A General Framework for Architecture Composability

Abstract

Architectures depict design principles: paradigms that can be understood by all, allow thinking on a higher plane and avoiding low-level mistakes. They provide means for ensuring correctness by construction by enforcing global properties characterizing the coordination between components. An architecture can be considered as an operator A that, applied to a set of components \(\mathcal{B}\), builds a composite component \(A({\mathcal{B}})\) meeting a characteristic property Φ. Architecture composability is a basic and common problem faced by system designers. In this paper, we propose a formal and general framework for architecture composability based on an associative, commutative and idempotent architecture composition operator ‘⊕’. The main result is that if two architectures A 1 and A 2 enforce respectively safety properties Φ1 and Φ2, the architecture A 1 ⊕ A 2 enforces the property \(\Phi_1 \land \Phi_2\), that is both properties are preserved by architecture composition. We also establish preservation of liveness properties by architecture composition. The presented results are illustrated by a running example and a case study.