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The c++ and Fortran programs uses the Intel Math Kernel Library and openmpi. A scalapack link error occurs when the program is compiled under Linux. how to solve this problem?

The program needs to link to the Intel Math Kernel Library and the Open-MPI version of MPI built around Intel Fortran and C

!----------------------------------------------------------------------------------------------------------------------------------- subroutine mpi_worker_ScaLapackMM() !-----------------------------------------------------------------------------------------------------------------------------------

! ! Matrix Matrix Multiply !

integer :: i, istat, numroc, info, ictxt
integer :: myid, ierr, nprocs 

integer   :: mycol, myrow, nb
integer   :: npcol, nprow
integer,parameter :: descriptor_len=9


integer   :: l_nrows_wj,l_ncols_wj    
integer   :: l_nrows_wjtwj,l_ncols_wjtwj

integer   :: desc_wj( descriptor_len ),desc_wjg( descriptor_len )
integer   :: desc_wjtwj( descriptor_len )
integer   :: desc_wjtwjg( descriptor_len )

integer   :: rootNodeContext, sizeM, sizeN

real(RealPrec), dimension(:,:),allocatable :: wj_loc,wjtwj_loc

! ! Which processor am I and how many others are there? ! call blacs_pinfo( myid, nprocs )

! ! Broadcast matrix size to all processors: ! if (myid == 0) sizeM = size(wj,dim=1) if (myid == 0) sizeN = size(wj,dim=2) call mpi_bcast(sizeM, 1, MPI_INTEGER, 0, MPI_COMM_WORLD, ierr) call mpi_bcast(sizeN, 1, MPI_INTEGER, 0, MPI_COMM_WORLD, ierr)

!
! Set the dimension of the 2d processors grid: ! call gridsetup(nprocs,nprow,npcol) ! The small processor grid, short, fat matrix tweak: ! This is for SOME cpu's (such as Triton) where pdsyrk stalls for fat matrices and small grids if ( (nprocs <= 16).and.(sizeN/sizeM > 2) ) then nprow = 1 npcol = nprocs endif

! ! Initialize a single blacs context: ! call blacs_get(-1,0,ictxt) call blacs_gridinit(ictxt,'r',nprow,npcol) call blacs_gridinfo(ictxt, nprow,npcol,myrow,mycol)

!
! Calculate the blocking factor for the matrix: ! call blockset( nb, 64, sizeM, sizeN, nprow, npcol)

!
! Distributed matrices: get num. local rows/cols. Create description: ! l_nrows_wj = numroc(sizeM,nb,myrow,0,nprow) l_ncols_wj = numroc(sizeN,nb,mycol,0,npcol) call descinit( desc_wj, sizeM, sizeN, nb, nb, 0, 0, ictxt, l_nrows_wj, info )

l_nrows_wjtwj = numroc(sizeN,nb,myrow,0,nprow)
l_ncols_wjtwj = numroc(sizeN,nb,mycol,0,npcol)
call descinit( desc_wjtwj, sizeN, sizeN, nb, nb, 0, 0, ictxt, l_nrows_wjtwj, info ) 

allocate (wj_loc(l_nrows_wj, l_ncols_wj ), stat=istat)
if (istat /= 0) then
    write(*,*) 'Error allocating wj_loc! l_nrows_wj,l_ncols_wj =',l_nrows_wj,l_ncols_wj
    stop
endif

allocate (wjtwj_loc(l_nrows_wjtwj, l_ncols_wjtwj ), stat=istat) 
if (istat /= 0) then
    write(*,*) 'Error allocating wjtwj_loc! l_nrows_wjtwj,l_ncols_wjtwj =',l_nrows_wjtwj, l_ncols_wjtwj
    stop
endif

! ! Distribute sub-blocks of global wj from master to all process: ! call blacs_get( -1, 0, rootNodeContext ) call blacs_gridinit( rootNodeContext, 'row-major', 1, 1 )

 if (myid == 0) then
    call descinit( desc_wjg, sizeM, sizeN, sizeM, sizeN, 0, 0, rootNodeContext, sizeM, info )
    call descinit( desc_wjtwjg, sizeN, sizeN, sizeN, sizeN, 0, 0, rootNodeContext, sizeN, info )
else 
    desc_wjg        = 0
    desc_wjg(2)     = -1
    desc_wjtwjg     = 0
    desc_wjtwjg(2)  = -1
endif

call pdgemr2d( sizeM, sizeN, wj, 1, 1, desc_wjg, wj_loc, 1, 1, desc_wj, desc_wj( 2 ) )

! ! Parallel matrix multiply: !
call pdsyrk('u','t',sizeN,sizeM,1d0,wj_loc,1,1,desc_wj,0d0,wjtwj_loc,1,1,desc_wjtwj)

