!WRF+/TL:MEDIATION_LAYER:SOLVER FOR TL !Created by Xin Zhang and Ning Pan, 2010-08 SUBROUTINE solve_em_tl ( grid , config_flags & ! Arguments generated from Registry #include "dummy_new_args.inc" ! ) ! Driver layer modules USE module_state_description USE module_domain, ONLY : & domain, get_ijk_from_grid, get_ijk_from_subgrid & ,domain_get_current_time, domain_get_start_time & ,domain_get_sim_start_time, domain_clock_get,is_alarm_tstep USE module_domain_type, ONLY : history_alarm, restart_alarm USE module_configure, ONLY : grid_config_rec_type USE module_driver_constants USE module_machine USE module_tiles, ONLY : set_tiles #ifdef DM_PARALLEL USE module_dm, ONLY : & local_communicator, mytask, ntasks, ntasks_x, ntasks_y & ,local_communicator_periodic, wrf_dm_maxval USE module_comm_dm, ONLY : & halo_em_a_tl_sub,halo_em_b_tl_sub,halo_em_c2_tl_sub,halo_em_chem_e_3_sub & ,halo_em_chem_e_5_sub,halo_em_chem_e_7_sub,halo_em_chem_old_e_5_sub & ,halo_em_chem_old_e_7_sub,halo_em_c_tl_sub,halo_em_d2_3_tl_sub & ,halo_em_d2_5_tl_sub,halo_em_d3_3_tl_sub,halo_em_d3_5_tl_sub,halo_em_d_tl_sub & ,halo_em_e_3_tl_sub,halo_em_e_5_tl_sub,halo_em_hydro_uv_tl_sub & ,halo_em_moist_e_3_tl_sub,halo_em_moist_e_5_tl_sub,halo_em_moist_e_7_tl_sub & ,halo_em_moist_old_e_5_tl_sub,halo_em_moist_old_e_7_tl_sub & ,halo_em_scalar_e_3_sub,halo_em_scalar_e_5_sub,halo_em_scalar_e_7_sub & ,halo_em_scalar_old_e_5_sub,halo_em_scalar_old_e_7_sub,halo_em_tke_3_tl_sub & ,halo_em_tke_5_tl_sub,halo_em_tke_7_tl_sub,halo_em_tke_advect_3_tl_sub & ,halo_em_tke_advect_5_tl_sub,halo_em_tke_old_e_5_tl_sub & ,halo_em_tke_old_e_7_tl_sub,halo_em_tracer_e_3_tl_sub,halo_em_tracer_e_5_tl_sub & ,halo_em_tracer_e_7_tl_sub,halo_em_tracer_old_e_5_tl_sub & ,halo_em_tracer_old_e_7_tl_sub,period_bdy_em_a_sub,halo_em_sbm_tl_sub & ,period_bdy_em_b3_sub,period_bdy_em_b_sub,period_bdy_em_chem2_sub & ,period_bdy_em_chem_old_sub,period_bdy_em_chem_sub,period_bdy_em_d3_sub & ,period_bdy_em_d_sub,period_bdy_em_e_sub,period_bdy_em_moist2_sub & ,period_bdy_em_moist_old_sub,period_bdy_em_moist_sub & ,period_bdy_em_scalar2_sub,period_bdy_em_scalar_old_sub & ,period_bdy_em_scalar_sub,period_bdy_em_tke_old_sub,period_bdy_em_tke_sub & ,period_bdy_em_tracer2_sub,period_bdy_em_tracer_old_sub & ,period_bdy_em_tracer_sub,period_em_da_sub,period_em_hydro_uv_sub #endif USE module_utility ! Mediation layer modules ! Model layer modules USE module_model_constants USE g_module_small_step_em USE module_em USE g_module_em USE g_module_big_step_utilities_em USE g_module_bc USE module_bc_em USE g_module_bc_em USE module_solvedebug_em USE g_module_physics_addtendc USE g_module_diffusion_em USE module_polarfft USE g_module_microphysics_driver USE module_microphysics_zero_out USE g_module_microphysics_zero_out USE module_fddaobs_driver ! USE module_diagnostics #if (WRF_CHEM==1) USE module_input_chem_data USE module_input_tracer USE module_chem_utilities #endif USE g_module_first_rk_step_part1 USE g_module_first_rk_step_part2 USE module_after_all_rk_steps USE module_llxy, ONLY : proj_cassini USE module_avgflx_em, ONLY : zero_avgflx, upd_avgflx IMPLICIT NONE ! Input data. TYPE(domain) , TARGET :: grid ! Definitions of dummy arguments to this routine (generated from Registry). #include "dummy_new_decl.inc" ! Structure that contains run-time configuration (namelist) data for domain TYPE (grid_config_rec_type) , INTENT(IN) :: config_flags ! Local data INTEGER :: k_start , k_end, its, ite, jts, jte INTEGER :: ids , ide , jds , jde , kds , kde , & ims , ime , jms , jme , kms , kme , & ips , ipe , jps , jpe , kps , kpe INTEGER :: sids , side , sjds , sjde , skds , skde , & sims , sime , sjms , sjme , skms , skme , & sips , sipe , sjps , sjpe , skps , skpe INTEGER :: imsx, imex, jmsx, jmex, kmsx, kmex, & ipsx, ipex, jpsx, jpex, kpsx, kpex, & imsy, imey, jmsy, jmey, kmsy, kmey, & ipsy, ipey, jpsy, jpey, kpsy, kpey INTEGER :: ij , iteration INTEGER :: im , num_3d_m , ic , num_3d_c , is , num_3d_s INTEGER :: loop INTEGER :: sz INTEGER :: iswater LOGICAL :: specified_bdy, channel_bdy REAL :: t_new ! Changes in tendency at this timestep real ,DIMENSION(grid%sm31:grid%em31,grid%sm32:grid%em32,grid%sm33:grid%em33) :: h_tendency, & z_tendency real ,DIMENSION(grid%sm31:grid%em31,grid%sm32:grid%em32,grid%sm33:grid%em33) :: g_h_tendency, & g_z_tendency ! Whether advection should produce decoupled horizontal and vertical advective tendency outputs LOGICAL :: tenddec ! Flag for producing diagnostic fields (e.g., radar reflectivity) LOGICAL :: diag_flag #if (WRF_CHEM==1) ! Index cross-referencing array for tendency accumulation INTEGER, DIMENSION( num_chem ) :: adv_ct_indices #endif ! storage for tendencies and decoupled state (generated from Registry) #include "i1_decl.inc" ! Previous time level of tracer arrays now defined as i1 variables; ! the state 4d arrays now redefined as 1-time level arrays in Registry. ! Benefit: save memory in nested runs, since only 1 domain is active at a ! time. Potential problem on stack-limited architectures: increases ! amount of data on program stack by making these automatic arrays. INTEGER :: rc INTEGER :: number_of_small_timesteps, rk_step INTEGER :: klevel,ijm,ijp,i,j,k,size1,size2 ! for prints/plots only INTEGER :: idum1, idum2, dynamics_option INTEGER :: rk_order, iwmax, jwmax, kwmax REAL :: dt_rk, dts_rk, dts, dtm, wmax REAL , ALLOCATABLE , DIMENSION(:) :: max_vert_cfl_tmp, max_horiz_cfl_tmp LOGICAL :: leapfrog INTEGER :: l,kte,kk LOGICAL :: f_flux ! flag for computing averaged fluxes in cu_gd REAL :: curr_secs, curr_secs2 INTEGER :: num_sound_steps INTEGER :: idex, jdex REAL :: max_msft REAL :: spacing INTEGER :: ii, jj !kk is above after l,kte REAL :: dclat INTEGER :: debug_level ! urban related variables INTEGER :: NUM_ROOF_LAYERS, NUM_WALL_LAYERS, NUM_ROAD_LAYERS ! urban TYPE(WRFU_TimeInterval) :: tmpTimeInterval, tmpTimeInterval2 REAL :: real_time LOGICAL :: adapt_step_flag LOGICAL :: fill_w_flag ! variables for flux-averaging code 20091223 CHARACTER*256 :: message, message2 REAL :: old_dt TYPE(WRFU_Time) :: temp_time, CurrTime, restart_time INTEGER, PARAMETER :: precision = 100 INTEGER :: num, den TYPE(WRFU_TimeInterval) :: dtInterval, intervaltime,restartinterval ! Define benchmarking timers if -DBENCH is compiled #include "bench_solve_em_def.h" !---------------------- ! Executable statements !---------------------- ! !
! solve_em_tl is the main driver for advancing a grid a single timestep.
! It is a mediation-layer routine -> DM and SM calls are made where
! needed for parallel processing.
!
! solve_em_tl can integrate the equations using 3 time-integration methods
!
!    - 3rd order Runge-Kutta time integration (recommended)
!
!    - 2nd order Runge-Kutta time integration
!
! The main sections of solve_em_tl are
!
! (1) Runge-Kutta (RK) loop
!
! (2) Non-timesplit physics (i.e., tendencies computed for updating
!     model state variables during the first RK sub-step (loop)
!
! (3) Small (acoustic, sound) timestep loop - within the RK sub-steps
!
! (4) scalar advance for moist and chem scalar variables (and TKE)
!     within the RK sub-steps.
!
! (5) time-split physics (after the RK step), currently this includes
!     only microphyics
!
! A more detailed description of these sections follows.
!
!
! Initialize timers if compiled with -DBENCH #include "bench_solve_em_init.h" ! set runge-kutta solver (2nd or 3rd order) dynamics_option = config_flags%rk_ord ! Obtain dimension information stored in the grid data structure. CALL get_ijk_from_grid ( grid , & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & imsx, imex, jmsx, jmex, kmsx, kmex, & ipsx, ipex, jpsx, jpex, kpsx, kpex, & imsy, imey, jmsy, jmey, kmsy, kmey, & ipsy, ipey, jpsy, jpey, kpsy, kpey ) CALL get_ijk_from_subgrid ( grid , & sids, side, sjds, sjde, skds, skde, & sims, sime, sjms, sjme, skms, skme, & sips, sipe, sjps, sjpe, skps, skpe ) k_start = kps k_end = kpe num_3d_m = num_moist num_3d_c = num_chem num_3d_s = num_scalar f_flux = config_flags%do_avgflx_cugd .EQ. 1 ! Compute these starting and stopping locations for each tile and number of tiles. ! See: http://www.mmm.ucar.edu/wrf/WG2/topics/settiles CALL set_tiles ( ZONE_SOLVE_EM, grid , ids , ide , jds , jde , ips , ipe , jps , jpe ) ! CALL set_tiles ( grid , ids , ide , jds , jde , ips , ipe , jps , jpe ) ! Max values of CFL for adaptive time step scheme ALLOCATE (max_vert_cfl_tmp(grid%num_tiles)) ALLOCATE (max_horiz_cfl_tmp(grid%num_tiles)) ! ! Calculate current time in seconds since beginning of model run. ! Unfortunately, ESMF does not seem to have a way to return ! floating point seconds based on a TimeInterval. So, we will ! calculate it here--but, this is not clean!! ! tmpTimeInterval = domain_get_current_time ( grid ) - domain_get_sim_start_time ( grid ) tmpTimeInterval2 = domain_get_current_time ( grid ) - domain_get_start_time ( grid ) curr_secs = real_time(tmpTimeInterval) curr_secs2 = real_time(tmpTimeInterval2) old_dt = grid%dt ! store old time step for flux averaging code at end of RK loop !----------------------------------------------------------------------------- ! Adaptive time step: Added by T. Hutchinson, WSI 3/5/07 ! In this call, we do the time-step adaptation and set time-dependent lateral ! boundary condition nudging weights. ! IF ( (config_flags%use_adaptive_time_step) .and. & ( (.not. grid%nested) .or. & ( (grid%nested) .and. (abs(grid%dtbc) < 0.0001) ) ) )THEN CALL adapt_timestep(grid, config_flags) adapt_step_flag = .TRUE. ELSE adapt_step_flag = .FALSE. ENDIF ! End of adaptive time step modifications !----------------------------------------------------------------------------- ! ! Set diagnostic flag value history output time !----------------------------------------------------------------------------- ! if ( Is_alarm_tstep(grid_clock, grid_alarms(HISTORY_ALARM)) ) then diag_flag = .false. if ( Is_alarm_tstep(grid%domain_clock, grid%alarms(HISTORY_ALARM)) ) then diag_flag = .true. endif grid%itimestep = grid%itimestep + 1 IF (config_flags%enable_identity) RETURN IF (config_flags%polar) dclat = 90./REAL(jde-jds) !(0.5 * 180/ny) rk_order = config_flags%rk_ord IF ( grid%time_step_sound == 0 ) THEN ! This function will give 4 for 6*dx and 6 for 10*dx and returns even numbers only spacing = min(grid%dx, grid%dy) IF ( ( config_flags%use_adaptive_time_step ) .AND. ( config_flags%map_proj == PROJ_CASSINI ) ) THEN max_msft=MIN ( MAX(grid%max_msftx, grid%max_msfty) , & 1.0/COS(config_flags%fft_filter_lat*degrad) ) num_sound_steps = max ( 2 * ( INT (300. * grid%dt / (spacing / max_msft) - 0.01 ) + 1 ), 4 ) ELSE IF ( config_flags%use_adaptive_time_step ) THEN max_msft= MAX(grid%max_msftx, grid%max_msfty) num_sound_steps = max ( 2 * ( INT (300. * grid%dt / (spacing / max_msft) - 0.01 ) + 1 ), 4 ) ELSE num_sound_steps = max ( 2 * ( INT (300. * grid%dt / spacing - 0.01 ) + 1 ), 4 ) END IF WRITE(wrf_err_message,*)'grid spacing, dt, time_step_sound=',spacing,grid%dt,num_sound_steps CALL wrf_debug ( 50 , wrf_err_message ) ELSE num_sound_steps = grid%time_step_sound ENDIF dts = grid%dt/float(num_sound_steps) IF (config_flags%use_adaptive_time_step) THEN CALL get_wrf_debug_level( debug_level ) IF ((config_flags%time_step < 0) .AND. (debug_level.GE.50)) THEN #ifdef DM_PARALLEL CALL wrf_dm_maxval(grid%max_vert_cfl, idex, jdex) #endif WRITE(wrf_err_message,*)'variable dt, max horiz cfl, max vert cfl: ',& grid%dt, grid%max_horiz_cfl, grid%max_vert_cfl CALL wrf_debug ( 0 , wrf_err_message ) ENDIF grid%max_cfl_val = 0 grid%max_horiz_cfl = 0 grid%max_vert_cfl = 0 ENDIF ! setting bdy tendencies to zero for DFI if constant_bc = true !$OMP PARALLEL DO & !$OMP PRIVATE ( ij ) DO ij = 1 , grid%num_tiles ! IF( config_flags%specified .AND. grid%dfi_opt .NE. DFI_NODFI & ! .AND. config_flags%constant_bc .AND. (grid%dfi_stage .EQ. DFI_BCK .OR. grid%dfi_stage .EQ. DFI_FWD) ) THEN IF( config_flags%specified .AND. config_flags%constant_bc ) THEN CALL g_zero_bdytend (grid%u_btxs,grid%g_u_btxs,grid%u_btxe,grid%g_u_btxe, & grid%u_btys,grid%g_u_btys,grid%u_btye,grid%g_u_btye, & grid%v_btxs,grid%g_v_btxs,grid%v_btxe,grid%g_v_btxe, & grid%v_btys,grid%g_v_btys,grid%v_btye,grid%g_v_btye, & grid%ph_btxs,grid%g_ph_btxs,grid%ph_btxe,grid%g_ph_btxe, & grid%ph_btys,grid%g_ph_btys,grid%ph_btye,grid%g_ph_btye, & grid%t_btxs,grid%g_t_btxs,grid%t_btxe,grid%g_t_btxe, & grid%t_btys,grid%g_t_btys,grid%t_btye,grid%g_t_btye, & grid%w_btxs,grid%g_w_btxs,grid%w_btxe,grid%g_w_btxe, & grid%w_btys,grid%g_w_btys,grid%w_btye,grid%g_w_btye, & grid%mu_btxs,grid%g_mu_btxs,grid%mu_btxe,grid%g_mu_btxe, & grid%mu_btys,grid%g_mu_btys,grid%mu_btye,grid%g_mu_btye, & moist_btxs,g_moist_btxs,moist_btxe,g_moist_btxe, & moist_btys,g_moist_btys,moist_btye,g_moist_btye, & scalar_btxs,g_scalar_btxs,scalar_btxe,g_scalar_btxe, & scalar_btys,g_scalar_btys,scalar_btye,g_scalar_btye, & grid%spec_bdy_width,num_3d_m,num_3d_s, & ids,ide, jds,jde, kds,kde, & ims,ime, jms,jme, kms,kme, & ips,ipe, jps,jpe, kps,kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) ENDIF ENDDO !$OMP END PARALLEL DO !********************************************************************** ! ! LET US BEGIN....... ! ! !
! (1) RK integration loop is named the "Runge_Kutta_loop:"
!
!   Predictor-corrector type time integration.
!   Advection terms are evaluated at time t for the predictor step,
!   and advection is re-evaluated with the latest predicted value for
!   each succeeding time corrector step
!
!   2nd order Runge Kutta (rk_order = 2):
!   Step 1 is taken to the midpoint predictor, step 2 is the full step.
!
!   3rd order Runge Kutta (rk_order = 3):
!   Step 1 is taken to from t to dt/3, step 2 is from t to dt/2,
!   and step 3 is from t to dt.
!
!   non-timesplit physics are evaluated during first RK step and
!   these physics tendencies are stored for use in each RK pass.
!
!
!********************************************************************** Runge_Kutta_loop: DO rk_step = 1, rk_order ! Set the step size and number of small timesteps for ! each part of the timestep dtm = grid%dt IF ( rk_order == 1 ) THEN write(wrf_err_message,*)' leapfrog removed, error exit for dynamics_option = ',dynamics_option CALL wrf_error_fatal( wrf_err_message ) ELSE IF ( rk_order == 2 ) THEN ! 2nd order Runge-Kutta timestep IF ( rk_step == 1) THEN dt_rk = 0.5*grid%dt dts_rk = dts number_of_small_timesteps = num_sound_steps/2 ELSE dt_rk = grid%dt dts_rk = dts number_of_small_timesteps = num_sound_steps ENDIF ELSE IF ( rk_order == 3 ) THEN ! third order Runge-Kutta IF ( rk_step == 1) THEN dt_rk = grid%dt/3. dts_rk = dt_rk number_of_small_timesteps = 1 ELSE IF (rk_step == 2) THEN dt_rk = 0.5*grid%dt dts_rk = dts number_of_small_timesteps = num_sound_steps/2 ELSE dt_rk = grid%dt dts_rk = dts number_of_small_timesteps = num_sound_steps ENDIF ELSE write(wrf_err_message,*)' unknown solver, error exit for dynamics_option = ',dynamics_option CALL wrf_error_fatal( wrf_err_message ) END IF ! Ensure that polar meridional velocity is zero IF (config_flags%polar) THEN WRITE(wrf_err_message,*)'solve_em_tl: please revisit polar = ',config_flags%polar CALL wrf_error_fatal(TRIM(wrf_err_message)) ! !$OMP PARALLEL DO & ! !$OMP PRIVATE ( ij ) ! DO ij = 1 , grid%num_tiles ! CALL zero_pole ( grid%v_1, & ! ids, ide, jds, jde, kds, kde, & ! ims, ime, jms, jme, kms, kme, & ! grid%i_start(ij), grid%i_end(ij), & ! grid%j_start(ij), grid%j_end(ij), & ! k_start, k_end ) ! CALL zero_pole ( grid%v_2, & ! ids, ide, jds, jde, kds, kde, & ! ims, ime, jms, jme, kms, kme, & ! grid%i_start(ij), grid%i_end(ij), & ! grid%j_start(ij), grid%j_end(ij), & ! k_start, k_end ) ! END DO ! !$OMP END PARALLEL DO END IF ! ! Time level t is in the *_2 variable in the first part ! of the step, and in the *_1 variable after the predictor. ! the latest predicted values are stored in the *_2 variables. ! CALL wrf_debug ( 200 , ' call g_rk_step_prep ' ) BENCH_START(g_step_prep_tim) !$OMP PARALLEL DO & !$OMP PRIVATE ( ij ) DO ij = 1 , grid%num_tiles CALL g_rk_step_prep ( config_flags, rk_step, & grid%u_2, grid%g_u_2, grid%v_2, grid%g_v_2, & grid%w_2, grid%g_w_2, grid%t_2, grid%g_t_2, & grid%ph_2, grid%g_ph_2, grid%mu_2, grid%g_mu_2, & moist, g_moist, & grid%ru, grid%g_ru, grid%rv, grid%g_rv, grid%rw, grid%g_rw, & grid%ww, grid%g_ww, grid%php, grid%g_php, grid%alt, grid%g_alt, & grid%muu, grid%g_muu, grid%muv, grid%g_muv, & grid%mub, grid%mut, grid%g_mut, & grid%phb, grid%pb, grid%p, grid%g_p, grid%al, grid%g_al, grid%alb, & cqu, g_cqu, cqv, g_cqv, cqw, g_cqw, & grid%msfux, grid%msfuy, grid%msfvx, grid%msfvx_inv, & grid%msfvy, grid%msftx, grid%msfty, & grid%fnm, grid%fnp, grid%dnw, grid%rdx, grid%rdy, & num_3d_m, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) END DO !$OMP END PARALLEL DO BENCH_END(g_step_prep_tim) #ifdef DM_PARALLEL !----------------------------------------------------------------------- ! Stencils for patch communications (WCS, 29 June 2001) ! Note: the small size of this halo exchange reflects the ! fact that we are carrying the uncoupled variables ! as state variables in the mass coordinate model, as ! opposed to the coupled variables as in the height ! coordinate model. ! ! * * * * * ! * * * * * * * * * ! * + * * + * * * + * * ! * * * * * * * * * ! * * * * * ! ! 3D variables - note staggering! ru(X), rv(Y), ww(Z), php(Z) ! ! ru x ! rv x ! ww x ! php x ! alt x ! ph_2 x ! phb x ! ! the following are 2D (xy) variables ! ! muu x ! muv x ! mut x !-------------------------------------------------------------- # include "HALO_EM_A_TL.inc" #endif ! set boundary conditions on variables ! from big_step_prep for use in big_step_proc #ifdef DM_PARALLEL # include "PERIOD_BDY_EM_A.inc" #endif BENCH_START(g_set_phys_bc_tim) !$OMP PARALLEL DO & !$OMP PRIVATE ( ij, ii, jj, kk ) DO ij = 1 , grid%num_tiles CALL wrf_debug ( 200 , ' call g_rk_phys_bc_dry_1' ) CALL g_rk_phys_bc_dry_1( config_flags, grid%ru,grid%g_ru, grid%rv,grid%g_rv, & grid%rw,grid%g_rw, grid%ww,grid%g_ww, & grid%muu,grid%g_muu, grid%muv,grid%g_muv, grid%mut,grid%g_mut, & grid%php,grid%g_php, grid%alt,grid%g_alt, grid%p,grid%g_p, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) CALL g_set_physical_bc3d( grid%al,grid%g_al, 'p', config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) CALL g_set_physical_bc3d( grid%ph_2,grid%g_ph_2, 'w', config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) IF (config_flags%polar) THEN WRITE(wrf_err_message,*)'solve_em_tl: please revisit polar = ',config_flags%polar CALL wrf_error_fatal(TRIM(wrf_err_message)) !------------------------------------------------------- ! lat-lon grid pole-point (v) specification (extrapolate v, rv to the pole) !------------------------------------------------------- ! CALL pole_point_bc ( grid%v_1, & ! ids, ide, jds, jde, kds, kde, & ! ims, ime, jms, jme, kms, kme, & ! grid%i_start(ij), grid%i_end(ij), & ! grid%j_start(ij), grid%j_end(ij), & ! k_start, k_end ) ! CALL pole_point_bc ( grid%v_2, & ! ids, ide, jds, jde, kds, kde, & ! ims, ime, jms, jme, kms, kme, & ! grid%i_start(ij), grid%i_end(ij), & ! grid%j_start(ij), grid%j_end(ij), & ! k_start, k_end ) !------------------------------------------------------- ! end lat-lon grid pole-point (v) specification !------------------------------------------------------- ENDIF END DO !$OMP END PARALLEL DO BENCH_END(g_set_phys_bc_tim) rk_step_is_one : IF (rk_step == 1) THEN ! only need to initialize diffusion tendencies ! !
!(2) The non-timesplit physics begins with a call to "phy_prep"
!    (which computes some diagnostic variables such as temperature,
!    pressure, u and v at p points, etc).  This is followed by
!    calls to the physics drivers:
!
!              radiation,
!              surface,
!              pbl,
!              cumulus,
!              fddagd,
!              3D TKE and mixing.
!
!

