incomp-flame-post/code/m_terms.f90
2019-05-23 11:47:42 +09:00

933 lines
21 KiB
Fortran

module m_terms
use m_openmpi
use m_parameters
use m_arrays
use m_calculate
implicit none
character (len = *), parameter :: output_header="x avg_c avg_d2dx_c avg_d2dy_c avg_d2dz_c avg_ddx_c avg_ddy_c avg_ddz_c avg_fsd avg_lapc avg_u avg_v avg_w fsd_avg_absk fsd_avg_divn fsd_avg_nx fsd_avg_ny fsd_avg_nz fsd_avg_sd fsd_avg_t1 fsd_avg_u fsd_avg_v fsd_avg_w fsd_avg_t2 fsd_avg_t3 fsd_avg_t4 fsd_avg_t5 fsd_avg_t6 fsd_avg_t7 fsd_avg_t8"
real*8, allocatable, dimension(:) :: fsd_avg_divn
real*8, allocatable, dimension(:) :: fsd_avg_ny
real*8, allocatable, dimension(:) :: fsd_avg_nx
real*8, allocatable, dimension(:) :: fsd_avg_nz
real*8, allocatable, dimension(:) :: avg_d2dz_c
real*8, allocatable, dimension(:) :: avg_d2dx_c
real*8, allocatable, dimension(:) :: fsd_avg_t3
real*8, allocatable, dimension(:) :: fsd_avg_t2
real*8, allocatable, dimension(:) :: fsd_avg_t1
real*8, allocatable, dimension(:) :: fsd_avg_t7
real*8, allocatable, dimension(:) :: fsd_avg_t6
real*8, allocatable, dimension(:) :: fsd_avg_t5
real*8, allocatable, dimension(:) :: fsd_avg_t4
real*8, allocatable, dimension(:) :: fsd_avg_t8
real*8, allocatable, dimension(:) :: avg_fsd
real*8, allocatable, dimension(:) :: fsd_avg_absk
real*8, allocatable, dimension(:) :: fsd_avg_sd
real*8, allocatable, dimension(:) :: avg_ddy_c
real*8, allocatable, dimension(:) :: avg_ddx_c
real*8, allocatable, dimension(:) :: avg_lapc
real*8, allocatable, dimension(:) :: avg_ddz_c
real*8, allocatable, dimension(:) :: avg_c
real*8, allocatable, dimension(:) :: avg_d2dy_c
real*8, allocatable, dimension(:) :: avg_u
real*8, allocatable, dimension(:) :: avg_v
real*8, allocatable, dimension(:) :: avg_w
real*8, allocatable, dimension(:) :: fsd_avg_v
real*8, allocatable, dimension(:) :: fsd_avg_w
real*8, allocatable, dimension(:) :: fsd_avg_u
real*8, allocatable, dimension(:,:,:) :: xyzbuffer0
real*8, allocatable, dimension(:,:,:) :: xyzbuffer1
real*8, allocatable, dimension(:,:,:) :: xyzbuffer2
real*8, allocatable, dimension(:,:,:) :: xyzbuffer3
real*8, allocatable, dimension(:,:,:) :: xyzbuffer4
real*8, allocatable, dimension(:,:,:) :: xyzbuffer5
real*8, allocatable, dimension(:,:,:) :: xyzbuffer6
real*8, allocatable, dimension(:,:,:) :: xyzbuffer7
real*8, allocatable, dimension(:,:,:) :: xyzbuffer8
real*8, allocatable, dimension(:,:,:) :: xyzbuffer9
real*8, allocatable, dimension(:,:,:) :: xyzbuffer10
real*8, allocatable, dimension(:,:,:) :: xyzbuffer11
contains
subroutine m_terms_init
integer :: ierr
allocate(fsd_avg_divn(nxp), stat=ierr) ; fsd_avg_divn = 0.
allocate(fsd_avg_ny(nxp), stat=ierr) ; fsd_avg_ny = 0.
allocate(fsd_avg_nx(nxp), stat=ierr) ; fsd_avg_nx = 0.
allocate(fsd_avg_nz(nxp), stat=ierr) ; fsd_avg_nz = 0.
allocate(avg_d2dz_c(nxp), stat=ierr) ; avg_d2dz_c = 0.
