This is a follow up on :

Dll dependencies missing when using ctypes with fortran dll compiled with intel fortran compiler and linking to intel's mkl library

I am still under windows. The fortran code in mkl_example.f :

    subroutine matmultmkl(M1, M2, M3, M, N, K) bind(c, name='matmultmkl')
        !DEC$ ATTRIBUTES DLLEXPORT :: matmultmkl
        use iso_c_binding, only: c_float, c_int
        integer(c_int),intent(in) :: M, N, K
        real(c_float), intent(in) :: M1(M, N), M2(N, K)
        real(c_float), intent(out):: M3(M, K)

        CALL DGEMM('N','N',M,K,N,1.,M1,M,M2,N,0.,M3,M)
    end subroutine 

is still the same. I compile it with command line (in a cmd windows where I ran compilervars.bat before) using the following batch file :

@Echo off


ifort %IFORT_OPTIMIZATION_FLAGS% %IFORT_INITIAL_FLAGS% /I"C:\Program Files (x86)\IntelSWTools\compilers_and_libraries_2020.4.311\windows\mkl\include" -o mkl_example.obj mkl_example.f
ifort -dll -o mylib.dll mkl_example.obj /link /LIBPATH:"C:\Program Files (x86)\IntelSWTools\compilers_and_libraries_2020.4.311\windows\mkl\lib\intel64_win" mkl_intel_lp64.lib mkl_intel_thread.lib mkl_core.lib libiomp5md.lib 

that has not changed either. Then I run the follow python script mkl_example.py, that I changed to point to the static and import libraries :

import os
os.add_dll_directory(r"C:/Program Files (x86)/IntelSWTools/compilers_and_libraries_2020.4.311/windows/redist/intel64_win/mkl")
os.add_dll_directory(r"C:/Program Files (x86)/IntelSWTools/compilers_and_libraries_2020.4.311/windows/redist/intel64_win/compiler")
import time
from ctypes import *
import signal
import numpy as np
mylib = CDLL(r"C:/path/to/the/mylib.dll")

def main():
    mylib.matmultmkl.argtypes = [ POINTER(c_float), 
                                    POINTER(c_int) ]

    mylib.matmultmkl.restype = None


    a = np.empty((M,N), dtype=c_float)
    b = np.empty((N,K), dtype=c_float)
    c = np.empty((M,K), dtype=c_float)

    a[:] = np.random.rand(M,N)
    b[:] = np.random.rand(N,K)
    c[:] = np.full((M,K), 0.0)

    # Fortran mkl call
    start = time.time()
    mylib.matmultmkl( a.ctypes.data_as(POINTER(c_float)), 
                        c_int(M), c_int(N), c_int(K) )
    stop = time.time()
    print(f"Fortran mkl \t {stop - start}s")

if __name__ == "__main__":

dgemm executes a matrix product. Here, I have two square matrices of size 231, which is a totally silly small size for a matrix product today, yet : the call to the fortran function triggers a segmentation fault. And doesn't if the size is 230 or smaller.

Still, I can't figure out why would the 231 size cause issues, so I thought about aliasing but don't see anything particular.

  • Does it crash with the reference BLAS instead of MKL? Does it crash in pure Fortran? – Vladimir F Feb 26 at 14:05
  • What if: mi = c_int(M), ni = c_int(N), ki = c_int(K), and the last 3 arguments of mylib.matmultmkl( ... , byref(mi), byref(ni), byref(ki))? – CristiFati Feb 26 at 15:21
  • 3
    You are passing single precision entities to DGEMM which expects double precision. Also M3 should probably strictly be Intent(InOut). Does fixing these correct the problem? – Ian Bush Feb 26 at 15:53
  • 1
    That sounds a total mess. Either use double precision throughout and use DGEMM. Or use single precision throughout and use SGEMM. Not if using double precision you will also have to make the constants double precision. Unless you carefully make it consistent between the two parts I wouldn't trust it at all - you do have a way of checking the answers are correct? – Ian Bush Feb 26 at 16:40
  • 1
    It does not matter, Ian spotted the problem I did not (although I did notice your use of float). The reference BLAS is netlib.org/blas with some binaries included in icl.cs.utk.edu/lapack-for-windows/lapack – Vladimir F Feb 26 at 16:55

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