Abstract
We study glue operators used in component-based frameworks to obtain systems as the composition of atomic components described as labeled transition systems (LTS). Glue operators map tuples of LTS into LTS. They restrict the behavior of their arguments by performing memoryless coordination. In a previous paper, we have proposed a simple format for SOS rules that captures, in particular, glue operators from known frameworks such as CCS, SCCS, CSP, and BIP.
This paper studies a new way for characterizing glue operators: as boolean glue constraints between interactions (sets of ports) and the state of the coordinated components. We provide an SOS format for glue, which allows a natural correspondence between glue operators and glue constraints. This correspondence is used for automated synthesis of glue operators implementing given glue constraints. By focusing on the properties that do not bear computation, we reduce a very hard (and, in general, undecidable) problem of synthesizing controllers to a tractable one. The examples in the paper show that such properties are natural and can be expressed as glue constraints in a straightforward manner. Finally, we compare expressiveness of the proposed formalisms with the glue used in the BIP framework and discuss possible applications.
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References
Basu, A., Bozga, M., Sifakis, J.: Modeling heterogeneous real-time components in BIP. In: 4th IEEE Int. Conf. on Software Engineering and Formal Methods (SEFM 2006), pp. 3–12 (2006) Invited talk
Bliudze, S., Sifakis, J.: A notion of glue expressiveness for component-based systems. In: van Breugel, F., Chechik, M. (eds.) CONCUR 2008. LNCS, vol. 5201, pp. 508–522. Springer, Heidelberg (2008)
Bloom, B.: Ready Simulation, Bisimulation, and the Semantics of CCS-Like Languages. PhD thesis, Massachusetts Institute of Technology (1989)
Plotkin, G.D.: A structural approach to operational semantics. Technical Report DAIMI FN-19, University of Aarhus (1981)
Mousavi, M., Reniers, M.A., Groote, J.F.: SOS formats and meta-theory: 20 years after. Theoretical Computer Science 373(3), 238–272 (2007)
Cheng, C.P., Fristoe, T., Lee, E.A.: Applied verification: The Ptolemy approach. Technical Report UCB/EECS-2008-41, University of California at Berkeley (2008)
Bliudze, S., Sifakis, J.: The algebra of connectors — Structuring interaction in BIP. In: Proc. of the EMSOFT 2007, pp. 11–20. ACM SigBED, New York (2007)
Bliudze, S., Sifakis, J.: Causal semantics for the algebra of connectors. Formal Methods in System Design 36(2), 167–194 (2010)
Pnueli, A., Rosner, R.: Distributed reactive systems are hard to synthesize. In: Annual IEEE Symposium on Foundations of Computer Science vol. 2, pp. 746–757 (1990)
Lustig, Y., Vardi, M.Y.: Synthesis from component libraries. In: de Alfaro, L. (ed.) FOSSACS 2009. LNCS, vol. 5504, pp. 395–409. Springer, Heidelberg (2009)
Bensalem, S., Bozga, M., Nguyen, T.-H., Sifakis, J.: D-Finder: A tool for compositional deadlock detection and verification. In: Bouajjani, A., Maler, O. (eds.) CAV 2009. LNCS, vol. 5643, pp. 614–619. Springer, Heidelberg (2009)
Balarin, F., et al.: Metropolis: An integrated electronic system design environment. IEEE Computer 36(4), 45–52 (2003)
Balasubramanian, K., et al.: Developing applications using model-driven design environments. IEEE Computer 39(2), 33–40 (2006)
Eker, J., et al.: Taming heterogeneity: The Ptolemy approach. Proc. of the IEEE 91(1), 127–144 (2003)
Bruni, R., Lanese, I., Montanari, U.: A basic algebra of stateless connectors. Theor. Comput. Sci. 366(1), 98–120 (2006)
Fribourg, L., Peixoto, M.V.: Concurrent constraint automata. In: ILPS 1993: Proc. of the 1993 International Symposium on Logic Programming, vol. 656. MIT Press, Cambridge (1993)
Baier, C., et al.: Modeling component connectors in Reo by constraint automata. Sci. Comput. Program. 61(2), 75–113 (2006)
Gößler, G., Sifakis, J.: Composition for component-based modeling. Sci. Comput. Program. 55(1–3), 161–183 (2005)
Montanari, U., Rossi, F.: Graph rewriting and constraint solving for modelling distributed systems with synchronization (extended abstract). In: Hankin, C., Ciancarini, P. (eds.) COORDINATION 1996. LNCS, vol. 1061, pp. 12–27. Springer, Heidelberg (1996)
Clarke, D., et al.: Deconstructing Reo. In: FOCLASA 2008. ENTCS (2008)
Halbwachs, N., et al.: The synchronous dataflow programming language lustre. Proc. of the IEEE 79, 1305–1320 (1991)
Berry, G., Gonthier, G.: The esterel synchronous programming language: Design, semantics implementation. Sci. Comput. Program. 19(2), 87–152 (1992)
Benveniste, A., Guernic, P.L., Jacquemot, C.: Synchronous programming with events and relations: the SIGNAL language and its semantics. Sci. Comput. Program. 16(2), 103–149 (1991)
Inverardi, P., Scriboni, S.: Connectors synthesis for deadlock-free component-based architectures. In: ASE 2001, pp. 174–181. IEEE Computer Society, Los Alamitos (2001)
Arbab, F., Baier, C., de Boer, F.S., Rutten, J., Sirjani, M.: Synthesis of Reo Circuits for Implementation of Component-Connector Automata Specifications. In: Jacquet, J.-M., Picco, G.P. (eds.) COORDINATION 2005. LNCS, vol. 3454, pp. 236–251. Springer, Heidelberg (2005)
Arbab, F., Meng, S.: Synthesis of connectors from scenario-based interaction specifications. In: Chaudron, M.R.V., Ren, X.-M., Reussner, R. (eds.) CBSE 2008. LNCS, vol. 5282, pp. 114–129. Springer, Heidelberg (2008)
Basu, A., et al.: Incremental component-based construction and verification of a robotic system. In: ECAI, pp. 631–635 (2008)
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Bliudze, S., Sifakis, J. (2011). Synthesizing Glue Operators from Glue Constraints for the Construction of Component-Based Systems. In: Apel, S., Jackson, E. (eds) Software Composition. SC 2011. Lecture Notes in Computer Science, vol 6708. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-22045-6_4
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DOI: https://doi.org/10.1007/978-3-642-22045-6_4
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