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Twitter Feed: http://twitter.com/?q=SageMathREU#!/SageMathREU <-- Use username: SageMathREU
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           * http://sagenb.org/javascript/graph_editor2/index.html
           * https://developer.mozilla.org/en/canvas_tutorial
           * Demo: http://sagenb.org/javascript/graph_editor2/index.html
           * Best HTML5 canvas tutorial: https://developer.mozilla.org/en/canvas_tutorial
           * Graph editor source code: https://bitbucket.org/radokirov/js-graph-editor
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  * Aly Deines -- something about global minimal models at 3:10pm. (But we need to figure out where).   * Aly Deines -- Global minimal models at 3:10pm. http://nt.sagenb.org/home/pub/62/
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  * William's idea for determining whether there is a p-isogeny: http://nt.sagenb.org/home/pub/61/
  * Elkies tables that have isogeny examples: http://www.math.harvard.edu/~elkies/nature.html
  * William: Added [[http://code.google.com/p/uw-nt-reu2011/source/detail?r=c13b6e9fa71d1bdeadee1ceb2c738aa0cebf6456|initial template version of our goal paper]] to the repository.
  * Here [[attachment:modifiedellipticcurvedatafile.txt]] is an initial table that adds |T|, signs, ord(disc), ord_(j), Tamagawa numbers, and Kodaira symbols to the data at http://wstein.org/Tables/hmf/sqrt5/finding_weierstrass_equations/matched.txt
  * Here is the paper from the 2010 REU: [[attachment:Prime_Isogenies_Over_Number_Fields.pdf|On the Irreducibility of Galois Representations Associated to Elliptic Curves]]
  * Ashwath: Here is some very preliminary code that confirms William's idea to check if a certain curve has odd prime isogenies using the reducibility of the characteristic polynomial of Frobenius at primes of good reduction: http://nt.sagenb.org/home/pub/63
  * The isogeny source code in Sage by Dan Shumow: http://nt.sagenb.org/src/schemes/elliptic_curves/ell_curve_isogeny.py
  * Documentation of Shumow's isogeny code: http://sagemath.org/doc/reference/sage/schemes/elliptic_curves/ell_curve_isogeny.html
  * Computing isogeny degrees and filling out the norm conductor 31 isogeny class: http://nt.sagenb.org/home/pub/65/
  * Project idea: For each aplist in http://wstein.org/Tables/hmf/sqrt5/ellcurve_aplists.txt find all possible isogeny degrees. This would be extremely interesting!!
  * Hilbert modular forms: http://code.google.com/p/purplesage/source/browse/#hg%2Fpsage%2Fmodform%2Fhilbert%2Fsqrt5%253Fstate%253Dclosed
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  * Official start meeting at 12pm at [[http://goo.gl/msJue|Pa$eo]] in Fremont. 4225 Fremont Ave N.
  * Work afterwards in Sage lab starting 2pm.
  * For each aplist in http://wstein.org/Tables/hmf/sqrt5/ellcurve_aplists.txt find all possible isogeny degrees. [[attachment:isogeny_degrees.txt|Isogeny Degrees]] The worksheet is published here: http://nt.sagenb.org/home/pub/70
  * Ashwath, Ben, Andrew: We have re-written the prime isogeny code from yesterday, making it significantly faster: http://nt.sagenb.org/home/pub/69/
  * Note: Initial curve data file above ([[attachment:modifiedellipticcurvedatafile.txt]]) is updated to have 0s where the ord(j) list is empty so it is easier to parse
  * Paul has written the code for nosqlite to create a database for the elliptic curves. It is currently uploaded to the sage clusters, in the folder databases, labeled small_nosqlite.
  * Andrew: I made a short write-up on the ordering scheme that I was working on. It very briefly mentions the background used with specialized definitions. http://wstein.org/home/ohanar/sqrt5/element_ordering/element_ordering.pdf
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  * 10am in the Sage lab for status reports and planning.
  * Here's a table of isogenies. They were computed using just the ap values, and still include some really really big isogenies: [[attachment:IsogenyTable4.txt]] -- it corresponds to the curves in this table: [[attachment:matched.txt]]. This version does not have spaces in the isogenies column.
  * Computed some isogeny graphs for specific curves using division polynomials. Task: Find an algorithm to do the same.
  * Explicit isogeny finding worksheet: http://nt.sagenb.org/home/pub/71/
  * Here's a table of isogenies that includes the a-invariants for easy reference. [[attachment:IsogenyTable7.txt]]
  * Worksheet which uses William and Ashwath's code to check which isogeny degrees appearing in the table above are actually valid. http://nt.sagenb.org/home/pub/72/
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  * Code for finding isogeny classes: http://nt.sagenb.org/home/pub/76/ Notice that it has a rating of 4.0!
  * 2:30 pm - Talk by Ashwath on computing prime isogenies of Elliptic Curves.
  * Progress on graphing isogeny classes: http://nt.sagenb.org/home/pub/79/
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  * 2:10pm in Sieg Hall -- [[/20110629-greenberg|talk by Ralph Greenberg on Galois Representation]]
  * Created updated text file (Galois paired table) [[attachment:Paired_Table.txt]]
  * Elkies algorithm: [[/20110629-elkies|see here]]
  * Here's our isogeny class/adjacency matrix data for N up to 3205! [[attachment:isogeny_partial_output.txt]]
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  * here is an updated list of all possible valuables calculated so far, now with labels! [[attachment:updated_list.txt|Table]]
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  * NOTE! ord(j) computed incorrectly if E.j_invariant = 0. Should be a quick fix to update the database. Here's a modified list for the *original* curves in matched.txt: [[attachment:modifiedjinv3.txt]]
  * Related: Here is a modified version of the table provided last Thursday: [[attachment:modifiedellipticcurvedatafile2.txt]]
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  * Here is a table listing some new curves found by twisting the ones in our original list: [[attachment:new_curves_via_twist.txt]]. Still need to check if any in the table are isomorphic or isogenous to each other. There are not too many in the list, but it was created by twisting our known curves by x + ya, where x and y only vary between -5 and 5, so there is potential for more.
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  * Here is the updated list of unknown curves still needed to be found for norm up to 1000.
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  * Status report talks in [[http://washington.edu/maps/?PCAR|Paccar 190]]. 3-5pm.
  * 3:00 Ashwath: Heegner points
  * 3:20 Ari: Galois Cohomology
  * 3:40 Andrew: Cremona's tables (?)
  * 4:00 Paul: Database
  * 4:20 Ben: Families with torsion
  * 4:40 Jon: Curves with presumed torsion
  * 5:00 William: Status of our paper

