Quantitative evaluation of model-driven performance analysis and simulation of component-based architectures (bibtex)
by Brosig, Fabian, Meier, Philipp, Becker, Steffen, Koziolek, Anne, Koziolek, Heiko and Kounev, Samuel
Abstract:
During the last decade, researchers have proposed a number of model transformations enabling performance predictions. These transformations map performance-annotated software architecture models into stochastic models solved by analytical means or by simulation. However, so far, a detailed quantitative evaluation of the accuracy and efficiency of different transformations is missing, making it hard to select an adequate transformation for a given context. This paper provides an in-depth comparison and quantitative evaluation of representative model transformations to, e.g., queueing petri nets and layered queueing networks. The semantic gaps between typical source model abstractions and the different analysis techniques are revealed. The accuracy and efficiency of each transformation are evaluated by considering four case studies representing systems of different size and complexity. The presented results and insights gained from the evaluation help software architects and performance engineers to select the appropriate transformation for a given context, thus significantly improving the usability of model transformations for performance prediction.
Reference:
Quantitative evaluation of model-driven performance analysis and simulation of component-based architectures (Brosig, Fabian, Meier, Philipp, Becker, Steffen, Koziolek, Anne, Koziolek, Heiko and Kounev, Samuel), In IEEE Transactions on Software Engineering, IEEE, volume 41, 2015.
Bibtex Entry:
@article{Brosig2015,
abstract = {During the last decade, researchers have proposed a number of model transformations enabling performance predictions. These transformations map performance-annotated software architecture models into stochastic models solved by analytical means or by simulation. However, so far, a detailed quantitative evaluation of the accuracy and efficiency of different transformations is missing, making it hard to select an adequate transformation for a given context. This paper provides an in-depth comparison and quantitative evaluation of representative model transformations to, e.g., queueing petri nets and layered queueing networks. The semantic gaps between typical source model abstractions and the different analysis techniques are revealed. The accuracy and efficiency of each transformation are evaluated by considering four case studies representing systems of different size and complexity. The presented results and insights gained from the evaluation help software architects and performance engineers to select the appropriate transformation for a given context, thus significantly improving the usability of model transformations for performance prediction.},
author = {Brosig, Fabian and Meier, Philipp and Becker, Steffen and Koziolek, Anne and Koziolek, Heiko and Kounev, Samuel},
doi = {10.1109/TSE.2014.2362755},
issn = {00985589},
journal = {IEEE Transactions on Software Engineering},
keywords = {D.2.10.h Quality analysis and evaluation,D.2.11 Software architectures,D.2.2 Design tools and techniques,declare_pw},
mendeley-tags = {declare_pw},
number = {2},
pages = {157--175},
publisher = {IEEE},
title = {{Quantitative evaluation of model-driven performance analysis and simulation of component-based architectures}},
url = {http://dx.doi.org/10.1109/TSE.2014.2362755},
volume = {41},
year = {2015}
}
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