Rehuel is a relatively simple C++11 library for solving ordinary differential equations. It is named after the Dutch mathematician Rehuel Lobatto.
The goals of the project are two-fold: On the one hand, we aim to provide a high quality solver for various kinds of methods that can be drag-and-dropped into other projects, similar to Matlab's ode45 and ode15s. On the other hand, the project also provides me with an interesting test bed for the various methods out there.
For a quick tutorial/guide, see the guide in \ref guide.md
Non-stiff:
DORMAND_PRINCE_54 (A good default explicit RK method (think ode45))
CASH_KARP_54 (Ditto, might be optimized later to "fail early"
on moderately stiff systems)
Moderately stiff:
It depends really. Try DORMAND_PRINCE_54, and monitor your RAM. If you are
running out of RAM and/or the solution takes forever, integrate over a
shorter interval. If the solution still takes too long, try a stiff solver.
Very stiff:
RADAU_IIA_53 (this should probably be your default stiff solver)
RADAU_IIA_95 (if you need more strict tolerance or a lot of steps)
LOBATTO_IIIC_43 (similar to RADAU_IIA_53)
LOBATTO_IIIC_85 (similar to RADAU_IIA_85)
In examples/example_equations.cpp we provide a small driver program that can apply various methods to various problems so you can get a feel for the strengths and weaknesses of each method.
The library needs some compiling but a lot of it is defined in headers. The Makefile creates a shared library for linking from other projects.
Its only dependency is a C++11-capable compiler and the Armadillo library.
See examples/example_equations.cpp for code that applies the methods to some test problems. There are also some tests in the test/ directory. These directories both have their own Makefile.
You can use Doxygen to generate the source documentation.
Most of the design and choices are based on the following excellent resources by Ernst Hairer and Gerhard Wanner:
- Stiff differential equations solved by Radau methods
- Solving Ordinary Differential Equations I
- Solving Ordinary Differential Equations II