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()

much highermemory bandwidth than their host CPU. What is slow is the PCI-e bus between the two. – talonmies Apr 14 '12 at 12:08`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