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I want to figure out the relationship between bits and RNG for int or float.

(By random I mean uniformly distributed)

I am given a perfect boolean random generator, and I am asked to implement a random 32 bits integer generator (including negative, zero and positive). What I want to do is generate a random boolean for each of the 32 bits, and concat them together to be a random int.

Am I doing the right thing?

Also from the other way around, if I am given a perfect random 32 bits integer generator, can I say each bit can be considered as uniformly distributed over 0 and 1?

how about float (not only between 0 and 1, but the full range of float)?

Can I use the same way to generate random IEEE 745 float?

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up vote 1 down vote accepted

Yes, you are indeed doing it right, using 32 draws of the different numbers, will give you a uniform distributed random variable.

Explanation: Each number can be generated by a unique combination of 32 0/1 draws. No 2 numbers are generated from the same combination, and no number is generated from 2 combinations - meaning, the probability for each number is 1/2^32 - as expected.

Yes, Same principle applies here. There are 2^32 'ways' to choose 32 bits number, and similarly to the previous question - you can see that the numbers are independently uniformly distributed on {0,1} per bit.

A random uniformly distributed float in range [0,1] can be generated by randUnsignedInt()/(2^32-1). An alternative is drawing an int and just re-interpret it ad float - assuming both are using the same number of bits (basically - both are 32 bits number, they only vary in the way you interpret them...) Note that the alternative is NOT in range [0,1].

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If I need to use that perfect boolean random generator, can I apply the same way to generaing float? – Jackson Tale Apr 8 '14 at 14:19
@JacksonTale If you want any float - just create an int and re-interpret it as a float. Note however that it is not 100% uniform because of the floating point arithmetic semantics (More representations to small number than there are for high numbers, in absolute value) - but each float you can represent - will have the exact same probability to be generated - 1/2^32. – amit Apr 8 '14 at 14:22
can you have a look at my edit. I really want to find out whether the 32 rounds of random boolean can cover the full float range and each float number is generated uniformly. – Jackson Tale Apr 8 '14 at 14:26
@JacksonTale You will have to define what you mean 'uniformly' for floats. Do you mean each 2 float numbers have the same probability to be chosen? Or for each a,b,c,d such that b-a=d-c the probability for the number (let it be x) be in: a<x<b is identical to its probability to be in: c<x<d. Due to the floating point representation - the two definitions contradict each other. – amit Apr 8 '14 at 14:29
@JacksonTale Yes, this is the alternative I am proposing - but note that the probability to get a number x such that 0 <= x <= 1 is higher than getting a number such that 2^30 <= x <= 2^30 + 1, due to the floating point representations - there are more 'small' numbers than 'big' ones according to the standard. However, each 2 possible numbers will have the same probability to be chosen. – amit Apr 8 '14 at 14:44

Yes. This is exactly what does. In this case, the domains are fairly easy to map across -- things like a 6 sided die are harder.

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Are you saying that producing a uniformly random 6-sided dice result is harder than producing a uniformly random float? – Pascal Cuoq Apr 8 '14 at 14:17
can the generating 32 random bits way be applied to float? float has different format of bit representation than integers – Jackson Tale Apr 8 '14 at 14:28
@PascalCuoq Creating a uniformly random integer in the range [0,5] is not trivial to do deterministically with only a bit-generator – Niklas B. Apr 8 '14 at 15:29
@NiklasB. Maybe, but generating a uniformly random float is really difficult. The solutions in the accepted answer have subtle or non-subtle biases. Dividing a random integer by a power of two would be a good start, but would require changing the FPU rounding mode to something other than nearest-even first in order to avoid a bias for “even” floats. – Pascal Cuoq Apr 8 '14 at 15:55
@PascalCuoq I think this answer here is just referring to the integer generation part. You should rather leave a comment on the other one – Niklas B. Apr 8 '14 at 16:05

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