1201 lines
34 KiB
Fortran
1201 lines
34 KiB
Fortran
MODULE m_compact
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use m_openmpi
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IMPLICIT NONE
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PRIVATE
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REAL*8, DIMENSION(:), ALLOCATABLE :: lxf,lxs,wxf,wxs, &
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lyf,lys,wyf,wys, &
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lzf,lzs,wzf,wzs
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! lyzf,lyzs,wyzf,wyzs
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REAL*8, DIMENSION(:), ALLOCATABLE :: zz1, zz2, vz1, vz2
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INTEGER :: nxc,nyc,nzc
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REAL*8, PARAMETER :: ezero = 1.0e-14
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PUBLIC :: ludcmp,dfnonp,d2fnonp,dfp,d2fp,par_dfp,par_d2fp,pdfp,pd2fp
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CONTAINS
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SUBROUTINE ludcmp(nxx,nyy,nzz,xp,yp,zp)
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INTEGER, INTENT(IN) :: nxx,nyy,nzz
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INTEGER, INTENT(IN) :: xp,yp,zp
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INTEGER :: ierr
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nxc=nxx
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nyc=nyy
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nzc=nzz
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! IF(nyc /= nzc) PRINT*,'ny should be equal nz'
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! xp, yp, zp = 0 : periodic
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ALLOCATE(lxf(nxc),STAT=ierr)
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IF(ierr /= 0) PRINT*, 'work array for lud allocation failed'
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ALLOCATE(lxs(nxc),STAT=ierr)
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IF(ierr /= 0) PRINT*, 'work array for lud allocation failed'
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IF(xp.eq.0) THEN
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ALLOCATE(wxf(nxc),STAT=ierr)
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IF(ierr /= 0) PRINT*, 'work array for lud allocation failed'
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ALLOCATE(wxs(nxc),STAT=ierr)
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IF(ierr /= 0) PRINT*, 'work array for lud allocation failed'
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CALL p_lud(1,nxc)
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ELSE
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CALL nonp_lud(1,nxc)
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ENDIF
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ALLOCATE(lyf(nyc),STAT=ierr)
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IF(ierr /= 0) PRINT*, 'work array for lud allocation failed'
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ALLOCATE(lys(nyc),STAT=ierr)
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IF(ierr /= 0) PRINT*, 'work array for lud allocation failed'
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IF(yp.eq.0) THEN
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ALLOCATE(wyf(nyc),STAT=ierr)
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IF(ierr /= 0) PRINT*, 'work array for lud allocation failed'
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ALLOCATE(wys(nyc),STAT=ierr)
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IF(ierr /= 0) PRINT*, 'work array for lud allocation failed'
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CALL p_lud(2,nyc)
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ELSE
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call nonp_lud(2,nyc)
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ENDIF
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ALLOCATE(lzf(nzc),STAT=ierr)
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IF(ierr /= 0) PRINT*, 'work array for lud allocation failed'
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ALLOCATE(lzs(nzc),STAT=ierr)
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IF(ierr /= 0) PRINT*, 'work array for lud allocation failed'
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IF(zp.eq.0) THEN
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ALLOCATE(wzf(nzc),STAT=ierr)
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IF(ierr /= 0) PRINT*, 'work array for lud allocation failed'
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ALLOCATE(wzs(nzc),STAT=ierr)
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IF(ierr /= 0) PRINT*, 'work array for lud allocation failed'
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CALL p_lud(3,nzc)
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ELSE
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call nonp_lud(3,nzc)
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ENDIF
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ALLOCATE(vz1(nzc),STAT=ierr)
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IF(ierr /= 0) PRINT*, 'work array for lud allocation failed'
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ALLOCATE(zz1(nzc),STAT=ierr)
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IF(ierr /= 0) PRINT*, 'work array for lud allocation failed'
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ALLOCATE(vz2(nzc),STAT=ierr)
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IF(ierr /= 0) PRINT*, 'work array for lud allocation failed'
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ALLOCATE(zz2(nzc),STAT=ierr)
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IF(ierr /= 0) PRINT*, 'work array for lud allocation failed'
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call ctdlu (3.0, nzc, vz1, zz1)
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call ctdlu (11.0/2.0, nzc, vz2, zz2)
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! CALL x_lud
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! CALL yz_lud
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END SUBROUTINE ludcmp
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SUBROUTINE nonp_lud(xyz,xx)
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INTEGER :: i,xyz,xx
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REAL*8, DIMENSION(xx) :: aa
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aa=3.
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aa(1)=0.5 ; aa(2)=4.
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aa(xx-1)=4. ; aa(xx)=0.5
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! first derivative
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IF (xyz.eq.1) CALL stdlu(aa,xx,lxf) ! x-direction
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IF (xyz.eq.2) CALL stdlu(aa,xx,lyf) ! y-direction
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IF (xyz.eq.3) CALL stdlu(aa,xx,lzf) ! z-direction
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aa=5.5
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aa(1)=2./11. ; aa(2)=10.
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aa(xx-1)=10. ; aa(xx)=2./11.
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! second derivative
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IF (xyz.eq.1) CALL stdlu(aa,xx,lxs) ! x-direction
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IF (xyz.eq.2) CALL stdlu(aa,xx,lys) ! y-direction
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IF (xyz.eq.3) CALL stdlu(aa,xx,lzs) ! z-direction
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END SUBROUTINE nonp_lud
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SUBROUTINE p_lud(xyz,xx)
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INTEGER :: i,xyz,xx
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REAL*8 :: a
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a=3. ! first derivative
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IF (xyz.eq.1) CALL ptdlu(a,xx,lxf,wxf) ! x-direction
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IF (xyz.eq.2) CALL ptdlu(a,xx,lyf,wyf) ! y-direction
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IF (xyz.eq.3) CALL ptdlu(a,xx,lzf,wzf) ! z-direction
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a=11./2. ! second derivative
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IF (xyz.eq.1) CALL ptdlu(a,xx,lxs,wxs) ! x-direction
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IF (xyz.eq.2) CALL ptdlu(a,xx,lys,wys) ! y-direction
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IF (xyz.eq.3) CALL ptdlu(a,xx,lzs,wzs) ! z-direction
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END SUBROUTINE p_lud
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SUBROUTINE stdlu(a,n,l)
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INTEGER :: n
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REAL*8 :: a(n),l(n)
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REAL*8 :: d
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INTEGER :: i
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l(1)=1.0/a(1)
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DO i=2,n
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d=a(i)-l(i-1)
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l(i)=1.0/d
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ENDDO
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END SUBROUTINE stdlu
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SUBROUTINE ptdlu(a,n,l,w)
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INTEGER :: n
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REAL*8 :: a,l(n),w(n)
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INTEGER :: i
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REAL*8 :: aa(n),d
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DO i=1,n-1
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aa(i)=a
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ENDDO
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i=n-1
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call stdlu(aa,i,l)
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w(1)=1.0
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DO i=2,n-2
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w(i)=-l(i-1)*w(i-1)
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ENDDO
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w(n-1)=1.0-l(n-2)*w(n-2)
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DO i=1,n-1
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w(i)=w(i)*l(i)
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ENDDO
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d=a
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DO i=1,n-1
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d=d-w(i)*w(i)/l(i)
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ENDDO
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l(n)=1./d
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END SUBROUTINE ptdlu
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SUBROUTINE ctdlu(lambda,n,v,z)
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INTEGER, INTENT(IN) :: n
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REAL*8, INTENT(IN) :: lambda
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REAL*8, INTENT(OUT) :: v(n)
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REAL*8, INTENT(OUT) :: z(n)
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INTEGER :: i
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REAL*8 :: sigma, alpha
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v(1)=0.0
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v(2)=lambda
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DO i=3,n
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v(i)=lambda - 1./v(i-1)
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ENDDO
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if (lambda > 0.0) then
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alpha = (-lambda + sqrt(lambda**2 - 4.0))/2.0
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else
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alpha = (-lambda - sqrt(lambda**2 - 4.0))/2.0
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endif
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sigma = (1.0 + alpha**2) / (lambda * (1.0 - alpha**2) * (1.0 - alpha**n))
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DO i=1,n
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z(i) = sigma * (alpha**(i-1) + alpha**(n-i+1))
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ENDDO
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END SUBROUTINE ctdlu
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SUBROUTINE pdfp(x,xu,xl,dx,h,nd,n,nall,dir)
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INTEGER,INTENT(IN) :: nall,n,nd,dir
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REAL*8,INTENT(IN) :: h
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REAL*8,INTENT(IN),DIMENSION(nd,n) :: x
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REAL*8,INTENT(OUT),DIMENSION(nd,2) :: xu, xl
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REAL*8,INTENT(OUT),DIMENSION(nd,n) :: dx
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INTEGER :: i,j
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REAL*8 :: r1,r2,h1
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integer (kind=MPI_INTEGER_KIND) :: idx
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integer (kind=MPI_INTEGER_KIND),dimension(4) :: requests
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logical :: recvLow, recvUpp
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h1=1./h
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r1=7./3.