allocate(avg_d2dx_c(nxp), stat=ierr) ; avg_d2dx_c = 0.
allocate(fsd_avg_t3(nxp), stat=ierr) ; fsd_avg_t3 = 0.
allocate(fsd_avg_t2(nxp), stat=ierr) ; fsd_avg_t2 = 0.
allocate(fsd_avg_t1(nxp), stat=ierr) ; fsd_avg_t1 = 0.
allocate(fsd_avg_t7(nxp), stat=ierr) ; fsd_avg_t7 = 0.
allocate(fsd_avg_t6(nxp), stat=ierr) ; fsd_avg_t6 = 0.
allocate(fsd_avg_t5(nxp), stat=ierr) ; fsd_avg_t5 = 0.
allocate(fsd_avg_t4(nxp), stat=ierr) ; fsd_avg_t4 = 0.
allocate(fsd_avg_t8(nxp), stat=ierr) ; fsd_avg_t8 = 0.
allocate(avg_fsd(nxp), stat=ierr) ; avg_fsd = 0.
allocate(fsd_avg_absk(nxp), stat=ierr) ; fsd_avg_absk = 0.
allocate(fsd_avg_sd(nxp), stat=ierr) ; fsd_avg_sd = 0.
allocate(avg_ddy_c(nxp), stat=ierr) ; avg_ddy_c = 0.
allocate(avg_ddx_c(nxp), stat=ierr) ; avg_ddx_c = 0.
allocate(avg_lapc(nxp), stat=ierr) ; avg_lapc = 0.
allocate(avg_ddz_c(nxp), stat=ierr) ; avg_ddz_c = 0.
allocate(avg_c(nxp), stat=ierr) ; avg_c = 0.
allocate(avg_d2dy_c(nxp), stat=ierr) ; avg_d2dy_c = 0.
allocate(avg_u(nxp), stat=ierr) ; avg_u = 0.
allocate(avg_v(nxp), stat=ierr) ; avg_v = 0.
allocate(avg_w(nxp), stat=ierr) ; avg_w = 0.
allocate(fsd_avg_v(nxp), stat=ierr) ; fsd_avg_v = 0.
allocate(fsd_avg_w(nxp), stat=ierr) ; fsd_avg_w = 0.
allocate(fsd_avg_u(nxp), stat=ierr) ; fsd_avg_u = 0.
allocate(xyzbuffer0(nxp,nyp,nzp), stat=ierr) ; xyzbuffer0 = 0.
allocate(xyzbuffer1(nxp,nyp,nzp), stat=ierr) ; xyzbuffer1 = 0.
allocate(xyzbuffer2(nxp,nyp,nzp), stat=ierr) ; xyzbuffer2 = 0.
allocate(xyzbuffer3(nxp,nyp,nzp), stat=ierr) ; xyzbuffer3 = 0.
allocate(xyzbuffer4(nxp,nyp,nzp), stat=ierr) ; xyzbuffer4 = 0.
allocate(xyzbuffer5(nxp,nyp,nzp), stat=ierr) ; xyzbuffer5 = 0.
allocate(xyzbuffer6(nxp,nyp,nzp), stat=ierr) ; xyzbuffer6 = 0.
allocate(xyzbuffer7(nxp,nyp,nzp), stat=ierr) ; xyzbuffer7 = 0.
allocate(xyzbuffer8(nxp,nyp,nzp), stat=ierr) ; xyzbuffer8 = 0.
allocate(xyzbuffer9(nxp,nyp,nzp), stat=ierr) ; xyzbuffer9 = 0.
allocate(xyzbuffer10(nxp,nyp,nzp), stat=ierr) ; xyzbuffer10 = 0.
allocate(xyzbuffer11(nxp,nyp,nzp), stat=ierr) ; xyzbuffer11 = 0.
