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DUNE — The Distributed and Unified Numerics Environment

  • Textbook
  • © 2020

Overview

Authors:
  1. Oliver Sander

    1. Institut für Numerische Mathematik, TU Dresden, Dresden, Germany

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  • Comprehensive introduction to the Dune software
  • Contains an introductory tutorial on how to get started with Dune
  • 15 complete example programs

Part of the book series: Lecture Notes in Computational Science and Engineering (LNCSE, volume 140)

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Table of contents (11 chapters)

  1. Front Matter

    Pages i-ix
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  2. Introduction

    • Oliver Sander
    Pages 1-8

  3. Preliminaries

    1. Front Matter

      Pages 9-9
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    2. Mathematical Concepts

      • Oliver Sander
      Pages 11-42

    3. Getting Started with Dune

      • Oliver Sander
      Pages 43-69

    4. The Design and Structure of Dune

      • Oliver Sander
      Pages 71-88

  4. The Core Modules

    1. Front Matter

      Pages 89-89
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    2. Grids and the Dune Grid Interface

      • Oliver Sander
      Pages 91-194

    3. Dune Grids on Distributed Machines

      • Oliver Sander
      Pages 195-236

    4. Linear Algebra with dune-istl

      • Oliver Sander
      Pages 237-299

    5. Local Finite Elements and the dune-localfunctions Module

      • Oliver Sander
      Pages 301-324

    6. Quadrature Rules

      • Oliver Sander
      Pages 325-331

  5. Solving Partial Differential Equations

    1. Front Matter

      Pages 333-333
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    2. Function Space Bases and Discrete Functions

      • Oliver Sander
      Pages 335-396

    3. Discretizing Partial Differential Equations with dune-pdelab

      • Oliver Sander
      Pages 397-496

  6. Back Matter

    Pages 497-616
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Keywords

About this book

The Distributed and Unified Numerics Environment (Dune) is a set of open-source C++ libraries for the implementation of finite element and finite volume methods. Over the last 15 years it has become one of the most commonly used libraries for the implementation of new, efficient simulation methods in science and engineering. Describing the main Dune libraries in detail, this book covers access to core features like grids, shape functions, and linear algebra, but also higher-level topics like function space bases and assemblers. It includes extensive information on programmer interfaces, together with a wealth of completed examples that illustrate how these interfaces are used in practice. After having read the book, readers will be prepared to write their own advanced finite element simulators, tapping the power of Dune to do so.


Reviews

“This book is very good for beginners for studying and learning finite element and finite volume methods in Dune.” (Albert Luo, zbMATH 1483.65004, 2022)

Authors and Affiliations

  • Institut für Numerische Mathematik, TU Dresden, Dresden, Germany

    Oliver Sander

About the author

Oliver Sander is professor for numerical analysis of partial differential equations and specializes in finite element methods for non-smooth and non-linear problems in continuum mechanics. He is a longtime Dune developer.


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