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I have 64-bit positive integers (range from 0 to 263 - 1) and I want to hash them into 32-bit positive integers (0 to 231 - 1 range).

My data has a Gaussian distribution. Can anyone suggest a hash function that will give a low number of collisions for this distribution?

(Original question was here, which I've improved upon.)

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"less than what" - I want probability to be less. As good as possible. As I have no nice option, any nice hash function for the above will be useful. – alessandro Nov 9 '12 at 9:29
That completely depends on how you expect your incoming values to be distributed within that range. – brimborium Nov 9 '12 at 9:29
@alessandro, telling us that you are taking values at random says nothing about the distribution except that the distribution is non-zero at more than one point. – Mike Samuel Nov 9 '12 at 9:32
@brimborium, It's gaussian distribution – alessandro Nov 9 '12 at 9:37
@alessandro Now we are getting somewhere. Gaussian around the center (i.e. 2^62-1)? Then we should find a function that has a finer resolution in the middle and less resolution at the borders of the range. – brimborium Nov 9 '12 at 9:39
up vote 2 down vote accepted

Based on the hash for Long which is a 64-bit integer.

int hash = (int) ((l >>> 32) ^ l);

BTW: A gaussian distribution is signed do I don't believe it would appropriate for an unsigned value.

If you have something which follows a guassian distribution which has be scaled and shifted, the lower 32-bit may be still completely random. (Depending on the scale) If the lower 32-bit are random, it doesn't matter what the upper bits are (they can all be 0) and the hash will still be pseudo-random.

BTW: Even if your hash is unique in converting to a 32-bit value, you will have to reduce this further to save memory (Unless you have your own hash table which is 2^32 in size) This means after reducing the value further to something reasonable e.g. double the size of the number of samples, you will have some collisions (unless it turns out your 64-bit value is far, far more bits than you need)

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How would this decrease the collision probability of normally distributed values? – brimborium Nov 9 '12 at 9:45
@brimborium Normally distributed values are equally likely to be negative as positive and are unbounded. I am not sure how you would apply that to unsigned long. – Peter Lawrey Nov 9 '12 at 9:47
I think he means normal distribution and there you can scale/shift it to wherever you want... – brimborium Nov 9 '12 at 9:47
@brimborium I suspect you are correct. In which case the lower 32-bits are still likely to be random which is all you need. – Peter Lawrey Nov 9 '12 at 9:48
My assumption is that this is some kind of a sensor reading that has 64bit resolution. – brimborium Nov 9 '12 at 9:48

You can first map your input data through the (expected) cummulative distribution function with the result of having output that then is (expected to be) evenly distributed. You can then put that data into a regular 64-to-32-bit-hash function.

enter image description here

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Nice. Although histogram equalization is normally a quite expensive task. But that surely minimizes the collision probability. – brimborium Nov 9 '12 at 10:04
True. If it is too expensive, then OP can make it approximate by using some linear approximations, e.g. approximating the expected cummlative distribution with only 5 lines is already quite good. – Bernd Elkemann Nov 9 '12 at 10:07

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