A dynamic partitioning scheme for parallel transient stability analysis

Author

Zhu, Ning ; Bose, Anjan

Author_Institution

Arizona State Univ., Tempe, AZ, USA

fYear

1991

fDate

7-10 May 1991

Firstpage

238

Lastpage

244

Abstract

A dynamic partitioning scheme for a large power system is used to speed up the transient stability solution by utilizing different step sizes for the different portions. The partitioning and the different step sizes naturally lend themselves to a parallel implementation. Results are obtained by utilizing the successive overrelaxation (SOR) Newton parallel algorithm on the Alliant FX/8, an eight-processor parallel computer. For a 662 bus system, a total speedup, by partitioning and parallelizing, of 33.5 is obtained. Since parallelization by itself with 8 processors can produce a speedup of about 7, the partitioning scheme provides a speedup factor of about 5. The partitioning scheme is not specific to either the SOR Newton algorithm or the Alliant machine, and its application to any other parallel method should result in a similar speedup

Keywords

parallel processing; power system analysis computing; stability; Alliant FX/8; dynamic partitioning scheme; parallel computer; parallel transient stability analysis; power system analysis computing; successive overrelaxation Newton parallel algorithm; Concurrent computing; Parallel algorithms; Partitioning algorithms; Power system analysis computing; Power system dynamics; Power system modeling; Power system stability; Power system transients; Stability analysis; Transient analysis;

fLanguage

English

Publisher

ieee

Conference_Titel

Power Industry Computer Application Conference, 1991. Conference Proceedings

Conference_Location

Baltimore, MD

Print_ISBN

0-87942-620-9

Type

conf

DOI

10.1109/PICA.1991.160615

Filename

160615