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2013-08-28, 09:45
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#309 |
"Åke Tilander"
Apr 2011
Sandviken, Sweden
2·283 Posts |
Next MMs
George, I wonder if you have any plans to develop the mmff in the future to cover some of the MMs bigger then MM127? For instance MM521, MM607, MM1279, MM2203 and MM2281?
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2013-08-28, 16:35
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#310 |
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P90 years forever!
Aug 2002
Yeehaw, FL
2·53·71 Posts |
Sorry, there are no further development plans for mmff
I stopped at MM127 because the grammar school multiplication used in mmff probably is not the best choice for MM521. Best is likely Karatsuba. Also, register pressure will be pretty severe. This makes further development non-trivial. Last fiddled with by Prime95 on 2013-08-28 at 16:44 |
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2013-08-29, 13:41
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#311 |
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"Åke Tilander"
Apr 2011
Sandviken, Sweden
23616 Posts |
Thank you George for the information. I really hope that you, in a few years time, will consider extending mmff if and when you have any spare time. It's a great program. I appreciate it very much!
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2013-08-29, 18:56
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#312 | |
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Banned
"Luigi"
Aug 2002
Team Italia
32·5·107 Posts |
Quote:
 Luigi Last fiddled with by ET_ on 2013-08-29 at 18:56 |
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2014-02-28, 17:01
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#313 |
"Marv"
May 2009
near the Tannhäuser Gate
12168 Posts |
mmff for fermatfactor < 29
George,
As per Luigi's request, I am starting to compile some programs for Mac and am doing mmff first and was wondering what is the reason for the lower limit of fermatfactor of 29? Is it just because there is some coding work to be done or is there a technical or mathematical reason? Just wondering. Thanks for the great program, BTW. -Marv |
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2014-02-28, 20:37
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#314 |
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P90 years forever!
Aug 2002
Yeehaw, FL
2·53·71 Posts |
I'm not positive. I probably felt ECM is a better choice for small Fermats.
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2014-03-02, 15:58
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#315 | |
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"Marv"
May 2009
near the Tannhäuser Gate
2×3×109 Posts |
Quote:
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2014-03-02, 19:15
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#316 | |
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P90 years forever!
Aug 2002
Yeehaw, FL
2·53·71 Posts |
Quote:
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2014-06-22, 02:19
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#317 |
"Serge"
Mar 2008
Phi(4,2^7658614+1)/2
36×13 Posts |
mmff v. 0.28 source
Minor update -- v 0.28:
What's new: The next set of 32 N values in k*2^N+1 Fermat factor testing is available. The highest testable N is now 223, and the highest bitlevel is 252. Practically, because k<=2^45 are already tested, the highest usable N is 207 (was 175 is version 0.27), but double-checking may find something (known Fermat factors for N=217 (Suyama, 1980) and N=207 (Keller, 1984) are recovered as one of the QC tests). As always, previous savefiles will not work with 0.28 unless the -nocheck argument is used. All seven new kernels are thoroughly tested, but let me know if you will get errors anyway. Keep the factors coming! |
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2014-06-23, 10:41
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#318 | |
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Banned
"Luigi"
Aug 2002
Team Italia
10010110011112 Posts |
Quote:
2 questions: - What do you mean with "The highest testable N is now 223, and the highest bitlevel is 252. Practically, because k<=2^45 are already tested, the highest usable N is 207"? The previous limit of mmff-0.27 was N<174; is the actual limit equal to N<208? - Our previous version was limitd to k>224. Does this limit still stand? Luigi |
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2014-06-23, 10:53
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#319 | |
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Banned
"Luigi"
Aug 2002
Team Italia
32×5×107 Posts |
Quote:
Thank you  Luigi |
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