English

Architectures in parametric component-based systems: Qualitative and quantitative modelling

Logic in Computer Science 2023-06-22 v9

Abstract

One of the key aspects in component-based design is specifying the software architecture that characterizes the topology and the permissible interactions of the components of a system. To achieve well-founded design there is need to address both the qualitative and non-functional aspects of architectures. In this paper we study the qualitative and quantitative formal modelling of architectures applied on parametric component-based systems, that consist of an unknown number of instances of each component. Specifically, we introduce an extended propositional interaction logic and investigate its first-order level which serves as a formal language for the interactions of parametric systems. Our logics achieve to encode the execution order of interactions, which is a main feature in several important architectures, as well as to model recursive interactions. Moreover, we prove the decidability of equivalence, satisfiability, and validity of first-order extended interaction logic formulas, and provide several examples of formulas describing well-known architectures. We show the robustness of our theory by effectively extending our results for parametric weighted architectures. For this, we study the weighted counterparts of our logics over a commutative semiring, and we apply them for modelling the quantitative aspects of concrete architectures. Finally, we prove that the equivalence problem of weighted first-order extended interaction logic formulas is decidable in a large class of semirings, namely the class (of subsemirings) of skew fields.

Keywords

Cite

@article{arxiv.1904.02222,
  title  = {Architectures in parametric component-based systems: Qualitative and quantitative modelling},
  author = {Maria Pittou and George Rahonis},
  journal= {arXiv preprint arXiv:1904.02222},
  year   = {2023}
}
R2 v1 2026-06-23T08:28:38.112Z