For efficient solutions of integral-equation methods via the multilevel fast multipole algorithm (MLFMA), effective preconditioners are required. In this paper we review appropriate preconditioners that have been used for sparse systems and developed specially in the context of MLFMA. First we review the ILU-type preconditioners that are suitable for sequential implementations. We can make these preconditioners robust and efficient for integral-equation methods by making appropriate selections and by employing pivoting to suppress the instability problem. For parallel implementations, the sparse approximate inverse or the iterative solution of the near-field system enables fast convergence up to certain problem sizes. However, for very larg...
Although some preconditioners are available for solving dense linear systems, there are still many m...
Abstract—We present an iterative inner-outer scheme for the efficient solution of large-scale electr...
Dense operators for preconditioning sparse linear systems have traditionally been considered infeasi...
For the iterative solutions of the integral equation methods employing the multilevel fast multipole...
For efficient solutions of integral-equation methods via the multilevel fast multipole algorithm (ML...
We propose novel parallel preconditioning schemes for the iterative solution of integral equation me...
We consider effective preconditioning schemes for the iterative solution of integral-equation method...
We report the solution of the largest integral-equation problems in computational electromagnetics. ...
Abstract. For iterative solutions of large and difficult integral-equation problems in computa-tiona...
Abstract—In computational electromagnetics, the multilevel fast multipole algorithm (MLFMA) is used ...
The multilevel fast multipole algorithm (MLFMA) is a powerful method that enables iterative solution...
For iterative solutions of large and difficult integral-equation problems in computational electroma...
We propose an effective preconditioning scheme for the iterative solution of the systems formulated ...
In this work, we propose a preconditioner that approximates the dense system operator. For this purp...
We present fast and accurate solutions of very large electromagnetics problems discretized with tens...
Although some preconditioners are available for solving dense linear systems, there are still many m...
Abstract—We present an iterative inner-outer scheme for the efficient solution of large-scale electr...
Dense operators for preconditioning sparse linear systems have traditionally been considered infeasi...
For the iterative solutions of the integral equation methods employing the multilevel fast multipole...
For efficient solutions of integral-equation methods via the multilevel fast multipole algorithm (ML...
We propose novel parallel preconditioning schemes for the iterative solution of integral equation me...
We consider effective preconditioning schemes for the iterative solution of integral-equation method...
We report the solution of the largest integral-equation problems in computational electromagnetics. ...
Abstract. For iterative solutions of large and difficult integral-equation problems in computa-tiona...
Abstract—In computational electromagnetics, the multilevel fast multipole algorithm (MLFMA) is used ...
The multilevel fast multipole algorithm (MLFMA) is a powerful method that enables iterative solution...
For iterative solutions of large and difficult integral-equation problems in computational electroma...
We propose an effective preconditioning scheme for the iterative solution of the systems formulated ...
In this work, we propose a preconditioner that approximates the dense system operator. For this purp...
We present fast and accurate solutions of very large electromagnetics problems discretized with tens...
Although some preconditioners are available for solving dense linear systems, there are still many m...
Abstract—We present an iterative inner-outer scheme for the efficient solution of large-scale electr...
Dense operators for preconditioning sparse linear systems have traditionally been considered infeasi...