! ! Send solution in wjtwj_loc back to matrix wjtwj: !

call pdgemr2d( sizeN, sizeN, wjtwj_loc, 1, 1, desc_wjtwj, wjtwj, 1, 1, desc_wjtwjg, ictxt )
if (myid == 0) then  
    ! fill in lower triangle
    do i=2,sizeN
        wjtwj(i,1:i-1) = wjtwj(1:i-1,i)
    enddo    
endif
if (myid == 0)  call blacs_gridexit( rootNodeContext ) 

! ! Deallocate local arrays... ! if (allocated(wj_loc)) deallocate(wj_loc) if (allocated(wjtwj_loc)) deallocate(wjtwj_loc)

! ! Shut down blacs: !
call blacs_gridexit(ictxt)

end subroutine mpi_worker_ScaLapackMM

!----------------------------------------------------------------------------------------------------------------------------------- subroutine mpi_worker_ScaLapackMS(istat) !----------------------------------------------------------------------------------------------------------------------------------- ! ! Matrix Factorization and Solve !
! This is called from solveLinearSystem_scalapack() in mare2dem_mpi.f90 !

integer :: numroc, info,ictxt
integer :: myid, ierr, nprocs, istat

integer   :: mycol, myrow, nb
integer   :: npcol, nprow
integer,parameter :: descriptor_len=9

integer   :: l_nrows_amat,l_ncols_amat    
integer   :: l_nrows_pm_test,l_ncols_pm_test

integer   :: desc_amat( descriptor_len )
integer   :: desc_pm_test( descriptor_len )
integer   :: desc_amatg( descriptor_len )
integer   :: desc_pm_testg( descriptor_len )    

integer   ::  rootNodeContext,   sizeN

real(RealPrec), dimension(:,:),allocatable :: amat_loc
real(RealPrec), dimension(:,:)  ,allocatable :: pm_test_loc

! ! Which processor am I and how many others are there? ! call blacs_pinfo( myid, nprocs )

! ! Broadcast matrix N x N size to all nodes: ! if (myid == 0) sizeN = size(amat,dim=1) call mpi_bcast(sizeN, 1, MPI_INTEGER, 0, MPI_COMM_WORLD, ierr)

!
! Set the dimension of the 2d processors grid: ! call gridsetup(nprocs,nprow,npcol)

! ! Initialize a single blacs context: ! call blacs_get(-1,0,ictxt) call blacs_gridinit(ictxt,'r',nprow,npcol) call blacs_gridinfo(ictxt, nprow,npcol,myrow,mycol)

!
! Calculate the blocking factor for the matrix: ! call blockset( nb, 64, sizeN, sizeN, nprow, npcol) !

!
! Distributed matrices: get num. local rows/cols. Create description: ! l_nrows_amat = numroc(sizeN,nb,myrow,0,nprow) l_ncols_amat = numroc(sizeN,nb,mycol,0,npcol) call descinit( desc_amat, sizeN, sizeN, nb, nb, 0, 0, ictxt,l_nrows_amat, info )

l_nrows_pm_test = numroc(sizeN,nb,myrow,0,nprow)
l_ncols_pm_test = 1  
call descinit( desc_pm_test, sizeN, 1, nb, 1, 0, 0, ictxt, l_nrows_pm_test, info )  

allocate (amat_loc(l_nrows_amat, l_ncols_amat ), stat=istat)
if (istat /= 0) then
    write(*,*) 'Error allocating amat_loc! l_nrows_amat,l_ncols_amat =',l_nrows_amat,l_ncols_amat
    stop
endif 

allocate (pm_test_loc(l_nrows_pm_test, l_ncols_pm_test ), stat=istat) 
if (istat /= 0) then
    write(*,*) 'Error allocating pm_test_loc! l_nrows_pm_test,l_ncols_pm_test =',l_nrows_pm_test,l_ncols_pm_test
    stop
endif     

! ! Distribute sub-blocks of global amat and pm_test from master to all process: ! call blacs_get( -1, 0, rootNodeContext ) call blacs_gridinit( rootNodeContext, 'row-major', 1, 1 ) if (myid == 0) then call descinit( desc_amatg, sizeN, sizeN, sizeN, sizeN, 0, 0, rootNodeContext, sizeN, info ) call descinit( desc_pm_testg, sizeN, 1, sizeN, 1, 0, 0, rootNodeContext, sizeN, info ) else desc_amatg = 0 desc_amatg(2) = -1 desc_pm_testg = 0 desc_pm_testg(2) = -1 endif

call pdgemr2d( sizeN, sizeN, amat, 1, 1, desc_amatg, amat_loc, 1, 1, desc_amat, desc_amat( 2 ) )

call pdgemr2d( sizeN, 1, pm_test, 1, 1, desc_pm_testg, pm_test_loc, 1, 1, desc_pm_test, desc_pm_test( 2 ) )