end subroutine m_terms_init
subroutine m_terms_finalize
deallocate(fsd_avg_divn)
deallocate(fsd_avg_ny)
deallocate(fsd_avg_nx)
deallocate(fsd_avg_nz)
deallocate(avg_d2dz_c)
deallocate(avg_d2dx_c)
deallocate(fsd_avg_t3)
deallocate(fsd_avg_t2)
deallocate(fsd_avg_t1)
deallocate(fsd_avg_t7)
deallocate(fsd_avg_t6)
deallocate(fsd_avg_t5)
deallocate(fsd_avg_t4)
deallocate(fsd_avg_t8)
deallocate(avg_fsd)
deallocate(fsd_avg_absk)
deallocate(fsd_avg_sd)
deallocate(avg_ddy_c)
deallocate(avg_ddx_c)
deallocate(avg_lapc)
deallocate(avg_ddz_c)
deallocate(avg_c)
deallocate(avg_d2dy_c)
deallocate(avg_u)
deallocate(avg_v)
deallocate(avg_w)
deallocate(fsd_avg_v)
deallocate(fsd_avg_w)
deallocate(fsd_avg_u)
deallocate(xyzbuffer0)
deallocate(xyzbuffer1)
deallocate(xyzbuffer2)
deallocate(xyzbuffer3)
deallocate(xyzbuffer4)
deallocate(xyzbuffer5)
deallocate(xyzbuffer6)
deallocate(xyzbuffer7)
deallocate(xyzbuffer8)
deallocate(xyzbuffer9)
deallocate(xyzbuffer10)
deallocate(xyzbuffer11)
end subroutine m_terms_finalize
subroutine m_terms_calculate_pass1
integer :: i, j, k
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
avg_u(i) = avg_u(i) + u(i,j,k)
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
avg_w(i) = avg_w(i) + w(i,j,k)
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
avg_v(i) = avg_v(i) + v(i,j,k)
end do
end do
end do
! ( 1.0 - y(i,j,k) )
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
xyzbuffer11(i,j,k) = ( 1.0 - y(i,j,k) )
end do
end do
end do
call d2dy ( xyzbuffer10, xyzbuffer11 )
call ddx ( xyzbuffer9, xyzbuffer11 )
call ddy ( xyzbuffer8, xyzbuffer11 )
call ddz ( xyzbuffer3, xyzbuffer11 )
! ( sqrt ( ( ( ((ddx_c(i,j,k))*(ddx_c(i,j,k))) + ((ddy_c(i,j,k))*(ddy_c(i,j,k))) ) + ((ddz_c(i,j,k))*(ddz_c(i,j,k))) ) ) )
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
xyzbuffer2(i,j,k) = ( sqrt ( ( ( ((xyzbuffer9(i,j,k))*(xyzbuffer9(i,j,k))) + ((xyzbuffer8(i,j,k))*(xyzbuffer8(i,j,k))) ) + ((xyzbuffer3(i,j,k))*(xyzbuffer3(i,j,k))) ) ) )
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
fsd_avg_u(i) = fsd_avg_u(i) + u(i,j,k) * xyzbuffer2(i,j,k)
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
fsd_avg_w(i) = fsd_avg_w(i) + w(i,j,k) * xyzbuffer2(i,j,k)
end do
end do
end do
! ( ( - ddx_c(i,j,k) ) / fsd(i,j,k) )
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
xyzbuffer1(i,j,k) = ( ( - xyzbuffer9(i,j,k) ) / xyzbuffer2(i,j,k) )
end do
end do
end do
! ( ( - ddz_c(i,j,k) ) / fsd(i,j,k) )
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
xyzbuffer0(i,j,k) = ( ( - xyzbuffer3(i,j,k) ) / xyzbuffer2(i,j,k) )
end do
end do
end do
! ( rxn_rate ( c(i,j,k) ) )
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
xyzbuffer7(i,j,k) = ( rxn_rate ( xyzbuffer11(i,j,k) ) )
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