  CALL g_first_rk_step_part1 (   grid , config_flags                   &
                             , moist , g_moist, moist_tend, g_moist_tend   &
                             , chem  , chem_tend     &
                             , tracer, g_tracer, tracer_tend, g_tracer_tend  &
                             , scalar , g_scalar, scalar_tend, g_scalar_tend &
                             , fdda3d, fdda2d           &
                             , aerod                    &
                             , ru_tendf,g_ru_tendf,rv_tendf,g_rv_tendf    &
                             , rw_tendf,g_rw_tendf, t_tendf ,g_t_tendf     &
                             , ph_tendf,g_ph_tendf, mu_tendf,g_mu_tendf    &
                             , tke_tend,g_tke_tend                         &
                             , config_flags%use_adaptive_time_step         &
                             , curr_secs                 &
                             , psim ,psih  &
                             , gz1oz0 , chklowq           &
                             , cu_act_flag , hol , th_phy ,g_th_phy                 &
                             , pi_phy ,g_pi_phy, p_phy ,g_p_phy, grid%t_phy ,grid%g_t_phy         &
                             , dz8w ,g_dz8w , p8w ,g_p8w , t8w ,g_t8w                   &
                             , ids, ide, jds, jde, kds, kde     &
                             , ims, ime, jms, jme, kms, kme     &
                             , ips, ipe, jps, jpe, kps, kpe     &
                             , imsx,imex,jmsx,jmex,kmsx,kmex    &
                             , ipsx,ipex,jpsx,jpex,kpsx,kpex    &
                             , imsy,imey,jmsy,jmey,kmsy,kmey    &
                             , ipsy,ipey,jpsy,jpey,kpsy,kpey    &
                             , k_start , k_end                  &
                             , f_flux                           &
                             )

#ifdef DM_PARALLEL
       IF ( config_flags%bl_pbl_physics == MYNNPBLSCHEME2 .OR. &
            config_flags%bl_pbl_physics == MYNNPBLSCHEME3 ) THEN
#        include "HALO_EM_SCALAR_E_5.inc"
       ENDIF
#endif

        CALL g_first_rk_step_part2 (   grid , config_flags   &
               , moist ,g_moist , moist_tend ,g_moist_tend   &
!!!!! USE THE STATEMENTS REMARKED WHEN chem is NEEDED. Ning Pan, 2010-08-20
!               , chem  ,g_chem  , chem_tend  ,g_chem_tend    &
               , chem  ,  chem  , chem_tend  ,  chem_tend    &
               , tracer,  g_tracer, tracer_tend, g_tracer_tend  &
               , scalar,g_scalar, scalar_tend,g_scalar_tend  &
!!!!! USE THE STATEMENT REMARKED WHEN fdda3d and fdda2d ARE NEEDED. Ning Pan, 2010-08-20
!               , fdda3d,g_fdda3d, fdda2d,g_fdda2d            &
!!!!! REMOVE THE FOLLOWING STATEMENT WHEN fdda3d and fdda2d ARE NEEDED. Ning Pan, 2010-08-20
               , fdda3d,  fdda3d, fdda2d,  fdda2d            &
               , ru_tendf,g_ru_tendf, rv_tendf,g_rv_tendf    &
               , rw_tendf,g_rw_tendf, t_tendf ,g_t_tendf     &
               , ph_tendf,g_ph_tendf, mu_tendf,g_mu_tendf    &
               , tke_tend,g_tke_tend              &
               , adapt_step_flag , curr_secs      &
!!!!! USE THE STATEMENTS REMARKED WHEN CODING TL OF PHYSICS. Ning Pan, 2010-08-20
!               , psim ,g_psim , psih ,g_psih , wspd ,g_wspd ,        &
!                 gz1oz0 ,g_gz1oz0 , br ,g_br , chklowq,g_chklowq     &
!               , cu_act_flag , hol ,g_hol, th_phy,g_th_phy           &
!!!!! REMOVE THE FOLLOWING 3 STATEMENTS WHEN CODING TL OF PHYSICS. Ning Pan, 2010-08-20
               , psim ,  psim , psih ,  psih ,         &
!201602                 gz1oz0 ,  gz1oz0 , br ,  br , chklowq,  chklowq      &
!201602: br became a state variable and was removed from the argument
                 gz1oz0 ,  gz1oz0 , chklowq,  chklowq      &
               , cu_act_flag , hol ,  hol, th_phy,g_th_phy           &
               , pi_phy ,g_pi_phy, p_phy ,g_p_phy , grid%t_phy ,grid%g_t_phy   &
               , dz8w ,g_dz8w , p8w ,g_p8w , t8w ,g_t8w              &
               , nba_mij,g_nba_mij, num_nba_mij   &
               , nba_rij,g_nba_rij, num_nba_rij   &
               , ids, ide, jds, jde, kds, kde     &
               , ims, ime, jms, jme, kms, kme     &
               , ips, ipe, jps, jpe, kps, kpe     &
               , imsx, imex, jmsx, jmex, kmsx, kmex    &
               , ipsx, ipex, jpsx, jpex, kpsx, kpex    &
               , imsy, imey, jmsy, jmey, kmsy, kmey    &
               , ipsy, ipey, jpsy, jpey, kpsy, kpey    &
               , k_start , k_end                  &
              )

     END IF rk_step_is_one

BENCH_START(g_rk_tend_tim)
     !$OMP PARALLEL DO   &
     !$OMP PRIVATE ( ij )
     DO ij = 1 , grid%num_tiles

       CALL wrf_debug ( 200 , ' call g_rk_tendency' )
       CALL g_rk_tendency ( config_flags, rk_step, &
                         grid%ru_tend, grid%g_ru_tend, grid%rv_tend, grid%g_rv_tend, &
                         rw_tend, g_rw_tend, ph_tend, g_ph_tend, t_tend, g_t_tend, &
                         ru_tendf, g_ru_tendf, rv_tendf, g_rv_tendf, &
                         rw_tendf, g_rw_tendf, ph_tendf, g_ph_tendf, t_tendf, g_t_tendf, &
                         mu_tend, g_mu_tend, &
                         grid%u_save, grid%g_u_save, grid%v_save, grid%g_v_save, &
                         w_save, g_w_save, ph_save, g_ph_save, &
                         grid%t_save, grid%g_t_save, mu_save, g_mu_save, &
                         grid%rthften, grid%g_rthften,    &
                         grid%ru, grid%g_ru, grid%rv, grid%g_rv, grid%rw, grid%g_rw, grid%ww, grid%g_ww, &
                         grid%u_2, grid%g_u_2, grid%v_2, grid%g_v_2, grid%w_2, grid%g_w_2, &
                         grid%t_2, grid%g_t_2, grid%ph_2, grid%g_ph_2, &
                         grid%u_1, grid%g_u_1, grid%v_1, grid%g_v_1, grid%w_1, grid%g_w_1, &
                         grid%t_1, grid%g_t_1, grid%ph_1, grid%g_ph_1, &
                         grid%h_diabatic, grid%g_h_diabatic, grid%phb, grid%t_init, &
                         grid%mu_2, grid%g_mu_2, grid%mut, grid%g_mut, grid%muu, grid%g_muu, &
                         grid%muv, grid%g_muv, grid%mub, &
                         grid%al, grid%g_al, grid%alt, grid%g_alt, grid%p, grid%g_p, grid%pb, &
                         grid%php, grid%g_php, cqu, g_cqu, cqv, g_cqv, cqw, g_cqw, &
                         grid%u_base, grid%v_base, grid%t_base, grid%qv_base, grid%z_base, &
                         grid%msfux,grid%msfuy, grid%msfvx, grid%msfvx_inv, &
                         grid%msfvy, grid%msftx,grid%msfty, grid%clat, grid%f, grid%e, grid%sina, grid%cosa, &
                         grid%fnm, grid%fnp, grid%rdn, grid%rdnw, &
                         grid%dt, grid%rdx, grid%rdy, grid%khdif, grid%kvdif, &
                         grid%xkmh,grid%g_xkmh, grid%xkhh,grid%g_xkhh,        &
                         grid%diff_6th_opt, grid%diff_6th_factor, &
                         config_flags%momentum_adv_opt, &
                         grid%dampcoef,grid%zdamp,config_flags%damp_opt,config_flags%rad_nudge, &
                         grid%cf1, grid%cf2, grid%cf3, grid%cfn, grid%cfn1, num_3d_m, &
                         config_flags%non_hydrostatic, config_flags%top_lid, &
                         grid%u_frame, grid%v_frame, &
                         ids, ide, jds, jde, kds, kde,   &
                         ims, ime, jms, jme, kms, kme,   &
                         grid%i_start(ij), grid%i_end(ij),  &
                         grid%j_start(ij), grid%j_end(ij),  &
                         k_start, k_end,   &
                         max_vert_cfl_tmp(ij), max_horiz_cfl_tmp(ij) )

     END DO
     !$OMP END PARALLEL DO
BENCH_END(g_rk_tend_tim)

     IF (config_flags%use_adaptive_time_step) THEN
       DO ij = 1 , grid%num_tiles
         IF (max_horiz_cfl_tmp(ij) .GT. grid%max_horiz_cfl) THEN
           grid%max_horiz_cfl = max_horiz_cfl_tmp(ij)
         ENDIF
         IF (max_vert_cfl_tmp(ij) .GT. grid%max_vert_cfl) THEN
           grid%max_vert_cfl = max_vert_cfl_tmp(ij)
         ENDIF
       END DO

       IF (grid%max_horiz_cfl .GT. grid%max_cfl_val) THEN
         grid%max_cfl_val = grid%max_horiz_cfl
       ENDIF
       IF (grid%max_vert_cfl .GT. grid%max_cfl_val) THEN
         grid%max_cfl_val = grid%max_vert_cfl
       ENDIF
     ENDIF

BENCH_START(g_relax_bdy_dry_tim)
     !$OMP PARALLEL DO   &
     !$OMP PRIVATE ( ij )
     DO ij = 1 , grid%num_tiles

