Top
Back: divideUnits
Forward: findifs_example
FastBack:
FastForward:
Up: Singular Manual
Top: Singular Manual
Contents: Table of Contents
Index: Index
About: About this document

D.11.4 findifs_lib

Library:
findifs.lib
Purpose:
Tools for the finite difference schemes
Authors:
Viktor Levandovskyy, [email protected]

Overview:
We provide the presentation of difference operators in a polynomial, semi-factorized and a nodal form. Running findifs_example(); will demonstrate, how we generate finite difference schemes of linear PDEs from given approximations.

Theory: The method we use have been developed by V. Levandovskyy and Bernd Martin. The computation of a finite difference scheme of a given single linear partial differential equation with constant coefficients with a given approximation rules boils down to the computation of a Groebner basis of a submodule of a free module with respect to the ordering, eliminating module components.

Support: SpezialForschungsBereich F1301 of the Austrian FWF

Procedures:

D.11.4.1 findifs_example  contains a guided explanation of our approach
D.11.4.2 decoef  decompose polynomial P into summands with respect to the number n
D.11.4.3 difpoly2tex  present the difference scheme in the nodal form
D.11.4.4 exp2pt  convert a polynomial M into the TeX format, in nodal form
D.11.4.5 texcoef  converts the number n into TeX
D.11.4.6 npar  search for 'n' among the parameters and returns its number
D.11.4.7 magnitude  compute the square of the magnitude of a complex expression
D.11.4.8 replace  replace in s all the substrings with a given string
D.11.4.9 xchange  exchange two substrings in a given string
See also: finitediff_lib; latex_lib.


Top Back: divideUnits Forward: findifs_example FastBack: FastForward: Up: Singular Manual Top: Singular Manual Contents: Table of Contents Index: Index About: About this document
            User manual for Singular version 4.3.2, 2023, generated by texi2html.