avg_c(i) = avg_c(i) + xyzbuffer11(i,j,k)
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
avg_d2dy_c(i) = avg_d2dy_c(i) + xyzbuffer10(i,j,k)
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
avg_ddx_c(i) = avg_ddx_c(i) + xyzbuffer9(i,j,k)
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
avg_ddz_c(i) = avg_ddz_c(i) + xyzbuffer3(i,j,k)
end do
end do
end do
call d2dx ( xyzbuffer6, xyzbuffer11 )
call ddx ( xyzbuffer5, xyzbuffer1 )
call ddz ( xyzbuffer4, xyzbuffer0 )
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
fsd_avg_nx(i) = fsd_avg_nx(i) + xyzbuffer1(i,j,k) * xyzbuffer2(i,j,k)
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
fsd_avg_nz(i) = fsd_avg_nz(i) + xyzbuffer0(i,j,k) * xyzbuffer2(i,j,k)
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
fsd_avg_v(i) = fsd_avg_v(i) + v(i,j,k) * xyzbuffer2(i,j,k)
end do
end do
end do
! ( ( - ddy_c(i,j,k) ) / fsd(i,j,k) )
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
xyzbuffer9(i,j,k) = ( ( - xyzbuffer8(i,j,k) ) / xyzbuffer2(i,j,k) )
end do
end do
end do
! ( ( ( u(i,j,k) * nx(i,j,k) ) + ( v(i,j,k) * ny(i,j,k) ) ) + ( w(i,j,k) * nz(i,j,k) ) )
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
xyzbuffer3(i,j,k) = ( ( ( u(i,j,k) * xyzbuffer1(i,j,k) ) + ( v(i,j,k) * xyzbuffer9(i,j,k) ) ) + ( w(i,j,k) * xyzbuffer0(i,j,k) ) )
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
avg_d2dx_c(i) = avg_d2dx_c(i) + xyzbuffer6(i,j,k)
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
avg_ddy_c(i) = avg_ddy_c(i) + xyzbuffer8(i,j,k)
end do
end do
end do
call d2dz ( xyzbuffer0, xyzbuffer11 )
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
fsd_avg_ny(i) = fsd_avg_ny(i) + xyzbuffer9(i,j,k) * xyzbuffer2(i,j,k)
end do
end do
end do
! ( ( d2dx_c(i,j,k) + d2dy_c(i,j,k) ) + d2dz_c(i,j,k) )
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
xyzbuffer11(i,j,k) = ( ( xyzbuffer6(i,j,k) + xyzbuffer10(i,j,k) ) + xyzbuffer0(i,j,k) )
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
avg_d2dz_c(i) = avg_d2dz_c(i) + xyzbuffer0(i,j,k)
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
avg_lapc(i) = avg_lapc(i) + xyzbuffer11(i,j,k)
end do
end do
end do
! ( ( ( ( ( d2dx_c(i,j,k) + d2dy_c(i,j,k) ) + d2dz_c(i,j,k) ) * rod ) + wrate(i,j,k) ) / fsd(i,j,k) )
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
xyzbuffer8(i,j,k) = ( ( ( ( ( xyzbuffer6(i,j,k) + xyzbuffer10(i,j,k) ) + xyzbuffer0(i,j,k) ) * rod ) + xyzbuffer7(i,j,k) ) / xyzbuffer2(i,j,k) )
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
avg_fsd(i) = avg_fsd(i) + xyzbuffer2(i,j,k)
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
fsd_avg_sd(i) = fsd_avg_sd(i) + xyzbuffer8(i,j,k) * xyzbuffer2(i,j,k)
end do
end do
end do
! ( ( vn(i,j,k) + sd(i,j,k) ) * nx(i,j,k) )
