Is performing complex multiplication and division beneficial through SSE instructions? I know that addition and subtraction perform better when using SSE. Can someone tell me how I can use SSE to perform complex multiplication to get better performance?
Well complex multiplication is defined as:
So your 2 components in a complex number would be
So assuming you are using 8 floats to represent 4 complex numbers defined as follows:
And you want to simultaneously do (c1 * c3) and (c2 * c4) your SSE code would look "something" like the following:
(Note I used MSVC under windows but the principle WILL be the same).
What I've done above is I've simplified the maths out a bit. Assuming the following:
By rearranging I end up with the following vectors
I then multiply 0 and 2 together to get:
Next I multiply 3 and 1 together to get:
Finally I flip the signs of a couple of the floats in 3
So I can add them together and get
Which is what we were after :)
Just for completeness, the Intel® 64 and IA-32 Architectures Optimization Reference Manual that can be downloaded here contains assembly for complex multiply (Example 6-9) and complex divide (Example 6-10).
Here's for example the multiply code:
The assembly maps directly to gccs X86 intrinsics (just predicate each instruction with
The algorithm in the intel optimization reference does not handle overflows and
As several operations with infinity (e.g. infinity * 0) end in
If overflows and