Say I have a hash algorithm, and it's nice and smooth (The odds of any one hash value coming up are the same as any other value).

Now say that I know that the odds of picking 2 hashes and there being a collision are (For arguments sake) 50000:1.

Now say I pick 100 hashes. How do I calculate the odds of a collision within that set of 100 values, given the odds of a collision in a set of 2?

What is the general solution to this, so that I can come up with a number of hash attempts after which the odds fall below some acceptable threshold? E.g. I can say things like "A batch of 49999 hash value creations has a high chance of collision".

  • A perfect hash algorithm is one where there are no collisions. I just thought I'd point it out. Apologies for being picky :-) Mar 25, 2009 at 14:43
  • 4
    Assuming the domain of the hash function is larger than the range, that's impossible. If it's not, why bother using a hash?
    – recursive
    Mar 25, 2009 at 14:51
  • 2
    Well, you still get the speed advantage of using a hash function instead of searching. en.wikipedia.org/wiki/Perfect_hash_function Mar 25, 2009 at 14:58
  • Oh, my apologies. I didn't realize "perfect hash" had an actual definition in math. I'm used to the software definition where we hash strings into 32 bit ints and the like.
    – recursive
    Mar 25, 2009 at 15:01
  • The wikipedia article is the software definition. The term for a hash which has even likelihood of any value is 'smooth'. Mar 25, 2009 at 15:37

5 Answers 5


This is a generalization of the Birthday problem.


First calculate the probability that there is not a collision:

hashes_picked = 100
single_collision_odds = 50000

# safe_combinations is number of ways to pick hashes that don't overlap
safe_combinations = factorial(single_collision_odds) / factorial(single_collision_odds - hashes_picked)

# all_combinations is total number of ways to pick hashes
all_combinations = single_collision_odds ** hashes_picked   

collision_chance = (all_combinations - safe_combinations) / all_combinations
  • 3
    It means power or exponent operator. 2 ** 3 == 8.
    – recursive
    Feb 24, 2014 at 20:44

That sounds a lot like the Birthday Paradox to me.

You should be able to just substitute the set of possible birthdays (365) with the possible hashes (50000) and run the same calculations they present there.

If you modify the python script presented in the article for your values:

 def bp(n, d):
    v = 1.0
    for i in range(n):

         v = v * (1 - float(i)/d)
    return 1 - v

 print bp(2, 50000)

You end up with the odds of collision on two numbers of 0.00002. Around 265 samples, you have around a 50% chance of having a collision.


This is called the Birthday problem. To solve it, think instead about the odds of there being no collisions (call it pnc).

  • pnc(1) = 1
  • pnc(2) = 1 - pc(2)
  • pnc(3) = pnc(2) * pnc(2) * pnc(2)

and in JS

function calculate(n,k)

    var result =1;
    for (var i=0; i<k; i++){
    return result;

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