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?
The algorithm in the intel optimization reference does not handle overflows and A single As several operations with infinity (e.g. infinity * 0) end in If overflows and



Just for completeness, the Intel® 64 and IA32 Architectures Optimization Reference Manual that can be downloaded here contains assembly for complex multiply (Example 69) and complex divide (Example 610). Here's for example the multiply code:
The assembly maps directly to gccs X86 intrinsics (just predicate each instruction with 


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 :) 

