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Revision 18 as of 2008-03-17 21:42:13
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Editor: CraigCitro
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 * (william) Decomposition:
    * three types:
        * ungrouped as simple abvars (default)
        * groups abvars
        * over End(A)
        * deprecate hecke_decomposition
   * (done) label function
   * create from label
Line 62: Line 53:

 * (william) Decomposition:
    * three types:
        * ungrouped as simple abvars (default)
        * groups abvars
        * over End(A)
        * deprecate hecke_decomposition
   * (done) label function
   * create from label

Modular Abelian Varieties

Code at http://trac.sagemath.org/sage_trac/ticket/2544

Todo on March 16

  • DONE (craig) Newforms issue: 
    •    sage: f = CuspForms(37).newforms('a')[0]
   sage: f.coefficients(10)
   ------------------------------------
   <type 'exceptions.TypeError'>             Traceback (most recent call last)
   sage: f.coefficients([2..10])
   ------------------------------------
   <type 'exceptions.AttributeError'>        Traceback (most recent call last)
   ...
   <type 'exceptions.AttributeError'>: 'Newform' object has no attribute '_compute'
  • DONE (william) This is completely wrong (the modabvar function on modular symbols assumes it's ambient!): 
    •    sage: m = ModularSymbols(37)[1]
   sage: m.modular_abelian_variety()
   Jacobian of the modular curve associated to the congruence subgroup Gamma0(37)
  • DONE (william) Move functions out of abvar_modsym_factor into abvar and delete that file.
  • DONE (william) Torsion subgroups:
    • (already done) Refactor base class
    • (done) Get implementation to work with defining data being (lattice, abvar); compute generators.
    • (done) Quotients by finite subgroup

  • DONE (craig) Implement f.number() for f a newform.

  • DONE-ish (craig) Compute the Hecke algebra image in End(A) and find a good clean way to represent for Hecke stable. New object that is a subring of End(A). Have methods like R.index_in(S).

  • DONE (craig) abelian varieties should cache their ambient modular abelian variety

Todo on Monday, March 17

  • (craig) Compute End(A):

    • for simple A_f (DONE)

    • in general.
    • disc of it.
    • ideals and annihilators
    • order in a ring of integers (for A simple)

    • given a ring R in EndAlg(A) where every element has integral charpoly, find an isogenous abelian variety with End(A) = R.

    • explicit isomorphism between HeckeAlgebra sitting in End(A) and a commutative ring

    • base extension of End(A)
  • (craig) Degeneracy maps
  • (william) Decomposition:
    • three types:
      • ungrouped as simple abvars (default)
      • groups abvars
      • over End(A)
      • deprecate hecke_decomposition
    • (done) label function
    • create from label
  • (william/craig) Morphisms:
    • Kernels
    • Cokernels
  • (william/craig) Isogenies:
    • Complementary -- invert matrix, clear denom.
    • Dual
  • (william) Intersection pairing
  • (?) Poincare Reducibility:
    • projection
    • quotients by abelian subvariety
  • (craig/william) Minimal isogeny degree for A, B simple.
  • (craig/william) Create a small mock database

Todo on Tuesday, March 18

  • Write doctests, etc., for everything above.
  • Optimize everything

Todo on Wednesday, March 19

  • Write up paper

modabvar (last edited 2017-03-22 01:04:56 by mrennekamp)