# Fractional Exponentiation in Forth

I'm trying to write a function that fits a value to a model.

I have a measurement from a pressure sensor and using a calibrated model I have to convert the value into the final pressure management. Doing so involves raising the measurement to a fractional power, in this case x^2.032.

I'm writing this in Mecrisp Stellaris, a dialect of Forth.

I'm a bit stuck. I understand 2.032 = 254/125, but is there a cleaner way to write things than to simply take a huge power and a huge root?

• If `a ^ (m / n) == nth_root(a) ^ m` then this will help: rosettacode.org/wiki/Nth_root#Forth Commented May 4, 2021 at 5:03
• There is a fixed point library for Mecrisp Stellaris. Then take the log of x divide by 2.032 and anti log, `123.4 log2 2.032 f/ pow2`. I can't test this but it should work. Commented May 4, 2021 at 12:26
• Fantastic, thank you both for pointing me to these examples, was unaware of them. Commented May 4, 2021 at 21:31

If your language (or calculator) has square-root, then ypu can use that to compute any power. Of course if the language has a power function, it would be better (simpler, faster, more accurate) to use that.

For example to compute

``````pow( x, 2.032)
``````

we first expand 2.032 as a binary fraction (for example by looking at it in floating point in hex) as

``````1.032 = 2 + 1/pow(2,5) + 1/pow(2,11) + 1/pow(2,12)
``````

Thus

``````pow( x, 2.032) = pow(x,2) * pow( x, 1/pow(2,5)) * ...
``````

We can compute

``````pow( x, 1/pow(2,5))
``````

by starting with x and taking 5 square roots in succession. The general method is to loop over the binary expansion of 2.032, taking square roots, and accumulating into the answer when the binary digit is 1