  * Notes on twisting and torsion families: [[attachment:TorsionFamilies.pdf]]
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  * Here is a list of curves found thus far using ModJon: [[attachment:new_curves_found_via_modjon.txt]]
  * Here is a write-up about the Mod-Jon method: [[attachment:FindingCurvesAPs_updated.pdf]]
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  * Here is a new list of curves found thus far using ModJon: [[attachment:new_curves_found_via_modjon_version2.txt]]
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  * Here is the list of unfound curves: [[attachment:Unmatched.txt]]
  * List of curves found so far via Mod-Jon: [[attachment:MJFound_1.txt]]

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  * Here is the list of unmatched curves for the norm conductor range 1k-2k: [[attachment:Unmatched2k.txt]]
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  *Here is a list of curves found so far (1000 < N < 2000) using ModJon: [[attachment:Curves_1000-2000_modjon.txt]]
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  *Here is the current list of unfound curves up to N = 2000: [[attachment:CurrentUnfound_49curves.txt]]
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  * FOUND CURVES: [[attachment:Curves_1000-2000_FOUND_8-5-11.txt]]
  * MISSING CURVES: [[attachment:Curves_1000-2000_MISSING_8-5-11.txt]]
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  * FOUND CURVES (no ap-values or spaces): [[attachment:Curves_1000-2000_FOUND_8-8-11_no_aps.txt]]
  * Re-ordered ap-values for missing curves: [[attachment:Missing_aps_corrected.txt]]
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  * Here is the list of all curves with conductors up to norm 1000. [[attachment:List]]
  * Isogeny bound computations [[attachment:isogeny_bound_computations.txt]]
  * Updated list of found curves: [[attachment:Curves_FOUND_8-9-11.txt]]
  * Updated list of missing curves: [[attachment:Curves_MISSING_8-9-11.txt]] (note: the ap-values in this list are correctly ordered, but the aps in the list of found curves are still ordered using the old system)
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  * Updated list of found curves: [[attachment:Curves_2000_Found_8-10-11.txt]]
  * Updated list of missing curves: [[attachment:Curves_Missing_8-11-10.txt]]
  * Here is the list of curves (with labels) up to norm conductor 1000. [[attachment:Completed.txt]]
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     * Code for finding Silverman's upper bound on difference between naive and canonical heights of points on an elliptic curve: http://nt.sagenb.org/home/pub/139/
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  * Finally, here is the list of ALL curves up to rank 2 curve. [[attachment: Curves2k]]

