Column #1 is approx CEILING(log(x, 2^(1/1)) Column #2 is approx CEILING(log(x, 2^(1/2)) Column #3 is approx CEILING(log(x, 2^(1/4)) Column #4 is approx CEILING(log(x, 2^(1/8)) etc.
The problem with logarithms though is I hit rounding errors real fast, and I cant think of a way to calculate it without floating-point
I can't contact Henrique Bucher to tell him the answer to his question :(
I wonder if you can use `__builtin_clz` to get the highest bit set index in 1 ASM (which is column 1 (We'll call this A). Then for column X, you can simply read the next X-1 biggest bits as value B (a shift and a mask, so that's 1-2 ASM ops). And then it should be something like A*2^X+B
