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Math Supercomputing

New Possible Record Prime Number Found 307

An anonymous reader writes "The Great Internet Mersenne Prime Search (GIMPS), a distributed computing project, has probably found a new record prime number. Two verification runs have started; no errors were found in the initial calculation. The number of primes found lately, four in just over two years, is higher than previously expected. This prime is just under 10 million digits, which means that one of the participants in the project makes a good chance to obtain his or her part of the EFF prize of $100,000 for the first prime of over 10 million digits in the coming months. In 2000, one of the Gimps participants collected the $50,000 reward offered."
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New Possible Record Prime Number Found

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  • /.ed (Score:5, Funny)

    by dascandy ( 869781 ) <dascandy@gmail.com> on Tuesday December 20, 2005 @07:25AM (#14297707)
    Their computers can calculate a prime number with 10,000,000 digits, but they can't even serve a webpage? Jeez... where are your priorities?
    • Re:/.ed (Score:5, Funny)

      by meringuoid ( 568297 ) on Tuesday December 20, 2005 @07:28AM (#14297716)
      Their computers can calculate a prime number with 10,000,000 digits, but they can't even serve a webpage?

      Ah, but... a number of ten million digits? That has to take up ~ 10MB of disk space. And now the link's been posted to /., where every lunatic is now clicking on it and thinking that by some bizarre geek savant superpower they're going to somehow look at it and go 'yup, that's prime all right' or something...

      No wonder the server's a smoking crater now :)

      • Re:/.ed (Score:3, Funny)

        10MB of disk space? No problem just gzip the file ... oh no wait never mind!
      • Re:/.ed (Score:5, Informative)

        by dascandy ( 869781 ) <dascandy@gmail.com> on Tuesday December 20, 2005 @07:45AM (#14297782)
        Well... the server is at mersenne.org. I somehow expect them to have found a mersenne prime, which with 10 million digits takes about 15 bytes to store in plain-text, and only 4 if you store it efficiently:

        2^35000000-1 => that's in normal form. You only have to store the exponent, the rest is constant. Since it's smaller than 4294967296 you can store it in a normal int (4 bytes), and since it's larger than 16777216 you can't store it in 3 bytes.
    • Re:/.ed (Score:5, Interesting)

      by moro_666 ( 414422 ) <kulminaator@ g m a i l . com> on Tuesday December 20, 2005 @08:05AM (#14297852) Homepage

      Their computers can calculate a prime number with 10,000,000 digits, but they can't even serve a webpage? Jeez... where are your priorities?


        Next slashdot news will be how slashdotters managed to wreck the hard disk in the server that contained the 10 million digit prime :p
      Now that would be real ./ing power.

        I think it's kindof annoying to install that distributed computing software everywhere where you'd like to use the spare cpu time. My homies mess up their windows machine so often that i've stopped trying to keep anything running there (a machine online 24/7 that shows a web browser and msn for 3-4 hours a day, what a waste).

        Can't they put it in applets that i can run from their webpages ? Surely Java is a bit slower than C in algebra (not really as much as you think, on very simple math tests the difference was about 10-20% last time i measured), so a C client should be available, but a web based client which i can just run in any java enabled browser would definitely increase the userbase.

  • 10 million? (Score:3, Funny)

    by Walterk ( 124748 ) <slashdot@duble t . org> on Tuesday December 20, 2005 @07:26AM (#14297708) Homepage Journal
    Is that all? It'll be real news when it's 42 million.
    • by meringuoid ( 568297 ) on Tuesday December 20, 2005 @07:32AM (#14297724)
      42 million? How unimaginative. Personally, I'd like to see a huge prime with a prime number of digits...
    • Re:10 million? (Score:2, Interesting)

      Can someone explain to me why any of this matters?

      Is this just more number nerdery, or is there a practical application for such vast and unfathomable numbers?
      • Re:10 million? (Score:2, Informative)

        by llamaguy ( 773335 )
        Yep. You know those fancy encryption schemes that stop the evil criminal soviet fraudsters stealing your credit card numbers? They're based on the fact that, while finding out the product of two primes is easy, finding those two primes again from the given product is harder than it looks for big primes. A 'public key' is the product of two suitably large primes, and a 'private key' is those two primes.

