Feedback-driven Design of Distributed Real-time and Embedded Component Middleware Via Model-Integrated Computing and Distributed Continuous Quality Assurance

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“Feedback-driven Design of Distributed Real-time and Embedded Component Middleware Via Model-Integrated Computing and Distributed Continuous Quality Assurance” by Atif M. Memon, Adam Porter, and Doug Scmidt. In Proceedings of The National Science Foundation Invitational Workshop -- Science of Design: Software-Intensive Systems, Nov. 2003.

Abstract

This presentation focuses on addressing the shortcomings of conventional Quality Assurance techniques by describing a Model Driven Architecture (MDA) approach to distributed continuous QA, which helps improve software quality and performance iteratively, opportunistically, and efficiently around-the-clock in multiple, geographically distributed locations. We describe two MDA tools: 1) the Options Configuration Modeling Language (OCML), which helps in automating the tedious and error-prone QA activities of handcrafting configuration files and, 2) the Benchmark Generation Modeling Language (BGML), which synthesizes appropriate benchmark scaffolding code used for testing the selected configurations.

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BibTeX entry:

@inproceedings{MemonSDSIS2004,
   author = {Atif M. Memon and Adam Porter and Doug Scmidt},
   title = {Feedback-driven Design of Distributed Real-time and Embedded
	Component Middleware Via Model-Integrated Computing and
	Distributed Continuous Quality Assurance},
   booktitle = {Proceedings of The National Science Foundation
	Invitational Workshop -- Science of Design: Software-Intensive
	Systems},
   month = nov,
   year = {2003}
}

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