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r2=1./12.
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!if (myid.eq.0) write(*,*) "parallel dfp commuication"
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if (myid.eq.master) then
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call MPI_SEND_INIT (x(1,n-1), 2*nd, MPI_REAL8, myid+1, myid, &
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MPI_COMM_TASK, requests(1), mpi_err)
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call MPI_SEND_INIT (x(1,1), 2*nd, MPI_REAL8, numprocs-1, myid, &
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MPI_COMM_TASK, requests(2), mpi_err)
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call MPI_RECV_INIT (xl, 2*nd, MPI_REAL8, numprocs-1, numprocs-1, &
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MPI_COMM_TASK, requests(3), mpi_err)
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call MPI_RECV_INIT (xu, 2*nd, MPI_REAL8, myid+1, myid+1, &
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MPI_COMM_TASK, requests(4), mpi_err)
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elseif (myid.eq.numprocs-1) then
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call MPI_SEND_INIT (x(1,n-1), 2*nd, MPI_REAL8, 0, myid, &
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MPI_COMM_TASK, requests(1), mpi_err)
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call MPI_SEND_INIT (x(1,1), 2*nd, MPI_REAL8, myid-1, myid, &
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MPI_COMM_TASK, requests(2), mpi_err)
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call MPI_RECV_INIT (xl, 2*nd, MPI_REAL8, myid-1, myid-1, &
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MPI_COMM_TASK, requests(3), mpi_err)
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call MPI_RECV_INIT (xu, 2*nd, MPI_REAL8, 0, 0, &
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MPI_COMM_TASK, requests(4), mpi_err)
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else
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call MPI_SEND_INIT (x(1,n-1), 2*nd, MPI_REAL8, myid+1, myid, &
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MPI_COMM_TASK, requests(1), mpi_err)
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call MPI_SEND_INIT (x(1,1), 2*nd, MPI_REAL8, myid-1, myid, &
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MPI_COMM_TASK, requests(2), mpi_err)
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call MPI_RECV_INIT (xl, 2*nd, MPI_REAL8, myid-1, myid-1, &
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MPI_COMM_TASK, requests(3), mpi_err)
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call MPI_RECV_INIT (xu, 2*nd, MPI_REAL8, myid+1, myid+1, &
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MPI_COMM_TASK, requests(4), mpi_err)
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endif
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call MPI_STARTALL (4, requests, mpi_err)
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DO i=3,n-2
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DO j=1,nd
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dx(j,i)=(r1*(x(j,i+1)-x(j,i-1))+r2*(x(j,i+2)-x(j,i-2)))*h1
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ENDDO
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ENDDO
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recvLow = .true.
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recvUpp = .true.
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do while (recvLow.or.recvUpp)
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call MPI_WAITANY (2, requests(3:), idx, mpi_status, mpi_err)
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if (idx.eq.1) then
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DO j=1,nd
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dx(j,1) =(r1*( x(j,2)-xl(j,2)) +r2*( x(j,3)-xl(j,1))) *h1
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ENDDO
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DO j=1,nd
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dx(j,2) =(r1*( x(j,3)- x(j,1)) +r2*( x(j,4)-xl(j,2))) *h1
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ENDDO
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recvLow = .false.
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endif
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if (idx.eq.2) then
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DO j=1,nd
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dx(j,n-1)=(r1*( x(j,n)- x(j,n-2))+r2*(xu(j,1)- x(j,n-3)))*h1
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ENDDO
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DO j=1,nd
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dx(j,n) =(r1*(xu(j,1)- x(j,n-1))+r2*(xu(j,2)- x(j,n-2)))*h1
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ENDDO
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recvUpp = .false.
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endif
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enddo
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IF (dir.eq.1) CALL ctdslv(dx,vz1,zz1,nd,n,nall) ! x-direction
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IF (dir.eq.2) CALL ctdslv(dx,vz1,zz1,nd,n,nall) ! x-direction
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IF (dir.eq.3) CALL ctdslv(dx,vz1,zz1,nd,n,nall) ! x-direction
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END SUBROUTINE pdfp
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SUBROUTINE pd2fp(x,xu,xl,dx,h,nd,n,nall,dir)
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INTEGER,INTENT(IN) :: nall,n,nd,dir
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REAL*8,INTENT(IN) :: h
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REAL*8,INTENT(IN),DIMENSION(nd,n) :: x
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REAL*8,INTENT(OUT),DIMENSION(nd,n) :: dx
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INTEGER :: i,j
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REAL*8 :: h2,r1,r2,t1,t2
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REAL*8,DIMENSION(nd,2) :: xu, xl
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integer (kind=MPI_INTEGER_KIND) :: idx
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integer (kind=MPI_INTEGER_KIND),dimension(4) :: requests
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logical :: recvLow, recvUpp
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h2=1./(h*h)
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r1=6.
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r2=3./8.