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
xyzbuffer0(i,j,k) = ( ( xyzbuffer3(i,j,k) + xyzbuffer8(i,j,k) ) * xyzbuffer1(i,j,k) )
end do
end do
end do
call ddy ( xyzbuffer7, xyzbuffer9 )
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
fsd_avg_t1(i) = fsd_avg_t1(i) + xyzbuffer0(i,j,k) * xyzbuffer2(i,j,k)
end do
end do
end do
! ( ( ddx_nx(i,j,k) + ddy_ny(i,j,k) ) + ddz_nz(i,j,k) )
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
xyzbuffer6(i,j,k) = ( ( xyzbuffer5(i,j,k) + xyzbuffer7(i,j,k) ) + xyzbuffer4(i,j,k) )
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
fsd_avg_divn(i) = fsd_avg_divn(i) + xyzbuffer6(i,j,k) * xyzbuffer2(i,j,k)
end do
end do
end do
! ( dabs ( divn(i,j,k) ) )
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
xyzbuffer5(i,j,k) = ( dabs ( xyzbuffer6(i,j,k) ) )
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
fsd_avg_absk(i) = fsd_avg_absk(i) + xyzbuffer5(i,j,k) * xyzbuffer2(i,j,k)
end do
end do
end do
end subroutine m_terms_calculate_pass1
subroutine m_terms_average_pass1 (nfiles)
integer :: nfiles
real*8 :: denum
denum=real(nfiles*nyp*nzp)
call MPI_ALLREDUCE(MPI_IN_PLACE, avg_c, nxp, MPI_REAL8, MPI_SUM, MPI_COMM_TASK, mpi_err)
avg_c = avg_c / denum
call MPI_ALLREDUCE(MPI_IN_PLACE, avg_d2dx_c, nxp, MPI_REAL8, MPI_SUM, MPI_COMM_TASK, mpi_err)
avg_d2dx_c = avg_d2dx_c / denum
call MPI_ALLREDUCE(MPI_IN_PLACE, avg_d2dy_c, nxp, MPI_REAL8, MPI_SUM, MPI_COMM_TASK, mpi_err)
avg_d2dy_c = avg_d2dy_c / denum
call MPI_ALLREDUCE(MPI_IN_PLACE, avg_d2dz_c, nxp, MPI_REAL8, MPI_SUM, MPI_COMM_TASK, mpi_err)
avg_d2dz_c = avg_d2dz_c / denum
call MPI_ALLREDUCE(MPI_IN_PLACE, avg_ddx_c, nxp, MPI_REAL8, MPI_SUM, MPI_COMM_TASK, mpi_err)
avg_ddx_c = avg_ddx_c / denum
call MPI_ALLREDUCE(MPI_IN_PLACE, avg_ddy_c, nxp, MPI_REAL8, MPI_SUM, MPI_COMM_TASK, mpi_err)
avg_ddy_c = avg_ddy_c / denum
call MPI_ALLREDUCE(MPI_IN_PLACE, avg_ddz_c, nxp, MPI_REAL8, MPI_SUM, MPI_COMM_TASK, mpi_err)
avg_ddz_c = avg_ddz_c / denum
call MPI_ALLREDUCE(MPI_IN_PLACE, avg_fsd, nxp, MPI_REAL8, MPI_SUM, MPI_COMM_TASK, mpi_err)
avg_fsd = avg_fsd / denum
call MPI_ALLREDUCE(MPI_IN_PLACE, avg_lapc, nxp, MPI_REAL8, MPI_SUM, MPI_COMM_TASK, mpi_err)
avg_lapc = avg_lapc / denum
call MPI_ALLREDUCE(MPI_IN_PLACE, avg_u, nxp, MPI_REAL8, MPI_SUM, MPI_COMM_TASK, mpi_err)
avg_u = avg_u / denum
call MPI_ALLREDUCE(MPI_IN_PLACE, avg_v, nxp, MPI_REAL8, MPI_SUM, MPI_COMM_TASK, mpi_err)
avg_v = avg_v / denum
call MPI_ALLREDUCE(MPI_IN_PLACE, avg_w, nxp, MPI_REAL8, MPI_SUM, MPI_COMM_TASK, mpi_err)
avg_w = avg_w / denum
call MPI_ALLREDUCE(MPI_IN_PLACE, fsd_avg_absk, nxp, MPI_REAL8, MPI_SUM, MPI_COMM_TASK, mpi_err)
fsd_avg_absk = fsd_avg_absk / avg_fsd / denum
call MPI_ALLREDUCE(MPI_IN_PLACE, fsd_avg_divn, nxp, MPI_REAL8, MPI_SUM, MPI_COMM_TASK, mpi_err)
