A Multigrid Tutorial
A Multigrid Tutorial
Van Emden Henson, Lawrence Livermore National Laboratory, California
Steve F. McCormick, University of Colorado, Boulder
£44.99
GBPThis second edition of the popular A Multigrid Tutorial preserves the introductory spirit of the first edition while roughly doubling the amount of material covered. The topics of the first edition have been enhanced with additional discussion, new numerical experiments, and improved figures. New topics in the second edition include nonlinear equations, Neumann boundary conditions, variable mesh and variable coefficient problems, anisotropic problems, algebraic multigrid (AMG), adaptive methods, and finite elements. This introductory book is ideally suited as a companion textbook for graduate numerical analysis courses. It is written for computational mathematicians, engineers, and other scientists interested in learning about multigrid.
- New and considerably expanded edition of popular text
- More discussion, new numerical experiments and improved figures
- Ideal for use as a companion to graduate numerical analysis courses
Reviews & endorsements
'This is a great book for students. I taught a one-semester course in multilevel methods, and used this book for half of the material. I'm a very happy customer. The exposition is clear and well motivated. There is just the right amount of theory. The authors have gone out of their way to make it easy for a student to implement the methods, see their performance, and do their own experiments. The problems in the book are thoughtfully designed. My students really enjoyed the book.' C. T. Kelley, North Carolina State University
'The whole tutorial has a clear and easily accessible exposition; meanwhile it is suitably arranged so that the layout can be a useful guide for implementation of challenging research problems.' Mohammad Asadzadeh, Mathematical Reviews
Product details
July 2000Paperback
9780898714623
210 pages
252 × 178 × 10 mm
0.376kg
This item is not supplied by Cambridge University Press in your region. Please contact Soc for Industrial & Applied Mathematics for availability.
Table of Contents
- Preface
- 1. Model problems
- 2. Basic iterative methods
- 3. Elements of multigrid
- 4. Implementation
- 5. Some theory
- 6. Nonlinear problems
- 7. Selected applications
- 8. Algebraic multigrid (AMG)
- 9. Multilevel adaptive methods
- 10. Finite elements
- Bibliography
- Index.
