The design of fast algorithms is not only about achieving faster speeds but also about retaining the ability to control the error and numerical stability. This is crucial to the reliability of computed numerical solutions. This dissertation studies topics related to structured matrix computations with an emphasis on their numerical analysis aspects and algorithms. The methods discussed here are all based on rich analytical results that are mathematically justified. In chapter 2, we present a series of comprehensive error analyses to an analytical matrix compression method and it serves as a theoretical explanation of the proxy point method. These results are also important instructions on optimizing the performance. In chapter 3, we propose...
Matrix multiplication is a core building block for numerous scientific computing and, more recently,...
Focusing on special matrices and matrices which are in some sense "near" to structured matrices, thi...
Matrix-matrix multiplication is perhaps the most important operation used as a basic building block...
The design of fast algorithms is not only about achieving faster speeds but also about retaining the...
Computing solutions to real life scientific or engineering problem is most often the cheapest, faste...
This dissertation is about computational tools based on randomized numerical linear algebra for hand...
Matrix algorithms are at the core of scientific computing and are indispensable tools in most applic...
This cross-disciplinary volume brings together theoretical mathematicians, engineers and numerical a...
Solution of homogeneous linear systems of equations is a basic operation of matrix computa-tions. Th...
This book gathers selected contributions presented at the INdAM Meeting Structured Matrices in Numer...
textThe presence of structure in a computational problem can often be exploited and can lead to a mo...
Large-scale numerically intensive scientific applications can require tremendous amounts of computer...
This self-contained monograph presents matrix algorithms and their analysis. The new technique enabl...
AbstractSolution of homogeneous linear systems of equations is a basic operation of matrix computati...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
Matrix multiplication is a core building block for numerous scientific computing and, more recently,...
Focusing on special matrices and matrices which are in some sense "near" to structured matrices, thi...
Matrix-matrix multiplication is perhaps the most important operation used as a basic building block...
The design of fast algorithms is not only about achieving faster speeds but also about retaining the...
Computing solutions to real life scientific or engineering problem is most often the cheapest, faste...
This dissertation is about computational tools based on randomized numerical linear algebra for hand...
Matrix algorithms are at the core of scientific computing and are indispensable tools in most applic...
This cross-disciplinary volume brings together theoretical mathematicians, engineers and numerical a...
Solution of homogeneous linear systems of equations is a basic operation of matrix computa-tions. Th...
This book gathers selected contributions presented at the INdAM Meeting Structured Matrices in Numer...
textThe presence of structure in a computational problem can often be exploited and can lead to a mo...
Large-scale numerically intensive scientific applications can require tremendous amounts of computer...
This self-contained monograph presents matrix algorithms and their analysis. The new technique enabl...
AbstractSolution of homogeneous linear systems of equations is a basic operation of matrix computati...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
Matrix multiplication is a core building block for numerous scientific computing and, more recently,...
Focusing on special matrices and matrices which are in some sense "near" to structured matrices, thi...
Matrix-matrix multiplication is perhaps the most important operation used as a basic building block...