Explaining Architectural Design Tradeoff Spaces: A Machine Learning Approach
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Publisher
Springer International Publishing
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https://link.springer.com/content/pdf/10.1007/978-3-030-86044-8_4
Reference26 articles.
1. Aleti, A., Bjornander, S., Grunske, L., Meedeniya, I.: Archeopterix: an extendable tool for architecture optimization of AADL models. In: ICSE Workshop on Model-Based Methodologies for Pervasive and Embedded Software, pp. 61–71 (2009)
2. Bonacich, P.: Power and centrality: a family of measures. Am. J. Sociol. 92(5), 1170–1182 (1987)
3. Bondarev, E., Chaudron, M.R.V., de Kock, E.A.: Exploring performance trade-offs of a JPEG decoder using the deepcompass framework. In: 6th WS on Software and Performance, WOSP, pp. 153–163. ACM (2007)
4. Borgatti, S.P.: Centrality and network flow. Soc. Netw. 27(1), 55–71 (2005)
5. Calinescu, R., Ceska, M., Gerasimou, S., Kwiatkowska, M., Paoletti, N.: Designing robust software systems through parametric Markov chain synthesis. In: International Conference on Software Architecture, ICSA, pp. 131–140. IEEE (2017)
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