Title :
FFTSVD: A Fast Multiscale Boundary-Element Method Solver Suitable for Bio-MEMS and Biomolecule Simulation
Author :
Altman, Michael D. ; Bardhan, Jaydeep P. ; Tidor, Bruce ; White, Jacob K.
Abstract :
This paper presents a fast boundary-element method (BEM) algorithm that is well suited for solving electrostatics problems that arise in traditional and bio-microelectromechanical systems (bio-MEMS) design. The algorithm, FFTSVD, is Green´s-function-independent for low-frequency kernels and efficient for inhomogeneous problems. FFTSVD is a multiscale algorithm that decomposes the problem domain using an octree and uses sampling to calculate low-rank approximations to dominant source distributions and responses. Long-range interactions at each length scale are computed using the FFT. Computational results illustrate that the FFTSVD algorithm performs better than precorrected-FFT (pFFT)-style algorithms or the multipole-style algorithms in FastCap.
Keywords :
Bio-MEMS; FFTSVD; biomolecule; boundary element; electrostatic; fast solver; Biology computing; Chemical technology; Chemistry; Costs; Electrostatics; Finite difference methods; Microelectromechanical devices; Molecular biophysics; Sensor arrays; Solvents; Bio-MEMS; FFTSVD; biomolecule; boundary element; electrostatic; fast solver;
Journal_Title :
Computer-Aided Design of Integrated Circuits and Systems, IEEE Transactions on
DOI :
10.1109/TCAD.2005.855946
