Exploring architectural scalability

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Exploring architectural scalability

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Workshop on Software and Performance archive
Proceedings of the 4th international workshop on Software and performance table of contents

Redwood Shores, California

SESSION: Performance measurement and modeling I table of contents

Pages: 125 - 129

Year of Publication: 2004

ISBN ~ ISSN:0163-5948 , 1-58113-673-0

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Authors

Gunnar Brataas	IDI, NTNU, Trondheim, Norway
Peter Hughes	IDI, NTNU, Trondheim, Norway

Sponsors

SIGMETRICS: ACM Special Interest Group on Measurement and Evaluation
SIGSOFT: ACM Special Interest Group on Software Engineering

Publisher

ACM New York, NY, USA

Bibliometrics

Downloads (6 Weeks): 12, Downloads (12 Months): 68, Citation Count: 3

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ABSTRACT

We describe a structured, hierarchic approach to exploring the scalability of IT systems architectures. An architecture is considered to be scalable over a particular set of requirements if the physical resource usage per unit of capacity remains roughly constant. For completeness, both requirements and capacity must be defined in the three dimensions of processing, storage and connectivity. Interactions between the three dimensions are considered, as are various forms of departure from non-uniform scaling. Scalability is explored via a combination of measurement and static and dynamic models. Appropriate scale-invariants are introduced to eliminate congestion effects and packaging issues from the analysis. This paper focuses on processing and to a lesser extent, on storage. The method is applied to a practical case study of Transigo, a J2EE-based software platform used in the Norwegian banking industry. We find that understanding the relationship between replication and upgrade for systems, subsystems and devices is key to guiding the exploration of scalability.

REFERENCES

Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.

	1	Peter H. Hughes , Gunnar Brataas, Scalability of a Workstation Cluster Architecture for Video-on-Demand Applications, Proceedings of the 11th International Conference on Computer Performance Evaluation: Modelling Techniques and Tools, p.277-293, March 27-31, 2000
	2	P. H. Hughes. SP principles. Technical report, STC Technology 059/ICL226/0, July 1988. (available from author).
	3	Prasad Jogalekar , Murray Woodside, Evaluating the Scalability of Distributed Systems, IEEE Transactions on Parallel and Distributed Systems, v.11 n.6, p.589-603, June 2000 [doi>10.1109/71.862209 ]
	4	C. Minkowitiz. Software Architecture Modelling. In Software Engineering for Large Systems, pages 324--344. Elsevier, 1990.
	5	C. J. Minkowitz, V. Vetland, and P. Hughes. A Modular Approach to System Structure and Performance Specification. In Conference on Modelling Techniques and Tools for Computer Performance Evaluation, Tools Supplement, pages 83--86, University of Vienna, Austria, May 1994.

CITED BY 3

	Leticia Duboc , David S. Rosenblum , Tony Wicks, A framework for modelling and analysis of software systems scalability, Proceeding of the 28th international conference on Software engineering, May 20-28, 2006, Shanghai, China
	Leticia Duboc , David Rosenblum , Tony Wicks, A framework for characterization and analysis of software system scalability, Proceedings of the the 6th joint meeting of the European software engineering conference and the ACM SIGSOFT symposium on The foundations of software engineering, September 03-07, 2007, Dubrovnik, Croatia
	Guido Urdaneta , Juan A. Colmenares , Néstor V. Queipo , Nelson Arapé , Carlos Arévalo , Mirché Ruz , Héctor Corzo , Andreína Romero, A reference software architecture for the development of industrial automation high-level applications in the petroleum industry, Computers in Industry, v.58 n.1, p.35-45, January, 2007