Differences between revisions 7 and 30 (spanning 23 versions)
Revision 7 as of 2011-09-20 21:38:29
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Editor: aly.deines
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Revision 30 as of 2011-09-25 19:03:30
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Editor: katestange
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Deletions are marked like this. Additions are marked like this.
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Aly, Jen, Diane Aly, Jenn, Diane, Ekin
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* [[attachment:KateWishList.sws]]
  * Wrap E.reduction(prime)(P) so that we can also use P.reduction(prime)
  * Implement E.reduction(p) for E defined over a p-adic fields
  * See what exactly is going on in E.global_minimal_model(), is it returning the unique restricted model? If so, update documentation
  * Implement Singular Weierstrass Equations and functionality similar to Elliptic Curves
     * make E.reduction(bad_prime) able to return this singular cubic object (maybe with a flag?)
     * change weierstrass model, addition of points, P.is_singular() to check if point is node/cusp, etc
Associated notebook file [[attachment:KateWishList.sws]]

Projects are listed by section below. No one is currently working on these ones:
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  * p-adic Tate's algorithm   * Put Kate's EDS class into sage (document properly)?
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* Put Kate's EDS class into sage (document properly)? === Restricted global_minimal_model() ===
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== Quick Sage Example == * Ticket needs review! [[http://trac.sagemath.org/sage_trac/ticket/11827|#11827]]
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{{{def reduction(self,p):
    """
    This is going to be documentation.
    This is a simple version of wrapping a function.
    The next step is to make a patch with this in the correct place in the code.
    """
    P = self
    E = P.curve()
    return E.reduction(p)(P)}}}
=== Wrapping E.reduction(prime)(P) ===

* Ticket needs review! [[http://trac.sagemath.org/sage_trac/ticket/11822|#11822]]

=== p-adics ===

* Implement E.reduction(p) for E defined over a p-adic fields: [[attachment:reduction of elliptic curves over padics.sws]]
  * This found a bug/needed enhancement which is now reported: [[http://trac.sagemath.org/sage_trac/ticket/11826|#11826]]

* Tate's algorithm [[attachment:Tate.sws]]

=== Singular Cubics ===

[[http://trac.sagemath.org/sage_trac/ticket/11823 | Trac ticket 11823 ]]

* Currently the patch on the trac server will allow one to define singular cubics.

{{{
sage: E = WeierstrassCubic([0,0,0,0,0])
sage: E.is_singular()
True
}}}

* Stuff to do:

  * Work through elliptic curve documentation, test functions that should work for singular curves, and update the following lists
  * Document the WeierstrassCubic and SingularWeierstrass classes we've created
  * Do the stuff on the list below
  * make E.reduction(bad_prime) able to return this singular cubic object
  * put the checks back in for EllipticCurve and SingularWeierstrass that it is actually (or is not) singular

* Functions that seem ok out of the box (so need only documentation adjustment/testing):

  * a_invariants() etc. (b, c also)
  * discriminant()
  * base_ring()
  * base_field()
  * is_on_curve()
  * coordinate_ring()
  * division_polynomial()
  * formal_group()
  * multiplication_by_m()?

* Functions that should do something appropriate but don't (need coding):

  * j_invariant() -- should probably return +infinity?
  * change_weierstrass_model() -- the new curve needs to pass flag
  * base_extend() -- the problem may be my patch didn't work
  * change_ring() -- the problem may be my patch didn't work
  * cardinality() -- for finite fields
  * local stuff....??
  * addition of points on a curve (seems to work, but needs to avoid singular point)

* Functions that we should write (new): done - see attached worksheet.

  [[attachment:singularcurves.sws]]
  * is_singular() (done) -- this is also accessible as an internal flag: self._is_singular
  * P.is_singular_point() -- for a point on the curve
  * singularity_type() -- tells you if it's a node or a cusp
  * singular_point() -- returns the node or cusp

Project Leader

Kate

Group Members

Aly, Jenn, Diane, Ekin

Project Description

Associated notebook file KateWishList.sws

Projects are listed by section below. No one is currently working on these ones:

  • Compute lots of examples to find guesses for bounds on "C"
  • Put Kate's EDS class into sage (document properly)?

Restricted global_minimal_model()

* Ticket needs review! #11827

Wrapping E.reduction(prime)(P)

* Ticket needs review! #11822

p-adics

* Implement E.reduction(p) for E defined over a p-adic fields: reduction of elliptic curves over padics.sws

  • This found a bug/needed enhancement which is now reported: #11826

* Tate's algorithm Tate.sws

Singular Cubics

Trac ticket 11823

* Currently the patch on the trac server will allow one to define singular cubics.

sage: E = WeierstrassCubic([0,0,0,0,0])
sage: E.is_singular()
True

* Stuff to do:

  • Work through elliptic curve documentation, test functions that should work for singular curves, and update the following lists
  • Document the WeierstrassCubic and SingularWeierstrass classes we've created

  • Do the stuff on the list below
  • make E.reduction(bad_prime) able to return this singular cubic object
  • put the checks back in for EllipticCurve and SingularWeierstrass that it is actually (or is not) singular

* Functions that seem ok out of the box (so need only documentation adjustment/testing):

  • a_invariants() etc. (b, c also)
  • discriminant()
  • base_ring()
  • base_field()
  • is_on_curve()
  • coordinate_ring()
  • division_polynomial()
  • formal_group()
  • multiplication_by_m()?

* Functions that should do something appropriate but don't (need coding):

  • j_invariant() -- should probably return +infinity?
  • change_weierstrass_model() -- the new curve needs to pass flag
  • base_extend() -- the problem may be my patch didn't work
  • change_ring() -- the problem may be my patch didn't work
  • cardinality() -- for finite fields
  • local stuff....??
  • addition of points on a curve (seems to work, but needs to avoid singular point)

* Functions that we should write (new): done - see attached worksheet.

  • singularcurves.sws

  • is_singular() (done) -- this is also accessible as an internal flag: self._is_singular
  • P.is_singular_point() -- for a point on the curve
  • singularity_type() -- tells you if it's a node or a cusp
  • singular_point() -- returns the node or cusp

days33/kates (last edited 2011-10-01 17:59:47 by ekin)