The matrix rotation technique is applied to the three-dimensional (3-D) multilevel fast multipole algorithm (MLFMA) at very low frequencies (LF) to save the storage without increasing the order of the floating-point operations. Some symmetrical properties of the translation matrices along the z-direction for the 3-D LF-MLFMA and the static MLFMA are also derived to further reduce the memory requirements. Numerical results shown that the order of errors introduced by the matrix rotation is much smaller than the order of errors from the plain LF-MLFMA or plain static MLFMA. The implementation of the matrix rotation technique does not change the precision order of the LF-MLFMA and the static MLFMA for fixed truncation of multipole expansions.l...
Diagonal translation operators form the core of the dynamic multilevel fast multipole algorithm (MLF...
We present a low-frequency fast multipole method for the solution of three-dimensional electromagnet...
A new approach is proposed to enhance the efficiency and reduce the memory requirements of the multi...
A normalized three-dimensional (3-D) multilevel fast multipole algorithm (MLFMA) with a computationa...
We present an approximate diagonalization of the Green's function to implement a stable multilevel f...
In the low-frequency fast multipole algorithm (LF-FMA) [19, 20], scalar addition theorem has been us...
Multiple-precision arithmetic (MPA) is used to prevent low-frequency breakdowns in the diagonalizati...
A broadband multilevel fast multipole algorithm (MLFMA) in 3D is presented based on plane wave expan...
We present efficient solutions of electromagnetics problems involving realistic metamaterial structu...
118 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2004.The low frequency breakdown p...
The matrix-vector multiplication encountered in the iterative solution of scattering problems can be...
Abstract. We present a matrix interpretation of the three-dimensional fast multipole method (FMM). T...
We stabilize a conventional implementation of the fast multipole method (FMM) for low frequencies us...
Abstract—Novel formulas are presented that allow the rapid estimation of the number of terms L that ...
The fast multipole algorithm manifests in two very different forms at low frequencies and at mid fre...
Diagonal translation operators form the core of the dynamic multilevel fast multipole algorithm (MLF...
We present a low-frequency fast multipole method for the solution of three-dimensional electromagnet...
A new approach is proposed to enhance the efficiency and reduce the memory requirements of the multi...
A normalized three-dimensional (3-D) multilevel fast multipole algorithm (MLFMA) with a computationa...
We present an approximate diagonalization of the Green's function to implement a stable multilevel f...
In the low-frequency fast multipole algorithm (LF-FMA) [19, 20], scalar addition theorem has been us...
Multiple-precision arithmetic (MPA) is used to prevent low-frequency breakdowns in the diagonalizati...
A broadband multilevel fast multipole algorithm (MLFMA) in 3D is presented based on plane wave expan...
We present efficient solutions of electromagnetics problems involving realistic metamaterial structu...
118 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2004.The low frequency breakdown p...
The matrix-vector multiplication encountered in the iterative solution of scattering problems can be...
Abstract. We present a matrix interpretation of the three-dimensional fast multipole method (FMM). T...
We stabilize a conventional implementation of the fast multipole method (FMM) for low frequencies us...
Abstract—Novel formulas are presented that allow the rapid estimation of the number of terms L that ...
The fast multipole algorithm manifests in two very different forms at low frequencies and at mid fre...
Diagonal translation operators form the core of the dynamic multilevel fast multipole algorithm (MLF...
We present a low-frequency fast multipole method for the solution of three-dimensional electromagnet...
A new approach is proposed to enhance the efficiency and reduce the memory requirements of the multi...