Title :
Periodic steady state solution of power systems by selective transition matrix identification and graphic processing units
Author :
Magana-Lemus, Ernesto ; Medina-Rios, Aurelio ; Ramos-Paz, Antonio
Abstract :
Modern power systems analysis becomes more challenging due to their increasing complexity, greater interConnectivity of elements and sub-systems and the use of alternative generation systems, among others. In order to efficiently conduct these analyses, it is necessary the use of modern computational and numerical techniques, such as parallel processing and fast periodic steady state solution techniques. The Numerical Differentiation (ND) method has been successfully applied to meet the last issue. This paper introduces a modification to the ND method using GPUs, which allows a significant reduction on the computation time required to reach the steady state solution in nonlinear power systems.
Keywords :
differentiation; graphics processing units; matrix algebra; nonlinear systems; power system analysis computing; power system interconnection; ND method; alternative generation system; computation time reduction; elements interconnectivity; graphic processing unit; nonlinear power system analysis; numerical differentiation method; power system periodic steady state solution; selective transition matrix identification; Graphics processing units; Harmonic analysis; Instruction sets; Kernel; Parallel processing; Power systems; Steady-state; CUDA; GPU; Limit cycle; Newton techniques; harmonics; power quality; steady state solution; transition matrix;
Conference_Titel :
Power, Electronics and Computing (ROPEC), 2014 IEEE International Autumn Meeting on
Conference_Location :
Ixtapa
DOI :
10.1109/ROPEC.2014.7036339
