I'm wondering why the following code with SSE2 instructions performs the multiplication slower than the standard C++ implementation. Here is the code:
m_win = (double*)_aligned_malloc(size*sizeof(double), 16); __m128d* pData = (__m128d*)input().data; __m128d* pWin = (__m128d*)m_win; __m128d* pOut = (__m128d*)m_output.data; __m128d tmp; int i=0; for(; i<m_size/2;i++) pOut[i] = _mm_mul_pd(pData[i], pWin[i]);
The memory for
input().data has been allocated with _aligned_malloc.
The time to execute this code however for a 2^25 array is identical to the time for this code (350ms):
for(int i=0;i<m_size;i++) m_output.data[i] = input().data[i] * m_win[i];
How is that possible? It should theoretically take only 50% of the time, right? Or is the overhead for the memory transfer from SIMD registers to the m_output.data array so expensive?
If I replace the line from the first snippet
pOut[i] = _mm_mul_pd(pData[i], pWin[i]);
tmp = _mm_mul_pd(pData[i], pWin[i]);
__m128d tmp; then the codes executes blazingly fast, less then the resolution of my timer function.
Is that because everything is just stored in the registers and not the memory?
And even more surprising, if I compile in debug mode, the SSE code takes only 93ms while the standard multiplication takes 309ms.
- DEBUG: 93ms (SSE2) / 309ms (standard multiplication)
- RELEASE: 350ms (SSE2) / 350 (standard multiplication)
What's going on here???
I'm using MSVC2008 with QtCreator 2.2.1 in release mode. Here are my compilter switches for RELEASE:
cl -c -nologo -Zm200 -Zc:wchar_t- -O2 -MD -GR -EHsc -W3 -w34100 -w34189
and these are for DEBUG:
cl -c -nologo -Zm200 -Zc:wchar_t- -Zi -MDd -GR -EHsc -W3 -w34100 -w34189
EDIT Regarding the RELEASE vs DEBUG issue: I just wanted to note that I profiled the code and the SSE code is infact slower in release mode! That just confirms somehow the hypothesis that VS2008 somehow cant handle intrinsics with the optimizer properly. Intel VTune gives me 289ms for the SSE loop in DEBUG and 504ms in RELEASE mode. Wow... just wow...