       IF( (config_flags%specified .or. config_flags%nested) .and. rk_step == 1 ) THEN

         CALL g_relax_bdy_dry ( config_flags,                             &
                  grid%u_save, grid%g_u_save, grid%v_save, grid%g_v_save, &
                  ph_save, g_ph_save, grid%t_save, grid%g_t_save,  &
                  w_save, g_w_save, mu_tend, g_mu_tend,            &
                  grid%ru, grid%g_ru, grid%rv, grid%g_rv,          &
                  grid%ph_2, grid%g_ph_2, grid%t_2, grid%g_t_2,    &
                  grid%w_2, grid%g_w_2, grid%mu_2, grid%g_mu_2, grid%mut, grid%g_mut, &
                  grid%u_bxs, grid%g_u_bxs, grid%u_bxe, grid%g_u_bxe, &
                  grid%u_bys, grid%g_u_bys, grid%u_bye, grid%g_u_bye, &
                  grid%v_bxs, grid%g_v_bxs, grid%v_bxe, grid%g_v_bxe, &
                  grid%v_bys, grid%g_v_bys, grid%v_bye, grid%g_v_bye, &
                  grid%ph_bxs, grid%g_ph_bxs, grid%ph_bxe, grid%g_ph_bxe, &
                  grid%ph_bys, grid%g_ph_bys, grid%ph_bye, grid%g_ph_bye, &
                  grid%t_bxs, grid%g_t_bxs, grid%t_bxe, grid%g_t_bxe, &
                  grid%t_bys, grid%g_t_bys, grid%t_bye, grid%g_t_bye, &
                  grid%w_bxs, grid%g_w_bxs, grid%w_bxe, grid%g_w_bxe, &
                  grid%w_bys, grid%g_w_bys, grid%w_bye, grid%g_w_bye, &
                  grid%mu_bxs, grid%g_mu_bxs, grid%mu_bxe, grid%g_mu_bxe, &
                  grid%mu_bys, grid%g_mu_bys, grid%mu_bye, grid%g_mu_bye, &
                  grid%u_btxs, grid%g_u_btxs, grid%u_btxe, grid%g_u_btxe, &
                  grid%u_btys, grid%g_u_btys, grid%u_btye, grid%g_u_btye, &
                  grid%v_btxs, grid%g_v_btxs, grid%v_btxe, grid%g_v_btxe, &
                  grid%v_btys, grid%g_v_btys, grid%v_btye, grid%g_v_btye, &
                  grid%ph_btxs, grid%g_ph_btxs, grid%ph_btxe, grid%g_ph_btxe, &
                  grid%ph_btys, grid%g_ph_btys, grid%ph_btye, grid%g_ph_btye, &
                  grid%t_btxs, grid%g_t_btxs, grid%t_btxe, grid%g_t_btxe, &
                  grid%t_btys, grid%g_t_btys, grid%t_btye, grid%g_t_btye, &
                  grid%w_btxs, grid%g_w_btxs, grid%w_btxe, grid%g_w_btxe, &
                  grid%w_btys, grid%g_w_btys, grid%w_btye, grid%g_w_btye, &
                  grid%mu_btxs, grid%g_mu_btxs, grid%mu_btxe, grid%g_mu_btxe, &
                  grid%mu_btys, grid%g_mu_btys, grid%mu_btye, grid%g_mu_btye, &
                  config_flags%spec_bdy_width, grid%spec_zone, grid%relax_zone, &
                  grid%dtbc, grid%fcx, grid%gcx,      &
                  ids,ide, jds,jde, kds,kde,          &
                  ims,ime, jms,jme, kms,kme,          &
                  ips,ipe, jps,jpe, kps,kpe,          &
                  grid%i_start(ij), grid%i_end(ij),   &
                  grid%j_start(ij), grid%j_end(ij),   &
                  k_start, k_end )

       ENDIF

       CALL g_rk_addtend_dry ( grid%ru_tend, grid%g_ru_tend,  &
                               grid%rv_tend, grid%g_rv_tend,  &
                    rw_tend, g_rw_tend, ph_tend, g_ph_tend, t_tend, g_t_tend,         &
                    ru_tendf, g_ru_tendf, rv_tendf, g_rv_tendf, rw_tendf, g_rw_tendf, &
                    ph_tendf, g_ph_tendf, t_tendf, g_t_tendf,                         &
                    grid%u_save, grid%g_u_save, grid%v_save, grid%g_v_save,           &
                    w_save, g_w_save, ph_save, g_ph_save, grid%t_save, grid%g_t_save, &
                    mu_tend, g_mu_tend, mu_tendf, g_mu_tendf, rk_step,        &
                    grid%h_diabatic, grid%g_h_diabatic, grid%mut, grid%g_mut, &
                    grid%msftx, grid%msfty, grid%msfux, grid%msfuy,           &
                    grid%msfvx, grid%msfvx_inv, grid%msfvy,          &
                    ids,ide, jds,jde, kds,kde,                       &
                    ims,ime, jms,jme, kms,kme,                       &
                    ips,ipe, jps,jpe, kps,kpe,                       &
                    grid%i_start(ij), grid%i_end(ij),                &
                    grid%j_start(ij), grid%j_end(ij),                &
                    k_start, k_end )

       IF( config_flags%specified .or. config_flags%nested ) THEN
         CALL g_spec_bdy_dry ( config_flags,                                     &
                     grid%ru_tend, grid%g_ru_tend, grid%rv_tend, grid%g_rv_tend, &
                     ph_tend, g_ph_tend, t_tend, g_t_tend,               &
                     rw_tend, g_rw_tend, mu_tend, g_mu_tend,             &
                     grid%u_bxs, grid%g_u_bxs, grid%u_bxe, grid%g_u_bxe, &
                     grid%u_bys, grid%g_u_bys, grid%u_bye, grid%g_u_bye, &
                     grid%v_bxs, grid%g_v_bxs, grid%v_bxe, grid%g_v_bxe, &
                     grid%v_bys, grid%g_v_bys, grid%v_bye, grid%g_v_bye, &
                     grid%ph_bxs, grid%g_ph_bxs, grid%ph_bxe, grid%g_ph_bxe, &
                     grid%ph_bys, grid%g_ph_bys, grid%ph_bye, grid%g_ph_bye, &
                     grid%t_bxs, grid%g_t_bxs, grid%t_bxe, grid%g_t_bxe, &
                     grid%t_bys, grid%g_t_bys, grid%t_bye, grid%g_t_bye, &
                     grid%w_bxs, grid%g_w_bxs, grid%w_bxe, grid%g_w_bxe, &
                     grid%w_bys, grid%g_w_bys, grid%w_bye, grid%g_w_bye, &
                     grid%mu_bxs, grid%g_mu_bxs, grid%mu_bxe, grid%g_mu_bxe, &
                     grid%mu_bys, grid%g_mu_bys, grid%mu_bye, grid%g_mu_bye, &
                     grid%u_btxs, grid%g_u_btxs, grid%u_btxe, grid%g_u_btxe, &
                     grid%u_btys, grid%g_u_btys, grid%u_btye, grid%g_u_btye, &
                     grid%v_btxs, grid%g_v_btxs, grid%v_btxe, grid%g_v_btxe, &
                     grid%v_btys, grid%g_v_btys, grid%v_btye, grid%g_v_btye, &
                     grid%ph_btxs, grid%g_ph_btxs, grid%ph_btxe, grid%g_ph_btxe, &
                     grid%ph_btys, grid%g_ph_btys, grid%ph_btye, grid%g_ph_btye, &
                     grid%t_btxs, grid%g_t_btxs, grid%t_btxe, grid%g_t_btxe, &
                     grid%t_btys, grid%g_t_btys, grid%t_btye, grid%g_t_btye, &
                     grid%w_btxs, grid%g_w_btxs, grid%w_btxe, grid%g_w_btxe, &
                     grid%w_btys, grid%g_w_btys, grid%w_btye, grid%g_w_btye, &
                     grid%mu_btxs, grid%g_mu_btxs, grid%mu_btxe, grid%g_mu_btxe, &
                     grid%mu_btys, grid%g_mu_btys, grid%mu_btye, grid%g_mu_btye, &
                     config_flags%spec_bdy_width, grid%spec_zone,                &
                     ids,ide, jds,jde, kds,kde,  & ! domain dims
                     ims,ime, jms,jme, kms,kme,  & ! memory dims
                     ips,ipe, jps,jpe, kps,kpe,  & ! patch  dims
                     grid%i_start(ij), grid%i_end(ij),  &
                     grid%j_start(ij), grid%j_end(ij),  &
                     k_start, k_end )

       ENDIF

     END DO
     !$OMP END PARALLEL DO
BENCH_END(g_relax_bdy_dry_tim)

