Title :
Parallel implementation of probabilistic short-circuit analysis by the Monte Carlo approach
Author :
Sato, F. ; Garcia, A.V. ; Monticelli, A.
Author_Institution :
CPFL, Campinas, Brazil
fDate :
5/1/1994 12:00:00 AM
Abstract :
This paper describes the implementation of a Monte Carlo based short-circuit analysis package in a hypercube parallel computer. The program generates accurate estimates of short-circuit current probability distribution curves which can be used in a variety of planning and design studies. Both network modeling aspects, such as network reduced equivalencing and mutual coupling representation, as well as the impact of the sample sizes used in Monte Carlo simulations are fully analyzed and illustrated by numerical results obtained testing on real-world systems, These examples clearly illustrate how computational efficiency in parallel machines varies with the ratio of communication to computation (communication overhead) and of the load balancing among the parallel computer processors
Keywords :
Monte Carlo methods; digital simulation; hypercube networks; parallel processing; power system analysis computing; probability; short-circuit currents; Monte Carlo approach; computer simulation; design; equivalencing; hypercube parallel computer; mutual coupling; planning; probabilistic short-circuit analysis; Computational efficiency; Computer networks; Concurrent computing; Hypercubes; Monte Carlo methods; Mutual coupling; Packaging; Parallel machines; Probability distribution; System testing;
Journal_Title :
Power Systems, IEEE Transactions on
