A cooperative approach to support software deployment using the software dock
Proceedings of the 21st international conference on Software engineering
Component Software: Beyond Object-Oriented Programming
Component Software: Beyond Object-Oriented Programming
Product Instantiation in Software Product Lines: A Case Study
GCSE '00 Proceedings of the Second International Symposium on Generative and Component-Based Software Engineering-Revised Papers
Representing Variability in Software Product Lines: A Case Study
SPLC 2 Proceedings of the Second International Conference on Software Product Lines
Implementing and Integrating Product Data Management and Software Configuration Management
Implementing and Integrating Product Data Management and Software Configuration Management
Imposing a Memory Management Discipline on Software Deployment
Proceedings of the 26th International Conference on Software Engineering
A Process Model and Typology for Software Product Updaters
CSMR '05 Proceedings of the Ninth European Conference on Software Maintenance and Reengineering
Nix: A Safe and Policy-Free System for Software Deployment
LISA '04 Proceedings of the 18th USENIX conference on System administration
ICSM '05 Proceedings of the 21st IEEE International Conference on Software Maintenance
Journal of Software Maintenance and Evolution: Research and Practice - IEEE International Conference on Software Maintenance (ICSM2005)
Improving the customer configuration update process by explicitly managing software knowledge
Proceedings of the 28th international conference on Software engineering
Proceedings of the 2006 international workshop on Workshop on interdisciplinary software engineering research
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Products within a product family are composed of different component configurations where components have different variable features and a large amount of dependency relationships with each other. The deployment of such products can be error prone and highly complex if the dependencies between components and the possible features a component can supply are not managed explicitly. This paper presents a method that uses the knowledge available about components to ensure correct, complete, and consistent deployment of configurations of interrelated components. The method provided allows the user to perform analysis on the deployment before the deployment is performed, thus allowing error prevention before making any changes to the system. The method and model are discussed and presented to provide an alternative to current component deployment techniques.