!
!
! (3) Small (acoustic,sound) steps.
!
!    Several acoustic steps are taken each RK pass.  A small step
!    sequence begins with calculating perturbation variables
!    and coupling them to the column dry-air-mass mu
!    (call to small_step_prep).  This is followed by computing
!    coefficients for the vertically implicit part of the
!    small timestep (call to calc_coef_w).
!
!    The small steps are taken
!    in the named loop "small_steps:".  In the small_steps loop, first
!    the horizontal momentum (u and v) are advanced (call to advance_uv),
!    next mu and theta are advanced (call to advance_mu_t) followed by
!    advancing w and the geopotential (call to advance_w).  Diagnostic
!    values for pressure and inverse density are updated at the end of
!    each small_step.
!
!    The small-step section ends with the change of the perturbation variables
!    back to full variables (call to small_step_finish).
!
!
BENCH_START(g_small_step_prep_tim) !$OMP PARALLEL DO & !$OMP PRIVATE ( ij ) DO ij = 1 , grid%num_tiles ! Calculate coefficients for the vertically implicit acoustic/gravity wave ! integration. We only need calculate these for the first pass through - ! the predictor step. They are reused as is for the corrector step. ! For third-order RK, we need to recompute these after the first ! predictor because we may have changed the small timestep -> grid%dts. CALL wrf_debug ( 200 , ' call g_small_step_prep ' ) CALL g_small_step_prep( grid%u_1,grid%g_u_1,grid%u_2,grid%g_u_2, & grid%v_1,grid%g_v_1,grid%v_2,grid%g_v_2, & grid%w_1,grid%g_w_1,grid%w_2,grid%g_w_2, & grid%t_1,grid%g_t_1,grid%t_2,grid%g_t_2, & grid%ph_1,grid%g_ph_1,grid%ph_2,grid%g_ph_2, & grid%mub, grid%mu_1,grid%g_mu_1, grid%mu_2,grid%g_mu_2, & grid%muu,grid%g_muu, grid%muus,grid%g_muus, & grid%muv,grid%g_muv, grid%muvs,grid%g_muvs, & grid%mut,grid%g_mut, grid%muts,grid%g_muts, grid%mudf,grid%g_mudf, & grid%u_save,grid%g_u_save, grid%v_save,grid%g_v_save, w_save,g_w_save, & grid%t_save,grid%g_t_save, ph_save,g_ph_save, mu_save,g_mu_save, & grid%ww,grid%g_ww, ww1,g_ww1, & c2a,g_c2a, grid%pb, grid%p,grid%g_p, grid%alt,grid%g_alt,& grid%msfux,grid%msfuy, grid%msfvx, grid%msfvx_inv, & grid%msfvy, grid%msftx,grid%msfty, & grid%rdx, grid%rdy, rk_step, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) CALL g_calc_p_rho( grid%al,grid%g_al, grid%p,grid%g_p, grid%ph_2,grid%g_ph_2, & grid%alt,grid%g_alt, grid%t_2,grid%g_t_2, & grid%t_save,grid%g_t_save, c2a,g_c2a, pm1,g_pm1, & grid%mu_2,grid%g_mu_2, grid%muts,grid%g_muts, grid%znu, t0, & grid%rdnw, grid%dnw, grid%smdiv, & config_flags%non_hydrostatic, 0, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) IF (config_flags%non_hydrostatic) THEN CALL g_calc_coef_w( a,g_a,alpha,g_alpha,gamma,g_gamma, & grid%mut,grid%g_mut, cqw,g_cqw, & grid%rdn, grid%rdnw, c2a,g_c2a, & dts_rk, g, grid%epssm, & config_flags%top_lid, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) ENDIF ENDDO !$OMP END PARALLEL DO BENCH_END(g_small_step_prep_tim) #ifdef DM_PARALLEL !----------------------------------------------------------------------- ! Stencils for patch communications (WCS, 29 June 2001) ! Note: the small size of this halo exchange reflects the ! fact that we are carrying the uncoupled variables ! as state variables in the mass coordinate model, as ! opposed to the coupled variables as in the height ! coordinate model. ! ! * * * * * ! * * * * * * * * * ! * + * * + * * * + * * ! * * * * * * * * * ! * * * * * ! ! 3D variables - note staggering! ph_2(Z), u_save(X), v_save(Y) ! ! ph_2 x ! al x ! p x ! t_1 x ! t_save x ! u_save x ! v_save x ! ! the following are 2D (xy) variables ! ! mu_1 x ! mu_2 x ! mudf x ! php x ! alt x ! pb x !-------------------------------------------------------------- # include "HALO_EM_B_TL.inc" # include "PERIOD_BDY_EM_B.inc" #endif BENCH_START(g_set_phys_bc2_tim) !$OMP PARALLEL DO & !$OMP PRIVATE ( ij ) DO ij = 1 , grid%num_tiles CALL g_set_physical_bc3d( grid%ru_tend,grid%g_ru_tend, 'u', config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) CALL g_set_physical_bc3d( grid%rv_tend,grid%g_rv_tend, 'v', config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) CALL g_set_physical_bc3d( grid%ph_2,grid%g_ph_2, 'w', config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) CALL g_set_physical_bc3d( grid%al,grid%g_al, 'p', config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) CALL g_set_physical_bc3d( grid%p,grid%g_p, 'p', config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) CALL g_set_physical_bc3d( grid%t_1,grid%g_t_1, 'p', config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) CALL g_set_physical_bc3d( grid%t_save,grid%g_t_save, 't', config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) CALL g_set_physical_bc2d( grid%mu_1,grid%g_mu_1, 't', config_flags, & ids, ide, jds, jde, & ims, ime, jms, jme, & ips, ipe, jps, jpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij) ) CALL g_set_physical_bc2d( grid%mu_2,grid%g_mu_2, 't', config_flags, & ids, ide, jds, jde, & ims, ime, jms, jme, & ips, ipe, jps, jpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij) ) CALL g_set_physical_bc2d( grid%mudf,grid%g_mudf, 't', config_flags, & ids, ide, jds, jde, & ims, ime, jms, jme, & ips, ipe, jps, jpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij) ) END DO !$OMP END PARALLEL DO BENCH_END(g_set_phys_bc2_tim) small_steps : DO iteration = 1 , number_of_small_timesteps ! Boundary condition time (or communication time). #ifdef DM_PARALLEL # include "PERIOD_BDY_EM_B.inc" #endif !$OMP PARALLEL DO & !$OMP PRIVATE ( ij ) DO ij = 1 , grid%num_tiles BENCH_START(g_advance_uv_tim) CALL g_advance_uv( grid%u_2,grid%g_u_2, grid%ru_tend,grid%g_ru_tend, & grid%v_2,grid%g_v_2, grid%rv_tend,grid%g_rv_tend, & grid%p,grid%g_p, grid%pb, & grid%ph_2,grid%g_ph_2, grid%php,grid%g_php, & grid%alt,grid%g_alt, grid%al,grid%g_al, & grid%mu_2,grid%g_mu_2, & grid%muu,grid%g_muu, cqu,g_cqu, grid%muv,grid%g_muv, cqv,g_cqv, & grid%mudf,grid%g_mudf, & grid%msfux, grid%msfuy, grid%msfvx, & grid%msfvx_inv, grid%msfvy, & grid%rdx, grid%rdy, dts_rk, & grid%cf1, grid%cf2, grid%cf3, grid%fnm, grid%fnp, & grid%emdiv, & grid%rdnw, config_flags,grid%spec_zone, & config_flags%non_hydrostatic, config_flags%top_lid, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) BENCH_END(g_advance_uv_tim) END DO !$OMP END PARALLEL DO !----------------------------------------------------------- ! acoustic integration polar filter for smallstep u, v !----------------------------------------------------------- IF (config_flags%polar) THEN CALL pxft ( grid=grid & ,lineno=__LINE__ & ,flag_uv = 1 & ,flag_rurv = 0 & ,flag_wph = 0 & ,flag_ww = 0 & ,flag_t = 0 & ,flag_mu = 0 & ,flag_mut = 0 & ,flag_moist = 0 & ,flag_chem = 0 & ,flag_tracer = 0 & ,flag_scalar = 0 & ,actual_distance_average = .FALSE. & ,pos_def = .FALSE. & ,swap_pole_with_next_j = .FALSE. & ,moist=moist,chem=chem,tracer=tracer,scalar=scalar & ,fft_filter_lat = config_flags%fft_filter_lat & ,dclat = dclat & ,ids=ids,ide=ide,jds=jds,jde=jde,kds=kds,kde=kde & ,ims=ims,ime=ime,jms=jms,jme=jme,kms=kms,kme=kme & ,ips=ips,ipe=ipe,jps=jps,jpe=jpe,kps=kps,kpe=kpe & ,imsx=imsx,imex=imex,jmsx=jmsx,jmex=jmex,kmsx=kmsx,kmex=kmex & ,ipsx=ipsx,ipex=ipex,jpsx=jmsx,jpex=jpex,kpsx=kpsx,kpex=kpex ) END IF !----------------------------------------------------------- ! end acoustic integration polar filter for smallstep u, v !----------------------------------------------------------- !$OMP PARALLEL DO & !$OMP PRIVATE ( ij ) DO ij = 1 , grid%num_tiles BENCH_START(g_spec_bdy_uv_tim) IF( config_flags%specified .or. config_flags%nested ) THEN CALL g_spec_bdyupdate ( grid%u_2, grid%g_u_2, & grid%ru_tend, grid%g_ru_tend, dts_rk, & 'u' , config_flags, & grid%spec_zone, & ids,ide, jds,jde, kds,kde, & ! domain dims ims,ime, jms,jme, kms,kme, & ! memory dims ips,ipe, jps,jpe, kps,kpe, & ! patch dims grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) CALL g_spec_bdyupdate ( grid%v_2, grid%g_v_2, & grid%rv_tend, grid%g_rv_tend, dts_rk, & 'v' , config_flags, & grid%spec_zone, & ids,ide, jds,jde, kds,kde, & ! domain dims ims,ime, jms,jme, kms,kme, & ! memory dims ips,ipe, jps,jpe, kps,kpe, & ! patch dims grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) ENDIF BENCH_END(g_spec_bdy_uv_tim) END DO !$OMP END PARALLEL DO #ifdef DM_PARALLEL ! ! Stencils for patch communications (WCS, 29 June 2001) ! ! * * ! * + * * + * + ! * * ! ! u_2 x ! v_2 x ! # include "HALO_EM_C_TL.inc" #endif !$OMP PARALLEL DO & !$OMP PRIVATE ( ij ) DO ij = 1 , grid%num_tiles ! advance the mass in the column, theta, and calculate ww BENCH_START(g_advance_mu_t_tim) CALL g_advance_mu_t( grid%ww,grid%g_ww, ww1,g_ww1, & grid%u_2,grid%g_u_2, grid%u_save,grid%g_u_save, & grid%v_2,grid%g_v_2, grid%v_save,grid%g_v_save, & grid%mu_2,grid%g_mu_2, grid%mut,grid%g_mut, & muave,g_muave, grid%muts,grid%g_muts, & grid%muu,grid%g_muu, grid%muv,grid%g_muv, grid%mudf,grid%g_mudf, & grid%ru_m,grid%g_ru_m, grid%rv_m,grid%g_rv_m, grid%ww_m,grid%g_ww_m, & grid%t_2,grid%g_t_2, grid%t_save,grid%g_t_save, & t_2save,g_t_2save, t_tend,g_t_tend, & mu_tend,g_mu_tend, & grid%rdx, grid%rdy, dts_rk, grid%epssm, & grid%dnw, grid%fnm, grid%fnp, grid%rdnw, & grid%msfux,grid%msfuy, grid%msfvx, grid%msfvx_inv, & grid%msfvy, grid%msftx,grid%msfty, & iteration, config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) BENCH_END(g_advance_mu_t_tim) ENDDO !$OMP END PARALLEL DO !----------------------------------------------------------- ! acoustic integration polar filter for smallstep mu, t !----------------------------------------------------------- IF ( (config_flags%polar) ) THEN CALL pxft ( grid=grid & ,lineno=__LINE__ & ,flag_uv = 0 & ,flag_rurv = 0 & ,flag_wph = 0 & ,flag_ww = 0 & ,flag_t = 1 & ,flag_mu = 1 & ,flag_mut = 0 & ,flag_moist = 0 & ,flag_chem = 0 & ,flag_tracer = 0 & ,flag_scalar = 0 & ,actual_distance_average = .FALSE. & ,pos_def = .FALSE. & ,swap_pole_with_next_j = .FALSE. & ,moist=moist,chem=chem,tracer=tracer,scalar=scalar & ,fft_filter_lat = config_flags%fft_filter_lat & ,dclat = dclat & ,ids=ids,ide=ide,jds=jds,jde=jde,kds=kds,kde=kde & ,ims=ims,ime=ime,jms=jms,jme=jme,kms=kms,kme=kme & ,ips=ips,ipe=ipe,jps=jps,jpe=jpe,kps=kps,kpe=kpe & ,imsx=imsx,imex=imex,jmsx=jmsx,jmex=jmex,kmsx=kmsx,kmex=kmex & ,ipsx=ipsx,ipex=ipex,jpsx=jmsx,jpex=jpex,kpsx=kpsx,kpex=kpex ) grid%muts = grid%mut + grid%mu_2 ! reset muts using filtered mu_2 END IF !----------------------------------------------------------- ! end acoustic integration polar filter for smallstep mu, t !----------------------------------------------------------- BENCH_START(g_spec_bdy_t_tim) !$OMP PARALLEL DO & !$OMP PRIVATE ( ij ) DO ij = 1 , grid%num_tiles IF( config_flags%specified .or. config_flags%nested ) THEN CALL g_spec_bdyupdate ( grid%t_2, grid%g_t_2, & t_tend, g_t_tend, dts_rk, & 't' , config_flags, & grid%spec_zone, & ids,ide, jds,jde, kds,kde, & ! domain dims ims,ime, jms,jme, kms,kme, & ! memory dims ips,ipe, jps,jpe, kps,kpe, & ! patch dims grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) CALL g_spec_bdyupdate ( grid%mu_2, grid%g_mu_2, & mu_tend, g_mu_tend, dts_rk, & 'm' , config_flags, & grid%spec_zone, & ids,ide, jds,jde, 1 ,1 , & ims,ime, jms,jme, 1 ,1 , & ips,ipe, jps,jpe, 1 ,1 , & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & 1, 1 ) CALL g_spec_bdyupdate ( grid%muts, grid%g_muts, mu_tend, g_mu_tend, dts_rk, & 'm' , config_flags, & grid%spec_zone, & ids,ide, jds,jde, 1 ,1 , & ! domain dims ims,ime, jms,jme, 1 ,1 , & ! memory dims ips,ipe, jps,jpe, 1 ,1 , & ! patch dims grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & 1, 1 ) ENDIF BENCH_END(g_spec_bdy_t_tim) ! small (acoustic) step for the vertical momentum, ! density and coupled potential temperature. BENCH_START(g_advance_w_tim) IF ( config_flags%non_hydrostatic ) THEN CALL g_advance_w( grid%w_2,grid%g_w_2, rw_tend,g_rw_tend, grid%ww,grid%g_ww, w_save,g_w_save, & grid%u_2,grid%g_u_2, grid%v_2,grid%g_v_2, & grid%mu_2,grid%mut,grid%g_mut, & muave,g_muave, grid%muts,grid%g_muts, & t_2save,g_t_2save, grid%t_2,grid%g_t_2, grid%t_save,grid%g_t_save, & grid%ph_2,grid%g_ph_2, ph_save,g_ph_save, grid%phb, ph_tend,g_ph_tend, & grid%ht, c2a,g_c2a, cqw,g_cqw, grid%alt,grid%g_alt, grid%alb, & a,g_a, alpha,g_alpha, gamma,g_gamma, & grid%rdx, grid%rdy, dts_rk, t0, grid%epssm, & grid%dnw, grid%fnm, grid%fnp, grid%rdnw, & grid%rdn, grid%cf1, grid%cf2, grid%cf3, & grid%msftx, grid%msfty, & config_flags, config_flags%top_lid, & ids,ide, jds,jde, kds,kde, & ims,ime, jms,jme, kms,kme, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) ENDIF BENCH_END(g_advance_w_tim) ENDDO !$OMP END PARALLEL DO !----------------------------------------------------------- ! acoustic integration polar filter for smallstep w, geopotential !----------------------------------------------------------- IF ( (config_flags%polar) .AND. (config_flags%non_hydrostatic) ) THEN CALL pxft ( grid=grid & ,lineno=__LINE__ & ,flag_uv = 0 & ,flag_rurv = 0 & ,flag_wph = 1 & ,flag_ww = 0 & ,flag_t = 0 & ,flag_mu = 0 & ,flag_mut = 0 & ,flag_moist = 0 & ,flag_chem = 0 & ,flag_tracer = 0 & ,flag_scalar = 0 & ,actual_distance_average = .FALSE. & ,pos_def = .FALSE. & ,swap_pole_with_next_j = .FALSE. & ,moist=moist,chem=chem,tracer=tracer,scalar=scalar & ,fft_filter_lat = config_flags%fft_filter_lat & ,dclat = dclat & ,ids=ids,ide=ide,jds=jds,jde=jde,kds=kds,kde=kde & ,ims=ims,ime=ime,jms=jms,jme=jme,kms=kms,kme=kme & ,ips=ips,ipe=ipe,jps=jps,jpe=jpe,kps=kps,kpe=kpe & ,imsx=imsx,imex=imex,jmsx=jmsx,jmex=jmex,kmsx=kmsx,kmex=kmex & ,ipsx=ipsx,ipex=ipex,jpsx=jmsx,jpex=jpex,kpsx=kpsx,kpex=kpex ) END IF !----------------------------------------------------------- ! end acoustic integration polar filter for smallstep w, geopotential !----------------------------------------------------------- !$OMP PARALLEL DO & !