!~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ! Math and Computer Science Division, Argonne National Laboratory ! !----------------------------------------------------------------------- ! CVS twocmp.seqNB.F90,v 1.4 2004-06-24 21:07:01 eong Exp ! CVS MCT_2_8_0 !BOP ------------------------------------------------------------------- ! ! !ROUTINE: twocmp.seqNB ! ! !DESCRIPTION: Provide a simple example of using MCT to connect to ! components executing sequentially in a single executable using ! the non-blocking communications to transfer data. ! ! ! !INTERFACE: ! program twocmpseqNB ! ! !USES: ! !--- Use only the things needed from MCT use m_MCTWorld,only: MCTWorld_init => init use m_GlobalSegMap,only: GlobalSegMap use m_GlobalSegMap,only: MCT_GSMap_init => init use m_GlobalSegMap,only: MCT_GSMap_lsize => lsize use m_GlobalSegMapComms,only: MCT_GSMap_recv => recv use m_GlobalSegMapComms,only: MCT_GSMap_isend => isend use m_GlobalSegMapComms,only: MCT_GSMap_bcast => bcast use m_AttrVect,only : AttrVect use m_AttrVect,only : MCT_AtrVt_init => init use m_AttrVect,only : MCT_AtrVt_zero => zero use m_AttrVect,only : MCT_AtrVt_lsize => lsize use m_AttrVect,only : MCT_AtrVt_indexRA => indexRA use m_AttrVect,only : MCT_AtrVt_importRA => importRAttr use m_Router,only: Router use m_Router,only: MCT_Router_init => init use m_Transfer,only : MCT_ISend => isend use m_Transfer,only : MCT_Recv => recv implicit none include 'mpif.h' integer,parameter :: npoints = 24 ! total number of grid points integer ier,nprocs,i integer color,myrank,comm1,comm2 integer,dimension(:),pointer :: myids integer,dimension(:),pointer :: req1,req2 !----------------------------------------------------------------------- ! The Main program. ! We are implementing a single-executable, seqeuntial-execution system. ! This small main program sets up MCTWorld, calls each "init" method ! and then calls each component in turn. type(GlobalSegMap) :: GSMap1,GSMap2 type(AttrVect) :: Av1,Av2 call MPI_init(ier) call mpi_comm_size(MPI_COMM_WORLD, nprocs,ier) call mpi_comm_rank(MPI_COMM_WORLD, myrank,ier) ! Duplicate MPI_COMM_WORLD into a communicator for each model call mpi_comm_dup(MPI_COMM_WORLD,comm1,ier) call mpi_comm_dup(MPI_COMM_WORLD,comm2,ier) allocate(myids(2)) myids(1)=1 myids(2)=2 ! Initialize MCT world call MCTWorld_init(2,MPI_COMM_WORLD,comm1,myids=myids) ! Initialize the models, pass in the communicators call model1init(comm1,req1,GSMap1,Av1) call model2init(comm2,req2,GSMap2,Av2) !-----------------end of initialization phase ------ ! Run the models, pass in the communicators do i=1,5 write(6,*) " " write(6,*) "Step ",i call model1(comm1,GSMap1,Av1) call model2(comm2,GSMap2,Av2) enddo ! Models are finished. call mpi_finalize(ier) contains !----------------------------------------------------------------------- !----------------------------------------------------------------------- ! !ROUTINE: subroutine model1init(comm1,req1,GSmap,av1) ! init the first model implicit none integer :: comm1,mysize,ier,asize,myproc integer :: fieldindx,avsize,i integer,dimension(1) :: start,length real,pointer :: testarray(:) integer,pointer :: req1(:) type(GlobalSegMap) :: GSmap type(AttrVect) :: av1 !--------------------------- ! find local rank and size call mpi_comm_size(comm1,mysize,ier) call mpi_comm_rank(comm1,myproc,ier) write(6,*)myproc,"model1 size",mysize ! set up a grid and decomposition asize = npoints/mysize start(1)= (myproc*asize) +1 length(1)=asize ! describe decomposition with MCT GSmap type call MCT_GSMap_init(GSMap,start,length,0,comm1,1) write(6,*)myproc,"model 1 GSMap ngseg",GSMap%ngseg,start(1) if(myproc .eq. 0) call MCT_GSMap_Isend(GSMap,2,100,req1) ! Initialize an Attribute Vector call MCT_AtrVt_init(av1,rList="field1:field2",lsize=MCT_GSMap_lsize(GSMap,comm1)) write(6,*)myproc,"model1 got an aV" avsize = MCT_AtrVt_lsize(av1) write(6,*)myproc,"model 1 av size", avsize end subroutine model1init !