# Genereate Random Numbers

I am having some tough time getting myself a satisfying solution, of how to generate a random number.

I looked at this, this, this and this. But an looking for something else .

Most of the posts mention using, R[n+1] = (a *R[n-1 + b) %n, this pseudo-random function, or some other mathematical functions.

But weirdly I am not looking for these; I want some non-algorithmic answer. Precisely, an "Interview" answer. Something easy to understand, not to make the interviewer feel that I mugged up a method :) .

I hope i made myself clear.

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What is a "non-algorithmic answer"? It'd be more helpful to say what you're looking for instead of listing things that you aren't looking for. –  Blender Jun 6 '13 at 19:04
Is it language agnostic? –  Lion Jun 6 '13 at 19:04
http://www.random.org/ –  GriffeyDog Jun 6 '13 at 19:09
Non-algorithmic? Write the numbers 1 through N on pieces of paper, throw them up in the air, and see which one lands farthest from you. –  D Stanley Jun 6 '13 at 19:10
There are only two options: an algorithm of some kind (of which the one you point out is merely the simplest of hundreds), or hardware. Hardware includes things like specialized TRNG devices to simpler things like getting timings of mouse movements. –  Lee Daniel Crocker Jun 6 '13 at 19:11

For an interview question, a common answer might be to look at the intervals between keystrokes (ask the user to type something), disc seek times or input from a disconnected source -- that will give you thermal electrons from inside your MIC socket or whatever.

LavaRnd uses a digital camera with the lens cap on, which is a version of the last.

Some operating systems allows indirect access to some of this random input, usually through a secure random function; slower but more secure than the usual RNG.

Depending on what job the interview is for, you can talk about testing the raw data to check for entropy, and concentrating the entropy by using a cryptographic hash function like SHA-256.

There are also specialised, and expensive, hardware cards which use various quantum effects to generate true random numbers.

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It's of the same form. `R(n + 1) = (a * R(n) + b) % m` –  Blender Jun 6 '13 at 20:56