$OMP PRIVATE ( ij ) DO ij = 1 , grid%num_tiles BENCH_START(g_sumflux_tim) CALL g_sumflux ( grid%u_2,grid%g_u_2, grid%v_2,grid%g_v_2, grid%ww,grid%g_ww, & grid%u_save, grid%g_u_save, grid%v_save, grid%g_v_save, ww1, g_ww1, & grid%muu, grid%g_muu, grid%muv, grid%g_muv, & grid%ru_m, grid%g_ru_m, grid%rv_m, grid%g_rv_m, grid%ww_m, grid%g_ww_m, & grid%epssm, & grid%msfux, grid% msfuy, grid%msfvx, & grid%msfvx_inv, grid%msfvy, & iteration, number_of_small_timesteps, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) BENCH_END(g_sumflux_tim) IF( config_flags%specified .or. config_flags%nested ) THEN BENCH_START(g_spec_bdynhyd_tim) IF (config_flags%non_hydrostatic) THEN CALL g_spec_bdyupdate_ph ( ph_save, g_ph_save, grid%ph_2, grid%g_ph_2, & ph_tend, g_ph_tend, & mu_tend, g_mu_tend, grid%muts, grid%g_muts, dts_rk, & 'h' , config_flags, & grid%spec_zone, & ids,ide, jds,jde, kds,kde, & ims,ime, jms,jme, kms,kme, & ips,ipe, jps,jpe, kps,kpe, & grid%i_start(ij), grid%i_end(ij),& grid%j_start(ij), grid%j_end(ij),& k_start, k_end ) IF( config_flags%specified ) THEN CALL g_zero_grad_bdy ( grid%w_2, grid%g_w_2, & 'w' , config_flags, & grid%spec_zone, & ids,ide, jds,jde, kds,kde, & ims,ime, jms,jme, kms,kme, & ips,ipe, jps,jpe, kps,kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) ELSE CALL g_spec_bdyupdate ( grid%w_2, grid%g_w_2, & rw_tend, g_rw_tend, dts_rk, & 'h' , config_flags, & grid%spec_zone, & ids,ide, jds,jde, kds,kde, & ! domain dims ims,ime, jms,jme, kms,kme, & ! memory dims ips,ipe, jps,jpe, kps,kpe, & ! patch dims grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) ENDIF ENDIF BENCH_END(g_spec_bdynhyd_tim) ENDIF BENCH_START(g_cald_p_rho_tim) CALL g_calc_p_rho( grid%al, grid%g_al, grid%p, grid%g_p, grid%ph_2, grid%g_ph_2, & grid%alt, grid%g_alt, grid%t_2, grid%g_t_2, grid%t_save, grid%g_t_save, & c2a, g_c2a, pm1, g_pm1, & grid%mu_2, grid%g_mu_2, grid%muts, grid%g_muts, grid%znu, t0, & grid%rdnw, grid%dnw, grid%smdiv, & config_flags%non_hydrostatic, iteration, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) BENCH_END(g_cald_p_rho_tim) ENDDO !$OMP END PARALLEL DO #ifdef DM_PARALLEL ! ! Stencils for patch communications (WCS, 29 June 2001) ! ! * * ! * + * * + * + ! * * ! ! ph_2 x ! al x ! p x ! ! 2D variables (x,y) ! ! mu_2 x ! muts x ! mudf x # include "HALO_EM_C2_TL.inc" # include "PERIOD_BDY_EM_B3.inc" #endif BENCH_START(g_phys_bc_tim) !$OMP PARALLEL DO & !$OMP PRIVATE ( ij ) DO ij = 1 , grid%num_tiles ! boundary condition set for next small timestep CALL g_set_physical_bc3d( grid%ph_2,grid%g_ph_2, 'w', config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) CALL g_set_physical_bc3d( grid%al,grid%g_al, 'p', config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) CALL g_set_physical_bc3d( grid%p,grid%g_p, 'p', config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) CALL g_set_physical_bc2d( grid%muts,grid%g_muts, 't', config_flags, & ids, ide, jds, jde, & ims, ime, jms, jme, & ips, ipe, jps, jpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij) ) CALL g_set_physical_bc2d( grid%mu_2,grid%g_mu_2, 't', config_flags, & ids, ide, jds, jde, & ims, ime, jms, jme, & ips, ipe, jps, jpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij) ) CALL g_set_physical_bc2d( grid%mudf,grid%g_mudf, 't', config_flags, & ids, ide, jds, jde, & ims, ime, jms, jme, & ips, ipe, jps, jpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij) ) END DO !$OMP END PARALLEL DO BENCH_END(g_phys_bc_tim) END DO small_steps !$OMP PARALLEL DO & !$OMP PRIVATE ( ij ) DO ij = 1 , grid%num_tiles CALL wrf_debug ( 200 , ' call g_rk_small_finish' ) ! change time-perturbation variables back to ! full perturbation variables. ! first get updated mu at u and v points BENCH_START(g_calc_mu_uv_tim) CALL g_calc_mu_uv_1 ( config_flags, & grid%muts, grid%g_muts, & grid%muus, grid%g_muus, & grid%muvs, grid%g_muvs, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) BENCH_END(g_calc_mu_uv_tim) BENCH_START(g_small_step_finish_tim) CALL g_small_step_finish( grid%u_2, grid%g_u_2, grid%u_1, & grid%v_2, grid%g_v_2, grid%v_1, & grid%w_2, grid%g_w_2, grid%w_1, & grid%t_2, grid%g_t_2, grid%t_1, & grid%ph_2, grid%g_ph_2, grid%ph_1, & grid%ww, grid%g_ww, ww1, g_ww1, & grid%mu_2, grid%g_mu_2, grid%mu_1, & grid%mut, grid%g_mut, grid%muts, grid%g_muts, & grid%muu, grid%g_muu, grid%muus, grid%g_muus, & grid%muv, grid%g_muv, grid%muvs, grid%g_muvs, & grid%u_save, grid%g_u_save, grid%v_save, grid%g_v_save, w_save, g_w_save, & grid%t_save, grid%g_t_save, ph_save, g_ph_save, mu_save, g_mu_save, & grid%msfux,grid%msfuy,grid%msfvx,grid%msfvy,grid%msftx,grid%msfty, & grid%h_diabatic, grid%g_h_diabatic, & number_of_small_timesteps,dts_rk, & rk_step, rk_order, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) ! call to set ru_m, rv_m and ww_m b.c's for PD advection IF (rk_step == rk_order) THEN CALL g_set_physical_bc3d( grid%ru_m,grid%g_ru_m, 'u', config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) CALL g_set_physical_bc3d( grid%rv_m,grid%g_rv_m, 'v', config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) CALL g_set_physical_bc3d( grid%ww_m,grid%g_ww_m, 'w', config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) CALL g_set_physical_bc2d( grid%mut,grid%g_mut, 't', config_flags, & ids, ide, jds, jde, & ims, ime, jms, jme, & ips, ipe, jps, jpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij) ) CALL g_set_physical_bc2d( grid%muts,grid%g_muts, 't', config_flags, & ids, ide, jds, jde, & ims, ime, jms, jme, & ips, ipe, jps, jpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij) ) END IF BENCH_END(g_small_step_finish_tim) END DO !$OMP END PARALLEL DO !----------------------------------------------------------- ! polar filter for full dynamics variables and time-averaged mass fluxes !----------------------------------------------------------- IF (config_flags%polar) THEN CALL pxft ( grid=grid & ,lineno=__LINE__ & ,flag_uv = 1 & ,flag_rurv = 1 & ,flag_wph = 1 & ,flag_ww = 1 & ,flag_t = 1 & ,flag_mu = 1 & ,flag_mut = 1 & ,flag_moist = 0 & ,flag_chem = 0 & ,flag_tracer = 0 & ,flag_scalar = 0 & ,actual_distance_average = .FALSE. & ,pos_def = .FALSE. & ,swap_pole_with_next_j = .FALSE. & ,moist=moist,chem=chem,tracer=tracer,scalar=scalar & ,fft_filter_lat = config_flags%fft_filter_lat & ,dclat = dclat & ,ids=ids,ide=ide,jds=jds,jde=jde,kds=kds,kde=kde & ,ims=ims,ime=ime,jms=jms,jme=jme,kms=kms,kme=kme & ,ips=ips,ipe=ipe,jps=jps,jpe=jpe,kps=kps,kpe=kpe & ,imsx=imsx,imex=imex,jmsx=jmsx,jmex=jmex,kmsx=kmsx,kmex=kmex & ,ipsx=ipsx,ipex=ipex,jpsx=jmsx,jpex=jpex,kpsx=kpsx,kpex=kpex ) END IF !----------------------------------------------------------- ! end polar filter for full dynamics variables and time-averaged mass fluxes !----------------------------------------------------------- !----------------------------------------------------------------------- ! add in physics tendency first if positive definite advection is used. ! pd advection applies advective flux limiter on last runge-kutta step !----------------------------------------------------------------------- ! first moisture IF ((config_flags%moist_adv_opt /= ORIGINAL .and. config_flags%moist_adv_opt /= WENO_SCALAR) .and. (rk_step == rk_order)) THEN !$OMP PARALLEL DO & !$OMP PRIVATE ( ij ) DO ij = 1 , grid%num_tiles CALL wrf_debug ( 200 , ' call g_rk_update_scalar_pd moist ' ) DO im = PARAM_FIRST_SCALAR, num_3d_m CALL g_rk_update_scalar_pd( im, im, & moist_old(ims,kms,jms,im),g_moist_old(ims,kms,jms,im), & moist_tend(ims,kms,jms,im),g_moist_tend(ims,kms,jms,im), & grid%mu_1,grid%g_mu_1, grid%mu_1,grid%g_mu_1, grid%mub, & rk_step, dt_rk, grid%spec_zone, & config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) ENDDO END DO !$OMP END PARALLEL DO !---------------------- positive definite bc call #ifdef DM_PARALLEL IF (config_flags%moist_adv_opt /= ORIGINAL .and. config_flags%moist_adv_opt /= WENO_SCALAR) THEN IF ( config_flags%h_sca_adv_order <= 4 ) THEN # include "HALO_EM_MOIST_OLD_E_5_TL.inc" ELSE IF ( config_flags%h_sca_adv_order <= 6 ) THEN # include "HALO_EM_MOIST_OLD_E_7_TL.inc" ELSE WRITE(wrf_err_message,*)'solve_em_tl: invalid h_sca_adv_order = ',config_flags%h_sca_adv_order CALL wrf_error_fatal(TRIM(wrf_err_message)) ENDIF ENDIF #endif #ifdef DM_PARALLEL # include "PERIOD_BDY_EM_MOIST_OLD.inc" #endif !$OMP PARALLEL DO & !$OMP PRIVATE ( ij ) DO ij = 1 , grid%num_tiles IF (num_3d_m >= PARAM_FIRST_SCALAR) THEN DO im = PARAM_FIRST_SCALAR , num_3d_m CALL g_set_physical_bc3d( moist_old(ims,kms,jms,im),g_moist_old(ims,kms,jms,im), 'p', config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) END DO ENDIF END DO !$OMP END PARALLEL DO END IF ! end if for moist_adv_opt ! scalars IF ((config_flags%scalar_adv_opt /= ORIGINAL .and. config_flags%scalar_adv_opt /= WENO_SCALAR) .and. (rk_step == rk_order)) THEN !$OMP PARALLEL DO & !$OMP PRIVATE ( ij ) DO ij = 1 , grid%num_tiles CALL wrf_debug ( 200 , ' call g_rk_update_scalar_pd scalar ' ) DO im = PARAM_FIRST_SCALAR, num_3d_s CALL g_rk_update_scalar_pd( im, im, & scalar_old(ims,kms,jms,im),g_scalar_old(ims,kms,jms,im), & scalar_tend(ims,kms,jms,im),g_scalar_tend(ims,kms,jms,im),& grid%mu_1,grid%g_mu_1, grid%mu_1,grid%g_mu_1, grid%mub, & rk_step, dt_rk, grid%spec_zone, & config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) ENDDO ENDDO !$OMP END PARALLEL DO !---------------------- positive definite bc call #ifdef DM_PARALLEL IF (config_flags%scalar_adv_opt /= ORIGINAL .and. config_flags%scalar_adv_opt /= WENO_SCALAR) THEN #ifndef RSL IF ( config_flags%h_sca_adv_order <= 4 ) THEN # include "HALO_EM_SCALAR_OLD_E_5.inc" ELSE IF ( config_flags%h_sca_adv_order <= 6 ) THEN # include "HALO_EM_SCALAR_OLD_E_7.inc" ELSE WRITE(wrf_err_message,*)'solve_em_tl: invalid h_sca_adv_order = ',config_flags%h_sca_adv_order CALL wrf_error_fatal(TRIM(wrf_err_message)) ENDIF #else WRITE(wrf_err_message,*)'cannot use pd scheme with RSL - use RSL-LITE' CALL wrf_error_fatal(TRIM(wrf_err_message)) #endif endif #endif #ifdef DM_PARALLEL # include "PERIOD_BDY_EM_SCALAR_OLD.inc" #endif !$OMP PARALLEL DO & !$OMP PRIVATE ( ij ) DO ij = 1 , grid%num_tiles IF (num_3d_s >= PARAM_FIRST_SCALAR) THEN DO im = PARAM_FIRST_SCALAR , num_3d_s CALL g_set_physical_bc3d( scalar_old(ims,kms,jms,im),g_scalar_old(ims,kms,jms,im), 'p', config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) END DO ENDIF END DO !$OMP END PARALLEL DO END IF ! end if for scalar_adv_opt ! chem IF ((config_flags%chem_adv_opt /= ORIGINAL .and. config_flags%chem_adv_opt /= WENO_SCALAR) .and. (rk_step == rk_order)) THEN !$OMP PARALLEL DO & !$OMP PRIVATE ( ij ) DO ij = 1 , grid%num_tiles CALL wrf_debug ( 200 , ' call g_rk_update_scalar_pd chem' ) DO im = PARAM_FIRST_SCALAR, num_3d_c !!!!! REPLACE WITH g_rk_update_scalar_pd WHEN chem IS NEEDED. Ning Pan CALL rk_update_scalar_pd( im, im, & chem_old(ims,kms,jms,im), & chem_tend(ims,kms,jms,im), & grid%c1h, grid%c2h, & grid%mu_1, grid%mu_1, grid%mub, & rk_step, dt_rk, grid%spec_zone, & config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) ENDDO END DO !$OMP END PARALLEL DO !---------------------- positive definite bc call #ifdef DM_PARALLEL IF (config_flags%chem_adv_opt /= ORIGINAL .and. config_flags%chem_adv_opt /= WENO_SCALAR) THEN IF ( config_flags%h_sca_adv_order <= 4 ) THEN # include "HALO_EM_CHEM_OLD_E_5.inc" ELSE IF ( config_flags%h_sca_adv_order <= 6 ) THEN # include "HALO_EM_CHEM_OLD_E_7.inc" ELSE WRITE(wrf_err_message,*)'solve_em_tl: invalid h_sca_adv_order = ',config_flags%h_sca_adv_order CALL wrf_error_fatal(TRIM(wrf_err_message)) ENDIF ENDIF #endif #ifdef DM_PARALLEL # include "PERIOD_BDY_EM_CHEM_OLD.inc" #endif !$OMP PARALLEL DO & !$OMP PRIVATE ( ij ) DO ij = 1 , grid%num_tiles IF (num_3d_c >= PARAM_FIRST_SCALAR) THEN DO im = PARAM_FIRST_SCALAR , num_3d_c !!!!! REPLACE WITH g_set_physical_bc3d WHEN chem IS NEEDED. Ning Pan CALL set_physical_bc3d( chem_old(ims,kms,jms,im), 'p', config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) END DO ENDIF END DO !$OMP END PARALLEL DO ENDIF ! end if for chem_adv_opt ! tracer IF ((config_flags%tracer_adv_opt /= ORIGINAL .and. config_flags%tracer_adv_opt /= WENO_SCALAR) .and. (rk_step == rk_order)) THEN !$OMP PARALLEL DO & !$OMP PRIVATE ( ij ) DO ij = 1 , grid%num_tiles CALL wrf_debug ( 200 , ' call g_rk_update_scalar_pd tracer' ) DO im = PARAM_FIRST_SCALAR, num_tracer CALL g_rk_update_scalar_pd( im, im, & tracer_old(ims,kms,jms,im),g_tracer_old(ims,kms,jms,im), & tracer_tend(ims,kms,jms,im),g_tracer_tend(ims,kms,jms,im), & grid%mu_1, grid%g_mu_1, grid%mu_1, grid%g_mu_1, grid%mub, & rk_step, dt_rk, grid%spec_zone, & config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) ENDDO END DO !$OMP END PARALLEL DO !---------------------- positive definite bc call #ifdef DM_PARALLEL IF (config_flags%tracer_adv_opt /= ORIGINAL .and. config_flags%tracer_adv_opt /= WENO_SCALAR) THEN IF ( config_flags%h_sca_adv_order <= 4 ) THEN # include "HALO_EM_TRACER_OLD_E_5_TL.inc" ELSE IF ( config_flags%h_sca_adv_order <= 6 ) THEN # include "HALO_EM_TRACER_OLD_E_7_TL.inc" ELSE WRITE(wrf_err_message,*)'solve_em_tl: invalid h_sca_adv_order = ',config_flags%h_sca_adv_order CALL wrf_error_fatal(TRIM(wrf_err_message)) ENDIF ENDIF #endif #ifdef DM_PARALLEL # include "PERIOD_BDY_EM_TRACER_OLD.inc" #endif !$OMP PARALLEL DO & !$OMP PRIVATE ( ij ) DO ij = 1 , grid%num_tiles IF (num_tracer >= PARAM_FIRST_SCALAR) THEN DO im = PARAM_FIRST_SCALAR , num_tracer CALL g_set_physical_bc3d( tracer_old(ims,kms,jms,im), & g_tracer_old(ims,kms,jms,im), 'p', config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) END DO ENDIF END DO !$OMP END PARALLEL DO ENDIF ! end if for tracer_adv_opt ! tke IF ((config_flags%tke_adv_opt /= ORIGINAL .and. config_flags%tke_adv_opt /= WENO_SCALAR) .and. (rk_step == rk_order) & .and. (config_flags%km_opt .eq. 2) ) THEN !$OMP PARALLEL DO & !$OMP PRIVATE ( ij ) DO ij = 1 , grid%num_tiles CALL wrf_debug ( 200 , ' call g_rk_update_scalar_pd tke ' ) CALL g_rk_update_scalar_pd( 1, 1, & grid%tke_1,grid%g_tke_1, & tke_tend(ims,kms,jms),g_tke_tend(ims,kms,jms), & grid%mu_1,grid%g_mu_1, grid%mu_1,grid%g_mu_1, grid%mub, & rk_step, dt_rk, grid%spec_zone, & config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) ENDDO !$OMP END PARALLEL DO !---------------------- positive definite bc call #ifdef DM_PARALLEL IF (config_flags%tke_adv_opt /= ORIGINAL .and. config_flags%tke_adv_opt /= WENO_SCALAR) THEN IF ( config_flags%h_sca_adv_order <= 4 ) THEN # include "HALO_EM_TKE_OLD_E_5_TL.inc" ELSE IF ( config_flags%h_sca_adv_order <= 6 ) THEN # include "HALO_EM_TKE_OLD_E_7_TL.inc" ELSE WRITE(wrf_err_message,*)'solve_em_tl: invalid h_sca_adv_order = ',config_flags%h_sca_adv_order CALL wrf_error_fatal(TRIM(wrf_err_message)) ENDIF ENDIF #endif #ifdef DM_PARALLEL # include "PERIOD_BDY_EM_TKE_OLD.inc" #endif !$OMP PARALLEL DO & !$OMP PRIVATE ( ij ) DO ij = 1 , grid%num_tiles CALL g_set_physical_bc3d( grid%tke_1,grid%g_tke_1, 'p', config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) END DO !$OMP END PARALLEL DO !--- end of positive definite physics tendency update END IF ! end if for tke_adv_opt #ifdef DM_PARALLEL ! ! Stencils for patch communications (WCS, 29 June 2001) ! ! * * * * * ! * * * * * ! * * + * * ! * * * * * ! * * * * * ! ! ru_m x ! rv_m x ! ww_m x ! mut x ! !-------------------------------------------------------------- # include "HALO_EM_D_TL.inc" ! WCS addition 11/19/08 # include "PERIOD_EM_DA.inc" #endif ! !