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!if (myid.eq.0) write(*,*) "parallel d2fp commuication"
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if (myid.eq.master) then
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call MPI_SEND_INIT (x(1,n-1), 2*nd, MPI_REAL8, myid+1, myid, &
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MPI_COMM_TASK, requests(1), mpi_err)
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call MPI_SEND_INIT (x(1,1), 2*nd, MPI_REAL8, numprocs-1, myid, &
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MPI_COMM_TASK, requests(2), mpi_err)
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call MPI_RECV_INIT (xl, 2*nd, MPI_REAL8, numprocs-1, numprocs-1, &
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MPI_COMM_TASK, requests(3), mpi_err)
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call MPI_RECV_INIT (xu, 2*nd, MPI_REAL8, myid+1, myid+1, &
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MPI_COMM_TASK, requests(4), mpi_err)
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elseif (myid.eq.numprocs-1) then
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call MPI_SEND_INIT (x(1,n-1), 2*nd, MPI_REAL8, 0, myid, &
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MPI_COMM_TASK, requests(1), mpi_err)
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call MPI_SEND_INIT (x(1,1), 2*nd, MPI_REAL8, myid-1, myid, &
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MPI_COMM_TASK, requests(2), mpi_err)
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call MPI_RECV_INIT (xl, 2*nd, MPI_REAL8, myid-1, myid-1, &
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MPI_COMM_TASK, requests(3), mpi_err)
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call MPI_RECV_INIT (xu, 2*nd, MPI_REAL8, 0, 0, &
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MPI_COMM_TASK, requests(4), mpi_err)
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else
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call MPI_SEND_INIT (x(1,n-1), 2*nd, MPI_REAL8, myid+1, myid, &
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MPI_COMM_TASK, requests(1), mpi_err)
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call MPI_SEND_INIT (x(1,1), 2*nd, MPI_REAL8, myid-1, myid, &
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MPI_COMM_TASK, requests(2), mpi_err)
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call MPI_RECV_INIT (xl, 2*nd, MPI_REAL8, myid-1, myid-1, &
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MPI_COMM_TASK, requests(3), mpi_err)
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call MPI_RECV_INIT (xu, 2*nd, MPI_REAL8, myid+1, myid+1, &
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MPI_COMM_TASK, requests(4), mpi_err)
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endif
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call MPI_STARTALL (4, requests, mpi_err)
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DO i=3,n-2
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DO j=1,nd
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t1 = (x(j,i+1)-2.*x(j,i)+x(j,i-1))
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t2 = (x(j,i+2)-2.*x(j,i)+x(j,i-2))
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dx(j,i)=(r1*t1+r2*t2)*h2
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ENDDO
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ENDDO
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recvLow = .true.
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recvUpp = .true.
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do while (recvLow.or.recvUpp)
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call MPI_WAITANY (2, requests(3:), idx, mpi_status, mpi_err)
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if (idx.eq.1) then
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DO j=1,nd
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t1 = (x(j,2)-2.*x(j,1)+xl(j,2))
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t2 = (x(j,3)-2.*x(j,1)+xl(j,1))
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dx(j,1)=(r1*t1+r2*t2)*h2
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ENDDO
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DO j=1,nd
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t1 = (x(j,3)-2.*x(j,2)+ x(j,1))
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t2 = (x(j,4)-2.*x(j,2)+xl(j,2))
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dx(j,2)=(r1*t1+r2*t2)*h2
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ENDDO
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recvLow = .false.
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endif
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if (idx.eq.2) then
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DO j=1,nd
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t1 = ( x(j,n)-2.*x(j,n-1)+x(j,n-2))
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t2 = (xu(j,1)-2.*x(j,n-1)+x(j,n-3))
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dx(j,n-1)=(r1*t1+r2*t2)*h2
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ENDDO
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DO j=1,nd
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t1 = (xu(j,1)-2.*x(j,n)+x(j,n-1))
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t2 = (xu(j,2)-2.*x(j,n)+x(j,n-2))
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dx(j,n)=(r1*t1+r2*t2)*h2
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ENDDO
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recvUpp = .false.
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endif
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enddo
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IF (dir.eq.1) CALL ctdslv(dx,vz2,zz2,nd,n,nall) ! x-direction
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IF (dir.eq.2) CALL ctdslv(dx,vz2,zz2,nd,n,nall) ! y-direction
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IF (dir.eq.3) CALL ctdslv(dx,vz2,zz2,nd,n,nall) ! z-direction
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END SUBROUTINE pd2fp
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SUBROUTINE dfnonp(n,h,x,dx,nd,dir)
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INTEGER,INTENT(IN) :: n,nd,dir
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REAL*8,INTENT(IN) :: h
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REAL*8,INTENT(IN),DIMENSION(nd,n) :: x
|
|
REAL*8,INTENT(OUT),DIMENSION(nd,n) :: dx
|
|
INTEGER :: i,j
|
|
REAL*8 :: r1,r2,r3,a,b,c,h1,t1,t2,t3,t4
|
|
|
|
h1=1./h
|
|
|
|
r1=7./3.
|
|
r2=1./12.
|
|
r3=3.
|
|
a=-1.25
|
|
b=1.
|
|
c=0.25
|
|
|
|
DO j=1,nd
|
|
dx(j,n-1)=x(j,n)-x(j,n-2)
|
|
dx(j,n)=-(a*x(j,n)+b*x(j,n-1)+c*x(j,n-2))
|
|
dx(j,1)=(a*x(j,1)+b*x(j,2)+c*x(j,3))
|
|
dx(j,2)=x(j,3)-x(j,1)
|
|
IF (x(j,n).eq.x(j,n-1).and.x(j,n-1).eq.x(j,n-2)) dx(j,n)=0.
|
|
IF (x(j,1).eq.x(j,2).and.x(j,2).eq.x(j,3)) dx(j,1)=0.
|
|
dx(j,n-1)=dx(j,n-1)*h1*r3
|
|
dx(j,n)=dx(j,n)*h1
|
|
dx(j,1)=dx(j,1)*h1
|
|
dx(j,2)=dx(j,2)*h1*r3
|
|
ENDDO
|
|
|
|
DO i=3,n-2
|
|
DO j=1,nd
|
|
t1=x(j,i+1)-x(j,i-1)
|
|
t2=x(j,i+2)-x(j,i-2)
|
|
dx(j,i)=h1*(r1*t1+r2*t2)
|
|
ENDDO
|
|
ENDDO
|
|
IF (dir.eq.1) CALL tdslv(dx,n,lxf,nd) ! x-direction
|
|
IF (dir.eq.2) CALL tdslv(dx,n,lyf,nd) ! y-direction
|
|
IF (dir.eq.3) CALL tdslv(dx,n,lzf,nd) ! z-direction
|
|
END SUBROUTINE dfnonp
|
|
|
|
SUBROUTINE dfp(n,h,x,dx,nd,dir)
|
|
INTEGER,INTENT(IN) :: n,nd,dir
|
|
REAL*8,INTENT(IN) :: h
|
|
REAL*8,INTENT(IN),DIMENSION(nd,n) :: x
|
|
REAL*8,INTENT(OUT),DIMENSION(nd,n) :: dx
|
|
INTEGER :: i,j
|
|
REAL*8 :: r1,r2,h1
|
|
|
|
h1=1./h
|
|
r1=7./3.
|
|
r2=1./12.