        Of course, we're still only on 256-bit encryption right now. Should be a while until however-many-bits-t
        • But this really doesn't help at all in cryptography. So we can spend thousands of computing hours finding big primes with known algorithms. What we really need would either be new algorithms which could find large primes as this, or a new algorithm to factor large primes in order to defeat encryption. Another thought is, what use for encryption is using large primes such as these. If we decide we are now using 1,000,000 bit primes for encryption, because we have an easy way of finding them, then maybe
      • Re:10 million? (Score:2, Interesting)

        by certel ( 849946 )
        I was thinking the same thing. Maybe they could use the computers for other things, such as gene mapping and quit giving away thousands of dollars for something like this.
      • You can get a new perfect number out of this (2^(n-1) * (2^n)-1), but other than that, there's not much point. Maybe cryptography.
  • by ReformedExCon ( 897248 ) <reformed.excon@gmail.com> on Tuesday December 20, 2005 @07:26AM (#14297709)
    I am curious. Is this the next sequential prime after the previous one? Is it possible that there are other primes between this new one and the one found before it?
    • It's definitely possible, and what's more they wouldn't know - they're only going for the easy pickings of Mersenne primes
    • by Moby Cock ( 771358 ) on Tuesday December 20, 2005 @07:43AM (#14297776) Homepage
      It is possible, and in fact, likely. Although they will not be Mersenne Primes. A Mersenne Prime is of the form 2^n - 1, not all prime numbers follow that form (e.g. 11)
    • by Anonymous Coward
      There are almost certainly a very large number. Mersenne primes are extremely rare compared to ordinary primes.

      The Prime Number Theorem [wolfram.com] tells us that in a region of d around a large number n, there are approximately d/ln n primes. For a 9 million digit n, ln n is about 21 million, so one expects to see one prime every 21 million numbers. For example, between 10^9000000 and 1.1*10^9000000, one expects 5*10^8999991 prime numbers.

    • '' I am curious. Is this the next sequential prime after the previous one? Is it possible that there are other primes between this new one and the one found before it?''

      If p is a prime, then the distance to the next smaller prime is on the average about ln (p). Cases where the gap to the next smaller prime is more than (ln (p))^2 seem to be exceedingly rare. So yes, there are gazillions of primes between this one and the next smaller one.

      There may be no Mersenne primes between this one and the previously la
    • I am curious. Is this the next sequential prime after the previous one? Is it possible that there are other primes between this new one and the one found before it?

      It is for all intents and purposes certain. The prime number theorem will give the approximate density of primes, even though it can't locate them exactly so we know there are many many more primes out there. For the rest of the primes we have no efficient way of determining if they are prime. We have very fast algorithms to determine if a number
  • Mersenne Primes (Score:5, Insightful)

    by BarryNorton ( 778694 ) on Tuesday December 20, 2005 @07:26AM (#14297710)
    Bah, show me a new non-Mersenne [wolfram.com] prime and I'll be impressed...
    • Re:Mersenne Primes (Score:3, Interesting)

      by fatphil ( 181876 )
      Your wish is my command.

      Let Phi(n,x) be the n-th cyclotomic polynomial evaluated at x.
      Therefore Mersenne primes are Phi(p,2) for some p.
      I found the prime Phi(98304,1063662)=1063662^32768-1063662^16384+1 the other day. However, it is _tiny_ with only 197000 digits (something like the 240th largest in the world).

      Lots of people are finding large prime numbers - if you find one over ~64000 digits, it'll be one of the largest 5000 known primes.
      See http://primepages.org/ [primepages.org]
  • Why prime numbers ? (Score:5, Interesting)

    by Alarash ( 746254 ) on Tuesday December 20, 2005 @07:32AM (#14297723)
    I'm just wondering, what's the point to calculate the largest possible prime number? I mean, there are a lot of distributed computing projects that sound more... useful : Climate Prediction [climateprediction.net] (Hello Katrina), research protein-related diseases [scripps.edu] or another [bakerlab.org] doing wider research on human diseases. That's just to name a few projects using the Berkeley Open Infrastructure for Networks [berkeley.edu].

    So I'm not being sarcastic here, my genuine questions is : why should I spend my free computing power on calculating prime numbers instead of research to cure cancer?

    • by Down8 ( 223459 )
      As the item suggests: to get a $100,000. :^)

      -bZj
    • To be honest. Why not? Sure a cure for cancer would be great, but for some, research for the sake of research is interesting. I am curious as to what Mersenne primes are calculable. Is that not sufficient justification?
      • What's the point of a large mersenne prime? It is useless. Mersenne primes are easy to calculate and completely pointless for encrytion. Find me a real use for such a number and then I'll care until then I say SO WHAT.
    • by meringuoid ( 568297 ) on Tuesday December 20, 2005 @07:41AM (#14297764)
      So I'm not being sarcastic here, my genuine questions is : why should I spend my free computing power on calculating prime numbers instead of research to cure cancer?