! (4) Still within the RK loop, the scalar variables are advanced.
!
!    For the moist and chem variables, each one is advanced
!    individually, using named loops "moist_variable_loop:"
!    and "chem_variable_loop:".  Each RK substep begins by
!    calculating the advective tendency, and, for the first RK step,
!    3D mixing (calling rk_scalar_tend) followed by an update
!    of the scalar (calling rk_update_scalar).
!
!
moist_scalar_advance: IF (num_3d_m >= PARAM_FIRST_SCALAR ) THEN moist_variable_loop: DO im = PARAM_FIRST_SCALAR, num_3d_m ! adv_moist_cond is set in module_physics_init based on mp_physics choice ! true except for Ferrier scheme IF (grid%adv_moist_cond .or. im==p_qv ) THEN !$OMP PARALLEL DO & !$OMP PRIVATE ( ij, tenddec ) moist_tile_loop_1: DO ij = 1 , grid%num_tiles CALL wrf_debug ( 200 , ' call g_rk_scalar_tend moist' ) tenddec = .false. BENCH_START(g_rk_scalar_tend_tim) CALL g_rk_scalar_tend ( im, im, config_flags, tenddec, & rk_step, dt_rk, & grid%ru_m, grid%g_ru_m, & grid%rv_m, grid%g_rv_m, & grid%ww_m, grid%g_ww_m, & grid%muts, grid%g_muts, grid%mub, grid%mu_1, grid%g_mu_1, & grid%alt, grid%g_alt, & moist_old(ims,kms,jms,im), g_moist_old(ims,kms,jms,im), & moist(ims,kms,jms,im), g_moist(ims,kms,jms,im), & moist_tend(ims,kms,jms,im), g_moist_tend(ims,kms,jms,im), & advect_tend, g_advect_tend, h_tendency, g_h_tendency, & z_tendency, g_z_tendency, grid%rqvften, grid%g_rqvften, & grid%qv_base, .true., grid%fnm, grid%fnp, & grid%msfux,grid%msfuy, grid%msfvx, grid%msfvx_inv,& grid%msfvy, grid%msftx,grid%msfty, & grid%rdx, grid%rdy, grid%rdn, grid%rdnw, grid%khdif, & grid%kvdif, grid%xkhh,grid%g_xkhh, & grid%diff_6th_opt, grid%diff_6th_factor, & config_flags%moist_adv_opt, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) ! IF( rk_step == 1 .AND. config_flags%use_q_diabatic == 1 )THEN ! IF( im.eq.p_qv .or. im.eq.p_qc )THEN ! CALL g_q_diabatic_add ( im, im, & ! dt_rk, grid%mut, grid%g_mut, & ! grid%qv_diabatic, grid%g_qv_diabatic, & ! grid%qc_diabatic, grid%g_qc_diabatic, & ! moist_tend(ims,kms,jms,im), & ! g_moist_tend(ims,kms,jms,im), & ! ids, ide, jds, jde, kds, kde, & ! ims, ime, jms, jme, kms, kme, & ! grid%i_start(ij), grid%i_end(ij), & ! grid%j_start(ij), grid%j_end(ij), & ! k_start , k_end ) ! ENDIF ! ENDIF BENCH_END(g_rk_scalar_tend_tim) BENCH_START(g_rlx_bdy_scalar_tim) IF( ( config_flags%specified .or. config_flags%nested ) .and. rk_step == 1 ) THEN IF ( im .EQ. P_QV .OR. config_flags%nested ) THEN CALL g_relax_bdy_scalar ( moist_tend(ims,kms,jms,im), g_moist_tend(ims,kms,jms,im), & moist(ims,kms,jms,im), g_moist(ims,kms,jms,im), & grid%mut, grid%g_mut, & moist_bxs(jms,kms,1,im),g_moist_bxs(jms,kms,1,im), & moist_bxe(jms,kms,1,im),g_moist_bxe(jms,kms,1,im), & moist_bys(ims,kms,1,im),g_moist_bys(ims,kms,1,im), & moist_bye(ims,kms,1,im),g_moist_bye(ims,kms,1,im), & moist_btxs(jms,kms,1,im),g_moist_btxs(jms,kms,1,im), & moist_btxe(jms,kms,1,im),g_moist_btxe(jms,kms,1,im), & moist_btys(ims,kms,1,im),g_moist_btys(ims,kms,1,im), & moist_btye(ims,kms,1,im),g_moist_btye(ims,kms,1,im), & config_flags%spec_bdy_width, grid%spec_zone, grid%relax_zone, & grid%dtbc, grid%fcx, grid%gcx, & config_flags, & ids,ide, jds,jde, kds,kde, & ! domain dims ims,ime, jms,jme, kms,kme, & ! memory dims ips,ipe, jps,jpe, kps,kpe, & ! patch dims grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) CALL g_spec_bdy_scalar ( moist_tend(ims,kms,jms,im), g_moist_tend(ims,kms,jms,im), & moist_bxs(jms,kms,1,im),g_moist_bxs(jms,kms,1,im), & moist_bxe(jms,kms,1,im),g_moist_bxe(jms,kms,1,im), & moist_bys(ims,kms,1,im),g_moist_bys(ims,kms,1,im), & moist_bye(ims,kms,1,im),g_moist_bye(ims,kms,1,im), & moist_btxs(jms,kms,1,im),g_moist_btxs(jms,kms,1,im), & moist_btxe(jms,kms,1,im),g_moist_btxe(jms,kms,1,im), & moist_btys(ims,kms,1,im),g_moist_btys(ims,kms,1,im), & moist_btye(ims,kms,1,im),g_moist_btye(ims,kms,1,im), & config_flags%spec_bdy_width, grid%spec_zone, & config_flags, & ids,ide, jds,jde, kds,kde, & ! domain dims ims,ime, jms,jme, kms,kme, & ! memory dims ips,ipe, jps,jpe, kps,kpe, & ! patch dims grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) ENDIF ENDIF BENCH_END(g_rlx_bdy_scalar_tim) ENDDO moist_tile_loop_1 !$OMP END PARALLEL DO !$OMP PARALLEL DO & !$OMP PRIVATE ( ij, tenddec ) moist_tile_loop_2: DO ij = 1 , grid%num_tiles CALL wrf_debug ( 200 , ' call g_rk_update_scalar' ) tenddec = .false. BENCH_START(g_update_scal_tim) CALL g_rk_update_scalar( scs=im, sce=im, & scalar_1=moist_old(ims,kms,jms,im), & g_scalar_1=g_moist_old(ims,kms,jms,im), & scalar_2=moist(ims,kms,jms,im), & g_scalar_2=g_moist(ims,kms,jms,im), & sc_tend=moist_tend(ims,kms,jms,im), & g_sc_tend=g_moist_tend(ims,kms,jms,im), & advect_tend=advect_tend,g_advect_tend=g_advect_tend, & h_tendency=h_tendency, g_h_tendency=g_h_tendency, & z_tendency=z_tendency, g_z_tendency=g_z_tendency, & msftx=grid%msftx,msfty=grid%msfty, & mu_old=grid%mu_1, g_mu_old=grid%g_mu_1, & mu_new=grid%mu_2,g_mu_new=grid%g_mu_2,mu_base=grid%mub, & rk_step=rk_step, dt=dt_rk, spec_zone=grid%spec_zone, & config_flags=config_flags, tenddec=tenddec, & ids=ids, ide=ide, jds=jds, jde=jde, kds=kds, kde=kde, & ims=ims, ime=ime, jms=jms, jme=jme, kms=kms, kme=kme, & its=grid%i_start(ij), ite=grid%i_end(ij), & jts=grid%j_start(ij), jte=grid%j_end(ij), & kts=k_start , kte=k_end ) ! IF( rk_step == rk_order .AND. config_flags%use_q_diabatic == 1 )THEN ! IF( im.eq.p_qv .or. im.eq.p_qc )THEN ! CALL g_q_diabatic_subtr( im, im, & ! dt_rk, & ! grid%qv_diabatic, grid%g_qv_diabatic, & ! grid%qc_diabatic, grid%g_qc_diabatic, & ! moist(ims,kms,jms,im), & ! g_moist(ims,kms,jms,im), & ! ids, ide, jds, jde, kds, kde, & ! ims, ime, jms, jme, kms, kme, & ! grid%i_start(ij), grid%i_end(ij), & ! grid%j_start(ij), grid%j_end(ij), & ! k_start , k_end ) ! ENDIF ! ENDIF BENCH_END(g_update_scal_tim) BENCH_START(g_flow_depbdy_tim) IF( config_flags%specified ) THEN IF(im .ne. P_QV)THEN CALL g_flow_dep_bdy ( moist(ims,kms,jms,im), g_moist(ims,kms,jms,im), & grid%ru_m, grid%rv_m, config_flags, & grid%spec_zone, & ids,ide, jds,jde, kds,kde, & ims,ime, jms,jme, kms,kme, & ips,ipe, jps,jpe, kps,kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) ENDIF ENDIF BENCH_END(g_flow_depbdy_tim) ENDDO moist_tile_loop_2 !$OMP END PARALLEL DO ENDIF !-- if (grid%adv_moist_cond .or. im==p_qv ) then ENDDO moist_variable_loop ENDIF moist_scalar_advance BENCH_START(g_tke_adv_tim) TKE_advance: IF (config_flags%km_opt .eq. 2) then #ifdef DM_PARALLEL IF ( config_flags%h_mom_adv_order <= 4 ) THEN # include "HALO_EM_TKE_ADVECT_3_TL.inc" ELSE IF ( config_flags%h_mom_adv_order <= 6 ) THEN # include "HALO_EM_TKE_ADVECT_5_TL.inc" ELSE WRITE(wrf_err_message,*)'solve_em_tl: invalid h_mom_adv_order = ',config_flags%h_mom_adv_order CALL wrf_error_fatal(TRIM(wrf_err_message)) ENDIF #endif !$OMP PARALLEL DO & !$OMP PRIVATE ( ij, tenddec ) tke_tile_loop_1: DO ij = 1 , grid%num_tiles CALL wrf_debug ( 200 , ' call g_rk_scalar_tend for tke' ) tenddec = .false. CALL g_rk_scalar_tend ( 1, 1, config_flags, tenddec, & rk_step, dt_rk, & grid%ru_m,grid%g_ru_m, grid%rv_m,grid%g_rv_m, grid%ww_m,grid%g_ww_m, & grid%muts,grid%g_muts, grid%mub, grid%mu_1,grid%g_mu_1, & grid%alt,grid%g_alt, & grid%tke_1,grid%g_tke_1, & grid%tke_2,grid%g_tke_2, & tke_tend(ims,kms,jms),g_tke_tend(ims,kms,jms), & advect_tend,g_advect_tend,h_tendency,g_h_tendency, & z_tendency,g_z_tendency,grid%rqvften,grid%g_rqvften, & grid%qv_base, .false., grid%fnm, grid%fnp, & grid%msfux,grid%msfuy, grid%msfvx, grid%msfvx_inv, & grid%msfvy, grid%msftx,grid%msfty, & grid%rdx, grid%rdy, grid%rdn, grid%rdnw, grid%khdif, & grid%kvdif, grid%xkhh,grid%g_xkhh, & grid%diff_6th_opt, grid%diff_6th_factor, & config_flags%tke_adv_opt, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) ENDDO tke_tile_loop_1 !$OMP END PARALLEL DO !$OMP PARALLEL DO & !$OMP PRIVATE ( ij, tenddec ) tke_tile_loop_2: DO ij = 1 , grid%num_tiles CALL wrf_debug ( 200 , ' call g_rk_update_scalar tke' ) tenddec = .false. CALL g_rk_update_scalar( scs=1, sce=1, & scalar_1=grid%tke_1, g_scalar_1=grid%g_tke_1, & scalar_2=grid%tke_2, g_scalar_2=grid%g_tke_2, & sc_tend=tke_tend(ims,kms,jms), & g_sc_tend=g_tke_tend(ims,kms,jms), & advect_tend=advect_tend,g_advect_tend=g_advect_tend, & h_tendency=h_tendency, g_h_tendency=g_h_tendency, & z_tendency=z_tendency, g_z_tendency=g_z_tendency, & msftx=grid%msftx,msfty=grid%msfty, & mu_old=grid%mu_1, g_mu_old=grid%g_mu_1, & mu_new=grid%mu_2,g_mu_new=grid%g_mu_2,mu_base=grid%mub, & rk_step=rk_step, dt=dt_rk, spec_zone=grid%spec_zone, & config_flags=config_flags, tenddec=tenddec, & ids=ids, ide=ide, jds=jds, jde=jde, kds=kds, kde=kde, & ims=ims, ime=ime, jms=jms, jme=jme, kms=kms, kme=kme, & its=grid%i_start(ij), ite=grid%i_end(ij), & jts=grid%j_start(ij), jte=grid%j_end(ij), & kts=k_start , kte=k_end ) ! bound the tke (greater than 0, less than tke_upper_bound) CALL g_bound_tke( grid%tke_2, grid%g_tke_2, grid%tke_upper_bound, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) IF( config_flags%specified .or. config_flags%nested ) THEN CALL g_flow_dep_bdy ( grid%tke_2,grid%g_tke_2, & grid%ru_m, grid%rv_m, config_flags, & grid%spec_zone, & ids,ide, jds,jde, kds,kde, & ! domain dims ims,ime, jms,jme, kms,kme, & ! memory dims ips,ipe, jps,jpe, kps,kpe, & ! patch dims grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) ENDIF ENDDO tke_tile_loop_2 !$OMP END PARALLEL DO ENDIF TKE_advance BENCH_END(g_tke_adv_tim) #if (WRF_CHEM==1) ! next the chemical species BENCH_START(g_chem_adv_tim) chem_scalar_advance: IF (num_3d_c >= PARAM_FIRST_SCALAR) THEN chem_variable_loop: DO ic = PARAM_FIRST_SCALAR, num_3d_c !$OMP PARALLEL DO & !$OMP PRIVATE ( ij, tenddec ) chem_tile_loop_1: DO ij = 1 , grid%num_tiles CALL wrf_debug ( 200 , ' call g_rk_scalar_tend in chem_tile_loop_1' ) !!!!! REPLACE WITH g_rk_scalar_tend WHEN chem IS NEEDED. Ning Pan tenddec = (( config_flags%chemdiag == USECHEMDIAG ) .and. & ( adv_ct_indices(ic) >= PARAM_FIRST_SCALAR )) CALL rk_scalar_tend ( ic, ic, config_flags,tenddec, & rk_step, dt_rk, & grid%ru_m, grid%rv_m, grid%ww_m, & grid%muts, grid%mub, grid%mu_1, & grid%alt, & chem_old(ims,kms,jms,ic), & chem(ims,kms,jms,ic), & chem_tend(ims,kms,jms,ic), & advect_tend,h_tendency,z_tendency,grid%rqvften, & grid%qv_base, .false., grid%fnm, grid%fnp, & grid%msfux,grid%msfuy, grid%msfvx, grid%msfvx_inv, & grid%msfvy, grid%msftx,grid%msfty, & grid%rdx, grid%rdy, grid%rdn, grid%rdnw, & grid%khdif, grid%kvdif, grid%xkhh, & grid%diff_6th_opt, grid%diff_6th_factor, & config_flags%chem_adv_opt, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) ! ! Currently, chemistry species with specified boundaries (i.e. the mother ! domain) are being over written by flow_dep_bdy_chem. So, relax_bdy and ! spec_bdy are only called for nests. For boundary conditions from global model or larger domain, ! chem is uncoupled, and only used for one row/column on inflow (if have_bcs_chem=.true.) ! IF( ( config_flags%nested ) .and. rk_step == 1 ) THEN IF(ic.eq.1)CALL wrf_debug ( 10 , ' have_bcs_chem' ) !!!!! REPLACE WITH g_relax_bdy_scalar WHEN chem IS NEEDED. Ning Pan CALL relax_bdy_scalar ( chem_tend(ims,kms,jms,ic), & chem(ims,kms,jms,ic), grid%mut, & grid%c1h, grid%c2h, & chem_bxs(jms,kms,1,ic),chem_bxe(jms,kms,1,ic), & chem_bys(ims,kms,1,ic),chem_bye(ims,kms,1,ic), & chem_btxs(jms,kms,1,ic),chem_btxe(jms,kms,1,ic), & chem_btys(ims,kms,1,ic),chem_btye(ims,kms,1,ic), & config_flags%spec_bdy_width, grid%spec_zone, grid%relax_zone, & grid%dtbc, grid%fcx, grid%gcx, & config_flags, & ids,ide, jds,jde, kds,kde, & ims,ime, jms,jme, kms,kme, & ips,ipe, jps,jpe, kps,kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) !!!!! REPLACE WITH g_spec_bdy_scalar WHEN chem IS NEEDED. Ning Pan CALL spec_bdy_scalar ( chem_tend(ims,kms,jms,ic), & chem_bxs(jms,kms,1,ic),chem_bxe(jms,kms,1,ic), & chem_bys(ims,kms,1,ic),chem_bye(ims,kms,1,ic), & chem_btxs(jms,kms,1,ic),chem_btxe(jms,kms,1,ic), & chem_btys(ims,kms,1,ic),chem_btye(ims,kms,1,ic), & config_flags%spec_bdy_width, grid%spec_zone, & config_flags, & ids,ide, jds,jde, kds,kde, & ims,ime, jms,jme, kms,kme, & ips,ipe, jps,jpe, kps,kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) ENDIF ENDDO chem_tile_loop_1 !$OMP END PARALLEL DO !$OMP PARALLEL DO & !$OMP PRIVATE ( ij, tenddec ) chem_tile_loop_2: DO ij = 1 , grid%num_tiles CALL wrf_debug ( 200 , ' call rk_update_scalar' ) !!!!! REPLACE WITH g_rk_update_scalar WHEN chem IS NEEDED. Ning Pan tenddec = (( config_flags%chemdiag == USECHEMDIAG ) .and. & ( adv_ct_indices(ic) >= PARAM_FIRST_SCALAR )) CALL rk_update_scalar( scs=ic, sce=ic, & scalar_1=chem_old(ims,kms,jms,ic), & scalar_2=chem(ims,kms,jms,ic), & sc_tend=chem_tend(ims,kms,jms,ic), & advect_tend=advect_tend, & h_tendency=h_tendency, z_tendency=z_tendency, & msftx=grid%msftx,msfty=grid%msfty, & mu_old=grid%mu_1, mu_new=grid%mu_2, mu_base=grid%mub, & rk_step=rk_step, dt=dt_rk, spec_zone=grid%spec_zone, & config_flags=config_flags, tenddec=tenddec, & ids=ids, ide=ide, jds=jds, jde=jde, kds=kds, kde=kde, & ims=ims, ime=ime, jms=jms, jme=jme, kms=kms, kme=kme, & its=grid%i_start(ij), ite=grid%i_end(ij), & jts=grid%j_start(ij), jte=grid%j_end(ij), & kts=k_start , kte=k_end ) IF( config_flags%specified ) THEN !!!!! REPLACE WITH g_flow_dep_bdy_chem WHEN chem IS NEEDED. Ning Pan CALL flow_dep_bdy_chem( chem(ims,kms,jms,ic), & chem_bxs(jms,kms,1,ic), chem_btxs(jms,kms,1,ic), & chem_bxe(jms,kms,1,ic), chem_btxe(jms,kms,1,ic), & chem_bys(ims,kms,1,ic), chem_btys(ims,kms,1,ic), & chem_bye(ims,kms,1,ic), chem_btye(ims,kms,1,ic), & dt_rk+grid%dtbc, & config_flags%spec_bdy_width,grid%z, & grid%have_bcs_chem, & grid%ru_m, grid%rv_m, config_flags,grid%alt, & grid%t_1,grid%pb,grid%p,t0,p1000mb,rcp,grid%ph_2,grid%phb,g, & grid%spec_zone,ic, & ids,ide, jds,jde, kds,kde, & ! domain dims ims,ime, jms,jme, kms,kme, & ! memory dims ips,ipe, jps,jpe, kps,kpe, & ! patch dims grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) ENDIF ENDDO chem_tile_loop_2 !$OMP END PARALLEL DO ENDDO chem_variable_loop ENDIF chem_scalar_advance BENCH_END(g_chem_adv_tim) #endif ! next the chemical species BENCH_START(g_tracer_adv_tim) tracer_advance: IF (num_tracer >= PARAM_FIRST_SCALAR) THEN tracer_variable_loop: DO ic = PARAM_FIRST_SCALAR, num_tracer !$OMP PARALLEL DO & !