Numerical recipes: the art of scientific computing
Numerical recipes: the art of scientific computing
Matrix computations (3rd ed.)
Proceedings of the 38th annual Design Automation Conference
Fast and Efficient Algorithms in Computational Electromagnetics
Fast and Efficient Algorithms in Computational Electromagnetics
Analysis of full-wave conductor system impedance over substrate using novel integration techniques
Proceedings of the 42nd annual Design Automation Conference
IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems
Incremental large-scale electrostatic analysis
IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems
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We present a gridless method for solving the interior problem for a set of conductors in an homogeneous dielectric, at sufficiently high frequencies, valid for conductor lengths that are not small compared to the minimum wavelength, and transverse dimensions that are large compared to the skin depth. For IC applications, we cover the regime 10--100 GHz and the inclusion of all relevant wire dimensions. We decompose the Electromagnetic-field in terms of the eigenfunctions of the Helmholtz equation for three dimensional current distributions inside the conductors. Using a relatively small number of modes per conductor we obtain results comparable to filament or mesh decompositions using a much larger dimensionality for the resulting linear problem. The method is an extension to the fullwave regime of a method introduced in [1].