      Because you like numbers and think big primes are cool.

      Seriously.

      This is pure mathematics, it's number theory. Don't expect practical applications; if they turn up, they're a nice bonus, but they're not why you do mathematics.

      There may actually be a practical result of this research eventually; the number theory surrounding primes is closely related to the security of the RSA cipher that most of the internet's commerce relies on. It's conceivable that this kind of work might eventually lead to a breakthrough in cryptanalysis. But I wouldn't count on it.

      • There may actually be a practical result of this research eventually; the number theory surrounding primes is closely related to the security of the RSA cipher that most of the internet's commerce relies on. It's conceivable that this kind of work might eventually lead to a breakthrough in cryptanalysis. But I wouldn't count on it.
        Thanks, that's all I wanted to know.
      • I am all for 33,000,000 bit encryption. That ought to keep the NSA's brute force decryption of my subversive activities spinning for a few millenia.
      • This is pure mathematics, it's number theory. Don't expect practical applications; if they turn up, they're a nice bonus, but they're not why you do mathematics.

        But someday, we will be able to factor them!

    • by Poromenos1 ( 830658 ) on Tuesday December 20, 2005 @07:41AM (#14297765) Homepage
      Why do people calculate digits of pi? Why do they scale mt. Everest? Because they have small penises.
    • by Burb ( 620144 ) on Tuesday December 20, 2005 @08:08AM (#14297870)
      Because pure mathematics sometimes turns out to have unexpected real-world benefits. Ancient Greek mathematicians such as Apollonius of Perga studied properties of the conic sections (circles, ellipses, the parabola, the hyperbola) as pure maths with no expectation of practical gain. Two thousand years later, we found that planets move in ellipses, that projectiles follow parabolic paths, and so on. Hey presto, that ancient pure mathematics becomes useful...
    • Better question... why is the EFF offering prize money for finding primes? It seems only very loosely related to their purpose. That's not the kind of thing I gave them money to do.
      • Yeah, thats exactly what I was wondering. If theres $100,000 dollars being offered for a prime over 10 million digits, then I would think it must have a practicle application. I guess I was expecting more than just, theres a small chance it could help with cryptography. Oh well, I have never given any money to the EFF, so I guess I can't get too bothered by what they do with their money.
      • I cannot speak for the EFF. But I do know several people directly involved with the administration of those awards, and have discussed many topics with them.

        The smaller prizes - 1M digit (already awarded), and 10M digits (still pending) are actually pretty small and unimportant. They can be attacked simply by throwing huge numbers of inexpensive commodity PCs at the task. That's basically what GIMPS is. The larger prizes are the important ones, as they reward a much harder achievement. The algorithms used t
    • why should I spend my free computing power on calculating prime numbers
      So you can determine the optimum number of buckets for a really really really really large hash table?
  • BTW, this is cute (Score:5, Informative)

    by ReformedExCon ( 897248 ) <reformed.excon@gmail.com> on Tuesday December 20, 2005 @07:34AM (#14297731)
    The ID for this story is 171673 which is itself a prime number.

    Clever clever!
  • FYI (Score:4, Informative)

    by Walterk ( 124748 ) <slashdot@duble t . org> on Tuesday December 20, 2005 @07:41AM (#14297763) Homepage Journal
    The next largest known prime, as of today, is 225964951 1 (this number is 7,816,230 digits long); it is the 42nd known Mersenne prime [wikipedia.org]. M25964951 was found on February 18, 2005 by Martin Nowak, a member of a collaborative effort known as GIMPS [wikipedia.org].

    The third largest known prime is 224036583 1 (this number is 7,235,733 digits long); it is the 41st known Mersenne prime. M24036583 was found on May 15, 2004 by Josh Findley (member of GIMPS) and it was announced in late May 2004.

    The fourth largest known prime is 220996011 1 (this number is 6,320,430 digits long); it is the 40th known Mersenne prime. M20996011 was found on November 17, 2003 by Michael Shafer (and GIMPS) and announced in early December 2003.

    Historically, the largest known prime has almost always been a Mersenne prime since the dawn of electronic computers, because there exists a particularly fast primality test for numbers of this form, the Lucas-Lehmer test for Mersenne primes [wikipedia.org].

    The largest known prime that is not a Mersenne prime is 27653 × 29167433 + 1 (2,759,677 digits). This is also the fifth largest known prime of any form. It was found by the Seventeen or Bust project [wikipedia.org] and it brings them one step closer to solving the Sierpinski problem [wikipedia.org].