|
|
|
|
DO j=1,nd
|
|
dx(j,n-1)=(r1*(x(j,n)-x(j,n-2))+r2*(x(j,1)-x(j,n-3)))
|
|
dx(j,n)=(r1*(x(j,1)-x(j,n-1))+r2*(x(j,2)-x(j,n-2)))
|
|
dx(j,1)=(r1*(x(j,2)-x(j,n))+r2*(x(j,3)-x(j,n-1)))
|
|
dx(j,2)=(r1*(x(j,3)-x(j,1))+r2*(x(j,4)-x(j,n)))
|
|
dx(j,n-1)=dx(j,n-1)*h1
|
|
dx(j,n)=dx(j,n)*h1
|
|
dx(j,1)=dx(j,1)*h1
|
|
dx(j,2)=dx(j,2)*h1
|
|
ENDDO
|
|
|
|
DO i=3,n-2
|
|
DO j=1,nd
|
|
dx(j,i)=(r1*(x(j,i+1)-x(j,i-1))+r2*(x(j,i+2)-x(j,i-2)))
|
|
dx(j,i)=dx(j,i)*h1
|
|
ENDDO
|
|
ENDDO
|
|
|
|
IF (dir.eq.1) CALL ptdslv(dx,n,lxf,wxf,nd) ! x-direction
|
|
IF (dir.eq.2) CALL ptdslv(dx,n,lyf,wyf,nd) ! y-direction
|
|
IF (dir.eq.3) CALL ptdslv(dx,n,lzf,wzf,nd) ! z-direction
|
|
|
|
END SUBROUTINE dfp
|
|
|
|
SUBROUTINE par_dfp(x,xu,xl,dx,h,nd,n,nall,dir)
|
|
INTEGER,INTENT(IN) :: nall,n,nd,dir
|
|
REAL*8,INTENT(IN) :: h
|
|
REAL*8,INTENT(IN),DIMENSION(nd,n) :: x
|
|
REAL*8,INTENT(OUT),DIMENSION(nd,n) :: dx
|
|
INTEGER :: i,j
|
|
REAL*8 :: r1,r2,h1
|
|
|
|
REAL*8,DIMENSION(nd,2) :: xu, xl
|
|
|
|
h1=1./h
|
|
r1=7./3.
|
|
r2=1./12.
|
|
|
|
!if (myid.eq.0) write(*,*) "parallel dfp commuication"
|
|
if (myid.eq.master) then
|
|
|
|
call MPI_ISEND (x(1,1), 2*nd, MPI_REAL8, numprocs-1, myid, &
|
|
MPI_COMM_TASK, mpi_request, mpi_err)
|
|
|
|
call MPI_RECV (xu, 2*nd, MPI_REAL8, myid+1, myid+1, &
|
|
MPI_COMM_TASK, mpi_status, mpi_err)
|
|
|
|
call MPI_ISEND (x(1,n-1), 2*nd, MPI_REAL8, myid+1, myid, &
|
|
MPI_COMM_TASK, mpi_request, mpi_err)
|
|
|
|
call MPI_RECV (xl, 2*nd, MPI_REAL8, numprocs-1, numprocs-1, &
|
|
MPI_COMM_TASK, mpi_status, mpi_err)
|
|
|
|
elseif (myid.eq.numprocs-1) then
|
|
|
|
call MPI_ISEND (x(1,1), 2*nd, MPI_REAL8, myid-1, myid, &
|
|
MPI_COMM_TASK, mpi_request, mpi_err)
|
|
|
|
call MPI_RECV (xu, 2*nd, MPI_REAL8, 0, 0, &
|
|
MPI_COMM_TASK, mpi_status, mpi_err)
|
|
|
|
call MPI_ISEND (x(1,n-1), 2*nd, MPI_REAL8, 0, myid, &
|
|
MPI_COMM_TASK, mpi_request, mpi_err)
|
|
|
|
call MPI_RECV (xl, 2*nd, MPI_REAL8, myid-1, myid-1, &
|
|
MPI_COMM_TASK, mpi_status, mpi_err)
|
|
|
|
else
|
|
|
|
call MPI_ISEND (x(1,1), 2*nd, MPI_REAL8, myid-1, myid, &
|
|
MPI_COMM_TASK, mpi_request, mpi_err)
|
|
|
|
call MPI_RECV (xu, 2*nd, MPI_REAL8, myid+1, myid+1, &
|
|
MPI_COMM_TASK, mpi_status, mpi_err)
|
|
|
|
call MPI_ISEND (x(1,n-1), 2*nd, MPI_REAL8, myid+1, myid, &
|
|
MPI_COMM_TASK, mpi_request, mpi_err)
|
|
|
|
call MPI_RECV (xl, 2*nd, MPI_REAL8, myid-1, myid-1, &
|
|
MPI_COMM_TASK, mpi_status, mpi_err)
|
|
|
|
endif
|
|
|
|
DO j=1,nd
|
|
dx(j,n-1)=(r1*( x(j,n)- x(j,n-2))+r2*(xu(j,1)- x(j,n-3)))*h1
|
|
dx(j,n)= (r1*(xu(j,1)- x(j,n-1))+r2*(xu(j,2)- x(j,n-2)))*h1
|
|
dx(j,1)= (r1*( x(j,2)-xl(j,2)) +r2*( x(j,3)-xl(j,1)))*h1
|
|
dx(j,2)= (r1*( x(j,3)- x(j,1)) +r2*( x(j,4)-xl(j,2)))*h1
|
|
ENDDO
|
|
|
|
DO i=3,n-2
|
|
DO j=1,nd
|
|
dx(j,i)=(r1*(x(j,i+1)-x(j,i-1))+r2*(x(j,i+2)-x(j,i-2)))*h1
|
|
ENDDO
|
|
ENDDO
|
|
|
|
|
|
IF (dir.eq.1) CALL par_ptdslv(dx,lxf,wxf,nd,n,nall) ! x-direction
|
|
IF (dir.eq.2) CALL par_ptdslv(dx,lyf,wyf,nd,n,nall) ! x-direction
|
|
IF (dir.eq.3) CALL par_ptdslv(dx,lzf,wzf,nd,n,nall) ! x-direction
|
|
|
|
END SUBROUTINE par_dfp
|
|
|
|
SUBROUTINE ptdslv(r,n,l,w,nd)
|
|
INTEGER,INTENT(IN) :: n,nd
|
|
REAL*8,INTENT(INOUT),DIMENSION(nd,n) :: r
|
|
REAL*8,INTENT(IN),DIMENSION(:) :: l,w
|
|
INTEGER i,j
|
|
REAL*8, DIMENSION(nd) :: sum
|
|
DO j=1,nd
|
|
sum(j)=w(1)*r(j,1)
|
|
r(j,1)=r(j,1)*l(1)
|
|
ENDDO
|
|
DO i=2,n-1
|
|
DO j=1,nd
|
|
r(j,i)=r(j,i)-r(j,i-1)
|
|
sum(j)=sum(j)+w(i)*r(j,i)
|
|
r(j,i)=r(j,i)*l(i)
|
|
ENDDO
|
|
ENDDO
|
|
DO j=1,nd
|
|
r(j,n)=l(n)*(r(j,n)-sum(j))
|
|
r(j,n-1)=r(j,n-1)-w(n-1)*r(j,n)
|
|
ENDDO
|
|
DO i=n-2,1,-1
|
|
DO j=1,nd
|
|
r(j,i)=r(j,i)-l(i)*r(j,i+1)-w(i)*r(j,n)
|
|
ENDDO
|
