355 research outputs found
Evaluating Software Architectures: Development Stability and Evolution
We survey seminal work on software architecture evaluationmethods. We then look at an emerging class of methodsthat explicates evaluating software architectures forstability and evolution. We define architectural stabilityand formulate the problem of evaluating software architecturesfor stability and evolution. We draw the attention onthe use of Architectures Description Languages (ADLs) forsupporting the evaluation of software architectures in generaland for architectural stability in specific
Four Reasoning Models for C3 Metamodel
International audienceThe architecture is considered to be the driving aspect of the development process; it allows specifying which aspects and models in each level needed according to the software architecture design. Early Architecture Description Languages (ADLs), nearly exclusive, focus on structural abstraction hierarchy ignoring behavioural description hierarchy, conceptual hierarchy, and metamodeling hierarchy. In our approach these four hierarchies constitute views to appropriately “reason about” the architecture of a system described using our C3 metamodel. C3 is defined to be a minimal and complete architecture description language. In this paper we provide a set of mechanisms to deal with different levels of each type of hierarchy, also we introduce our proper structural definition for connector types used to instantiate any connexion elements deployed at the architectures and application levels
Enhancing Architectural Mismatch Detection with Assumptions
Detecting software architecture inconsistencies is a critical issue in software design. Software systems are described in terms of components, component behavior and interaction and mismatch detection is explored through techniques based on behavior analysis. Integration problems, however, are not only caused by behavioral mismatch: components make assumptions about their environment to guarantee functional and non-functional properties. If the actual deployment environment of each component does not satisfy its assumptions, component and system properties may not hold. In this work we propose to extend the idea of architectural mismatch to include the notion of assumption. We concentrate on a subset of possible assumptions and show how software architects can benefit from using them. We also present a discussion on how architecture description languages (ADLs) can be extended to include assumptions. 1
Modeling Software Components Using Behavior Protocols
This thesis proposes a novel approach for a description of a software component's behavior. The behavior is specified by using behavior protocols - a notation similar to regular expressions, which is easy to read and comprehend
A synthesis of logic and bio-inspired techniques in the design of dependable systems
Much of the development of model-based design and dependability analysis in the design of dependable systems, including software intensive systems, can be attributed to the application of advances in formal logic and its application to fault forecasting and verification of systems. In parallel, work on bio-inspired technologies has shown potential for the evolutionary design of engineering systems via automated exploration of potentially large design spaces. We have not yet seen the emergence of a design paradigm that effectively combines these two techniques, schematically founded on the two pillars of formal logic and biology, from the early stages of, and throughout, the design lifecycle. Such a design paradigm would apply these techniques synergistically and systematically to enable optimal refinement of new designs which can be driven effectively by dependability requirements. The paper sketches such a model-centric paradigm for the design of dependable systems, presented in the scope of the HiP-HOPS tool and technique, that brings these technologies together to realise their combined potential benefits. The paper begins by identifying current challenges in model-based safety assessment and then overviews the use of meta-heuristics at various stages of the design lifecycle covering topics that span from allocation of dependability requirements, through dependability analysis, to multi-objective optimisation of system architectures and maintenance schedules
Towards a Tool-based Development Methodology for Pervasive Computing Applications
Despite much progress, developing a pervasive computing application remains a
challenge because of a lack of conceptual frameworks and supporting tools. This
challenge involves coping with heterogeneous devices, overcoming the
intricacies of distributed systems technologies, working out an architecture
for the application, encoding it in a program, writing specific code to test
the application, and finally deploying it. This paper presents a design
language and a tool suite covering the development life-cycle of a pervasive
computing application. The design language allows to define a taxonomy of
area-specific building-blocks, abstracting over their heterogeneity. This
language also includes a layer to define the architecture of an application,
following an architectural pattern commonly used in the pervasive computing
domain. Our underlying methodology assigns roles to the stakeholders, providing
separation of concerns. Our tool suite includes a compiler that takes design
artifacts written in our language as input and generates a programming
framework that supports the subsequent development stages, namely
implementation, testing, and deployment. Our methodology has been applied on a
wide spectrum of areas. Based on these experiments, we assess our approach
through three criteria: expressiveness, usability, and productivity
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