# binary relation among prime numbers

Do we have any theory stating a relation between primes in binary system. I mean, in decimal system we have a pattern stating that "a number which is divided by 1 and itself is a prime".

This was learned in my school when i was kid. But modern computation is performed on bits, in sense they are 1's and 0's. But we calculate the prime nature based on our school knowledge. It works fine when the numbers are small. But questions calculating largest prime in integers, this logic doesn't make sense.

So if there exists any theory(may be already existing) stating a relation among primes in binary represention, then we can save lot of computing power. For ex, starting with a binary representation of prime, changing or adding bits yields next prime number saves lot of computational power.

This might not make sense. But these were my thoughts from last night. Please correct me if I am wrong or it doesn't make a sense at all.

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"... an integer greater than one which is divided by only 1 and itself, is a prime." I'm pretty certain all numbers are divisible by one and themselves, regardless of the chosen domain. – paxdiablo Jul 5 '12 at 8:53
@paxdiablo Zero is not divisible by itself. But, I'm just being an ass ;v) – Potatoswatter Jul 5 '12 at 8:56
@Potatoswatter: no, that's fine. Serves me right for being a pedantic PITA :-) – paxdiablo Jul 5 '12 at 8:57
The only guarantee you have is that all primes excluding 2 will have its least significant bit set to 1. – leppie Jul 5 '12 at 9:45
@Potatoswatter a being divisible by b in this case (ring algebra) means that there is a number c so that a = bc. So 0 is divisible by itself. It doesn't matter that the result of the division is undefined because you can use any number for c. One of the advantages is that the divisibility order is reflexive, with 0 as the top element. – starblue Jul 5 '12 at 11:37

Binary is just writing numbers as a sum of powers of two. It's not significantly different from decimal in a mathematical sense. So no, there will not be any theorems in binary that don't have some parallel in decimal.

In decimal, no number ending in an even numeral or 5 can be prime, except 2 and 5. In binary, no number ending in `0` can be prime, except `10` (which is 2).

EDIT: See this answer I wrote a couple years ago for an example of how to quickly generate primes using binary arithmetic optimizations, not advanced math. It's just a sieve of Erastosthenes, but thousands-of-years-old math, predating even the decimal system, is still amenable to SSE vectorization.

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if a question asked like this, whats next in the series, 10,11,101,111,1011,1101,10001, can only be found converting back them to decimal and finding the pattern relation? What could be a computational logic or program behind this if not asked to do in human way? – facebook-1800001831 Jul 5 '12 at 9:33
@facebook-1800001831 The number system doesn't make a difference. Any relevant algorithms don't depend very much on the radix base of computation, the same steps are performed by a human or a computer. – Potatoswatter Jul 5 '12 at 9:36
Computers do it in binary and only convert it to decimal for display. – starblue Jul 5 '12 at 11:44
so whats the point @starblue? are you saying that my hypothesis exist? @Potatoswatter, if in the case, its not a point of representing data in 1's and 0's. This system was invented for data representation in digital form. So, to make the computer understable whatever input we are throwing, it should shift the computational universe from digital to binary. – facebook-1800001831 Jul 5 '12 at 11:54
My point is poor or easy program would make computer hard to compute the given input. that makes some sense if we go other way. I mean, very much computable instructions makes cpu job easy. THERE MUST BE A WAY!..THERE MUST BE A WAY!.. – facebook-1800001831 Jul 5 '12 at 11:56

If you want to cut down on CPU cycles to establish primality of a number, you should look into Factorization using the eliptical curve method. I don't know exactly how it works, but it is very quick.

But, I am in agreement with all the comments. There is no advantage to manipulating the bits in a binary representation to establishing whether a number is prime or not.

You can also run prime factorization in Emacs with

• M-x calc
• put in a large number
• k f
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If you want to cut down on the number of tests in a brute force method, you use only prime numbers for a test (if 7 isn't a factor, then 21 or 49 will also not be factors) and the end test will be the square root of the number. Of course, it might be easier just to use all odd numbers than to test if the trial number is prime. – dadinck Jul 6 '12 at 20:13
see the link in the edit to my answer for an example of that kind of optimization, taken to the extreme. – Potatoswatter Jul 6 '12 at 20:15

Mersenne primes are interesting prime numbers whose binary representation doesn't include any `0` (so there are only `1`s)

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