Differences between revisions 30 and 31
 ⇤ ← Revision 30 as of 2008-08-13 05:12:44 → Size: 1754 Editor: slabbe Comment: ← Revision 31 as of 2008-08-13 05:32:22 → ⇥ Size: 1832 Editor: slabbe Comment: Deletions are marked like this. Additions are marked like this. Line 5: Line 5: * ''Jakub Marecek'': '''Toy Integer Programming Solver'''. A very limited integer programming solver for instances with 3 variables, but complete with several primal heuristics in use today, and visualising the workings nicely. (Java & vtkHull?)    Further ideas: '''SVG and PDF Output for JyScript'''. A quick hack using Apache Batik (http://xmlgraphics.apache.org/batik/). '''TeX and PS and PDF Output for SAGE'''. A quick hack using Sketch (http://www.frontiernet.net/~eugene.ressler/). * ''Jakub Marecek'': '''Toy Integer Programming Solver'''. A very limited integer programming solver for instances with 3 variables, but complete with several primal heuristics in use today, and visualising the workings nicely. (Java & vtkHull?)  . Further ideas: '''SVG and PDF Output for JyScript'''. A quick hack using Apache Batik (http://xmlgraphics.apache.org/batik/). '''TeX and PS and PDF Output for SAGE'''. A quick hack using Sketch (http://www.frontiernet.net/~eugene.ressler/). Line 10: Line 8: Line 12: Line 9: Line 14: Line 10: Line 16: Line 11: Line 18: Line 12: * ''Sébastien Labbé'': '''Combinatorics on words'''. 1. Use colors and @interact of sage to study equations on words. 2. Use jyscript and jython to create a java applet to illustrate Christoffel words. * ''Sébastien Labbé'': '''Combinatorics on words'''. 1. Use colors and @interact of sage to study equations on words. 2. Use jyscript and jython to create a java applet to illustrate Christoffel words (http://wiki.sagemath.org/Days9Projects?action=AttachFile&do=view&target=ChristoffelWord.py).

# Sage days 9 Student Projects

• Mclean Edwards, Scott Zhou: BFGS Iterates. Plotting iterates, in an interactive manner, of the celebrated BFGS method applied to nonconvex and convex functions. Comparison of sage, jyscript/piscript, and our own python-based solutions.

• Jakub Marecek: Toy Integer Programming Solver. A very limited integer programming solver for instances with 3 variables, but complete with several primal heuristics in use today, and visualising the workings nicely. (Java & vtkHull?)

• Aurel Meyer: Symmetry groups of polytopes. Graphics to illustrate that all symmetry groups of regular polytopes are finite Coxeter groups.

• Yair Go1dberg: 3D Graphing in PiScript. Plotting 3 dimensional functions in PiScript.

• Steve Kieffer: Algebra sketches. Tools with which to produce sketches of a kind often drawn on blackboards to illustrate algebraic structures.

• Michael Lamoureux: EasyBalls. A 2D animation of colliding balls, maybe with gravity, maybe with E&M if I can get the 3D in there.

• Ryan Hoban: Hyperbolic Geometry. Using sage to draw geometric structures in the Hyperbolic plane.

• Sébastien Labbé: Combinatorics on words. 1. Use colors and @interact of sage to study equations on words. 2. Use jyscript and jython to create a java applet to illustrate Christoffel words (http://wiki.sagemath.org/Days9Projects?action=AttachFile&do=view&target=ChristoffelWord.py).

Days9Projects (last edited 2008-11-14 13:42:05 by anonymous)