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I am trying to figure out how to use complex numbers in both my host and device code. I came across cuComplex (but can't find any documentation!) and float2 which at least gets a mention in the CUDA programming guide.

What should I use? In the header file for cuComplex, it looks like the functions are declared with __host__ __device__ so I am assuming that means that it would be ok to use them in either place.

My original data is being read in from a file into a std::complex<float> so I dont really want to mess with that. I guess in order to use the complex values on the GPU though, I will have to copy from the original complex<float> to the cuComplex?

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4 Answers 4

up vote 4 down vote accepted

cuComplex is defined in /usr/local/cuda/include/cuComplex.h (modulo your install dir). The relevant snippets:

typedef float2 cuFloatComplex;
typedef cuFloatComplex cuComplex;
typedef double2 cuDoubleComplex;

There are also handy functions in there for working with complex numbers -- multiplying them, building them, etc.

As for whether to use float2 or cuComplex, you should use whichever is semantically appropriate -- is it a vector or a complex number? Also, if it is a complex number, you may want to consider using cuFloatComplex or cuDoubleComplex just to be fully explicit.

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I have some other questions, I hope you could provide an answer. 1) Where is float2 defined? 2) From your answer, float2 and cuComplex are typedefs of each other, so I would say they are the same types. From the post Complex Numbers, it seems that cuBLAS functions would need cuComplex only and would not accept float2s. Is that right? 3) In the include file you mentioned, operations like sum, mul etc. are not defined as operator overloads. Does the same hold true also for float2? Thank you very much. –  JackOLantern Jun 28 '13 at 12:24

cuComplex is interleaved so if you have:

cuComplex comp[2];
float * ptr;

comp[0].x=1
comp[0].y=2
comp[1].x=3
comp[1].y=4

the memory layout stating at &comp is [1 2 3 4]. I believe for float2 the memory layout would be all x, then all y. Additionally cuComplex is the complex type, which allows it to be used for cufft operations.

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2  
Your statement about float2 is incorrect. Josh's answer shows that there is no difference, since cuComplex is typedef'd to be float2. –  Kipton Barros Sep 26 '11 at 1:20
    
This answer is incorrect. Please, consider withdrawing it. –  JackOLantern Jun 28 '13 at 12:07

If you're trying to work with cuBLAS or cuFFT you should use cuComplex. If you're are going to write your own functions there should be no difference in performance as both are just a structure of two floats.

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Yeah, I am working wtih my own functions which need complex values. What about the second question - I guess there is no way around copying my original data (which comes from a 3rd party lib as a std::complex) will have to be copied into the cuComplex type right? –  Derek Jan 27 '11 at 5:57
    
There's been some discussion whether std::complex<float> should be constrained such that it could be reinterpret_cast to a float[2]. This is already portable in practice. –  MSalters Jan 27 '11 at 11:04

IIRC, float2 is an array of 2 numbers. cuComplex (from the name alone) sounds like CUDA's complex format.

This post seems to point to where to find more on cuComplex: http://forums.nvidia.com/index.php?showtopic=81514

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