Modelling architectures of parametric weighted component-based systems

Abstract: The design of complex software systems usually lies in multiple coordinating components with an unknown number of instances. For such systems a main challenge is modelling efficiently their architecture that determines the topology and the interaction principles among the components. To achieve well-founded design there is need to address the quantitative aspects of software architectures. In this paper we study the modelling problem of software architectures applied on parametric weighted component-based systems where the parameter is the number of instances of each component. For this, we introduce a weighted first-order extended interaction logic over a commutative semiring in order to serve as a modelling language for parametric quantitative architectures. We prove that the equivalence problem of formulas of that logic is decidable in the class (of subsemirings) of skew fields. Moreover, we show that our weighted logic can efficiently describe well-known parametric architectures with quantitative characteristics.