! ! Parallel matrix solver: ! call pdpotrf( 'u', sizeN, amat_loc, 1, 1, desc_amat, info ) if (info /= 0) then write(,) 'Error calling pdpotrf! info: ',info stop endif

call pdpotrs( 'u',  sizeN, 1, amat_loc, 1, 1, desc_amat, pm_test_loc, 1, 1, desc_pm_test,  info )
if (info /= 0) then
    write(*,*) 'Error calling pdpotrs! info: ',info
    stop
endif  

! ! Send solution in vector back to master: !
call pdgemr2d( sizeN, 1, pm_test_loc, 1, 1, desc_pm_test, pm_test, 1, 1, desc_pm_testg, ictxt )

if (myid == 0) call blacs_gridexit( rootNodeContext ) 

! ! Deallocate local arrays... ! if (allocated(amat_loc)) deallocate(amat_loc) if (allocated(pm_test_loc)) deallocate(pm_test_loc)

! ! Shut down blacs: !
call blacs_gridexit(ictxt)

end subroutine mpi_worker_ScaLapackMS

endif

The displayed result of compilation by make:

mpif90 -O2 -fpp -m64 kdtree2.o fem2D_utilities.o binaryTree.o call_triangle.o sort.o c_fortran_zgssv.o superlu_zsolver.o umf4_f77zwrapper.o umfpack_zsolver.o string_helpers.o triangle.o mt1D.o EMconstants.o em2dkx.o Occam.o c_fortran_triangle.o FilterModules.o mare2dem_common.o spline_kx_module.o mare2dem_worker.o mare2dem_io.o mare2dem_mpi.o EM2D.o RunMARE2DEM.o ./libraries/SuperLU_4.0/libsuperlu_4.0.a ./libraries/SuiteSparse/UMFPACK/Lib/libumfpack.a ./libraries/SuiteSparse/AMD/Lib/libamd.a ./libraries/SuiteSparse/CHOLMOD/Lib/libcholmod.a ./libraries/SuiteSparse/COLAMD/Lib/libcolamd.a ./libraries/SuiteSparse/CAMD/Lib/libcamd.a ./libraries/SuiteSparse/CCOLAMD/Lib/libccolamd.a ./libraries/metis-4.0/libmetis.a ./libraries/scalapack-2.0.2/libscalapack.a \ -L/home/users/nqiu/intel/mkl/lib/intel64/ -lmkl_intel_lp64 -lmkl_intel_thread -lmkl_core -liomp5 -lpthread -o MARE2DEM Occam.o: In function occam_mp_mpi_worker_scalapackmm_': Occam.f90:(.text+0x1278a): undefined reference tonumroc_' Occam.f90:(.text+0x127a9): undefined reference to numroc_' Occam.f90:(.text+0x127e1): undefined reference todescinit_' Occam.f90:(.text+0x12801): undefined reference to numroc_' Occam.f90:(.text+0x12820): undefined reference tonumroc_' Occam.f90:(.text+0x12857): undefined reference to descinit_' Occam.f90:(.text+0x12c37): undefined reference topdgemr2d_' Occam.f90:(.text+0x12c88): undefined reference to pdsyrk_' Occam.f90:(.text+0x12cd4): undefined reference topdgemr2d_' Occam.f90:(.text+0x13127): undefined reference to descinit_' Occam.f90:(.text+0x1315d): undefined reference todescinit_' Occam.o: In function occam_mp_mpi_worker_scalapackms_': Occam.f90:(.text+0x134dd): undefined reference tonumroc_' Occam.f90:(.text+0x13510): undefined reference to numroc_' Occam.f90:(.text+0x1355b): undefined reference todescinit_' Occam.f90:(.text+0x1358b): undefined reference to numroc_' Occam.f90:(.text+0x135da): undefined reference todescinit_' Occam.f90:(.text+0x139e2): undefined reference to pdgemr2d_' Occam.f90:(.text+0x13a2f): undefined reference topdgemr2d_' Occam.f90:(.text+0x13a61): undefined reference to pdpotrf_' Occam.f90:(.text+0x13ada): undefined reference topdpotrs_' Occam.f90:(.text+0x13b41): undefined reference to pdgemr2d_' Occam.f90:(.text+0x13f4e): undefined reference todescinit_' Occam.f90:(.text+0x13f8b): undefined reference to `descinit_'

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