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I'm implementing a series of Partial Differential Equations solver / numerical algorithms. I'm trying to figure out what algorithms can be easily discretized + solved as linear systems.

Anyone have pointeres to books / articles on this?

Thanks!

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2 Answers

These kinds of problems were solved long ago by engineers. There are lots of commercial packages (e.g., NASTRAN, ANSYS, ABAQUS for linear problems; MARC, ANSYS, ABAQUS, and LS-Dyna for non-linear problems) and open source solvers (see mechanica.org) already available.

Before you try and re-invent that wheel, you might save yourself a long development and maintenance effort by looking into what's already available to you.

Lots of literature on the topic as well: Search Amazon.com for "finite element method" in books. The book by Tom Hughes is very good and inexpensive now that it's published by Dover. It'll give you a good idea of how to apply FEA to linear and non-linear problems.

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There are plenty of books at different levels, and providing a bibliography is useless without knowing your motivations and the actual kind of equations you want to solve. The methods are usually conceptually simple enough to be understood with the help of Google for the following keywords (non comprehensive):

  • Method of characteristics
  • Finite differences method
  • Finite elements method
  • Finite volumes method
  • Galerkin method
  • Spectral methods
  • Splitting methods
  • ADI

but note that the devil lies in the details. Some internet search will give you a feel for the variety of methods available, and some pointers to the litterature. There are also interesting methods based on wavelets or radial basis functions, but they are special cases of finite elements methods. If you give more info about the equations you want to solve, I can be more precise.

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