This julia module provides an interface to solvers for ordinary differential equations (ODEs) written in Fortran for solving initial value problems (IVP) of the form
x' = rhs(t,x), x(t₀) = x₀
or (for solvers supporting a "mass matrix" M)
M⋅x' = rhs(t,x), x(t₀) = x₀.
Additionally a boundary value solver (called bvpsol) is
supported for boundary value problems (BVP) of the form
x' = rhs(t,x), r = bc( xa, xb ) = 0
This julia module does not contain code for solving initial value problems, but this module does contain code for interacting with compiled Fortran-solvers. That's the reason, why this module is not called ODESuite.
Currently the following Fortran-solvers, written by Prof. E. Hairer and Prof. G. Wanner, are supported:
- dopri5: explicit Runge-Kutta method of order 5(4) due to Dormand & Prince
- dop853: explicit Runge-Kutta method of order 8(5,3) due to Dormand & Prince
- odex: GBS extrapolation-algorithm based on the explicit midpoint rule
- radau5: implicit Runge-Kutta method (Radau IIA) of order 5
- radau: implicit Runge-Kutta method (Radau IIA) of variable order between 5 and 13
- seulex: extrapolation-algorithm based on the linear implicit Euler method
see Software page of Prof. Hairer.
Also supported:
- bvpsol: a boundary value problem solver for highly nonlinear two point
boundary value problems using either a local linear solver or a global
sparse linear solver. Please note: The license for
bvpsolonly covers non commercial use, see License.
written by P. Deuflhard, G. Bader, L. Weimann, see CodeLib at ZIB.
Description: Calling the Solvers
The following features of the IVP-solvers are supported by this ODEInterface:
- providing an output function (e.g. for dense output or for event location) to the solvers
- providing mass- and jacobi-matrices for the solvers (with support for banded matrices)
- all the solvers' parameters for fine-tuning them, see Options for Solvers
- support for problems with "special structure", see special structure
This module needs the compiled Fortran solvers as shared libraries
(i.e. .so, .dylib or .dll files, respectively).
The build script of this module tries to do this compilation.
It was tested with:
- Linux (64bit) and
gfortran - MacOS and
gfortran - Windows 7 (64bit) and
gfortranof mingw-w64 (x86_64)
If you want to compile the solvers yourself (perhaps with different
options and/or a different compiler), then just call
ODEInterface.help_solversupport for further informations (help topics)
on how to compile the solvers and how to create shared libraries.
see ODEInterface.help_overview for an overview of some help topics.
The author of this julia module is
Dr. Christian Ludwig
email: ludwig@ma.tum.de
(Faculty of Mathematics, Technische Universität München)