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!Environment Canada - Atmospheric Science and Technology License/Disclaimer,
! version 3; Last Modified: May 7, 2008.
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***s/r hzd_hof_tr - Equivalent to hzd_hof for TRAJECTORY
* (F_pip, F_qp (No Hyd) ONLY)
*
#include "model_macros_f.h"
*
subroutine hzd_hof_tr (F_pip,F_qp,DIST_DIM,Nk) 1,2
*
implicit none
*
integer DIST_DIM, Nk
real F_pip(DIST_SHAPE,Nk), F_qp(DIST_SHAPE,Nk)
*
*author
* M.Tanguay
*
*revision
* v2_21 - Tanguay M. - initial MPI version
* v2_31 - Tanguay M. - TRAJ of control for diffusion on momentum only
* v3_03 - Tanguay M. - Adjoint NoHyd configuration
* v3_11 - Tanguay M. - AIXport+Opti+OpenMP for TLM-ADJ
*
*object
* see id section
*
*arguments
*
*implicits
#include "fft.cdk"
#include "glb_ld.cdk"
#include "ldnh.cdk"
#include "dcst.cdk"
#include "cstv.cdk"
#include "trp.cdk"
#include "hzd.cdk"
#include "opr.cdk"
#include "schm.cdk"
#include "geomg.cdk"
#include "lun.cdk"
#include "ptopo.cdk"
*
integer i, j, k, dpwr
real*8 wk1_8
real wk2(LDIST_SHAPE,Nk)
* __________________________________________________________________
*
dpwr = Hzd_pwr / 2
if (Lun_debug_L) write(Lun_out,1000) Hzd_pwr
*
if (Hzd_uvwdt_L) return
*
if ( Hzd_cdiff .gt. 0.0 ) then
*
* Save pi' for the diffusion of q'
* ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
if ( (.not.Schm_hydro_L) .and. Schm_difqp_L ) then
!$omp parallel do
do k = 1, Nk
do j = 1,l_nj
do i = 1,l_ni
wk2(i,j,k) = F_pip(i,j,k)
end do
end do
end do
!$omp end parallel do
endif
*
* The hydrostatic pressure: pi'
* ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
call hzd_solfft(F_pip, wk1_8, Fft_pri_8 ,
% Hzd_as_8,Hzd_cs_8,Hzd_deltas_8,
% trp_12dmin,trp_12dmax,trp_22min,trp_22max,
% trp_12dn,trp_22n,G_nj, dpwr,l_minx,
% l_maxx, l_miny, l_maxy,Nk,G_ni,l_ni,l_nj,
% trp_12dn,Opr_opsxp0_8,Opr_opsyp0_8, Hzd_cdiff,
% Ptopo_npex,Ptopo_npey)
*
*
*****************************
* 3. Nonyhydrostatic model *
*****************************
*
if ( .not. Schm_hydro_L ) then
*
if ( Schm_difqp_L ) then ! q' & related variables
*
* Indirect diffusion of q'
* ~~~~~~~~~~~~~~~~~~~~~~~~
!$omp parallel do
do k=1, Nk !
do j=1,l_nj ! p = (pi)exp(q')
do i=1,l_ni ! ~~~~~~~~~~~~~~~
wk2(i,j,k) = ( geomg_z_8(k) + dble(wk2(i,j,k)) )
% *exp( dble(F_qp(i,j,k)) )
end do
end do
end do
!$omp end parallel do
*
call hzd_solfft(wk2, wk1_8, Fft_pri_8 ,
% Hzd_as_8,Hzd_cs_8,Hzd_deltas_8,
% trp_12dmin,trp_12dmax,trp_22min,trp_22max,
% trp_12dn,trp_22n,G_nj, dpwr,l_minx,
% l_maxx, l_miny, l_maxy,Nk,G_ni,l_ni,l_nj,
% trp_12dn,Opr_opsxp0_8,Opr_opsyp0_8, Hzd_cdiff,
% Ptopo_npex,Ptopo_npey)
*
!$omp parallel do
do k=1, Nk !
do j=1,l_nj ! q' = log(p/pi)
do i=1,l_ni ! ~~~~~~~~~~~~~~
F_qp(i,j,k) = log( dble(wk2(i,j,k))
% /( geomg_z_8(k) + dble(F_pip(i,j,k)) ) )
end do
end do
end do
!$omp end parallel do
*
endif
endif
*
endif
*
1000 format(/,
$ 3X,'TRAJ of PERFORM DEL-',i1,' FFT HORIZONTAL DIFFUSION: (S/R HZD_HOF_TR)')
* __________________________________________________________________
*
return
end