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| {{{#!rst Sage and cluster algebra workshop ================================= |
= Sage and cluster algebra workshop = |
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| The Sage and cluster algebra workshop will be hold at the University of Hannover, Germany, February 8-10 2012. |
The Sage and cluster algebra workshop will be held at the University of Hannover, Germany, February 8-10 2012. |
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| Requirements ------------ |
If you want to add anything to this page (including your name in the participants list), use the temporary login !ClustersDaysHannover and clustershannover2012. |
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| - I suggest that everyone attending uses laptop with | == Requirements == |
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| - linux or mac os system. - If you happen to use Windows, you might be able to install Sage using cygwin, but I don't think it is possible to install the Combinat queue. In that case one can also use the Sage-Combinat server at http://sage.lacim.uqam.ca. As this server is not completely reliable, this will not be the preferred way. |
* Everyone attending should have a laptop with * a Linux or Mac OS System (running one of OS X 10.4, 10.5, or 10.6). * For those running Windows on their machines (if you do not understand what these things mean, Julian can explain the implications of these to you): * you install Linux on your System * or you try to get sage-combinat to work inside a "virtual machine" * or use the Sage-Combinat server at http://sage.lacim.uqam.ca. As this server is not completely reliable, this will not be the preferred way. * It would also be appreciated if everyone tries to install Sage and the optional Sage-Combinat package before the course starts. For instructions see http://wiki.sagemath.org/combinat/Installation. We will meet on Tuesday afternoon (David: where and when?) to get sage installed on all the machines in some way. * Basic (or even a little more advanced) programming skills are not required but will be very helpful. |
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| - It would also be appreciated if everyone with linux or mac tries to install Sage and the optional Sage-Combinat package before the course starts. For instructions see http://wiki.sagemath.org/combinat/Installation. | == Further reading == |
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| - Basic (or even a little more advanced) programming skills are not required but will be very helpful. | * The Sage documentation http://sagemath.org/help.html#SageStandardDoc. * Many thematic tutorials on Sage can be found at http://combinat.sagemath.org/doc/thematic_tutorials/index.html. * The compendium for the cluster algebra and quiver package http://arxiv.org/abs/1102.4844. * For further references to background on cluster algebras and quivers see the references in the compendium. * Interesting lectures can be found at http://www.msri.org/web/msri/scientific/workshops/show/-/event/Wm550. |
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| Further reading --------------- - The Sage documentation http://sagemath.org/help.html#SageStandardDoc. - The compendium for the cluster algebra and quiver package http://arxiv.org/abs/1102.4844. - For further references to background on cluster algebras and quivers see the references in the compendium. A tentative schedule -------------------- |
== A tentative schedule == |
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| - Installing Sage and the optional Combinat package - Getting used to the Sage Notebook and the Sage command line - Using the documentation - How to get help - Using Sage and Sage-Combinat online |
* Installing Sage and the optional Combinat package * Getting used to the Sage Notebook and the Sage command line * Using the documentation * How to get help * Using Sage and Sage-Combinat online |
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| - Some programming in Python and in Sage (which is based on Python) - Using the Computer Algebra System Sage |
* Some programming in Python and in Sage (which is based on Python) * Using the Computer Algebra System Sage |
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| - First examples of the Cluster package and the interactive mode - Theoretical background - Working with finite and affine types - Connections to root systems and subword complexes |
* First examples of the Cluster package and the interactive mode * Theoretical background * Working with finite and affine types * Connections to root systems and subword complexes |
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| - Exploring clusters for cluster algebras - The classification of finite and mutation-finite cluster algebras - Playing with the package |
* Exploring clusters for cluster algebras * The classification of finite and mutation-finite cluster algebras * Playing with the package |
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| - More theoretical background like the bipartite belt - Limits of the package - Comparison with other packages on cluster algebras - Finding more limits of the package - Suggestions for further implementations - Discussion |
* More theoretical background like the bipartite belt * Limits of the package * Comparison with other packages on cluster algebras * Finding more limits of the package * Suggestions for further implementations * Discussion |
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| - open session | * open session |
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| Participants ------------ |
== Participants == |
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| Please let me know if you are attending. I will then add your name to the list | Please add your name to the list if you plan to attend! |
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| - David Pauksztello (local organizer) - Christian Stump (organizer) |
* David Pauksztello (local organizer) * Julian Rüth (might join on Thursday and Friday) * Christian Stump (organizer) |
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| }}} | == Discussion == space for discussions like interesting topics, open problems, ... Let me open with something not implemented but we have been asked to do: * implementation of quantum cluster algebras |
Sage and cluster algebra workshop
The Sage and cluster algebra workshop will be held at the University of Hannover, Germany, February 8-10 2012.
If you want to add anything to this page (including your name in the participants list), use the temporary login ClustersDaysHannover and clustershannover2012.
Requirements
- Everyone attending should have a laptop with
- a Linux or Mac OS System (running one of OS X 10.4, 10.5, or 10.6).
- For those running Windows on their machines (if you do not understand what these things mean, Julian can explain the implications of these to you):
- you install Linux on your System
- or you try to get sage-combinat to work inside a "virtual machine"
or use the Sage-Combinat server at http://sage.lacim.uqam.ca. As this server is not completely reliable, this will not be the preferred way.
It would also be appreciated if everyone tries to install Sage and the optional Sage-Combinat package before the course starts. For instructions see http://wiki.sagemath.org/combinat/Installation. We will meet on Tuesday afternoon (David: where and when?) to get sage installed on all the machines in some way.
- Basic (or even a little more advanced) programming skills are not required but will be very helpful.
Further reading
The Sage documentation http://sagemath.org/help.html#SageStandardDoc.
Many thematic tutorials on Sage can be found at http://combinat.sagemath.org/doc/thematic_tutorials/index.html.
The compendium for the cluster algebra and quiver package http://arxiv.org/abs/1102.4844.
- For further references to background on cluster algebras and quivers see the references in the compendium.
Interesting lectures can be found at http://www.msri.org/web/msri/scientific/workshops/show/-/event/Wm550.
A tentative schedule
Wednesday Feb 8:
10:15-13:00
- Installing Sage and the optional Combinat package
- Getting used to the Sage Notebook and the Sage command line
- Using the documentation
- How to get help
- Using Sage and Sage-Combinat online
14:15-17:00
- Some programming in Python and in Sage (which is based on Python)
- Using the Computer Algebra System Sage
Thursday Feb 9:
10:15-13:00
- First examples of the Cluster package and the interactive mode
- Theoretical background
- Working with finite and affine types
- Connections to root systems and subword complexes
14:15-17:00
- Exploring clusters for cluster algebras
- The classification of finite and mutation-finite cluster algebras
- Playing with the package
Friday Feb 10:
10:15-13:00
- More theoretical background like the bipartite belt
- Limits of the package
- Comparison with other packages on cluster algebras
- Finding more limits of the package
- Suggestions for further implementations
- Discussion
14:15-17:00
- open session
Participants
Please add your name to the list if you plan to attend!
- David Pauksztello (local organizer)
- Julian Rüth (might join on Thursday and Friday)
- Christian Stump (organizer)
Discussion
space for discussions like interesting topics, open problems, ...
Let me open with something not implemented but we have been asked to do:
- implementation of quantum cluster algebras