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| This page contains our road map beyond the core implementation of cluster algebras as merged in Sage-5.9, see http://trac.sagemath.org/sage_trac/ticket/10298. | * Version 13-04-11 (First version from discussion in Minneapolis) This page contains our road map beyond the core implementation of cluster algebras as merged in Sage-5.9, see [[http://trac.sagemath.org/sage_trac/ticket/10298|#10298]]. === New features === ==== Easier ==== 1. generalized associahedra from cluster complexes (Christian) - http://trac.sagemath.org/sage_trac/ticket/10817 * Check why variable_class() is so much slower compared with cluster_class(). This might be because Laurent polynomials are slow in sage. (Christian) * Include new Quiver mutation types for Gale-Robinson Quivers (Gregg) - http://trac.sagemath.org/sage_trac/ticket/14444 * Add sum of quivers/cluster seed as disjoint union (Christian/Gregg) - http://trac.sagemath.org/sage_trac/ticket/14443 * Include new Quivers/cluster seed for square and triangular products of quivers (as in Keller's work on periodicity) (Christian/Gregg) - http://trac.sagemath.org/sage_trac/ticket/14443 * Implement Greedy bases - should already have this essentially done from the fall. (Gregg/Dylan?) - http://trac.sagemath.org/sage_trac/ticket/14445 * Implement snake graph / matrix multiplication formulas for cluster algebras from surfaces and friezes. (Gregg) Also see Dupont's sage code on friezes from http://www.math.jussieu.fr/~dupontg/files/strings.sage ==== Harder ==== 1. Allow labellings of the vertices of quivers and cluster seeds (i.e., provide a dict that contains this information, and which is used all over to work with cluster seeds) * in some situations, it might be nice to update variable names. E.g., for Plücker coords and SL[N]. * Finish mutation type checking for affine D_n (try to dove-tail with student describing all affine B/C/etc. quiver types) * Allow inputs of cluster algebras from surfaces (interface from ideal triangulations/bistellar flips as from John Palmeri or Robert Lipshitz) (Gregg?) - look at http://www.math.columbia.edu/~lipshitz/research.html#Programming * Work with the improved graph editor (once it exists?) * Weiwen Gu Decomposition algorithm - and then use this to classify cluster algebra from surface by genus, number of marked/boundary points, etc. (Emily/Al/Gregg) * Quantum cluster algebras - with Dylan Rupel * Work with cluster algebras as "algebras" and find bases or express elements in bases * d-vectors (using inductive formulas from Cluster Algebras IV?) * Jim Starx code for Quiver Representations and abilities to work with Auslander-Reiten translates, etc. ([[http://trac.sagemath.org/sage_trac/ticket/12630|#12630]]) * LP algebras (Thomas Lam and Pasha Pylyavskyy with Gregg?) * Q-system and T-system calculations as in Di Francesco and Kedem's work === Changes to the compendium === 1. Convert the compendium into an rst file and provide it as a thematic tutorial. * Change intro to describe downloading only sage >= 5.9 * Adding F-polynomials, G-vectors, C-vectors, etc. updates to principal_extension/restrictions, ... * Mutation type names (eg. V, W, ...) need to be updated * Generalized associahedra from cluster algebra in new ticket so that compendium accurately discusses these features * check if all class sizes are correct - see [[http://trac.sagemath.org/sage_trac/ticket/14048|#14048]] by Hugh Thomas and Frederic Chapoton * cut out groups_of_mutations() and probably other names need to be deleted or updated |
Cluster algebras road map beyond Sage-5.9
- Version 13-04-11 (First version from discussion in Minneapolis)
This page contains our road map beyond the core implementation of cluster algebras as merged in Sage-5.9, see #10298.
New features
Easier
generalized associahedra from cluster complexes (Christian) - http://trac.sagemath.org/sage_trac/ticket/10817
- Check why variable_class() is so much slower compared with cluster_class(). This might be because Laurent polynomials are slow in sage. (Christian)
Include new Quiver mutation types for Gale-Robinson Quivers (Gregg) - http://trac.sagemath.org/sage_trac/ticket/14444
Add sum of quivers/cluster seed as disjoint union (Christian/Gregg) - http://trac.sagemath.org/sage_trac/ticket/14443
Include new Quivers/cluster seed for square and triangular products of quivers (as in Keller's work on periodicity) (Christian/Gregg) - http://trac.sagemath.org/sage_trac/ticket/14443
Implement Greedy bases - should already have this essentially done from the fall. (Gregg/Dylan?) - http://trac.sagemath.org/sage_trac/ticket/14445
- Implement snake graph / matrix multiplication formulas for cluster algebras from surfaces and friezes. (Gregg)
Also see Dupont's sage code on friezes from http://www.math.jussieu.fr/~dupontg/files/strings.sage
Harder
- Allow labellings of the vertices of quivers and cluster seeds (i.e., provide a dict that contains this information, and which is used all over to work with cluster seeds)
- in some situations, it might be nice to update variable names. E.g., for Plücker coords and SL[N].
- Finish mutation type checking for affine D_n (try to dove-tail with student describing all affine B/C/etc. quiver types)
Allow inputs of cluster algebras from surfaces (interface from ideal triangulations/bistellar flips as from John Palmeri or Robert Lipshitz) (Gregg?) - look at http://www.math.columbia.edu/~lipshitz/research.html#Programming
- Work with the improved graph editor (once it exists?)
- Weiwen Gu Decomposition algorithm - and then use this to classify cluster algebra from surface by genus, number of marked/boundary points, etc. (Emily/Al/Gregg)
- Quantum cluster algebras - with Dylan Rupel
- Work with cluster algebras as "algebras" and find bases or express elements in bases
- d-vectors (using inductive formulas from Cluster Algebras IV?)
Jim Starx code for Quiver Representations and abilities to work with Auslander-Reiten translates, etc. (#12630)
- LP algebras (Thomas Lam and Pasha Pylyavskyy with Gregg?)
- Q-system and T-system calculations as in Di Francesco and Kedem's work
Changes to the compendium
- Convert the compendium into an rst file and provide it as a thematic tutorial.
Change intro to describe downloading only sage >= 5.9
- Adding F-polynomials, G-vectors, C-vectors, etc. updates to principal_extension/restrictions, ...
- Mutation type names (eg. V, W, ...) need to be updated
- Generalized associahedra from cluster algebra in new ticket so that compendium accurately discusses these features
check if all class sizes are correct - see #14048 by Hugh Thomas and Frederic Chapoton
- cut out groups_of_mutations() and probably other names need to be deleted or updated