Telescoping Fast Multipole Methods Using Chebyshev Economization

We apply a new method of reducing the computational effort required for solution of the Electric Field Integral Equation used for modelling microstrip structures. The Fast Multipole Method is used to compute the radiation pattern and input impedance of single layer microstrip antennas.

i n this article we consider the implementation of a version of the fast multipole method for scattering by large objects. We put particular emphasis on error and erecution time. I n contrast to the traditional moment method, the fast multiple method (FMM) has an O(N'3 CPU requirement per incidence

## Abstract A single integral equation (SIE) method is developed to analyze the electromagnetic scattering from 3D composite conducting and dielectric bodies. Compared with the conventional coupled integral equation (CIE) method, the SIE method reduces the number of unknowns by a factor of two for

An efficient implementation of the canonical molecular dynamics simulation using the reversible reference system propagator algorithm (r-RESPA) combined with the particle mesh Ewald method (PMEM) and with the macroscopic expansion of the fast multipole method (MEFMM) was examined. The performance of