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I am converting an image from colour to grayscale using CUDA 5 / VC 2008.

The CUDA kernel is:

__global__ static void rgba_to_grayscale( const uchar4* const rgbaImage, unsigned char * const greyImage,
                                     int numRows, int numCols) 
    int pos = blockIdx.x * blockDim.x + threadIdx.x;
    if (pos < numRows * numCols) {
        uchar4 zz = rgbaImage[pos];
        float out = 0.299f * zz.x + 0.587f * zz.y + 0.114f * zz.z;
        greyImage[pos] = (unsigned char) out;


The C++ function is:

inline unsigned char rgba_to_grayscale( uchar4 rgbaImage) 
    return (unsigned char) 0.299f * rgbaImage.x + 0.587f * rgbaImage.y + 0.114f * rgbaImage.z;

and they are both called appropriately. However they are yielding different results.

Original image :

This colour image

CUDA version:

cuda result

Serial CPU version:

Serial Code result

Can anybody explain why the results are different?

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What is speedup ratio for this function? –  huseyin tugrul buyukisik May 12 '13 at 14:36

2 Answers 2

up vote 8 down vote accepted

There is no problem with your CUDA function. The CPU version is incorrect. You are typecasting the value 0.299f * rgbaImage.x to unsigned char which is equivalent to the following code:

inline unsigned char rgba_to_grayscale( uchar4 rgbaImage) 
    return ((unsigned char) 0.299f * rgbaImage.x) + 0.587f * rgbaImage.y + 0.114f * rgbaImage.z;

You have to cast the final result into unsigned char like this:

inline unsigned char rgba_to_grayscale( uchar4 rgbaImage) 
    return (unsigned char) (0.299f * rgbaImage.x + 0.587f * rgbaImage.y + 0.114f * rgbaImage.z);
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Yup - nearly there. But the other thing which I had vaguely remembered is that the RGBA order is different for the C and CUDA code. will post below. –  Dave Appleton May 13 '13 at 14:41

@sga91 was pretty much there.... but is also appears that the byte order is different.

inline unsigned char rgba_to_grayscale( uchar4 rgbaImage) 
    return (unsigned char) (0.299f * rgbaImage.z + 0.587f * rgbaImage.y + 0.114f * rgbaImage.y);

note that the x and z are transposed....

I do remember reading about it before but I cannot find the reference now...

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I don't think the byte order should be different. It depends on the channel sequence of the input image. e.g RGBA or BGRA etc. –  sgarizvi May 13 '13 at 16:50
It appears that OpenGL uses BGRA and I think that this kind of migrates to CUDA - but I will try to get some absolute reference to it. But I agree that it looks crazy because I used the CUDA image load helper functions in both cases. –  Dave Appleton May 14 '13 at 20:02

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