Title :
Combining direct and inverse factors for solving sparse network equations in parallel
Author :
Morelato, A. ; Amano, M. ; Kokai, Y.
fDate :
11/1/1994 12:00:00 AM
Abstract :
A new parallel algorithm for solving the forward and back substitution part of the solution of sparse network equations for power systems is proposed. The approach assumes that the network equations are solved by LDU factorization and sparse vector techniques. The parallelization approach is based on the factorization path tree and its main feature is the switching from direct factor to inverse factors to best exploit the parallelism during the solution. The algorithm can be easily mapped on a multiprocessor architecture that exhibits both global and local memories. An illustrative example and validation results showing the effectiveness of the algorithm are also presented
Keywords :
multiprocessing systems; parallel algorithms; power system analysis computing; back substitution; direct factors; factorization path tree; forward substitution; global memories; inverse factors; local memories; multiprocessor architecture; parallel algorithm; parallelization approach; power systems; sparse network equations; switching; Equations; Intelligent networks; Laboratories; Load flow; Parallel algorithms; Power system modeling; Power system stability; Power system transients; Sparse matrices; Vectors;
Journal_Title :
Power Systems, IEEE Transactions on