|
ENDDO
|
|
END SUBROUTINE ptdslv
|
|
|
|
SUBROUTINE ctdslv(r,va,za,nd,n,nall)
|
|
INTEGER,PARAMETER :: nb = 256
|
|
INTEGER,INTENT(IN) :: n,nd,nall
|
|
REAL*8,INTENT(INOUT),DIMENSION(nd,n) :: r
|
|
REAL*8,INTENT(IN),DIMENSION(nall) :: va
|
|
REAL*8,INTENT(IN),DIMENSION(nall) :: za
|
|
REAL*8,DIMENSION(n) :: v,z
|
|
INTEGER i,j
|
|
INTEGER ii,jj
|
|
REAL*8, DIMENSION(nd) :: sum
|
|
|
|
REAL*8, DIMENSION(nd) :: x1, x1_
|
|
|
|
INTEGER npart, nbase, nlow, nupp
|
|
INTEGER :: pid, np
|
|
REAL*8, DIMENSION(nb) :: r0, r1, sum0
|
|
REAL*8, DIMENSION(nb,2) :: buf
|
|
|
|
pid = myid
|
|
np = numprocs
|
|
|
|
npart = nall / np
|
|
nbase = pid * npart
|
|
nlow = pid * npart + 1
|
|
nupp = (pid + 1) * npart
|
|
|
|
v = va(nlow:nupp)
|
|
z = za(nlow:nupp)
|
|
|
|
if (npart.lt.4) then
|
|
! assertion fail
|
|
endif
|
|
|
|
x1 = 0.0
|
|
x1_ = 0.0
|
|
|
|
do i=1,n
|
|
x1_ = x1_ + z(i)*r(:,i)
|
|
enddo
|
|
|
|
call MPI_REDUCE(x1_, x1, nd, MPI_REAL8, MPI_SUM, master, MPI_COMM_TASK, mpi_err)
|
|
|
|
! first process
|
|
if (myid.eq.0) then
|
|
|
|
CALL MPI_SSEND(x1, nd, MPI_REAL8, np-1, 100, MPI_COMM_TASK, mpi_err)
|
|
|
|
r(:,1) = x1
|
|
r(:,2) = r(:,2) - x1
|
|
|
|
! last process
|
|
elseif (pid.eq.(np-1)) then
|
|
|
|
CALL MPI_RECV(x1, nd, MPI_REAL8, master, 100, MPI_COMM_TASK, mpi_status, mpi_err)
|
|
|
|
r(:,n) = r(:,n) - x1
|
|
|
|
! intermediate process
|
|
else
|
|
|
|
endif
|
|
|
|
! first process
|
|
if (myid.eq.0) then
|
|
|
|
DO jj=1,nd,nb
|
|
|
|
DO j=jj,jj+nb-1
|
|
r(j,2)=r(j,2)/v(2)
|
|
ENDDO
|
|
|
|
DO i=3,n
|
|
DO j=jj,jj+nb-1
|
|
r(j,i)=(r(j,i)-r(j,i-1))/v(i)
|
|
ENDDO
|
|
ENDDO
|
|
|
|
r0 = r(jj:jj+nb-1,n)
|
|
CALL MPI_SEND(r0, nb, MPI_REAL8, pid+1, 1, MPI_COMM_TASK, mpi_err)
|
|
|
|
ENDDO
|
|
|
|
DO jj=1,nd,nb
|
|
|
|
CALL MPI_RECV(r1, nb, MPI_REAL8, pid+1, 2, MPI_COMM_TASK, mpi_status, mpi_err)
|
|
|
|
i=n
|
|
DO j=jj,jj+nb-1
|
|
r(j,i) = r(j,i) - r1(j-jj+1)/v(i)
|
|
ENDDO
|
|
|
|
DO i=n-1,2,-1
|
|
DO j=jj,jj+nb-1
|
|
r(j,i) = r(j,i) - r(j,i+1)/v(i)
|
|
ENDDO
|
|
ENDDO
|
|
|
|
ENDDO
|
|
|
|
! last process
|
|
elseif (pid.eq.(np-1)) then
|
|
|
|
DO jj=1,nd,nb
|
|
|
|
CALL MPI_RECV(r1, nb, MPI_REAL8, pid-1, 1, MPI_COMM_TASK, mpi_status, mpi_err)
|
|
|
|
i=1
|
|
DO j=jj,jj+nb-1
|
|
r(j,i)=(r(j,i) - r1(j-jj+1))/v(i)
|
|
ENDDO
|
|
|
|
DO i=2,n
|
|
DO j=jj,jj+nb-1
|
|
r(j,i)=(r(j,i) - r(j,i-1))/v(i)
|
|
ENDDO
|
|
ENDDO
|
|
|
|
ENDDO
|
|
|
|
DO jj=1,nd,nb
|
|
|
|
DO i=n-1,1,-1
|
|
DO j=jj,jj+nb-1
|
|
r(j,i)=r(j,i)-r(j,i+1)/v(i)
|
|
ENDDO
|
|
ENDDO
|
|
|
|
r0 = r(jj:jj+nb-1,1)
|
|
CALL MPI_SEND(r0, nb, MPI_REAL8, pid-1, 2, MPI_COMM_TASK, mpi_err)
|
|
|
|
ENDDO
|
|
|
|
! intermediate process
|
|
else
|
|
|
|
DO jj=1,nd,nb
|
|
|
|
CALL MPI_RECV(r1, nb, MPI_REAL8, pid-1, 1, MPI_COMM_TASK, mpi_status, mpi_err)
|
|
|
|
i=1
|
|
DO j=jj,jj+nb-1
|
|
r(j,i)=(r(j,i)-r1(j-jj+1))/v(i)
|
|
ENDDO
|
|
|
|
DO i=2,n
|
|
DO j=jj,jj+nb-1
|
|
r(j,i)=(r(j,i)-r(j,i-1))/v(i)
|
|
ENDDO
|
|
ENDDO
|
|
|
|
r0 = r(jj:jj+nb-1,n)
|
|
CALL MPI_SEND(r0, nb, MPI_REAL8, pid+1, 1, MPI_COMM_TASK, mpi_err)
|
|
|
|
ENDDO
|
|
|
|
DO jj=1,nd,nb
|
|
|
|
CALL MPI_RECV(r1, nb, MPI_REAL8, pid+1, 2, MPI_COMM_TASK, mpi_status, mpi_err)
|
|
|
|
i=n
|
|
DO j=jj,jj+nb-1
|
|
r(j,i)=r(j,i)-r1(j-jj+1)/v(i)
|
|
ENDDO
|
|
|
|
DO i=n-1,1,-1
|
|
DO j=jj,jj+nb-1
|
|
r(j,i)=r(j,i)-r(j,i+1)/v(i)
|
|
ENDDO
|
|
ENDDO
|
|
|
|
r0 = r(jj:jj+nb-1,1)
|
|
CALL MPI_SEND(r0, nb, MPI_REAL8, pid-1, 2, MPI_COMM_TASK, mpi_err)
|
|
|
|
ENDDO
|
|
|
|
endif
|
|
|
|
END SUBROUTINE ctdslv
|
|
|
|
|
|
SUBROUTINE par_ptdslv(r,la,wa,nd,n,nall)
|
|
INTEGER,PARAMETER :: nb = 64
|
|
INTEGER,INTENT(IN) :: n,nd,nall
|
|
REAL*8,INTENT(INOUT),DIMENSION(nd,n) :: r
|
|
REAL*8,INTENT(IN),DIMENSION(nall) :: la,wa