Twitter Feed: http://twitter.com/?q=SageMathREU#!/SageMathREU <-- Use username: SageMathREU

Week 1

Monday, June 20

Tuesday, June 21

Wednesday, June 22

Thursday, June 23

Friday, June 24

  • 10am in the Sage lab for status reports and planning.
  • Here's a table of isogenies. They were computed using just the ap values, and still include some really really big isogenies: IsogenyTable4.txt -- it corresponds to the curves in this table: matched.txt. This version does not have spaces in the isogenies column.

  • Computed some isogeny graphs for specific curves using division polynomials. Task: Find an algorithm to do the same.
  • Explicit isogeny finding worksheet: http://nt.sagenb.org/home/pub/71/

  • Here's a table of isogenies that includes the a-invariants for easy reference. IsogenyTable7.txt

  • Worksheet which uses William and Ashwath's code to check which isogeny degrees appearing in the table above are actually valid. http://nt.sagenb.org/home/pub/72/

Week 2

Monday, June 27

Tuesday, June 28

Wednesday, June 29

Thursday, June 30

  • here is an updated list of all possible valuables calculated so far, now with labels! Table

Friday, July 1

  • NOTE! ord(j) computed incorrectly if E.j_invariant = 0. Should be a quick fix to update the database. Here's a modified list for the *original* curves in matched.txt: modifiedjinv3.txt

  • Related: Here is a modified version of the table provided last Thursday: modifiedellipticcurvedatafile2.txt

Week 3

Monday, July 4

  • Here is a table listing some new curves found by twisting the ones in our original list: new_curves_via_twist.txt. Still need to check if any in the table are isomorphic or isogenous to each other. There are not too many in the list, but it was created by twisting our known curves by x + ya, where x and y only vary between -5 and 5, so there is potential for more.

Tuesday, July 5

Wednesday, July 6

Thursday, July 7

  • Here is the updated list of unknown curves still needed to be found for norm up to 1000.

Friday, July 8

Week 4 (William in Budapest this week)

Monday, July 11

Tuesday, July 12

Wednesday, July 13

Thursday, July 14

Friday, July 15

Week 5

Monday, July 18

  • Status report talks in Paccar 190. 3-5pm.

  • 3:00 Ashwath: Heegner points
  • 3:20 Ari: Galois Cohomology
  • 3:40 Andrew: Cremona's tables (?)
  • 4:00 Paul: Database
  • 4:20 Ben: Families with torsion
  • 4:40 Jon: Curves with presumed torsion
  • 5:00 William: Status of our paper
  • Notes on twisting and torsion families: TorsionFamilies.pdf

Tuesday, July 19

Wednesday, July 20

Thursday, July 21

Friday, July 22

Week 6

Monday, July 25

Tuesday, July 26

Wednesday, July 27

Thursday, July 28

Friday, July 29

  • Here is the list of unmatched curves for the norm conductor range 1k-2k: Unmatched2k.txt

Week 7

Monday, August 1

Tuesday, August 2

Wednesday, August 3

Thursday, August 4

Friday, August 5

Week 8

Monday, August 8

Tuesday, August 9

Wednesday, August 10

Thursday, August 11

Friday, August 12

  • Finally, here is the list of ALL curves up to rank 2 curve. Curves2k

reu/2011/schedule (last edited 2011-08-12 22:36:55 by psharaba)