Computer Science Technical Reports
CS at VT

A Coarse Grained Parallel Variable-Complexity Multidisciplinary Optimization Paradigm

Burgee, Susan L. and Giunta, Anthony A. and Balabanov, Vladimir and Grossman, Bernard and Mason, William H. and Narducci, Robert and Haftka, Robert T. and Watson, Layne T. (1995) A Coarse Grained Parallel Variable-Complexity Multidisciplinary Optimization Paradigm. Technical Report ncstrl.vatech_cs//TR-95-20, Computer Science, Virginia Polytechnic Institute and State University.

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Modern aerospace vehicle design requires the interaction of multiple discipines, traditionally processed in a sequential order. Multidisciplinary optimization (MDO), a formal methodology for the integration of these disciplines, is evolving towards methods capable of replacing the traditional sequential methodology of aerospace vehicle design by concurrent algorithms, with both an overall gain in product performance and a decrease in design time. A parallel MDO paradigm using variable-complexity modeling and multipoint response surface approximations is presented here for the particular instance of the design of a high speed civil transport (HSCT). This paradigm interleaves the disciplines at one level of complexity, and processes them hierarchically at another level of complexity, achieving parallelism within disciplines, rather than across disciplines. A master-slave paradigm manages a coarse grained parallelism of the analysis and optimization codes required by the disciplines showing reasonable speedups and efficiencies on an Intel Paragon.

Item Type:Departmental Technical Report
Subjects:Computer Science > Historical Collection(Till Dec 2001)
ID Code:435
Deposited By:User autouser
Deposited On:05 December 2001
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