This number is taken from golden ratio **1.61803398 * 10^8**. Matt gave a nice answer what is this number, therefore I will just explain a little bit about an algorithm.

This is not a special number for this algorithm. The algorithm is **Knuth's subtractive random number generator algorithm** and the main points of it are:

- store a circular list of 56 random numbers
- initialization is process of filling the list, then randomize those values with a specific deterministic algorithm
- two indices are kept which are 31 apart
- new random number is the difference of the two values at the two indices
- store new random number in the list

The generator is based on the following recursion: X_{n} = (X_{n-55} - X_{n-24}) mod m, where n ≥ 0. This is a partial case of lagged Fibonacci generator: X_{n} = (X_{n-j} @ X_{n-k}) mod m, where 0 < k < j and @ is any binary operation (subtraction, addition, xor).

There are several implementations of this generator. Knuth offers an implementation in
FORTRAN in his book. I found the following code, with the following comment:

PARAMETER (MBIG=1000000000,MSEED=161803398,MZ=0,FAC=1.E-9)

According
to Knuth, any large MBIG, and any smaller (but still large) MSEED can
be substituted for the above values.

A little bit more can be found here Note, that this is not actually a research paper (as stated by Math), this is just a master degree thesis.

People in cryptography like to use irrational number (`pi`

, `e`

, `sqrt(5)`

) because there is a conjecture that digits of such numbers appears with equal frequency and thus have high entropy. You can find this related question on security stackexchange to learn more about such numbers. Here is a quote:

"If the constants are chosen at random, then with high probability, no
attacker will be able to break it." But cryptographers, being a
paranoid lot, are skeptical when someone says, "Let's use this set of
constants. I picked them at random, I swear." So as a compromise,
they'll use constants like, say, the binary expansion of π. While we
no longer have the mathematical benefit of having chosen them at
random from some large pool of numbers, we can at least be more
confident there was no sabotage.

`The current implementation of the Random class is based on Donald E. Knuth's subtractive random number generator algorithm. For more information, see D. E. Knuth. "The Art of Computer Programming, volume 2: Seminumerical Algorithms". Addison-Wesley, Reading, MA, second edition, 1981.`

– Jesse Good May 15 '14 at 20:56`inextp = 31;`

, but the source code of`Random`

class has it as`inextp = 21;`

because someone mistyped it causing this bug. – Jesse Good May 15 '14 at 21:31