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Alright, so I have a huge number f. This number is just over 100 digits long, actually. I know that the factors are of approximately the same size.

If I have limited resources and time, what language and algorithm should I use? I am including the length of time to code the algorithm in the restricted time.

Thoughts?

EDIT: By limited, I mean in the least amount of time possible.

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@Mysticial amusing, but not helpful. –  tekknolagi Jan 15 '12 at 6:37
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Sounds like a good exercise for cloud computing. This should be easy to run parallel processing against. (Meets limited time, but maybe not limited resources...) –  ziesemer Jan 15 '12 at 6:37
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@tekknolagi Actually, on second thought. 100 digits isn't that much. I was under the impression that each of the factors were 100 digits each. 100 digits is probably on the upper-end of what's doable on a desktop using the quadratic sieve algorithm. –  Mysticial Jan 15 '12 at 6:45
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Is f a specific number that you could add to the post, or do you mean that you'll have some f with ~100 digits? –  DSM Jan 15 '12 at 6:47
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@tekknolagi, Mysticial - That's why it was a comment, and not an answer. :-) –  ziesemer Jan 15 '12 at 7:13

3 Answers 3

up vote 6 down vote accepted

The state-of-the-art prime factorization algorithm is the quadratic sieve and its variants. For numbers larger than 100 digits, the number sieve becomes more efficient.

There's an open-source implementation of it here. It's able to factor a 100 digit number into two roughly equal primes in only 4 hours on a 2.2 GHz AMD Althon.

So there's the algorithm and a sample implementation. That might be enough to give you ideas or get you started.

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Do you consider the number field sieve a variant of the quadratic sieve? –  GregS Jan 15 '12 at 15:08
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No. But the cut-off threshold between the two is about 100 digits anyway. I'll add that to my answer though. Thanks. –  Mysticial Jan 15 '12 at 18:16

This sounds like a good exercise (and possibly a rare good example) for cloud computing. This should be easy to run parallel processing against. Divide your pools of factors across each of your processes.

Something like this may prove helpful: http://blog.controlgroup.com/2010/10/13/hadoop-and-amazon-elastic-mapreduce-analyzing-log-files/ More details at http://en.wikipedia.org/wiki/Apache_Hadoop#Hadoop_on_Amazon_EC2.2FS3_services .

(In the past month, I had watched a nice video demonstration of doming something similar to what I'm suggesting here - but of course, now I can't find the link.)

Especially if you don't need to do this programatically, take a look at http://www.alpertron.com.ar/ECM.HTM . (Linked to from http://en.wikipedia.org/wiki/Quadratic_sieve.) Pay particular attention to the notes under "Factoring a number in several machines" on the first link. (As the source code is available, you could run this is a programatically distributed fashion as well, using Hadoop or the like.)

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What do you mean by pools of factors? I only have one number. –  tekknolagi Jan 15 '12 at 6:42
    
@tekknolagi - you have one number, but many, many possible factors (what you're searching for). –  ziesemer Jan 15 '12 at 6:43
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True, true. Any more detail on the actual splitting of the factorization? –  tekknolagi Jan 15 '12 at 6:46
    
@tekknolagi - Please see the addition to the end of my answer. –  ziesemer Jan 15 '12 at 6:54
    
"pools of factors" is not quite right. For the quadratic sieve it would be pools of polynomials. –  GregS Jan 15 '12 at 15:11
while (x < Number) {
    if ((Number % x) == 0 ) { 
        cout << x << "*" << Number/x << endl;
        ++x;
    }  
    else ++x;
}
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Too bad the OP's #'s won't fit inside of an int. –  ziesemer Jan 15 '12 at 6:44
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I'm not sure if you're joking or serious. –  st0le Jan 15 '12 at 6:45
    
he's not joking. he is just using compiler that has native support for bigint types, and compiles the code with various optimizations. :) –  Daniel Mošmondor Feb 6 '12 at 9:08
    
"various" optimizations... –  tekknolagi Jul 30 '12 at 21:35

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