts in our setting. While our general theory allows costs to be specified by arbitrary cost functions, we also consider a class of linear cost functions, which give rise to an instance of our framework where all operations are computable in polynomial time
Keywords
"Cost function","Proposals","Polynomials","Optimal control","Linear programming","Logic programming","Design optimization"
Publisher
ieee
Conference_Titel
Quantitative Evaluation of Systems, 2006. QEST 2006. Third International Conference on
Print_ISBN
0-7695-2665-9
Type
conf
DOI
10.1109/QEST.2006.11
Filename
1704012
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