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The title of the question might sound confused, but in fact.. it is!

I have a program which execute this line

new_matrix = matrix1 + matrix2 + CPU_GIVE_ME_A_MATRIX();

the "+" operators are overloaded and I created a simple matrix class to simplify code reading.

    myMatrixClass operator+ (const myMatrixClass& mt)

    myMatrixClass result(this->rows, this->columns);
    // Sum each couple of values
    for(int i=0; i<rows; i++)
        for(int j=0; j<columns; j++)
            result.values[i*columns+j] = this->values[i*columns+j] + mt.values[i*columns+j];
    return result;

I have another version of the program which calculates the third term with CUDA

new_matrix = matrix1 + matrix2 + GPU_GIVE_ME_A_MATRIX();

After profiling a bit I discovered that:

the entire GPU_GIVE_ME_A_MATRIX() function is FASTER than the CPU_GIVE_ME_A_MATRIX() function (memory transfers included), so CUDA did its job..

but the line new_matrix = matrix1 + matrix2 + CPU_GIVE_ME_A_MATRIX(); is FASTER than new_matrix = matrix1 + matrix2 + GPU_GIVE_ME_A_MATRIX();

what could cause this weird behavior? CPU caching something?

Since this line is executed several times (it is needed for a rendering), the entire CUDA program is slower than the CPU version, but as I said the GPU_GIVE_ME_A_MATRIX() function is faster than the CPU_GIVE_ME_A_FUNCTION()

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What exactly is the question? This doesn’t surprise me at all. After all, the memory bandwidth of the GPU is extremely low compared to the CPU. –  Konrad Rudolph Apr 14 '12 at 12:00
@KonradRudolph: GPUs usually have much higher memory bandwidth than their host CPU. What is slow is the PCI-e bus between the two. –  talonmies Apr 14 '12 at 12:08
Is GPU_GIVE_ME_A_MATRIX() performing GPU memory allocation and data transfer to/from the GPU at every call? –  talonmies Apr 14 '12 at 12:12
@talonmies Yes, that’s what I meant. Thanks for clarifying my admittedly murky statement. –  Konrad Rudolph Apr 14 '12 at 12:13
sadly yes, but I tried to keep as much memory as possible on the device (GPU) and take back just the matrix data. Anyway I profiled the time the entire GPU_GIVE_ME_A_MATRIX() takes and, memory transfers included, it is faster than the CPU_GIVE_ME_A_MATRIX() function. The problem should be elsewhere –  paulAl Apr 14 '12 at 12:14

1 Answer 1

up vote 1 down vote accepted

The CPU version puts the resulting matrix in the CPUs cache (or at least it can), while the the result of the GPU version has to be read in from system memory. While this is desired in most cases (you don't want to pollute CPU cache upon every device to host transfer), it means that CPU read of this data (the first time at least) will be slower than if the data was computed host-side.

It is generally encouraged to keep memory on the device as long as possible, and to transfer as little of it back as you can. In this case, it sounds like the GPU isn't being given enough work to make it worthwhile. Perhaps a larger task than computing a single matrix can be given to the GPU?

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