fsd_avg_divn = fsd_avg_divn / avg_fsd / denum
call MPI_ALLREDUCE(MPI_IN_PLACE, fsd_avg_nx, nxp, MPI_REAL8, MPI_SUM, MPI_COMM_TASK, mpi_err)
fsd_avg_nx = fsd_avg_nx / avg_fsd / denum
call MPI_ALLREDUCE(MPI_IN_PLACE, fsd_avg_ny, nxp, MPI_REAL8, MPI_SUM, MPI_COMM_TASK, mpi_err)
fsd_avg_ny = fsd_avg_ny / avg_fsd / denum
call MPI_ALLREDUCE(MPI_IN_PLACE, fsd_avg_nz, nxp, MPI_REAL8, MPI_SUM, MPI_COMM_TASK, mpi_err)
fsd_avg_nz = fsd_avg_nz / avg_fsd / denum
call MPI_ALLREDUCE(MPI_IN_PLACE, fsd_avg_sd, nxp, MPI_REAL8, MPI_SUM, MPI_COMM_TASK, mpi_err)
fsd_avg_sd = fsd_avg_sd / avg_fsd / denum
call MPI_ALLREDUCE(MPI_IN_PLACE, fsd_avg_t1, nxp, MPI_REAL8, MPI_SUM, MPI_COMM_TASK, mpi_err)
fsd_avg_t1 = fsd_avg_t1 / avg_fsd / denum
call MPI_ALLREDUCE(MPI_IN_PLACE, fsd_avg_u, nxp, MPI_REAL8, MPI_SUM, MPI_COMM_TASK, mpi_err)
fsd_avg_u = fsd_avg_u / avg_fsd / denum
call MPI_ALLREDUCE(MPI_IN_PLACE, fsd_avg_v, nxp, MPI_REAL8, MPI_SUM, MPI_COMM_TASK, mpi_err)
fsd_avg_v = fsd_avg_v / avg_fsd / denum
call MPI_ALLREDUCE(MPI_IN_PLACE, fsd_avg_w, nxp, MPI_REAL8, MPI_SUM, MPI_COMM_TASK, mpi_err)
fsd_avg_w = fsd_avg_w / avg_fsd / denum
end subroutine m_terms_average_pass1
subroutine m_terms_calculate_pass2
integer :: i, j, k
! ( 1.0 - y(i,j,k) )
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
xyzbuffer10(i,j,k) = ( 1.0 - y(i,j,k) )
end do
end do
end do
call d2dy ( xyzbuffer9, xyzbuffer10 )
call ddx ( xyzbuffer8, xyzbuffer10 )
call ddy ( xyzbuffer3, xyzbuffer10 )
call ddz ( xyzbuffer2, xyzbuffer10 )
! ( sqrt ( ( ( ((ddx_c(i,j,k))*(ddx_c(i,j,k))) + ((ddy_c(i,j,k))*(ddy_c(i,j,k))) ) + ((ddz_c(i,j,k))*(ddz_c(i,j,k))) ) ) )
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
xyzbuffer1(i,j,k) = ( sqrt ( ( ( ((xyzbuffer8(i,j,k))*(xyzbuffer8(i,j,k))) + ((xyzbuffer3(i,j,k))*(xyzbuffer3(i,j,k))) ) + ((xyzbuffer2(i,j,k))*(xyzbuffer2(i,j,k))) ) ) )
end do
end do
end do
! ( ( - ddx_c(i,j,k) ) / fsd(i,j,k) )
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
xyzbuffer0(i,j,k) = ( ( - xyzbuffer8(i,j,k) ) / xyzbuffer1(i,j,k) )
end do
end do
end do
! ( ( - ddz_c(i,j,k) ) / fsd(i,j,k) )
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
xyzbuffer7(i,j,k) = ( ( - xyzbuffer2(i,j,k) ) / xyzbuffer1(i,j,k) )
end do
end do
end do
! (((nx(i,j,k) - fsd_avg_nx(i)))*((nx(i,j,k) - fsd_avg_nx(i))))
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
xyzbuffer6(i,j,k) = (((xyzbuffer0(i,j,k) - fsd_avg_nx(i)))*((xyzbuffer0(i,j,k) - fsd_avg_nx(i))))
end do
end do
end do
! ( rxn_rate ( c(i,j,k) ) )
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
xyzbuffer5(i,j,k) = ( rxn_rate ( xyzbuffer10(i,j,k) ) )
end do
end do
end do
call d2dx ( xyzbuffer4, xyzbuffer10 )
call ddx ( xyzbuffer8, xyzbuffer0 )
call ddz ( xyzbuffer2, xyzbuffer7 )
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
