1 Introduction.- 1.1 Numerical simulation and parallel processing.- 1.2 The simulation of time-dependent processes.- 1.3 Outline.- 2 Waveform Relaxation Methods.- 2.1 Introduction.- 2.2 Waveform relaxation: basic ideas.- 2.3 A classification of waveform methods.- 2.4 General convergence results.- 2.5 Convergence analysis for linear systems.- 2.6 Waveform relaxation acceleration techniques.- 2.7 Some concluding remarks.- 3 Waveform Relaxation Methods for Initial Boundary Value Problems.- 3.1 Introduction and notations.- 3.2 Standard waveform relaxation.- 3.3 Linear multigrid acceleration.- 3.4 Convergence analysis.- 3.5 Experimental results.- 3.6 Nonlinear multigrid waveform relaxation.- 3.7 A multigrid method on a space-time grid.- 3.8 Concluding remarks.- 4 Waveform Relaxation for Solving Time-Periodic Problems.- 4.1 Introduction.- 4.2 Standard time-periodic PDE solvers.- 4.3 Time-periodic waveform relaxation.- 4.4 Analysis of the continuous-time iteration.- 4.5 Analysis of the discrete-time iteration.- 4.6 Multigrid acceleration.- 4.7 Autonomous time-periodic problems.- 5 A Short Introduction to Parallel Computers and Parallel Computing.- 5.1 Introduction.- 5.2 Classification of parallel computers.- 5.3 The hypercube topology.- 5.4 The Intel iPSC/2 hypercube multiprocessor.- 5.5 Parallel performance parameters.- 6 Parallel Implementation of Standard Parabolic Marching Schemes.- 6.1 Introduction.- 6.2 Problem class and discretization.- 6.3 Parallel implementation: preliminaries.- 6.4 The explicit update step.- 6.5 The multigrid solver.- 6.6 The tridiagonal systems solver.- 6.7 Timing results on the Intel hypercube.- 6.8 Numerical examples.- 6.9 Concluding remarks.- 7 Computational Complexity of Multigrid Waveform Relaxation.- 7.1 Introduction.- 7.2 Arithmetic complexity.- 7.3 Parallel implementation.- 7.4 Vectorization.- 7.5 Concluding remarks.- 8 Case Studies.- 8.1 Introduction.- 8.2 Programming considerations.- 8.3 Representation of the results.- 8.4 Linear initial boundary value problems.- 8.5 Nonlinear initial boundary value problems.- 8.6 Linear time-periodic problems.- 8.7 Example 7: a nonlinear periodic system.- 8.8 Further remarks, limits of applicability.- 9 Concluding Remarks and Suggestions for Future Research.- A Discretization and Stencils.

Fishpond works with suppliers all over the world to bring you a huge selection of products, really great prices, and delivery included on over 25 million products that we sell. We do our best every day to make Fishpond an awesome place for customers to shop and get what they want — all at the best prices online.

About Fishpond

You can earn a 8% commission by selling Parallel Multigrid Waveform Relaxation for Parabolic Problems on your website. It's easy to get started - we will give you example code. After you're set-up, your website can earn you money while you work, play or even sleep! You should start right now!

Are you the Author or Publisher of a book? Or the manufacturer of one of the millions of products that we sell. You can improve sales and grow your revenue by submitting additional information on this title. The better the information we have about a product, the more we will sell!

Submit Information

Table of Contents