I am dealing with the repeated calculation of the exponential of a complex array filled with numbers on the order of 1.04*10^8. This is for use in a FFT based laser propagation code that I have been tasked with implementing. The issue is that I often have to deal with arrays that are 2^12 by 2^12 elements and this means that each iteration of the exponential ends up taking around a second. In my attempts to troubleshoot why this particular computation was taking so long I tried using real numbers and saw that it was significantly faster.
I was wondering if anyone knew why computing the exponential of a complex number is so much slower than the exponential of a real number? In case you want a code to try out what I mean, this should work (i'm running on 2019a but it should be pretty universal).
A = 10^8+4*10^6*rand(2^12);
tic
for ii = 1:10
exp( 1i * A );
end
toc/10
tic
for ii = 1:10
exp( A );
end
toc/10
Ideally I would like to find a way to speed up this calculation but I am not hopeful. If anything an explanation for why it takes so much longer on comple data than real data would be interesting.
