Differences between revisions 10 and 13 (spanning 3 versions)
Revision 10 as of 2007-01-25 15:47:33
Size: 3504
Comment:
Revision 13 as of 2007-04-05 13:26:21
Size: 3176
Editor: anonymous
Comment:
Deletions are marked like this. Additions are marked like this.
Line 15: Line 15:
 * Possible: Improve F4 implementation or start over in cooperation with some of the other developers working on F4
right now

 * Clean-up Ideal class (make sure a basis != ideal)
 * Possible: Improve F4 implementation or start over in cooperation with some of the other developers working on F4  right now
Line 30: Line 27:
 * Implement or wrap the [http://eprint.iacr.org/2006/251.pdf "Method of Four Russians"] for row reducing resp. inverting a dense boolean matrix
Line 33: Line 28:

 * [:Factory:cf.CF] makeover (avoid function calls, avoid news, deletes). Also restrict arithmetic to cf.CF (i.e. strongly type it) to avoid casting/coercion overhead.
Line 38: Line 31:
== Part of my Thesis (Diplom) ==
Line 59: Line 51:
I'm a computer science grad student from Bremen, Germany, with a strong interest in cryptanalysis, right now mainly algebraic attacks on block ciphers. I maintain a blog at http://www.informatik.uni-bremen.de/~malb/blog.php . I studied computer science in Bremen, Germany. I am applying to several grad schools right now to find a nice university to earn a PhD. I have a a strong interest in cryptanalysis, right now mainly algebraic attacks on block ciphers. I maintain a blog at http://www.informatik.uni-bremen.de/~malb/blog.php .

Martin Albrecht's (malb) SAGE projects

Stuff I'm working on

  • ntl.GF2E & ntl.ZZpX wrapping for finite fields

  • Speed up MPolynomials by linking to Singular (this is going to be an exciting experience on its own) or CoCoALib
  • Possible: Specialized MPolynomialGF2 class
  • Possible: Improve F4 implementation or start over in cooperation with some of the other developers working on F4 right now
  • Memory consumption analogous to cputime(). This is tricky because some grep on top et al. doesn't provide the necessary information. E.g. Python never ever frees memory while running, and we also might count shared libraries several times this way.
  • Memory profiling similar to %prun or hotshot. The memory profiler would provide hints which part consumes the most memory during a calculation.
  • Parallel sparse linear algebra to utilize all 16 cores at sage.math.washington.edu at once. :) It's either too hard for me (if there is no library) or simple as it would be just another library to expose.

  • [http://article.gmane.org/gmane.comp.mathematics.sage.general/193/ SAGEBot] is not dead yet.

  • [http://eprint.iacr.org/2006/224.pdf Generalizations of the Karatsuba Algorithm for Efficient Implementations]

  • NTL wrapper makeover (more SAGEish, avoid function calls, avoid news, deletes)

Done

  • My thesis deals with algebraic attacks on block ciphers namely the Courtois Toy Cipher. So I implemented several algebraic attack algorithms like XL, F4, and DR and a slightly optimized MPolynomial over GF(2) class. Though those might not be of general interest. I will push some of that stuff upstream.
  • Givaro is going to be in SAGE 1.5
  • Cputime class/function which wraps all the cputime() calls for all the subprocesses for convenience. So only one cputime(all=True) call would be sufficient. (I extended David Harvey's Profiler class for this)

  • Consider this example:

       1 sage: R1 = PolynomialRing(GF(2**8),2)
       2 sage: R2 = PolynomialRing(GF(2**8),2000)
       3 sage: x1=R1.gen()
       4 sage: y1=R1.gen(1)
       5 sage: x2=R2.gen()
       6 sage: y2=R2.gen(1)
       7 sage: time for i in range(1000): _ =x2*y2
       8 CPU times: user 1.58 s, sys: 0.03 s, total: 1.61 s
       9 Wall time: 1.63 #ring with 2000 variables
      10 sage: time for i in range(1000): _ =x1*y1
      11 CPU times: user 0.21 s, sys: 0.03 s, total: 0.24 s
      12 Wall time: 0.24 #ring with two variables
    
    This is due to the way multivariate polynomials in SAGE are represented. I want to come up with a more sparse representation which does not add zero to zero 1998 times in the second example. (I rewrote the polynomial representation to use dicts of dicts which map indices to exponents e.g., {{1:2}:3} represents 3*y^2 if y is the second variable in the ring.)

Other stuff

I studied computer science in Bremen, Germany. I am applying to several grad schools right now to find a nice university to earn a PhD. I have a a strong interest in cryptanalysis, right now mainly algebraic attacks on block ciphers. I maintain a blog at http://www.informatik.uni-bremen.de/~malb/blog.php .


CategoryHomepage

MartinAlbrecht (last edited 2011-11-10 13:47:27 by malb)