An attempt is made to define the state of the art and identify the most fertile grounds for future research in parallel processing as applied to power system computation. The analysis is confined to examining the application of parallel computers to specific power system problems. The state of the art is summarized in an attempt to capture the developing approach of matching algorithms to architectures. Research problems including neural network use and genetic algorithms all involve the central challenge of matching highly parallelized algorithms to parallel/distributed architectures
Parallel processing in power systems computation / Tylavsky, D. J.; Bose, A; Alvarado, F; Betancourt, R; Clements, K; Heydt, G. T.; Huang, G; Ilic, M; LA SCALA, Massimo; Pai, M. A.; Pottle, A; Talukdar, S; Van Ness, J. S.; Wu, F.. - In: IEEE TRANSACTIONS ON POWER SYSTEMS. - ISSN 0885-8950. - STAMPA. - 7:2(1992), pp. 91 SM 503-3 PWRS.629-91 SM 503-3 PWRS.638. [10.1109/59.141768]
Parallel processing in power systems computation
LA SCALA, Massimo;
1992-01-01
Abstract
An attempt is made to define the state of the art and identify the most fertile grounds for future research in parallel processing as applied to power system computation. The analysis is confined to examining the application of parallel computers to specific power system problems. The state of the art is summarized in an attempt to capture the developing approach of matching algorithms to architectures. Research problems including neural network use and genetic algorithms all involve the central challenge of matching highly parallelized algorithms to parallel/distributed architecturesI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.