fsd_avg_t6(i) = fsd_avg_t6(i) + xyzbuffer6(i,j,k) * xyzbuffer1(i,j,k)
end do
end do
end do
! ( ( - ddy_c(i,j,k) ) / fsd(i,j,k) )
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
xyzbuffer6(i,j,k) = ( ( - xyzbuffer3(i,j,k) ) / xyzbuffer1(i,j,k) )
end do
end do
end do
! ( ( ( u(i,j,k) * nx(i,j,k) ) + ( v(i,j,k) * ny(i,j,k) ) ) + ( w(i,j,k) * nz(i,j,k) ) )
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
xyzbuffer3(i,j,k) = ( ( ( u(i,j,k) * xyzbuffer0(i,j,k) ) + ( v(i,j,k) * xyzbuffer6(i,j,k) ) ) + ( w(i,j,k) * xyzbuffer7(i,j,k) ) )
end do
end do
end do
call d2dz ( xyzbuffer7, xyzbuffer10 )
! ( ( ( ( ( d2dx_c(i,j,k) + d2dy_c(i,j,k) ) + d2dz_c(i,j,k) ) * rod ) + wrate(i,j,k) ) / fsd(i,j,k) )
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
xyzbuffer10(i,j,k) = ( ( ( ( ( xyzbuffer4(i,j,k) + xyzbuffer9(i,j,k) ) + xyzbuffer7(i,j,k) ) * rod ) + xyzbuffer5(i,j,k) ) / xyzbuffer1(i,j,k) )
end do
end do
end do
call ddy ( xyzbuffer9, xyzbuffer6 )
! ( ( vn(i,j,k) + sd(i,j,k) ) * nx(i,j,k) )
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
xyzbuffer7(i,j,k) = ( ( xyzbuffer3(i,j,k) + xyzbuffer10(i,j,k) ) * xyzbuffer0(i,j,k) )
end do
end do
end do
! (((t1(i,j,k) - fsd_avg_t1(i)))*((t1(i,j,k) - fsd_avg_t1(i))))
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
xyzbuffer6(i,j,k) = (((xyzbuffer7(i,j,k) - fsd_avg_t1(i)))*((xyzbuffer7(i,j,k) - fsd_avg_t1(i))))
end do
end do
end do
! ( ( ddx_nx(i,j,k) + ddy_ny(i,j,k) ) + ddz_nz(i,j,k) )
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
xyzbuffer5(i,j,k) = ( ( xyzbuffer8(i,j,k) + xyzbuffer9(i,j,k) ) + xyzbuffer2(i,j,k) )
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
fsd_avg_t5(i) = fsd_avg_t5(i) + xyzbuffer6(i,j,k) * xyzbuffer1(i,j,k)
end do
end do
end do
! ( (t1(i,j,k) - fsd_avg_t1(i)) * (nx(i,j,k) - fsd_avg_nx(i)) )
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
xyzbuffer4(i,j,k) = ( (xyzbuffer7(i,j,k) - fsd_avg_t1(i)) * (xyzbuffer0(i,j,k) - fsd_avg_nx(i)) )
end do
end do
end do
! (((divn(i,j,k) - fsd_avg_divn(i)))*((divn(i,j,k) - fsd_avg_divn(i))))
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
xyzbuffer10(i,j,k) = (((xyzbuffer5(i,j,k) - fsd_avg_divn(i)))*((xyzbuffer5(i,j,k) - fsd_avg_divn(i))))
end do
end do
end do
! ( dabs ( divn(i,j,k) ) )
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
xyzbuffer9(i,j,k) = ( dabs ( xyzbuffer5(i,j,k) ) )
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
fsd_avg_t7(i) = fsd_avg_t7(i) + xyzbuffer10(i,j,k) * xyzbuffer1(i,j,k)
end do
end do
end do
! ( (t1(i,j,k) - fsd_avg_t1(i)) * (divn(i,j,k) - fsd_avg_divn(i)) )
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
xyzbuffer8(i,j,k) = ( (xyzbuffer7(i,j,k) - fsd_avg_t1(i)) * (xyzbuffer5(i,j,k) - fsd_avg_divn(i)) )
end do
end do
