In some of the exercises throughout the tutorial you will have to implement
code in Octave or Matlab. Therefore you can work on one of the computers
in Room 519 in Kopfgebäude 5th floor. Ask the system administrator Oliver Koch
for an account if you don't have one (email: koch @ numa.uni-linz.ac.at).
Probably you prefer to implement on your own computer. If you do not have Octave or
Matlab installed, you may download and install Octave for free. Please, follow
this link.
P. G. Gruber and J. Valdman, Solution of one-time-step problems in elastoplasticity by a slant Newton method, SIAM Journal on Scientific Computing, submitted. [ps.gz, pdf]
P. G. Gruber and J. Valdman, Newton-like solver for elastoplastic problems with hardening and its local super-linear convergence, SFB F013 Report No. 06, Johannes Kepler University Linz, Austria, 2007. [ps.gz, pdf]
P. G. Gruber and J. Valdman, New numerical solver for elastoplastic problems based on the Moreau-Yosida theorem, SFB F013 Report No. 05, Johannes Kepler University Linz, Austria, 2006. [ps.gz, pdf]