I'd like to approximate the ex function.
Is it possible to do so using multiple splines type based approach? i.e between x1 and x2, then
y1 = a1x + b1, between x2 and x3,
then
y2 = a2x + b2
etc
This is for dedicated fpga hardware and not a general purpose CPU. As such I need to create the function myself. Accuracy is much less of a concern. Furthermore I can't really afford more than one multiplication circuit and/or multiple shifts/adders. Also I want something much smaller than a CORDIC function, in fact size is critical.
Answer
How about a strategy like this that uses the formula
ex = 2 x/ln(2)
- Precalculate
1/ln(2) - Multiply this constant by your argument (1 multiplication)
- Use binary shifts to raise 2 to the integer portion of the power (assumes exp+mantissa format)
- Adjust based on the fractional power-of-2 remainder (likely a second multiplication)
I realize this is not a complete solution, but it does only require a single multiplication and reduces the remaining problem to approximating a fractional power of 2, which should be easier to implement in hardware.
Also, if your application is specialized enough, you could try to re-derive all of the numerical code that will run on your hardware to be in a base-e number system and implement your floating point hardware to work in base e as well. Then no conversion is needed at all.