Reference architecture

A reference architecture in the field of software architecture or enterprise architecture provides a template solution for an architecture for a particular domain. It also provides a common vocabulary with which to discuss implementations, often with the aim to stress commonality. A software reference architecture is a software architecture[1] where the structures and respective elements and relations provide templates for concrete architectures in a particular domain or in a family of software systems.

A reference architecture often consists of a list of functions and some indication of their interfaces (or APIs) and interactions with each other and with functions located outside of the scope of the reference architecture.

Reference architectures can be defined at different levels of abstraction. A highly abstract one might show different pieces of equipment on a communications network, each providing different functions. A lower level one might demonstrate the interactions of procedures (or methods) within a computer program defined to perform a very specific task.

A reference architecture provides a template, often based on the generalization of a set of solutions. These solutions may have been generalized and structured for the depiction of one or more architecture structures based on the harvesting of a set of patterns that have been observed in a number of successful implementations. Further it shows how to compose these parts together into a solution. Reference Architectures will be instantiated for a particular domain or for specific projects.

Adopting a reference architecture within an organization accelerates delivery through the re-use of an effective solution and provides a basis for governance to ensure the consistency and applicability of technology use within an organization. In the field of software architecture, many empirical studies have shown the following common benefits and drawbacks from adopting a software reference architecture within organizations: (a) improvement of the interoperability of the software systems by establishing a standard solution and common mechanisms for information exchange; (b) reduction of the development costs of software projects through the reuse of common assets; (c) improvement of the communication inside the organization because stakeholders share the same architectural mindset; and, (d) influencing the learning curve of developers due to the need of learning its features.[2]

Examples

  • The Java Platform, Enterprise Edition (Java EE) architecture is a layered reference architecture which provides a template solution for many enterprise systems developed in Java.
  • The IBM Insurance Application Architecture[3] is a reference architecture for the Insurance domain.
  • AUTOSAR is a component-based reference architecture for automotive software architectures.
  • Eulynx is a reference architecture for railway signalling systems.
gollark: Besides, I would HAPPILY have used non-JS languages, just not certain non-JS languages.
gollark: Weren't you just suggesting JS, the language you disliked, as an alternative language for challenges too?
gollark: You didn't think to say "hey, please could you add nonpython options", but just imposed the rule, see.
gollark: ???
gollark: The broader issue is that you have alienated a bunch of the community by imposing the noncompromise earlier.

See also

References

  1. Clements, Paul; Felix Bachmann; Len Bass; David Garlan; James Ivers; Reed Little; Paulo Merson; Robert Nord; Judith Stafford (2010). Documenting Software Architectures: Views and Beyond, Second Edition. Boston: Addison-Wesley. ISBN 978-0-321-55268-6.
  2. Martinez-Fernandez, Silverio; Medeiros Dos Santos, Paulo Sergio; Ayala, Claudia P.; Franch, Xavier; Travassos, Guilherme H. (2015). "Aggregating Empirical Evidence about the Benefits and Drawbacks of Software Reference Architectures". 2015 ACM/IEEE International Symposium on Empirical Software Engineering and Measurement (ESEM). pp. 1–10. doi:10.1109/ESEM.2015.7321184. hdl:2117/80457. ISBN 978-1-4673-7899-4.
  3. The IBM Insurance Application Architecture


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