|
|
REAL*8,DIMENSION(n) :: l,w
|
|
INTEGER i,j
|
|
INTEGER ii,jj
|
|
REAL*8, DIMENSION(nd) :: sum
|
|
|
|
INTEGER npart, nbase, nlow, nupp
|
|
INTEGER :: pid, np
|
|
REAL*8, DIMENSION(nb) :: r0, r1, sum0
|
|
REAL*8, DIMENSION(nb,2) :: buf
|
|
|
|
pid = myid
|
|
np = numprocs
|
|
|
|
npart = nall / np
|
|
nbase = pid * npart
|
|
nlow = pid * npart + 1
|
|
nupp = (pid + 1) * npart
|
|
|
|
l = la(nlow:nupp)
|
|
w = wa(nlow:nupp)
|
|
|
|
if (npart.lt.4) then
|
|
! assertion fail
|
|
endif
|
|
|
|
call MPI_BARRIER(MPI_COMM_WORLD, mpi_err)
|
|
|
|
! first process
|
|
if (myid.eq.0) then
|
|
|
|
DO jj=1,nd,nb
|
|
DO j=jj,jj+nb-1
|
|
sum(j)=w(1)*r(j,1)
|
|
r(j,1)=r(j,1)*l(1)
|
|
ENDDO
|
|
|
|
DO i=2,n
|
|
DO j=jj,jj+nb-1
|
|
r(j,i)=r(j,i)-r(j,i-1)
|
|
sum(j)=sum(j)+w(i)*r(j,i)
|
|
r(j,i)=r(j,i)*l(i)
|
|
ENDDO
|
|
ENDDO
|
|
|
|
buf(:,1) = r(jj:jj+nb-1,n)
|
|
buf(:,2) = sum(jj:jj+nb-1)
|
|
CALL MPI_SEND(buf, 2*nb, MPI_REAL8, pid+1, 1, MPI_COMM_TASK, mpi_err)
|
|
|
|
ENDDO
|
|
|
|
DO jj=1,nd,nb
|
|
|
|
CALL MPI_RECV(buf, 2*nb, MPI_REAL8, pid+1, 2, MPI_COMM_TASK, mpi_status, mpi_err)
|
|
r0 = buf(:,1)
|
|
r1 = buf(:,2)
|
|
|
|
i=n
|
|
DO j=jj,jj+nb-1
|
|
r(j,i)=r(j,i)-l(i)*r0(j-jj+1)-w(i)*r1(j-jj+1)
|
|
ENDDO
|
|
DO i=n-1,1,-1
|
|
DO j=jj,jj+nb-1
|
|
r(j,i)=r(j,i)-l(i)*r(j,i+1)-w(i)*r1(j-jj+1)
|
|
ENDDO
|
|
ENDDO
|
|
|
|
ENDDO
|
|
|
|
! last process
|
|
elseif (pid.eq.(np-1)) then
|
|
|
|
DO jj=1,nd,nb
|
|
|
|
CALL MPI_RECV(buf, 2*nb, MPI_REAL8, pid-1, 1, MPI_COMM_TASK, mpi_status, mpi_err)
|
|
r0 = buf(:,1)
|
|
sum0 = buf(:,2)
|
|
|
|
i=1
|
|
DO j=jj,jj+nb-1
|
|
r(j,i)=r(j,i)-r0(j-jj+1)
|
|
sum(j)=sum0(j-jj+1)+w(i)*r(j,i)
|
|
r(j,i)=r(j,i)*l(i)
|
|
ENDDO
|
|
|
|
DO i=2,n-1
|
|
DO j=jj,jj+nb-1
|
|
r(j,i)=r(j,i)-r(j,i-1)
|
|
sum(j)=sum(j)+w(i)*r(j,i)
|
|
r(j,i)=r(j,i)*l(i)
|
|
ENDDO
|
|
ENDDO
|
|
|
|
DO j=jj,jj+nb-1
|
|
r(j,n)=l(n)*(r(j,n)-sum(j))
|
|
ENDDO
|
|
|
|
ENDDO
|
|
|
|
DO jj=1,nd,nb
|
|
|
|
DO j=jj,jj+nb-1
|
|
r(j,n-1)=r(j,n-1)-w(n-1)*r(j,n)
|
|
ENDDO
|
|
|
|
DO i=n-2,1,-1
|
|
DO j=jj,jj+nb-1
|
|
r(j,i)=r(j,i)-l(i)*r(j,i+1)-w(i)*r(j,n)
|
|
ENDDO
|
|
ENDDO
|
|
|
|
buf(:,1) = r(jj:jj+nb-1,1)
|
|
buf(:,2) = r(jj:jj+nb-1,n)
|
|
CALL MPI_SEND(buf, 2*nb, MPI_REAL8, pid-1, 2, MPI_COMM_TASK, mpi_err)
|
|
|
|
ENDDO
|
|
|
|
! intermediate process
|
|
else
|
|
|
|
DO jj=1,nd,nb
|
|
|
|
CALL MPI_RECV(buf, 2*nb, MPI_REAL8, pid-1, 1, MPI_COMM_TASK, mpi_status, mpi_err)
|
|
r0 = buf(:,1)
|
|
sum0 = buf(:,2)
|
|
|
|
i=1
|
|
DO j=jj,jj+nb-1
|
|
r(j,i)=r(j,i)-r0(j-jj+1)
|
|
sum(j)=sum0(j-jj+1)+w(i)*r(j,i)
|
|
r(j,i)=r(j,i)*l(i)
|
|
ENDDO
|
|
|
|
DO i=2,n
|
|
DO j=jj,jj+nb-1
|
|
r(j,i)=r(j,i)-r(j,i-1)
|
|
sum(j)=sum(j)+w(i)*r(j,i)
|
|
r(j,i)=r(j,i)*l(i)
|
|
ENDDO
|
|
ENDDO
|
|
|
|
buf(:,1) = r(jj:jj+nb-1,n)
|
|
buf(:,2) = sum(jj:jj+nb-1)
|
|
CALL MPI_SEND(buf, 2*nb, MPI_REAL8, pid+1, 1, MPI_COMM_TASK, mpi_err)
|
|
|
|
ENDDO
|
|
|
|
DO jj=1,nd,nb
|
|
|
|
CALL MPI_RECV(buf, 2*nb, MPI_REAL8, pid+1, 2, MPI_COMM_TASK, mpi_status, mpi_err)
|
|
r0 = buf(:,1)
|
|
r1 = buf(:,2)
|
|
|
|
i=n
|
|
DO j=jj,jj+nb-1
|
|
r(j,i)=r(j,i)-l(i)*r0(j-jj+1)-w(i)*r1(j-jj+1)
|
|
ENDDO
|
|
DO i=n-1,1,-1
|
|
DO j=jj,jj+nb-1
|
|
r(j,i)=r(j,i)-l(i)*r(j,i+1)-w(i)*r1(j-jj+1)
|
|
ENDDO
|
|
ENDDO
|
|
|
|
buf(:,1) = r(jj:jj+nb-1,1)
|
|
!buf(:,2) = r1
|
|
CALL MPI_SEND(buf, 2*nb, MPI_REAL8, pid-1, 2, MPI_COMM_TASK, mpi_err)
|
|
|
|
ENDDO
|
|
|
|
endif
|
|
|
|
END SUBROUTINE par_ptdslv
|
|
|
|
SUBROUTINE d2fp(n,h,x,dx,nd,dir)
|
|
INTEGER,INTENT(IN) :: n,nd,dir
|
|
REAL*8,INTENT(IN) :: h
|
|
REAL*8,INTENT(IN),DIMENSION(nd,n) :: x
|
|
REAL*8,INTENT(OUT),DIMENSION(nd,n) :: dx
|
|
INTEGER :: i,j
|
|
REAL*8 :: h2,r1,r2,t1,t2
|
|
h2=1./(h*h)
|
|
r1=6.
