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DAC
1999
ACM
1999
ACM
A Multiscale Method for Fast Capacitance Extraction
The many levels of metal used in aggressive deep submicron process technologies has made fast and accurate capacitance extraction of complicated 3-D geometries of conductors essential, and many novel approaches have been recently developed. In this paper we present an accelerated boundary-element method, like the wellknown FASTCAP program, but instead of using an adaptive fast multipole algorithm we use a numerically generated multiscale basis for constructing a sparse representation of the dense boundaryelement matrix. Results are presented to demonstrate that the multiscale method can be applied to complicated geometries, generates a sparser boundary-element matrix than the adaptive fast multipole method, and provides an inexpensive but effective preconditioner. Examples are used to show that the better sparsification and the effective preconditioner yield a method that can be 25 times faster than FASTCAP while still maintain accuracy in the smallest coupling capacitances.
Real-time TrafficDAC 1999 | Design Automation | Fast Multipole Algorithm | Fast Multipole Method | Multiscale Method |
Related Content
| Added | 13 Nov 2009 |
| Updated | 13 Nov 2009 |
| Type | Conference |
| Year | 1999 |
| Where | DAC |
| Authors | Johannes Tausch, Jacob K. White |
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