Fast and accurate solvers for capacitance extraction are needed by the VLSI industry in order to achieve good design quality in feasible time. With the development of technology, this demand is increasing dramatically. Three-dimensional capacitance extraction algorithms are desired due to their high accuracy. However, the present 3D algorithms are slow and thus their application is limited. In this dissertation, we present several novel techniques to significantly speed up capacitance extraction algorithms based on boundary element methods (BEM) and to compute the capacitance extraction in the presence of floating dummy conductors. We propose the PHiCap algorithm, which is based on a hierarchical refinement algorithm and the wavelet transfo...
In this paper, a novel hierarchical capacitance extraction method is introduced. It takes advantage ...
The ever-increasing complexity of nano-scale ULSI design has made parasitic capacitance extraction m...
AbstractA quasi-multiple medium (QMM) method is proposed to accelerate the boundary element method (...
Fast and accurate solvers for capacitance extraction are needed by the VLSI industry in order to ach...
gorithms are important due to their high accuracy. However, the current 3-D algorithms are slow and ...
A new approach is presented for efficient capacitance extraction. This technique utilizes wavelet ba...
A new approach is presented for efficient capacitance extraction. This technique utilizes wavelet ba...
The many levels of metal used in aggressive deep submicron pro-cess technologies has made fast and a...
We present a new algorithm to improve the 3D boundary element method (BEM) for capacitance extractio...
This thesis describes a divide-and-conquer algorithm to improve the 3D boundary element method (BEM)...
In this thesis, the Method of Moments has been applied to calculate capacitance between two arbitrar...
Abstract—As feature size decrease, fast and accurate parasitic capacitance extraction has become inc...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
WOS:000346854900026 (Nº de Acesso Web of Science)We present an algorithm for two- and three-dimensio...
For submicron integrated circuits, 3D numerical techniques are required to accu-rately compute the v...
In this paper, a novel hierarchical capacitance extraction method is introduced. It takes advantage ...
The ever-increasing complexity of nano-scale ULSI design has made parasitic capacitance extraction m...
AbstractA quasi-multiple medium (QMM) method is proposed to accelerate the boundary element method (...
Fast and accurate solvers for capacitance extraction are needed by the VLSI industry in order to ach...
gorithms are important due to their high accuracy. However, the current 3-D algorithms are slow and ...
A new approach is presented for efficient capacitance extraction. This technique utilizes wavelet ba...
A new approach is presented for efficient capacitance extraction. This technique utilizes wavelet ba...
The many levels of metal used in aggressive deep submicron pro-cess technologies has made fast and a...
We present a new algorithm to improve the 3D boundary element method (BEM) for capacitance extractio...
This thesis describes a divide-and-conquer algorithm to improve the 3D boundary element method (BEM)...
In this thesis, the Method of Moments has been applied to calculate capacitance between two arbitrar...
Abstract—As feature size decrease, fast and accurate parasitic capacitance extraction has become inc...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
WOS:000346854900026 (Nº de Acesso Web of Science)We present an algorithm for two- and three-dimensio...
For submicron integrated circuits, 3D numerical techniques are required to accu-rately compute the v...
In this paper, a novel hierarchical capacitance extraction method is introduced. It takes advantage ...
The ever-increasing complexity of nano-scale ULSI design has made parasitic capacitance extraction m...
AbstractA quasi-multiple medium (QMM) method is proposed to accelerate the boundary element method (...