# Normalising 18 bit input between 0-9999

I'm writing a program in which i require to normalise an 18-bit input between 0-9999. This is something i have never come across before,

I have searched the internet and correct me if i am wrong here, but is this as simple as converting the 18-bit binary(000000000000000000) input into a natural number and then divide it by 1000.

Is there is a different and more efficient method ????

Thank you

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Dividing by 1000 would only work if the upper bound for 18-bit values were any number in the range [9999000, 9999999], which it is not (for an unsigned value the upper bound is 262143). So apart from accepting some answers to your previous questions, you should also rethink the math. –  Jon Aug 15 '12 at 19:10

No, what you want to do is multiply your input by `0.03814697265`.
The reasoning is pretty simple: you take your range of inputs (`0`..`2^18`) and split it in `10000` "slices". Thus each slice will have a range of just over `26`. Then if you divide your input from the original range by this `26` (or multiply it by `1`/`26`), you'll get your number in the `0`..`9999` range.
Edit: depending on your background, you may need to know that here I use `^` with the meaning of exponentiation. Might be moot since this question is tagged C and it has no first-class concept of exponentiation, but it's definetly not XOR!