Title :
An algebraic multilevel preconditioner for field-circuit coupled problems
Author :
Lahaye, D. ; Vandewalle, S. ; Hameyer, K.
Author_Institution :
Dept. of Comput. Sci., Katholieke Univ., Leuven, Belgium
fDate :
3/1/2002 12:00:00 AM
Abstract :
Quasi-stationary magnetic field formulations are often coupled with lumped parameter models for the driving electrical system. The finite element discretization of such formulations yields linear systems with a large sparse coefficient matrix bordered by dense coupling blocks. The presence of these blocks prevents the straightforward application of black box algebraic multigrid solvers. We present a modified multigrid cycle that takes the coupling blocks into account. The resulting algebraic multigrid solver is used as a preconditioner for the conjugate gradient method for complex symmetric systems. We give evidence of the efficiency of the new method for the calculation of an induction motor
Keywords :
conjugate gradient methods; finite element analysis; induction motors; machine theory; sparse matrices; algebraic multilevel preconditioner; black box algebraic multigrid solvers; complex symmetric systems; conjugate gradient method; coupling blocks; dense coupling blocks; eddy currents; field-circuit coupled problems; finite element discretization; induction motor; iterative methods; lumped parameter models; quasi-stationary magnetic field formulations; sparse coefficient matrix; Conductors; Coupling circuits; Finite element methods; Linear systems; Magnetic circuits; Magnetic fields; Solids; Sparse matrices; Vectors; Voltage;
Journal_Title :
Magnetics, IEEE Transactions on