|
|
r2=3./8.
|
|
DO j=1,nd
|
|
t1 = (x(j,n)-2.*x(j,n-1)+x(j,n-2))
|
|
t2 = (x(j,1)-2.*x(j,n-1)+x(j,n-3))
|
|
dx(j,n-1)=(r1*t1+r2*t2)
|
|
|
|
t1 = (x(j,1)-2.*x(j,n)+x(j,n-1))
|
|
t2 = (x(j,2)-2.*x(j,n)+x(j,n-2))
|
|
! dx(j,n)=(r1*(x(j,1)-2.*x(j,n)+x(j,n-1)) &
|
|
! +r2*(x(j,2)-2.*x(j,n)+x(j,n-2)))
|
|
dx(j,n)=(r1*t1+r2*t2)
|
|
|
|
t1 = (x(j,2)-2.*x(j,1)+x(j,n))
|
|
t2 = (x(j,3)-2.*x(j,1)+x(j,n-1))
|
|
! dx(j,1)=(r1*(x(j,2)-2.*x(j,1)+x(j,n)) &
|
|
! +r2*(x(j,3)-2.*x(j,1)+x(j,n-1)))
|
|
dx(j,1)=(r1*t1+r2*t2)
|
|
|
|
t1 = (x(j,3)-2.*x(j,2)+x(j,1))
|
|
t2 = (x(j,4)-2.*x(j,2)+x(j,n))
|
|
! dx(j,2)=(r1*(x(j,3)-2.*x(j,2)+x(j,1)) &
|
|
! +r2*(x(j,4)-2.*x(j,2)+x(j,n)))
|
|
dx(j,2)=(r1*t1+r2*t2)
|
|
|
|
dx(j,n-1)=dx(j,n-1)*h2
|
|
dx(j,n)=dx(j,n)*h2
|
|
dx(j,1)=dx(j,1)*h2
|
|
dx(j,2)=dx(j,2)*h2
|
|
ENDDO
|
|
DO i=3,n-2
|
|
DO j=1,nd
|
|
t1 = (x(j,i+1)-2.*x(j,i)+x(j,i-1))
|
|
t2 = (x(j,i+2)-2.*x(j,i)+x(j,i-2))
|
|
! dx(j,i)=(r1*(x(j,i+1)-2.*x(j,i)+x(j,i-1)) &
|
|
! +r2*(x(j,i+2)-2.*x(j,i)+x(j,i-2)))
|
|
dx(j,i)=(r1*t1+r2*t2)
|
|
dx(j,i)=dx(j,i)*h2
|
|
ENDDO
|
|
ENDDO
|
|
IF (dir.eq.1) CALL ptdslv(dx,n,lxs,wxs,nd) ! x-direction
|
|
IF (dir.eq.2) CALL ptdslv(dx,n,lys,wys,nd) ! y-direction
|
|
IF (dir.eq.3) CALL ptdslv(dx,n,lzs,wzs,nd) ! z-direction
|
|
END SUBROUTINE d2fp
|
|
|
|
SUBROUTINE par_d2fp(x,xu,xl,dx,h,nd,n,nall,dir)
|
|
INTEGER,INTENT(IN) :: nall,n,nd,dir
|
|
REAL*8,INTENT(IN) :: h
|
|
REAL*8,INTENT(IN),DIMENSION(nd,n) :: x
|
|
REAL*8,INTENT(OUT),DIMENSION(nd,n) :: dx
|
|
INTEGER :: i,j
|
|
REAL*8 :: h2,r1,r2,t1,t2
|
|
|
|
REAL*8,DIMENSION(nd,2) :: xu, xl
|
|
|
|
h2=1./(h*h)
|
|
r1=6.
|
|
r2=3./8.
