Maqchine 1: My code that uses 3D FFT from FFTW3 shows some 1.5x speedup from threading (for the FFT part only) when I compile and run it on my dual core PC with OpenMP (gcc+gfortran 4.6) and link to the distribution release (OpenSuSE 11.4) of FFTW3 (which includes libfftw3_omp.so and libfftw3f_omp.so).
Machine 2: Now when I transfer this code to my 2 x 8 core processor machine and compile it the same way, I get no speedup. Note that I am using self compiled FFTW3 (on RH6 there is no OpenMP enabled FFTW3), compiled with:
$ ./configure --prefix=/usr/local/fftw-gcc --enable-float --enable-threads --enable-openmp --enable-sse --enable-sse2 --enable-avx --enable-shared
$ ./configure --prefix=/usr/local/fftw-gcc --enable-threads --enable-openmp --enable-sse2 --enable-avx --enable-shared
I checked using profiler (Oracle Solaris Studio
analyzer) that only the master thread is doing any work. However, when I tried thes example http://numbercrunch.de/blog/2010/03/parallel-fft-performance/, I definitely see the expected speedup and the profiler shows the sharing of work between threads. I compiled this test as
g++ -fopenmp -O3 -I/usr/local/fftw-gcc/include -L/usr/local/fftw-gcc/lib -lfftw3 -lfftw3_omp -fopenmp fft.C
I checked using debugging writes, that I indeed call
fftw_init_threads() and receive 1 (0 would mean an error) and I call
call fftw_plan_with_nthreads(int(nthreads,c_int)) where nthreads is really the number I want which is received from
I am really puzzled by this. I even tried compiling my code without OpenMP, but with
-lpthread and passing the thread number explicitly , but the result was the same.
----edit---- Summary of the situation:
Machine 1 (dual core):
-2 threads vs. 1 thread : 1.5x speedup, both threads fully occupied (my code)
Machine 2 (2x8 cores):
-no speedup and only one thread working, others idle (my code)
-however, reasonable speedup for the C++ test referenced above
some source code
subroutine PoisFFT_InitThreads(nthreads) !instructs fftw to plan to use nthreads threads integer, intent(in) :: nthreads integer(c_int) :: error error = fftw_init_threads() write(*,*) "fftw_init_threads:",error if (error==0) then write(*,*) "Error when initializing FFTW for threads." else write(*,*) "nthreads:",nthreads call fftw_plan_with_nthreads(int(nthreads,c_int)) end if end subroutine PoisFFT_InitThreads
This code I use for enabling threads. Those 2 writes are just to be sure, that correct number of threads is sent to FFTW.