Journal ArticleDOI
Multiscale Bases for the Sparse Representation of Boundary Integral Operators on Complex Geometry
Johannes Tausch,Jacob K. White +1 more
TLDR
The new feature presented here is to construct the basis in a hierarchical decomposition of the three-space and not, as in previous approaches, in a parameter space of the boundary manifold, which leads to sparse representations of the operator.Abstract:
A multilevel transform is introduced to represent discretizations of integral operators from potential theory by nearly sparse matrices. The new feature presented here is to construct the basis in a hierarchical decomposition of the three-space and not, as in previous approaches, in a parameter space of the boundary manifold. This construction leads to sparse representations of the operator even for geometrically complicated, multiply connected domains. We will demonstrate that the numerical cost to apply a vector to the operator using the nonstandard form is essentially equal to performing the same operation with the fast multipole method. With a second compression scheme the multiscale approach can be further optimized. The diagonal blocks of the transformed matrix can be used as an inexpensive preconditioner which is empirically shown to reduce the condition number of discretizations of the single layer operator so as to be independent of mesh size.read more
Citations
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Sparse second moment analysis for elliptic problems in stochastic domains
TL;DR: Using a variational boundary integral equation formulation on the unperturbed, “nominal” boundary and a wavelet discretization, an algorithm is presented and analyzed to approximate the random solution’s mean and its two-point correlation function at essentially optimal order.
Journal ArticleDOI
A high-order 3D boundary integral equation solver for elliptic PDEs in smooth domains
TL;DR: A high-order boundary integral equation solver for 3D elliptic boundary value problems on domains with smooth boundaries using Nystrom's method for discretization and special quadrature rules for the singular kernels that appear in the boundary integrals is presented.
Journal ArticleDOI
Estimating the Laplace-Beltrami operator by restricting 3D functions
TL;DR: It is shown that in addition to being invariant to mesh topology, this definition of the Laplace‐Beltrami operator allows a natural multiresolution structure on the function space that is independent of the mesh structure, enabling the use of a simple multigrid implementation for solving the Poisson equation.
RecentProgress in NumericalMethods forthePoisson- Boltzmann Equation in Biophysical Applications
TL;DR: Recent developments in boundaryelement methods, interface methods, adaptive methods, finite element methods, and other approaches for the Poisson-Boltzmann equation as well as related mesh generation techniques are reviewed.
Journal ArticleDOI
Matrix Arithmetics in Linear Complexity
TL;DR: Algorithms that compute the best-approximation of the sum and product of two -matrices in a prescribed -matrix format are presented and it is proved that these computations can be accomplished in linear complexity.
References
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Journal ArticleDOI
A fast algorithm for particle simulations
TL;DR: An algorithm is presented for the rapid evaluation of the potential and force fields in systems involving large numbers of particles whose interactions are Coulombic or gravitational in nature, making it considerably more practical for large-scale problems encountered in plasma physics, fluid dynamics, molecular dynamics, and celestial mechanics.
Journal ArticleDOI
Fast wavelet transforms and numerical algorithms I
TL;DR: The algorithms presented here are based on the recently developed theory of wavelets and are applicable to all Calderon-Zygmund and pseudo-differential operators, and indicate that many previously intractable problems become manageable with the techniques presented here.
Book
The Rapid Evaluation of Potential Fields in Particle Systems
TL;DR: In this paper, an algorithm for the rapid evaluation of the potential and force fields in large-scale ensembles of particles is presented, which requires an amount of work proportional to the number of particles.
Journal ArticleDOI
A new version of the Fast Multipole Method for the Laplace equation in three dimensions
TL;DR: A new version of the Fast Multipole Method for the evaluation of potential fields in three dimensions is introduced based on a new diagonal form for translation operators and yields high accuracy at a reasonable cost.