Is there an algorithm to find the square root of a given number using bitwise operations?

There is this famous piece of code magic that computes inverse square root with a some very clever bit twiddling. It is wrongfully attributed to John Carmack  here's a deeper dig into its origin. Maybe that's what you're asking about? I wouldn't suggest using it, though. On modern CPU's it cannot beat dedicated transcendental instructions. Your usual c++ intrinsic [Edit:] The cited article describes a general derivation method for such fast approximations, and explicitly states 'Derive a similar method for sqrt(x)' as a homework problem at its final lines. So you should be able to track its reasoning and devise a similar method for sqrt (without the reciprocal) directly. 


Wikipedia has an article about and a code too. And another wikipedia article shows an algorithm (even for roots greater than 2) that can be easily implemented in binary (so, involving operation on bits). If you want to stick only to real bitwise operators, you have to implement 


No... I'm assuming it's for the sake of performance? If so, the best you are probably going to get is using a lookup table. If you have the option to work with integer math (ex. by working with numbers multiplied by 10, 100 or 1000 instead of floats) you can use bitwise rotation to quickly throw off unneeded precision and jump into a lookup table. 


Yes, of course there is, how do you think computers compute square roots other than by using bitwise operations ? 