end do
! (((absk(i,j,k) - fsd_avg_absk(i)))*((absk(i,j,k) - fsd_avg_absk(i))))
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
xyzbuffer3(i,j,k) = (((xyzbuffer9(i,j,k) - fsd_avg_absk(i)))*((xyzbuffer9(i,j,k) - fsd_avg_absk(i))))
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
fsd_avg_t2(i) = fsd_avg_t2(i) + xyzbuffer4(i,j,k) * xyzbuffer1(i,j,k)
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
fsd_avg_t8(i) = fsd_avg_t8(i) + xyzbuffer3(i,j,k) * xyzbuffer1(i,j,k)
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
fsd_avg_t3(i) = fsd_avg_t3(i) + xyzbuffer8(i,j,k) * xyzbuffer1(i,j,k)
end do
end do
end do
! ( (t1(i,j,k) - fsd_avg_t1(i)) * (absk(i,j,k) - fsd_avg_absk(i)) )
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
xyzbuffer2(i,j,k) = ( (xyzbuffer7(i,j,k) - fsd_avg_t1(i)) * (xyzbuffer9(i,j,k) - fsd_avg_absk(i)) )
end do
end do
end do
do k = 1, nzp
do j = 1, nyp
do i = 1, nxp
fsd_avg_t4(i) = fsd_avg_t4(i) + xyzbuffer2(i,j,k) * xyzbuffer1(i,j,k)
end do
end do
end do
end subroutine m_terms_calculate_pass2
subroutine m_terms_average_pass2 (nfiles)
integer :: nfiles
real*8 :: denum
denum=real(nfiles*nyp*nzp)
call MPI_ALLREDUCE(MPI_IN_PLACE, fsd_avg_t2, nxp, MPI_REAL8, MPI_SUM, MPI_COMM_TASK, mpi_err)
fsd_avg_t2 = fsd_avg_t2 / avg_fsd / denum
call MPI_ALLREDUCE(MPI_IN_PLACE, fsd_avg_t3, nxp, MPI_REAL8, MPI_SUM, MPI_COMM_TASK, mpi_err)
fsd_avg_t3 = fsd_avg_t3 / avg_fsd / denum
call MPI_ALLREDUCE(MPI_IN_PLACE, fsd_avg_t4, nxp, MPI_REAL8, MPI_SUM, MPI_COMM_TASK, mpi_err)
fsd_avg_t4 = fsd_avg_t4 / avg_fsd / denum
call MPI_ALLREDUCE(MPI_IN_PLACE, fsd_avg_t5, nxp, MPI_REAL8, MPI_SUM, MPI_COMM_TASK, mpi_err)
fsd_avg_t5 = fsd_avg_t5 / avg_fsd / denum
call MPI_ALLREDUCE(MPI_IN_PLACE, fsd_avg_t6, nxp, MPI_REAL8, MPI_SUM, MPI_COMM_TASK, mpi_err)
fsd_avg_t6 = fsd_avg_t6 / avg_fsd / denum
call MPI_ALLREDUCE(MPI_IN_PLACE, fsd_avg_t7, nxp, MPI_REAL8, MPI_SUM, MPI_COMM_TASK, mpi_err)
fsd_avg_t7 = fsd_avg_t7 / avg_fsd / denum
call MPI_ALLREDUCE(MPI_IN_PLACE, fsd_avg_t8, nxp, MPI_REAL8, MPI_SUM, MPI_COMM_TASK, mpi_err)
fsd_avg_t8 = fsd_avg_t8 / avg_fsd / denum
end subroutine m_terms_average_pass2
subroutine m_terms_write_result
integer :: i
open (200, file="qEdge_X.dat")
write (200,*) output_header
do i=1,nxp
write (200,'(30e20.10)') real(i)*hxp, avg_c(i), avg_d2dx_c(i), avg_d2dy_c(i), avg_d2dz_c(i), avg_ddx_c(i), avg_ddy_c(i), avg_ddz_c(i), avg_fsd(i), avg_lapc(i), avg_u(i), avg_v(i), avg_w(i), fsd_avg_absk(i), fsd_avg_divn(i), fsd_avg_nx(i), fsd_avg_ny(i), fsd_avg_nz(i), fsd_avg_sd(i), fsd_avg_t1(i), fsd_avg_u(i), fsd_avg_v(i), fsd_avg_w(i), fsd_avg_t2(i), fsd_avg_t3(i), fsd_avg_t4(i), fsd_avg_t5(i), fsd_avg_t6(i), fsd_avg_t7(i), fsd_avg_t8(i)
end do
close (200)
end subroutine m_terms_write_result
end module m_terms