    Some of the largest primes not known to have any particular form (that is, no simple formula such as that of Mersenne primes) have been found by taking a piece of semi-random binary data, converting it to a number n, multiplying it by 256k for some positive integer k, and searching for possible primes within the interval [256kn + 1, 256k(n + 1) 1].
  • Headlines (Score:5, Funny)

    by sanctimonius hypocrt ( 235536 ) on Tuesday December 20, 2005 @07:55AM (#14297820) Homepage Journal

    The number of primes found lately, four in just over two years, is higher than previously expected.

    I can just imagine the newspaper report: Scientists report more numbers than previously thought.

  • I made a FPGA based prime number calculator back in one of my EE courses and it was pretty freakin fast. They should make a giant super optimized version of my little thing.
    • Yep. I remember reading a Number Theory book long ago that Skewe's number 10^10^10^34 was "the largest number which has ever served any definite purpose in mathematics", but apparently, things have changed since then. The largest meaningful (but useless, as you pointed out) number used is apparently Graham's Number [york.ac.uk], which has even been listed by the Guinness Book of World Records [ucsd.edu] as such. Tetration is explained here [wlonk.com], or quite a lot of notation is explained here [york.ac.uk].

      The best page about large numbers, however,
  • For newbies (Score:3, Interesting)

    by chord.wav ( 599850 ) on Tuesday December 20, 2005 @08:04AM (#14297850) Journal
    If you think this is your grand chance to win money easily using GIMPS, think again.

    As it states here [mersenne.org]

    If you were to find a 10,000,000 digit prime today the above rules imply that $5,000 would go to Michael Cameron, discoverer of the 39th known Mersenne prime, $5,000 would go to Michael Shafer, discoverer of the 40th known Mersenne prime, $5,000 would go to Josh Findley, discoverer of the 41st known Mersenne prime, $5,000 would go to Dr. Martin Nowak, discoverer of the 42nd known Mersenne prime, $0 would go to discoverers of algorithmic breakthroughs, $5,000 would go to GIMPS primarily to fund future awards, $25,000 would go to charity, and $50,000 would go to you.

    Now the bad news. Testing a single 10,000,000 digit number takes two months on a 2 GHz Pentium 4 computer. Your chance of success is roughly 1 in 250,000.
    Someone may find a 10,000,000 digit prime before GIMPS does.
  • If I'm reading this correctly, the reward for a prime > 10k digits is twice that the reward for the next prime 10k. So wouldn't it make more sense for them to skip ahead to 10k digits and start looking there instead?
    • It's 10M, not 10k. And the EFF award for another prime below 10M digits is zero, no more payouts will occur until someone finds a number with at least 10M digits. But GIMPS was around long before the EFF award was announced. They are systematically testing "all" mersenne numbers, not only those elegible for prizes. Ultimately, it's up to the participants. The client has a checkbox for only downloading assignments big enough to qualify for the prize.
  • by Vo0k ( 760020 ) on Tuesday December 20, 2005 @08:27AM (#14297953) Journal
    how much do I get for finding the extraterrestial in SETI@Home?
  • by anshil ( 302405 ) on Tuesday December 20, 2005 @09:11AM (#14298169) Homepage
    Smallest Positive Mersenne Prime-Number ever: 3

    Hey, also small is beatuiful.
  • by ockegheim ( 808089 ) on Tuesday December 20, 2005 @09:34AM (#14298311)
    Last week while factorizing random 5 digit numbers with a calculator (very bored at work) I decided that if a number has two prime factors it can't have any other factors. Is this true, and is the mathematics behind it obvious or complicated?
    • [...] if a number has two prime factors it can't have any other factors. Is this true, and is the mathematics behind it obvious or complicated?

      A composite (ie non-prime) number is a product of at least two prime numbers, otherwise it would be a prime number. That follows directly from the definition of a prime number. A composite number can have more than two (different) prime factors though. Take your favorite number 42 = 2 * 3 * 7. Or if you want a 5 digit number: 11 * 23 * 127 (a Mersenne prime, btw :) =
  • I'm totally using it to produce my GPG secret key, with so many digits it'll never be cracked!!
  • EFF'ed? That's going to be quite some long digita...

    Sorry, i just had to...
  • I finally have an unbreakable number to use as my GPG key!
  • The Great Internet Mersenne Prime Search (GIMPS), a distributed computing project, has probably found a new record prime number

    Damn it! Now I have to change my luggage combination again. You bastards.

  • Darn It! (Score:3, Funny)

    by Nom du Keyboard ( 633989 ) on Tuesday December 20, 2005 @10:55AM (#14298887)
    This prime is just under 10 million digits

    To big for my /. .sig, darn it!

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