----------------------------------------------------------------------- !----------------------------------------------------------------------- subroutine model1(comm1,GSmap,av1) ! run the first model implicit none integer :: comm1,mysize,ier,asize,myproc integer :: fieldindx,avsize,i integer,dimension(1) :: start,length real,pointer :: testarray(:) type(GlobalSegMap) :: GSmap,GSmap2 type(AttrVect) :: av1 type(Router),save :: Rout logical,save :: firsttime=.FALSE. call mpi_comm_rank(comm1,myproc,ier) if(.not.firsttime) then ! get other GSMap if(myproc .eq. 0) call MCT_GSMap_recv(GSmap2,2,110) call MCT_GSMap_bcast(GSmap2,0,comm1) ! initialize a router call MCT_Router_init(GSMap,GSmap2,comm1,Rout) endif firsttime=.TRUE. avsize = MCT_AtrVt_lsize(av1) ! Fill Av with some data ! fill first attribute the direct way fieldindx = MCT_AtrVt_indexRA(av1,"field1") do i=1,avsize av1%rAttr(fieldindx,i) = float(i +20*myproc) enddo ! fill second attribute using Av import function allocate(testarray(avsize)) do i=1,avsize testarray(i)= cos((float(i+ 20*myproc)/npoints) * 3.14) enddo call MCT_AtrVt_importRA(av1,"field2",testarray) ! print out Av data do i=1,avsize write(6,*)myproc, "model 1 data", i,av1%rAttr(1,i),av1%rAttr(2,i) enddo ! send the data call MCT_ISend(av1,Rout) end subroutine model1 !----------------------------------------------------------------------- !----------------------------------------------------------------------- ! !ROUTINE: subroutine model2init(comm2,req2,GSmap,av1) ! init model 2 implicit none integer :: comm2,mysize,ier,asize,myproc integer :: i integer,dimension(1) :: start,length type(GlobalSegMap) :: GSmap type(AttrVect) :: av1 integer,pointer :: req2(:) !--------------------------- ! find local rank and size call mpi_comm_size(comm2,mysize,ier) call mpi_comm_rank(comm2,myproc,ier) write(6,*)myproc,"model2 size",mysize ! set up a grid and decomposition asize = npoints/mysize start(1)= (myproc*asize) +1 length(1)=asize ! describe decomposition with MCT GSmap type call MCT_GSMap_init(GSMap,start,length,0,comm2,2) write(6,*)myproc, "model 2 GSMap ngseg",GSMap%ngseg,start(1) if(myproc .eq. 0) call MCT_GSMap_Isend(GSMap,1,110,req2) ! Initialize an Attribute Vector call MCT_AtrVt_init(av1,rList="field1:field2",lsize=MCT_GSMap_lsize(GSMap,comm2)) write(6,*)myproc,"model2 got an aV" write(6,*)myproc, "model 2 av size", MCT_AtrVt_lsize(av1) end subroutine model2init !----------------------------------------------------------------------- !----------------------------------------------------------------------- ! !ROUTINE: subroutine model2(comm2,GSmap,av1) implicit none integer :: comm2,mysize,ier,avsize,myproc integer :: i integer,dimension(1) :: start,length type(GlobalSegMap) :: GSmap,GSmap2 type(AttrVect) :: av1 type(Router),save :: Rout logical,save :: firsttime=.FALSE. !--------------------------- ! initialize Av to be zero everywhere call MCT_AtrVt_zero(av1) call mpi_comm_rank(comm2,myproc,ier) if(.not.firsttime) then ! receive other GSMap if(myproc .eq. 0) call MCT_GSMap_recv(GSmap2,1,100) call MCT_GSMap_bcast(GSmap2,0,comm2) ! initialize a Router call MCT_Router_init(GSMap,GSmap2,comm2,Rout) endif firsttime=.TRUE. avsize = MCT_AtrVt_lsize(av1) ! print out Av data before Recv do i=1,avsize write(6,*) myproc,"model 2 data", i,av1%rAttr(1,i),av1%rAttr(2,i) enddo ! Recv the data call MCT_Recv(av1,Rout) ! print out Av data after Recv. do i=1,avsize write(6,*) myproc,"model 2 data after", i,av1%rAttr(1,i),av1%rAttr(2,i) enddo end subroutine model2 end