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2014-06-05, 16:56
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#12 | |
Dec 2002
32F16 Posts |
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I am testing some theories; maybe a client was used with different settings than all or most other participants, or a faulty machine was used to do some ranges. I redid 2000 exponents in half an hour on a single core in the 129M range and I am comparing it to the GIMPS database. I am still working on that in a spreadsheet. |
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2014-06-05, 17:44
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#13 | |
May 2013
East. Always East.
11·157 Posts |
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2014-06-05, 18:18
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#14 | |
Nov 2003
22·5·373 Posts |
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2014-06-06, 02:55
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#15 | |
Dec 2012
4268 Posts |
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2014-06-06, 10:53
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#16 | |
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Nov 2003
22×5×373 Posts |
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Such value judgments are made all the time as we are asked to review project applications submitted to the government for funding (e.g. NSF). We are also asked to make such judgments every time we referee a paper. If you want to know what things have value (to the mathematical community), I suggest you start by getting a PhD in mathematics. This will teach you what are the current topics of interest in mathematics. Read the literature. Read published papers. If you were to take a poll among professional number theorists you would find very little interest in finding isolated prime cofactors of Mersenne numbers. They are mere numerical curiosities. Of course, your time is always yours to waste as you desire. |
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2014-06-06, 13:59
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#17 |
"Victor de Hollander"
Aug 2011
the Netherlands
23×3×72 Posts |
I've looked at the graph many times and wondered the same thing. It has been discussed before in the following thread:
http://mersenneforum.org/showthread.php?t=17177&page=2 It might be due to candidates with multiple factors known. Of those candidates not the smallest factor is taken when creating the graph. Take for instance M124000111 and M124000561, both have 3 factors known. In the first one the biggest factor known is listed first on mersenne.ca , while in the second the smallest factor known: http://www.mersenne.ca/exponent.php?...0111;124000561 |
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2014-06-06, 15:42
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#18 | |
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May 2013
East. Always East.
11×157 Posts |
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Last fiddled with by TheMawn on 2014-06-06 at 15:44 |
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2014-06-06, 17:44
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#19 | |
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Nov 2003
22×5×373 Posts |
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have value. This requires advanced training and experience in mathematics. You are free to waste time any way you want. |
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2014-06-07, 00:00
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#20 |
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Dec 2012
1000101102 Posts |
I am genuinely curious in reading about what projects have value to the mathematical community and why. So far I have gathered that Home Primes are rubbish, and Cunningham numbers are fine. If the only way for me to read about these things is by getting a PhD, then I guess I will never learn them. Thank you for providing a bit of insight, anyway.
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2014-06-07, 02:13
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#21 | |
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Nov 2003
22·5·373 Posts |
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Do you understand that factoring (prime base) Cunninghams reveals the structure of finite fields? That factorizations of 2^n-1 are tied historically to perfect numbers, that the infinitude of Mersenne primes is an open question? Indeed, we don't even have a proof that 2^p-1 is composite i.o. for prime p. There are many "connections" between Cunningham numbers and problems in number theory. Try reading R. Guy's book. Mathematicians like to look at general settings for problems. Interest in factoring Fibonacci/Lucas numbers came from generalizing the Cunninghams to other linear recurrent sequences. Trying to find a prime cofactor of a very large Mersenne number isn't very interesting because they are ISOLATED CURIOSITIES. An attempt to factor ALL M_p for (say) p < 10^8 is so far out of computer range that it isn't under consideration. Finding small factors of M_p speeds the search for Mersenne primes by eliminating many numbers from having a full LL test (which is expensive). A *systemic* investigation for ALL M_p to find PRIME cofactors would be harder than GIMPS itself. The search for Mersenne primes continues because it is FUN. They also provide an incentive to develop new code and test innovations in computer hardware (e.g. GPUS) There is almost no other justification for it. Finding another Mersenne prime would not help us prove any theorems. If you really want to find (say) 10M digit primes it is far easier to generate them via Maurer's algorithm or using my improvement to Maurer's method. [Maurer's method doubles the size of the primes at each iteration; mine triples the size] It's not that Home Primes are rubbish. But they are UNCONNECTED to other parts of mathematics. They are just a recreational hobby. The factorizations that arise in the Cunningham project have little value. But they do make a handy BENCHMARK for working on and improving factoring algorithms. And they have historical interest. What makes something have value in math is mostly determined by a couple of things: (1) Is it connected to something else? Can the result be used elsewhere? (2) Does seeking the result yield new insight, ideas, techniques, algorithms, theorems? |
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2014-06-07, 03:10
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#22 |
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Dec 2012
4268 Posts |
Thank you for your response. I will do some reading on Maurer's algorithm, and I'll take a look at Richard Guy's book. I hope I will be able to understand them well enough.
Last fiddled with by Jayder on 2014-06-07 at 03:19 |
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