|
|
|
|
!if (myid.eq.0) write(*,*) "parallel d2fp commuication"
|
|
if (myid.eq.master) then
|
|
|
|
call MPI_ISEND (x(1,1), 2*nd, MPI_REAL8, numprocs-1, myid, &
|
|
MPI_COMM_TASK, mpi_request, mpi_err)
|
|
|
|
call MPI_RECV (xu, 2*nd, MPI_REAL8, myid+1, myid+1, &
|
|
MPI_COMM_TASK, mpi_status, mpi_err)
|
|
|
|
call MPI_ISEND (x(1,n-1), 2*nd, MPI_REAL8, myid+1, myid, &
|
|
MPI_COMM_TASK, mpi_request, mpi_err)
|
|
|
|
call MPI_RECV (xl, 2*nd, MPI_REAL8, numprocs-1, numprocs-1, &
|
|
MPI_COMM_TASK, mpi_status, mpi_err)
|
|
|
|
elseif (myid.eq.numprocs-1) then
|
|
|
|
call MPI_ISEND (x(1,1), 2*nd, MPI_REAL8, myid-1, myid, &
|
|
MPI_COMM_TASK, mpi_request, mpi_err)
|
|
|
|
call MPI_RECV (xu, 2*nd, MPI_REAL8, 0, 0, &
|
|
MPI_COMM_TASK, mpi_status, mpi_err)
|
|
|
|
call MPI_ISEND (x(1,n-1), 2*nd, MPI_REAL8, 0, myid, &
|
|
MPI_COMM_TASK, mpi_request, mpi_err)
|
|
|
|
call MPI_RECV (xl, 2*nd, MPI_REAL8, myid-1, myid-1, &
|
|
MPI_COMM_TASK, mpi_status, mpi_err)
|
|
|
|
else
|
|
|
|
call MPI_ISEND (x(1,1), 2*nd, MPI_REAL8, myid-1, myid, &
|
|
MPI_COMM_TASK, mpi_request, mpi_err)
|
|
|
|
call MPI_RECV (xu, 2*nd, MPI_REAL8, myid+1, myid+1, &
|
|
MPI_COMM_TASK, mpi_status, mpi_err)
|
|
|
|
call MPI_ISEND (x(1,n-1), 2*nd, MPI_REAL8, myid+1, myid, &
|
|
MPI_COMM_TASK, mpi_request, mpi_err)
|
|
|
|
call MPI_RECV (xl, 2*nd, MPI_REAL8, myid-1, myid-1, &
|
|
MPI_COMM_TASK, mpi_status, mpi_err)
|
|
|
|
endif
|
|
|
|
|
|
DO j=1,nd
|
|
|
|
t1 = ( x(j,n)-2.*x(j,n-1)+x(j,n-2))
|
|
t2 = (xu(j,1)-2.*x(j,n-1)+x(j,n-3))
|
|
dx(j,n-1)=(r1*t1+r2*t2)*h2
|
|
|
|
t1 = (xu(j,1)-2.*x(j,n)+x(j,n-1))
|
|
t2 = (xu(j,2)-2.*x(j,n)+x(j,n-2))
|
|
! dx(j,n)=(r1*(x(j,1)-2.*x(j,n)+x(j,n-1)) &
|
|
! +r2*(x(j,2)-2.*x(j,n)+x(j,n-2)))
|
|
dx(j,n)=(r1*t1+r2*t2)*h2
|
|
|
|
t1 = (x(j,2)-2.*x(j,1)+xl(j,2))
|
|
t2 = (x(j,3)-2.*x(j,1)+xl(j,1))
|
|
! dx(j,1)=(r1*(x(j,2)-2.*x(j,1)+x(j,n)) &
|
|
! +r2*(x(j,3)-2.*x(j,1)+x(j,n-1)))
|
|
dx(j,1)=(r1*t1+r2*t2)*h2
|
|
|
|
t1 = (x(j,3)-2.*x(j,2)+ x(j,1))
|
|
t2 = (x(j,4)-2.*x(j,2)+xl(j,2))
|
|
! dx(j,2)=(r1*(x(j,3)-2.*x(j,2)+x(j,1)) &
|
|
! +r2*(x(j,4)-2.*x(j,2)+x(j,n)))
|
|
dx(j,2)=(r1*t1+r2*t2)*h2
|
|
|
|
ENDDO
|
|
|
|
DO i=3,n-2
|
|
DO j=1,nd
|
|
|
|
t1 = (x(j,i+1)-2.*x(j,i)+x(j,i-1))
|
|
t2 = (x(j,i+2)-2.*x(j,i)+x(j,i-2))
|
|
! dx(j,i)=(r1*(x(j,i+1)-2.*x(j,i)+x(j,i-1)) &
|
|
! +r2*(x(j,i+2)-2.*x(j,i)+x(j,i-2)))
|
|
dx(j,i)=(r1*t1+r2*t2)*h2
|
|
|
|
ENDDO
|
|
ENDDO
|
|
|
|
IF (dir.eq.1) CALL par_ptdslv(dx,lxs,wxs,nd,n,nall) ! x-direction
|
|
IF (dir.eq.2) CALL par_ptdslv(dx,lys,wys,nd,n,nall) ! y-direction
|
|
IF (dir.eq.3) CALL par_ptdslv(dx,lzs,wzs,nd,n,nall) ! z-direction
|
|
END SUBROUTINE par_d2fp
|
|
|
|
SUBROUTINE tdslv(r,n,l,nd)
|
|
INTEGER,INTENT(IN) :: n,nd
|
|
REAL*8,INTENT(INOUT),DIMENSION(nd,n) :: r
|
|
REAL*8,INTENT(IN),DIMENSION(:) :: l
|
|
INTEGER i,j
|
|
REAL*8 t1
|
|
DO j=1,nd
|
|
r(j,1)=r(j,1)*l(1)
|
|
ENDDO
|
|
DO i=2,n
|
|
DO j=1,nd
|
|
t1=r(j,i)-r(j,i-1)
|
|
r(j,i)=l(i)*t1
|
|
ENDDO
|
|
ENDDO
|
|
DO i=n-1,1,-1
|
|
DO j=1,nd
|
|
r(j,i)=r(j,i)-l(i)*r(j,i+1)
|
|
ENDDO
|
|
ENDDO
|
|
END SUBROUTINE tdslv
|
|
|
|
SUBROUTINE d2fnonp(n,h,x,dx,nd,dir)
|
|
INTEGER,INTENT(IN) :: n,nd,dir
|
|
REAL*8,INTENT(IN) :: h
|
|
REAL*8,INTENT(IN),DIMENSION(nd,n) :: x
|
|
REAL*8,INTENT(OUT),DIMENSION(nd,n) :: dx
|
|
INTEGER :: i,j
|
|
REAL*8 :: h2,r1,r2,r3,a,b,c,e,t1,t2
|
|
|
|
h2=1./(h*h)
|
|
r1=6.
|
|
r2=3./8.
|
|
r3=12.
|
|
a=13./11.
|
|
b=-27./11.
|
|
c=15./11.
|
|
e=-1./11.
|
|
|
|
DO j=1,nd
|
|
dx(j,1)=(a*x(j,1)+b*x(j,2)+c*x(j,3)+e*x(j,4))
|
|
dx(j,2)=(x(j,3)-2.*x(j,2)+x(j,1))
|
|
dx(j,n-1)=(x(j,n)-2.*x(j,n-1)+x(j,n-2))
|
|
dx(j,n)=(a*x(j,n)+b*x(j,n-1)+c*x(j,n-2)+e*x(j,n-3))
|
|
dx(j,1)=dx(j,1)*h2
|
|
dx(j,2)=dx(j,2)*h2*r3
|
|
dx(j,n-1)=dx(j,n-1)*h2*r3
|
|
dx(j,n)=dx(j,n)*h2
|
|
ENDDO
|
|
DO i=3,n-2
|
|
DO j=1,nd
|
|
t1 = (x(j,i+1)-2.*x(j,i)+x(j,i-1))
|
|
t2 = (x(j,i+2)-2.*x(j,i)+x(j,i-2))
|
|
|
|
! dx(j,i)=(r1*(x(j,i+1)-2.*x(j,i)+x(j,i-1)) &
|
|
! +r2*(x(j,i+2)-2.*x(j,i)+x(j,i-2)))
|
|
dx(j,i)=(r1*t1+r2*t2)
|
|
dx(j,i)=dx(j,i)*h2
|
|
ENDDO
|
|
ENDDO
|
|
|
|
IF (dir.eq.1) CALL tdslv(dx,n,lxs,nd) ! x-direction
|
|
IF (dir.eq.2) CALL tdslv(dx,n,lys,nd) ! y-direction
|
|
IF (dir.eq.3) CALL tdslv(dx,n,lzs,nd) ! z-direction
|
|
|
|
END SUBROUTINE d2fnonp
|
|
|
|
END MODULE m_compact
|