$OMP PRIVATE ( ij, tenddec ) tracer_tile_loop_1: DO ij = 1 , grid%num_tiles CALL wrf_debug ( 15 , ' call g_rk_scalar_tend in tracer_tile_loop_1' ) tenddec = .false. CALL g_rk_scalar_tend ( ic, ic, config_flags, tenddec, & rk_step, dt_rk, & grid%ru_m, grid%g_ru_m, & grid%rv_m, grid%g_rv_m, & grid%ww_m, grid%g_ww_m, & grid%muts, grid%g_muts, grid%mub, grid%mu_1, grid%g_mu_1, & grid%alt, grid%g_alt, & tracer_old(ims,kms,jms,ic), g_tracer_old(ims,kms,jms,ic), & tracer(ims,kms,jms,ic), g_tracer(ims,kms,jms,ic), & tracer_tend(ims,kms,jms,ic), g_tracer_tend(ims,kms,jms,ic), & advect_tend, g_advect_tend, h_tendency,g_h_tendency, & z_tendency, g_z_tendency, grid%rqvften, grid%g_rqvften, & grid%qv_base, .false., grid%fnm, grid%fnp, & grid%msfux,grid%msfuy, grid%msfvx, grid%msfvx_inv, & grid%msfvy, grid%msftx,grid%msfty, & grid%rdx, grid%rdy, grid%rdn, grid%rdnw, & grid%khdif, grid%kvdif, grid%xkhh,grid%g_xkhh, & grid%diff_6th_opt, grid%diff_6th_factor, & config_flags%tracer_adv_opt, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) ! ! Currently, chemistry species with specified boundaries (i.e. the mother ! domain) are being over written by flow_dep_bdy_chem. So, relax_bdy and ! spec_bdy are only called for nests. For boundary conditions from global model or larger domain, ! chem is uncoupled, and only used for one row/column on inflow (if have_bcs_chem=.true.) ! IF( ( config_flags%nested ) .and. rk_step == 1 ) THEN IF(ic.eq.1)CALL wrf_debug ( 10 , ' have_bcs_tracer' ) !!!!! REPLACE WITH g_relax_bdy_scalar WHEN tracer IS NEEDED. Ning Pan CALL relax_bdy_scalar ( tracer_tend(ims,kms,jms,ic), & tracer(ims,kms,jms,ic), grid%mut, & grid%c1h, grid%c2h, & tracer_bxs(jms,kms,1,ic),tracer_bxe(jms,kms,1,ic), & tracer_bys(ims,kms,1,ic),tracer_bye(ims,kms,1,ic), & tracer_btxs(jms,kms,1,ic),tracer_btxe(jms,kms,1,ic), & tracer_btys(ims,kms,1,ic),tracer_btye(ims,kms,1,ic), & config_flags%spec_bdy_width, grid%spec_zone, grid%relax_zone, & grid%dtbc, grid%fcx, grid%gcx, & config_flags, & ids,ide, jds,jde, kds,kde, & ims,ime, jms,jme, kms,kme, & ips,ipe, jps,jpe, kps,kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) !!!!! REPLACE WITH g_spec_bdy_scalar WHEN tracer IS NEEDED. Ning Pan CALL spec_bdy_scalar ( tracer_tend(ims,kms,jms,ic), & tracer_bxs(jms,kms,1,ic),tracer_bxe(jms,kms,1,ic), & tracer_bys(ims,kms,1,ic),tracer_bye(ims,kms,1,ic), & tracer_btxs(jms,kms,1,ic),tracer_btxe(jms,kms,1,ic), & tracer_btys(ims,kms,1,ic),tracer_btye(ims,kms,1,ic), & config_flags%spec_bdy_width, grid%spec_zone, & config_flags, & ids,ide, jds,jde, kds,kde, & ims,ime, jms,jme, kms,kme, & ips,ipe, jps,jpe, kps,kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) ENDIF ENDDO tracer_tile_loop_1 !$OMP END PARALLEL DO !$OMP PARALLEL DO & !$OMP PRIVATE ( ij, tenddec ) tracer_tile_loop_2: DO ij = 1 , grid%num_tiles CALL wrf_debug ( 200 , ' call g_rk_update_scalar tracer ' ) tenddec = .false. CALL g_rk_update_scalar( scs=ic, sce=ic, & scalar_1=tracer_old(ims,kms,jms,ic), & g_scalar_1=g_tracer_old(ims,kms,jms,ic), & scalar_2=tracer(ims,kms,jms,ic), & g_scalar_2=g_tracer(ims,kms,jms,ic), & sc_tend=tracer_tend(ims,kms,jms,ic), & g_sc_tend=g_tracer_tend(ims,kms,jms,ic), & advect_tend=advect_tend,g_advect_tend=g_advect_tend, & h_tendency=h_tendency, g_h_tendency=g_h_tendency, & z_tendency=z_tendency, g_z_tendency=g_z_tendency, & msftx=grid%msftx,msfty=grid%msfty, & mu_old=grid%mu_1, g_mu_old=grid%g_mu_1, & mu_new=grid%mu_2, g_mu_new=grid%g_mu_2, mu_base=grid%mub, & rk_step=rk_step, dt=dt_rk, spec_zone=grid%spec_zone, & config_flags=config_flags, tenddec=tenddec, & ids=ids, ide=ide, jds=jds, jde=jde, kds=kds, kde=kde, & ims=ims, ime=ime, jms=jms, jme=jme, kms=kms, kme=kme, & its=grid%i_start(ij), ite=grid%i_end(ij), & jts=grid%j_start(ij), jte=grid%j_end(ij), & kts=k_start , kte=k_end ) IF( config_flags%specified ) THEN #if (WRF_CHEM==1) !!!!! REPLACE WITH a_flow_dep_bdy_tracer WHEN tracer IS NEEDED. Ning Pan CALL flow_dep_bdy_tracer( tracer(ims,kms,jms,ic), & tracer_bxs(jms,kms,1,ic), tracer_btxs(jms,kms,1,ic), & tracer_bxe(jms,kms,1,ic), tracer_btxe(jms,kms,1,ic), & tracer_bys(ims,kms,1,ic), tracer_btys(ims,kms,1,ic), & tracer_bye(ims,kms,1,ic), tracer_btye(ims,kms,1,ic), & dt_rk+grid%dtbc, & config_flags%spec_bdy_width,grid%z, & grid%have_bcs_tracer, & grid%ru_m, grid%rv_m, config_flags%tracer_opt,grid%alt, & grid%t_1,grid%pb,grid%p,t0,p1000mb,rcp,grid%ph_2,grid%phb,g, & grid%spec_zone,ic, & ids,ide, jds,jde, kds,kde, & ! domain dims ims,ime, jms,jme, kms,kme, & ! memory dims ips,ipe, jps,jpe, kps,kpe, & ! patch dims grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) #else CALL g_flow_dep_bdy ( tracer(ims,kms,jms,ic),g_tracer(ims,kms,jms,ic), & grid%ru_m, grid%rv_m, config_flags, & grid%spec_zone, & ids,ide, jds,jde, kds,kde, & ! domain dims ims,ime, jms,jme, kms,kme, & ! memory dims ips,ipe, jps,jpe, kps,kpe, & ! patch dims grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) #endif ENDIF ENDDO tracer_tile_loop_2 !$OMP END PARALLEL DO ENDDO tracer_variable_loop ENDIF tracer_advance BENCH_END(g_tracer_adv_tim) ! next the other scalar species other_scalar_advance: IF (num_3d_s >= PARAM_FIRST_SCALAR) THEN scalar_variable_loop: do is = PARAM_FIRST_SCALAR, num_3d_s !$OMP PARALLEL DO & !$OMP PRIVATE ( ij, tenddec ) scalar_tile_loop_1: DO ij = 1 , grid%num_tiles CALL wrf_debug ( 200 , ' call g_rk_scalar_tend scalar' ) tenddec = .false. CALL g_rk_scalar_tend ( is, is, config_flags, tenddec, & rk_step, dt_rk, & grid%ru_m, grid%g_ru_m, & grid%rv_m, grid%g_rv_m, & grid%ww_m, grid%g_ww_m, & grid%muts, grid%g_muts, grid%mub, grid%mu_1, grid%g_mu_1, & grid%alt, grid%g_alt, & scalar_old(ims,kms,jms,is), g_scalar_old(ims,kms,jms,is), & scalar(ims,kms,jms,is), g_scalar(ims,kms,jms,is), & scalar_tend(ims,kms,jms,is), g_scalar_tend(ims,kms,jms,is), & advect_tend, g_advect_tend, h_tendency,g_h_tendency, & z_tendency, g_z_tendency, grid%rqvften, grid%g_rqvften, & grid%qv_base, .false., grid%fnm, grid%fnp, & grid%msfux,grid%msfuy, grid%msfvx, grid%msfvx_inv, & grid%msfvy, grid%msftx,grid%msfty, & grid%rdx, grid%rdy, grid%rdn, grid%rdnw, & grid%khdif, grid%kvdif, grid%xkhh,grid%g_xkhh, & grid%diff_6th_opt, grid%diff_6th_factor, & config_flags%scalar_adv_opt, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) IF( config_flags%nested .and. (rk_step == 1) ) THEN CALL g_relax_bdy_scalar ( scalar_tend(ims,kms,jms,is), g_scalar_tend(ims,kms,jms,is), & scalar(ims,kms,jms,is), g_scalar(ims,kms,jms,is), & grid%mut, grid%g_mut, & scalar_bxs(jms,kms,1,is),g_scalar_bxs(jms,kms,1,is), & scalar_bxe(jms,kms,1,is),g_scalar_bxe(jms,kms,1,is), & scalar_bys(ims,kms,1,is),g_scalar_bys(ims,kms,1,is), & scalar_bye(ims,kms,1,is),g_scalar_bye(ims,kms,1,is), & scalar_btxs(jms,kms,1,is),g_scalar_btxs(jms,kms,1,is), & scalar_btxe(jms,kms,1,is),g_scalar_btxe(jms,kms,1,is), & scalar_btys(ims,kms,1,is),g_scalar_btys(ims,kms,1,is), & scalar_btye(ims,kms,1,is),g_scalar_btye(ims,kms,1,is), & config_flags%spec_bdy_width, grid%spec_zone, grid%relax_zone, & grid%dtbc, grid%fcx, grid%gcx, & config_flags, & ids,ide, jds,jde, kds,kde, & ims,ime, jms,jme, kms,kme, & ips,ipe, jps,jpe, kps,kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) CALL g_spec_bdy_scalar ( scalar_tend(ims,kms,jms,is), g_scalar_tend(ims,kms,jms,is), & scalar_bxs(jms,kms,1,is),g_scalar_bxs(jms,kms,1,is), & scalar_bxe(jms,kms,1,is),g_scalar_bxe(jms,kms,1,is), & scalar_bys(ims,kms,1,is),g_scalar_bys(ims,kms,1,is), & scalar_bye(ims,kms,1,is),g_scalar_bye(ims,kms,1,is), & scalar_btxs(jms,kms,1,is),g_scalar_btxs(jms,kms,1,is), & scalar_btxe(jms,kms,1,is),g_scalar_btxe(jms,kms,1,is), & scalar_btys(ims,kms,1,is),g_scalar_btys(ims,kms,1,is), & scalar_btye(ims,kms,1,is),g_scalar_btye(ims,kms,1,is), & config_flags%spec_bdy_width, grid%spec_zone, & config_flags, & ids,ide, jds,jde, kds,kde, & ims,ime, jms,jme, kms,kme, & ips,ipe, jps,jpe, kps,kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) ENDIF ! b.c test for chem nested boundary condition ENDDO scalar_tile_loop_1 !$OMP END PARALLEL DO !$OMP PARALLEL DO & !$OMP PRIVATE ( ij, tenddec ) scalar_tile_loop_2: DO ij = 1 , grid%num_tiles CALL wrf_debug ( 200 , ' call g_rk_update_scalar scalar' ) tenddec = .false. CALL g_rk_update_scalar( scs=is, sce=is, & scalar_1=scalar_old(ims,kms,jms,is), & g_scalar_1=g_scalar_old(ims,kms,jms,is), & scalar_2=scalar(ims,kms,jms,is), & g_scalar_2=g_scalar(ims,kms,jms,is), & sc_tend=scalar_tend(ims,kms,jms,is), & g_sc_tend=g_scalar_tend(ims,kms,jms,is), & advect_tend=advect_tend,g_advect_tend=g_advect_tend, & h_tendency=h_tendency, g_h_tendency=g_h_tendency, & z_tendency=z_tendency, g_z_tendency=g_z_tendency, & msftx=grid%msftx,msfty=grid%msfty, & mu_old=grid%mu_1, g_mu_old=grid%g_mu_1, & mu_new=grid%mu_2,g_mu_new=grid%g_mu_2,mu_base=grid%mub, & rk_step=rk_step, dt=dt_rk, spec_zone=grid%spec_zone, & config_flags=config_flags, tenddec=tenddec, & ids=ids, ide=ide, jds=jds, jde=jde, kds=kds, kde=kde, & ims=ims, ime=ime, jms=jms, jme=jme, kms=kms, kme=kme, & its=grid%i_start(ij), ite=grid%i_end(ij), & jts=grid%j_start(ij), jte=grid%j_end(ij), & kts=k_start , kte=k_end ) IF( config_flags%specified ) THEN IF(is .ne. P_QNN)THEN CALL g_flow_dep_bdy ( scalar(ims,kms,jms,is),g_scalar(ims,kms,jms,is), & grid%ru_m, grid%rv_m, config_flags, & grid%spec_zone, & ids,ide, jds,jde, kds,kde, & ! domain dims ims,ime, jms,jme, kms,kme, & ! memory dims ips,ipe, jps,jpe, kps,kpe, & ! patch dims grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) ELSE CALL g_flow_dep_bdy_qnn ( scalar(ims,kms,jms,is), g_scalar(ims,kms,jms,is), & grid%ru_m, grid%rv_m, config_flags, & grid%spec_zone, & grid%ccn_conc, & ! RAS ids,ide, jds,jde, kds,kde, & ! domain dims ims,ime, jms,jme, kms,kme, & ! memory dims ips,ipe, jps,jpe, kps,kpe, & ! patch dims grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) ENDIF ENDIF ENDDO scalar_tile_loop_2 !$OMP END PARALLEL DO ENDDO scalar_variable_loop ENDIF other_scalar_advance ! update the pressure and density at the new time level !$OMP PARALLEL DO & !$OMP PRIVATE ( ij ) DO ij = 1 , grid%num_tiles BENCH_START(g_calc_p_rho_tim) CALL g_calc_p_rho_phi( moist,g_moist, num_3d_m, config_flags%hypsometric_opt, & grid%al,grid%g_al, grid%alb, grid%mu_2,grid%g_mu_2, grid%muts,grid%g_muts, & grid%ph_2,grid%g_ph_2, grid%phb, grid%p, grid%g_p, grid%pb, grid%t_2,grid%g_t_2, & p0, t0, grid%p_top, grid%znu, grid%znw, grid%dnw, grid%rdnw, & grid%rdn, config_flags%non_hydrostatic, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) BENCH_END(g_calc_p_rho_tim) ENDDO !$OMP END PARALLEL DO ! Reset the boundary conditions if there is another corrector step. ! (rk_step < rk_order), else we'll handle it at the end of everything ! (after the split physics, before exiting the timestep). rk_step_1_check: IF ( rk_step < rk_order ) THEN !----------------------------------------------------------- ! rk3 substep polar filter for scalars (moist,chem,scalar) !----------------------------------------------------------- IF (config_flags%polar) THEN IF ( num_3d_m >= PARAM_FIRST_SCALAR ) THEN CALL wrf_debug ( 200 , ' call filter moist ' ) DO im = PARAM_FIRST_SCALAR, num_3d_m IF ( config_flags%coupled_filtering ) THEN CALL couple_scalars_for_filter ( FIELD=moist(ims,kms,jms,im) & ,MU=grid%mu_2 , MUB=grid%mub & ,C1=grid%c1h , C2=grid%c2h & ,ids=ids,ide=ide,jds=jds,jde=jde,kds=kds,kde=kde & ,ims=ims,ime=ime,jms=jms,jme=jme,kms=kms,kme=kme & ,ips=ips,ipe=ipe,jps=jps,jpe=jpe,kps=kps,kpe=kpe ) END IF CALL pxft ( grid=grid & ,lineno=__LINE__ & ,flag_uv = 0 & ,flag_rurv = 0 & ,flag_wph = 0 & ,flag_ww = 0 & ,flag_t = 0 & ,flag_mu = 0 & ,flag_mut = 0 & ,flag_moist = im & ,flag_chem = 0 & ,flag_scalar = 0 & ,flag_tracer = 0 & ,actual_distance_average=config_flags%actual_distance_average& ,pos_def = config_flags%pos_def & ,swap_pole_with_next_j = config_flags%swap_pole_with_next_j & ,moist=moist,chem=chem,tracer=tracer,scalar=scalar & ,fft_filter_lat = config_flags%fft_filter_lat & ,dclat = dclat & ,ids=ids,ide=ide,jds=jds,jde=jde,kds=kds,kde=kde & ,ims=ims,ime=ime,jms=jms,jme=jme,kms=kms,kme=kme & ,ips=ips,ipe=ipe,jps=jps,jpe=jpe,kps=kps,kpe=kpe & ,imsx=imsx,imex=imex,jmsx=jmsx,jmex=jmex,kmsx=kmsx,kmex=kmex & ,ipsx=ipsx,ipex=ipex,jpsx=jmsx,jpex=jpex,kpsx=kpsx,kpex=kpex ) IF ( config_flags%coupled_filtering ) THEN CALL uncouple_scalars_for_filter ( FIELD=moist(ims,kms,jms,im) & ,MU=grid%mu_2 , MUB=grid%mub & ,C1=grid%c1h , C2=grid%c2h & ,ids=ids,ide=ide,jds=jds,jde=jde,kds=kds,kde=kde & ,ims=ims,ime=ime,jms=jms,jme=jme,kms=kms,kme=kme & ,ips=ips,ipe=ipe,jps=jps,jpe=jpe,kps=kps,kpe=kpe ) END IF END DO END IF IF ( num_3d_c >= PARAM_FIRST_SCALAR ) THEN CALL wrf_debug ( 200 , ' call filter chem ' ) DO im = PARAM_FIRST_SCALAR, num_3d_c IF ( config_flags%coupled_filtering ) THEN CALL couple_scalars_for_filter ( FIELD=chem(ims,kms,jms,im) & ,MU=grid%mu_2 , MUB=grid%mub & ,C1=grid%c1h , C2=grid%c2h & ,ids=ids,ide=ide,jds=jds,jde=jde,kds=kds,kde=kde & ,ims=ims,ime=ime,jms=jms,jme=jme,kms=kms,kme=kme & ,ips=ips,ipe=ipe,jps=jps,jpe=jpe,kps=kps,kpe=kpe ) END IF CALL pxft ( grid=grid & ,lineno=__LINE__ & ,flag_uv = 0 & ,flag_rurv = 0 & ,flag_wph = 0 & ,flag_ww = 0 & ,flag_t = 0 & ,flag_mu = 0 & ,flag_mut = 0 & ,flag_moist = 0 & ,flag_chem = im & ,flag_tracer = 0 & ,flag_scalar = 0 & ,actual_distance_average=config_flags%actual_distance_average& ,pos_def = config_flags%pos_def & ,swap_pole_with_next_j = config_flags%swap_pole_with_next_j & ,moist=moist,chem=chem,tracer=tracer,scalar=scalar & ,fft_filter_lat = config_flags%fft_filter_lat & ,dclat = dclat & ,ids=ids,ide=ide,jds=jds,jde=jde,kds=kds,kde=kde & ,ims=ims,ime=ime,jms=jms,jme=jme,kms=kms,kme=kme & ,ips=ips,ipe=ipe,jps=jps,jpe=jpe,kps=kps,kpe=kpe & ,imsx=imsx,imex=imex,jmsx=jmsx,jmex=jmex,kmsx=kmsx,kmex=kmex & ,ipsx=ipsx,ipex=ipex,jpsx=jmsx,jpex=jpex,kpsx=kpsx,kpex=kpex ) IF ( config_flags%coupled_filtering ) THEN CALL uncouple_scalars_for_filter ( FIELD=chem(ims,kms,jms,im) & ,MU=grid%mu_2 , MUB=grid%mub & ,C1=grid%c1h , C2=grid%c2h & ,ids=ids,ide=ide,jds=jds,jde=jde,kds=kds,kde=kde & ,ims=ims,ime=ime,jms=jms,jme=jme,kms=kms,kme=kme & ,ips=ips,ipe=ipe,jps=jps,jpe=jpe,kps=kps,kpe=kpe ) END IF END DO END IF IF ( num_tracer >= PARAM_FIRST_SCALAR ) THEN CALL wrf_debug ( 200 , ' call filter tracer ' ) DO im = PARAM_FIRST_SCALAR, num_tracer IF ( config_flags%coupled_filtering ) THEN CALL couple_scalars_for_filter ( FIELD=tracer(ims,kms,jms,im) & ,MU=grid%mu_2 , MUB=grid%mub & ,C1=grid%c1h , C2=grid%c2h & ,ids=ids,ide=ide,jds=jds,jde=jde,kds=kds,kde=kde & ,ims=ims,ime=ime,jms=jms,jme=jme,kms=kms,kme=kme & ,ips=ips,ipe=ipe,jps=jps,jpe=jpe,kps=kps,kpe=kpe ) END IF CALL pxft ( grid=grid & ,lineno=__LINE__ & ,flag_uv = 0 & ,flag_rurv = 0 & ,flag_wph = 0 & ,flag_ww = 0 & ,flag_t = 0 & ,flag_mu = 0 & ,flag_mut = 0 & ,flag_moist = 0 & ,flag_chem = 0 & ,flag_tracer = im & ,flag_scalar = 0 & ,actual_distance_average=config_flags%actual_distance_average& ,pos_def = config_flags%pos_def & ,swap_pole_with_next_j = config_flags%swap_pole_with_next_j & ,moist=moist,chem=chem,tracer=tracer,scalar=scalar & ,fft_filter_lat = config_flags%fft_filter_lat & ,dclat = dclat & ,ids=ids,ide=ide,jds=jds,jde=jde,kds=kds,kde=kde & ,ims=ims,ime=ime,jms=jms,jme=jme,kms=kms,kme=kme & ,ips=ips,ipe=ipe,jps=jps,jpe=jpe,kps=kps,kpe=kpe & ,imsx=imsx,imex=imex,jmsx=jmsx,jmex=jmex,kmsx=kmsx,kmex=kmex & ,ipsx=ipsx,ipex=ipex,jpsx=jmsx,jpex=jpex,kpsx=kpsx,kpex=kpex ) IF ( config_flags%coupled_filtering ) THEN CALL uncouple_scalars_for_filter ( FIELD=tracer(ims,kms,jms,im) & ,MU=grid%mu_2 , MUB=grid%mub & ,C1=grid%c1h , C2=grid%c2h & ,ids=ids,ide=ide,jds=jds,jde=jde,kds=kds,kde=kde & ,ims=ims,ime=ime,jms=jms,jme=jme,kms=kms,kme=kme & ,ips=ips,ipe=ipe,jps=jps,jpe=jpe,kps=kps,kpe=kpe ) END IF END DO END IF IF ( num_3d_s >= PARAM_FIRST_SCALAR ) THEN CALL wrf_debug ( 200 , ' call filter scalar ' ) DO im = PARAM_FIRST_SCALAR, num_3d_s IF ( config_flags%coupled_filtering ) THEN CALL couple_scalars_for_filter ( FIELD=scalar(ims,kms,jms,im) & ,MU=grid%mu_2 , MUB=grid%mub & ,C1=grid%c1h , C2=grid%c2h & ,ids=ids,ide=ide,jds=jds,jde=jde,kds=kds,kde=kde & ,ims=ims,ime=ime,jms=jms,jme=jme,kms=kms,kme=kme & ,ips=ips,ipe=ipe,jps=jps,jpe=jpe,kps=kps,kpe=kpe ) END IF CALL pxft ( grid=grid & ,lineno=__LINE__ & ,flag_uv = 0 & ,flag_rurv = 0 & ,flag_wph = 0 & ,flag_ww = 0 & ,flag_t = 0 & ,flag_mu = 0 & ,flag_mut = 0 & ,flag_moist = 0 & ,flag_chem = 0 & ,flag_tracer = 0 & ,flag_scalar = im & ,actual_distance_average=config_flags%actual_distance_average& ,pos_def = config_flags%pos_def & ,swap_pole_with_next_j = config_flags%swap_pole_with_next_j & ,moist=moist,chem=chem,tracer=tracer,scalar=scalar & ,fft_filter_lat = config_flags%fft_filter_lat & ,dclat = dclat & ,ids=ids,ide=ide,jds=jds,jde=jde,kds=kds,kde=kde & ,ims=ims,ime=ime,jms=jms,jme=jme,kms=kms,kme=kme & ,ips=ips,ipe=ipe,jps=jps,jpe=jpe,kps=kps,kpe=kpe & ,imsx=imsx,imex=imex,jmsx=jmsx,jmex=jmex,kmsx=kmsx,kmex=kmex & ,ipsx=ipsx,ipex=ipex,jpsx=jmsx,jpex=jpex,kpsx=kpsx,kpex=kpex ) IF ( config_flags%coupled_filtering ) THEN CALL uncouple_scalars_for_filter ( FIELD=scalar(ims,kms,jms,im) & ,MU=grid%mu_2 , MUB=grid%mub & ,C1=grid%c1h , C2=grid%c2h & ,ids=ids,ide=ide,jds=jds,jde=jde,kds=kds,kde=kde & ,ims=ims,ime=ime,jms=jms,jme=jme,kms=kms,kme=kme & ,ips=ips,ipe=ipe,jps=jps,jpe=jpe,kps=kps,kpe=kpe ) END IF END DO END IF END IF ! polar filter test !----------------------------------------------------------- ! END rk3 substep polar filter for scalars (moist,chem,scalar) !----------------------------------------------------------- !----------------------------------------------------------- ! Stencils for patch communications (WCS, 29 June 2001) ! ! here's where we need a wide comm stencil - these are the ! uncoupled variables so are used for high order calc in ! advection and mixong routines. ! ! ! * * * * * * * ! * * * * * * * * * * * * ! * * * * * * * * * * * * * ! * + * * * + * * * * * + * * * ! * * * * * * * * * * * * * ! * * * * * * * * * * * * ! * * * * * * * ! ! al x ! ! 2D variable ! mu_2 x ! ! (adv order <=4) ! u_2 x ! v_2 x ! w_2 x ! t_2 x ! ph_2 x ! ! (adv order <=6) ! u_2 x ! v_2 x ! w_2 x ! t_2 x ! ph_2 x ! ! 4D variable ! moist x ! chem x ! scalar x #ifdef DM_PARALLEL IF ( config_flags%h_mom_adv_order <= 4 ) THEN # include "HALO_EM_D2_3_TL.inc" ELSE IF ( config_flags%h_mom_adv_order <= 6 ) THEN # include "HALO_EM_D2_5_TL.inc" ELSE WRITE(wrf_err_message,*)'solve_em_tl: invalid h_mom_adv_order = ',config_flags%h_mom_adv_order CALL wrf_error_fatal(TRIM(wrf_err_message)) ENDIF # include "PERIOD_BDY_EM_D.inc" # include "PERIOD_BDY_EM_MOIST2.inc" # include "PERIOD_BDY_EM_CHEM2.inc" # include "PERIOD_BDY_EM_TRACER2.inc" # include "PERIOD_BDY_EM_SCALAR2.inc" #endif BENCH_START(g_bc_end_tim) !$OMP PARALLEL DO & !$OMP PRIVATE ( ij ) tile_bc_loop_1: DO ij = 1 , grid%num_tiles CALL wrf_debug ( 200 , ' call g_rk_phys_bc_dry_2' ) CALL g_rk_phys_bc_dry_2( config_flags, & grid%u_2,grid%g_u_2, grid%v_2,grid%g_v_2, grid%w_2,grid%g_w_2, & grid%t_2,grid%g_t_2, grid%ph_2,grid%g_ph_2, grid%mu_2,grid%g_mu_2, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) BENCH_START(g_diag_w_tim) IF (.not. config_flags%non_hydrostatic) THEN CALL g_diagnose_w( ph_tend,g_ph_tend, grid%ph_2,grid%g_ph_2, grid%ph_1,grid%g_ph_1, & grid%w_2,grid%g_w_2, grid%muts,grid%g_muts, dt_rk, & grid%u_2,grid%g_u_2, grid%v_2,grid%g_v_2, grid%ht, & grid%cf1, grid%cf2, grid%cf3, grid%rdx, grid%rdy, grid%msftx, grid%msfty, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) ENDIF BENCH_END(g_diag_w_tim) IF (num_3d_m >= PARAM_FIRST_SCALAR) THEN moisture_loop_bdy_1 : DO im = PARAM_FIRST_SCALAR , num_3d_m CALL g_set_physical_bc3d( moist(ims,kms,jms,im),g_moist(ims,kms,jms,im), 'p', config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) END DO moisture_loop_bdy_1 ENDIF IF (num_3d_c >= PARAM_FIRST_SCALAR) THEN chem_species_bdy_loop_1 : DO ic = PARAM_FIRST_SCALAR , num_3d_c !!!!! REPLACE WITH g_set_physical_bc3d WHEN chem IS NEEDED. Ning Pan CALL set_physical_bc3d( chem(ims,kms,jms,ic), 'p', config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end-1 ) END DO chem_species_bdy_loop_1 END IF IF (num_tracer >= PARAM_FIRST_SCALAR) THEN tracer_species_bdy_loop_1 : DO ic = PARAM_FIRST_SCALAR , num_tracer CALL g_set_physical_bc3d( tracer(ims,kms,jms,ic),g_tracer(ims,kms,jms,ic), 'p', config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end-1 ) END DO tracer_species_bdy_loop_1 END IF IF (num_3d_s >= PARAM_FIRST_SCALAR) THEN scalar_species_bdy_loop_1 : DO is = PARAM_FIRST_SCALAR , num_3d_s CALL g_set_physical_bc3d( scalar(ims,kms,jms,is),g_scalar(ims,kms,jms,is), 'p', config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end-1 ) END DO scalar_species_bdy_loop_1 END IF IF (config_flags%km_opt .eq. 2) THEN CALL g_set_physical_bc3d( grid%tke_2 ,grid%g_tke_2, 'p', config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) END IF END DO tile_bc_loop_1 !$OMP END PARALLEL DO BENCH_END(g_bc_end_tim) #ifdef DM_PARALLEL ! * * * * * ! * * * * * * * * * ! * + * * + * * * + * * ! * * * * * * * * * ! * * * * * ! moist, chem, scalar, tke x IF ( config_flags%h_mom_adv_order <= 4 ) THEN IF ( (config_flags%tke_adv_opt /= ORIGINAL .and. config_flags%tke_adv_opt /= WENO_SCALAR) .and. (rk_step == rk_order-1) ) THEN # include "HALO_EM_TKE_5_TL.inc" ELSE # include "HALO_EM_TKE_3_TL.inc" ENDIF ELSE IF ( config_flags%h_mom_adv_order <= 6 ) THEN IF ( (config_flags%tke_adv_opt /= ORIGINAL .and. config_flags%tke_adv_opt /= WENO_SCALAR) .and. (rk_step == rk_order-1) ) THEN # include "HALO_EM_TKE_7_TL.inc" ELSE # include "HALO_EM_TKE_5_TL.inc" ENDIF ELSE WRITE(wrf_err_message,*)'solve_em_tl: invalid h_sca_adv_order = ',config_flags%h_sca_adv_order CALL wrf_error_fatal(TRIM(wrf_err_message)) ENDIF IF ( num_moist .GE. PARAM_FIRST_SCALAR ) THEN IF ( config_flags%h_sca_adv_order <= 4 ) THEN IF ( (config_flags%moist_adv_opt /= ORIGINAL .and. config_flags%moist_adv_opt /= WENO_SCALAR) .and. (rk_step == rk_order-1) ) THEN # include "HALO_EM_MOIST_E_5_TL.inc" ELSE # include "HALO_EM_MOIST_E_3_TL.inc" END IF ELSE IF ( config_flags%h_sca_adv_order <= 6 ) THEN IF ( (config_flags%moist_adv_opt /= ORIGINAL .and. config_flags%moist_adv_opt /= WENO_SCALAR) .and. (rk_step == rk_order-1) ) THEN # include "HALO_EM_MOIST_E_7_TL.inc" ELSE # include "HALO_EM_MOIST_E_5_TL.inc" END IF ELSE WRITE(wrf_err_message,*)'solve_em_tl: invalid h_sca_adv_order = ',config_flags%h_sca_adv_order CALL wrf_error_fatal(TRIM(wrf_err_message)) ENDIF ENDIF IF ( num_chem >= PARAM_FIRST_SCALAR ) THEN IF ( config_flags%h_sca_adv_order <= 4 ) THEN IF ( (config_flags%chem_adv_opt /= ORIGINAL .and. config_flags%chem_adv_opt /= WENO_SCALAR) .and. (rk_step == rk_order-1) ) THEN # include "HALO_EM_CHEM_E_5.inc" ELSE # include "HALO_EM_CHEM_E_3.inc" ENDIF ELSE IF ( config_flags%h_sca_adv_order <= 6 ) THEN IF ( (config_flags%chem_adv_opt /= ORIGINAL .and. config_flags%chem_adv_opt /= WENO_SCALAR) .and. (rk_step == rk_order-1) ) THEN # include "HALO_EM_CHEM_E_7.inc" ELSE # include "HALO_EM_CHEM_E_5.inc" ENDIF ELSE WRITE(wrf_err_message,*)'solve_em_tl: invalid h_sca_adv_order = ',config_flags%h_sca_adv_order CALL wrf_error_fatal(TRIM(wrf_err_message)) ENDIF ENDIF IF ( num_tracer >= PARAM_FIRST_SCALAR ) THEN IF ( config_flags%h_sca_adv_order <= 4 ) THEN IF ( (config_flags%tracer_adv_opt /= ORIGINAL .and. config_flags%tracer_adv_opt /= WENO_SCALAR) .and. (rk_step == rk_order-1) ) THEN # include "HALO_EM_TRACER_E_5_TL.inc" ELSE # include "HALO_EM_TRACER_E_3_TL.inc" ENDIF ELSE IF ( config_flags%h_sca_adv_order <= 6 ) THEN IF ( (config_flags%tracer_adv_opt /= ORIGINAL .and. config_flags%tracer_adv_opt /= WENO_SCALAR) .and. (rk_step == rk_order-1) ) THEN # include "HALO_EM_TRACER_E_7_TL.inc" ELSE # include "HALO_EM_TRACER_E_5_TL.inc" ENDIF ELSE WRITE(wrf_err_message,*)'solve_em_tl: invalid h_sca_adv_order = ',config_flags%h_sca_adv_order CALL wrf_error_fatal(TRIM(wrf_err_message)) ENDIF ENDIF IF ( num_scalar >= PARAM_FIRST_SCALAR ) THEN IF ( config_flags%h_sca_adv_order <= 4 ) THEN IF ( (config_flags%scalar_adv_opt /= ORIGINAL .and. config_flags%scalar_adv_opt /= WENO_SCALAR) .and. (rk_step == rk_order-1) ) THEN # include "HALO_EM_SCALAR_E_5.inc" ELSE # include "HALO_EM_SCALAR_E_3.inc" ENDIF ELSE IF ( config_flags%h_sca_adv_order <= 6 ) THEN IF ( (config_flags%scalar_adv_opt /= ORIGINAL .and. config_flags%scalar_adv_opt /= WENO_SCALAR) .and. (rk_step == rk_order-1) ) THEN # include "HALO_EM_SCALAR_E_7.inc" ELSE # include "HALO_EM_SCALAR_E_5.inc" ENDIF ELSE WRITE(wrf_err_message,*)'solve_em_tl: invalid h_sca_adv_order = ',config_flags%h_sca_adv_order CALL wrf_error_fatal(TRIM(wrf_err_message)) ENDIF ENDIF #endif ENDIF rk_step_1_check !********************************************************** ! ! end of RK predictor-corrector loop ! !********************************************************** END DO Runge_Kutta_loop IF (config_flags%do_avgflx_em .EQ. 1) THEN ! Reinitialize time-averaged fluxes if history output was written after the previous time step: CALL WRFU_ALARMGET(grid%alarms( HISTORY_ALARM ),prevringtime=temp_time) CALL domain_clock_get ( grid, current_time=CurrTime, & current_timestr=message2 ) ! use overloaded -, .LT. operator to check whether to initialize avgflx: ! reinitialize after each history output (detect this here by comparing current time ! against last history time and time step - this code follows what's done in adapt_timestep_em): WRITE ( message , FMT = '("solve_em_tl: old_dt =",g15.6,", dt=",g15.6," on domain ",I3)' ) & & old_dt,grid%dt,grid%id CALL wrf_debug(200,message) old_dt=min(old_dt,grid%dt) num = INT(old_dt * precision) den = precision CALL WRFU_TimeIntervalSet(dtInterval, Sn=num, Sd=den) IF (CurrTime .lt. temp_time + dtInterval) THEN WRITE ( message , FMT = '("solve_em_tl: initializing avgflx at time ",A," on domain ",I3)' ) & & TRIM(message2), grid%id CALL wrf_message(trim(message)) grid%avgflx_count = 0 !tile-loop for zero_avgflx !$OMP PARALLEL DO & !$OMP PRIVATE ( ij ) DO ij = 1 , grid%num_tiles CALL wrf_debug(200,'In solve_em_tl, before zero_avgflx call') CALL zero_avgflx(grid%avgflx_rum,grid%avgflx_rvm,grid%avgflx_wwm, & & ids, ide, jds, jde, kds, kde, & & ims, ime, jms, jme, kms, kme, & & grid%i_start(ij), grid%i_end(ij), grid%j_start(ij), grid%j_end(ij), & & k_start , k_end, f_flux, & & grid%avgflx_cfu1,grid%avgflx_cfd1,grid%avgflx_dfu1, & & grid%avgflx_efu1,grid%avgflx_dfd1,grid%avgflx_efd1 ) CALL wrf_debug(200,'In solve_em_tl, after zero_avgflx call') ENDDO ENDIF ! Update avgflx quantities !tile-loop for upd_avgflx !$OMP PARALLEL DO & !$OMP PRIVATE ( ij ) DO ij = 1 , grid%num_tiles CALL wrf_debug(200,'In solve_em_tl, before upd_avgflx call') CALL upd_avgflx(grid%avgflx_count,grid%avgflx_rum,grid%avgflx_rvm,grid%avgflx_wwm, & & grid%ru_m, grid%rv_m, grid%ww_m, & & ids, ide, jds, jde, kds, kde, & & ims, ime, jms, jme, kms, kme, & & grid%i_start(ij), grid%i_end(ij), grid%j_start(ij), grid%j_end(ij), & & k_start , k_end, f_flux, & & grid%cfu1,grid%cfd1,grid%dfu1,grid%efu1,grid%dfd1,grid%efd1, & & grid%avgflx_cfu1,grid%avgflx_cfd1,grid%avgflx_dfu1, & & grid%avgflx_efu1,grid%avgflx_dfd1,grid%avgflx_efd1 ) CALL wrf_debug(200,'In solve_em_tl, after upd_avgflx call') ENDDO grid%avgflx_count = grid%avgflx_count + 1 ENDIF ! !$OMP PARALLEL DO & !$OMP PRIVATE ( ij ) DO ij = 1 , grid%num_tiles BENCH_START(g_advance_ppt_tim) CALL wrf_debug ( 200 , ' call g_advance_ppt' ) CALL g_advance_ppt(grid%rthcuten,grid%g_rthcuten,grid%rqvcuten,grid%g_rqvcuten, & grid%rqccuten,grid%g_rqccuten,grid%rqrcuten,grid%g_rqrcuten, & grid%rqicuten,grid%g_rqicuten,grid%rqscuten,grid%g_rqscuten, & grid%rainc,grid%g_rainc,grid%raincv,grid%rainsh,grid%g_rainsh,& grid%pratec,grid%g_pratec,grid%pratesh,grid%g_pratesh, & grid%nca,grid%g_nca,grid%htop,grid%g_htop,grid%hbot,grid%g_hbot,& grid%cutop,grid%g_cutop,grid%cubot,grid%g_cubot, & grid%cuppt, grid%g_cuppt, grid%dt, config_flags, & ids,ide, jds,jde, kds,kde, & ims,ime, jms,jme, kms,kme, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) BENCH_END(g_advance_ppt_tim) ENDDO !$OMP END PARALLEL DO !$OMP PARALLEL DO & !$OMP PRIVATE ( ij ) DO ij = 1 , grid%num_tiles CALL wrf_debug ( 200 , ' call g_phy_prep_part2' ) CALL g_phy_prep_part2 ( config_flags, & grid%mut,grid%g_mut, grid%muu, grid%g_muu, grid%muv, grid%g_muv, & grid%rthraten, grid%g_rthraten, & grid%rthblten, grid%g_rthblten, & grid%rublten, grid%g_rublten, grid%rvblten, grid%g_rvblten, & grid%rqvblten, grid%g_rqvblten, grid%rqcblten, grid%g_rqcblten, grid%rqiblten, grid%g_rqiblten, & grid%rucuten, grid%g_rucuten , grid%rvcuten, grid%g_rvcuten, grid%rthcuten, grid%g_rthcuten, & grid%rqvcuten, grid%g_rqvcuten, grid%rqccuten, grid%g_rqccuten, grid%rqrcuten, grid%g_rqrcuten, & grid%rqicuten, grid%g_rqicuten, grid%rqscuten, grid%g_rqscuten, & grid%rushten, grid%g_rushten, grid%rvshten, grid%g_rvshten, grid%rthshten, grid%g_rthshten, & grid%rqvshten, grid%g_rqvshten, grid%rqcshten, grid%g_rqcshten, grid%rqrshten, grid%g_rqrshten, & grid%rqishten, grid%g_rqishten, grid%rqsshten, grid%g_rqsshten, grid%rqgshten, grid%g_rqgshten, & grid%rthften, grid%g_rthften, grid%rqvften, grid%g_rqvften, & grid%RUNDGDTEN, grid%g_RUNDGDTEN, grid%RVNDGDTEN, grid%g_RVNDGDTEN, grid%RTHNDGDTEN, grid%g_RTHNDGDTEN, & grid%RPHNDGDTEN,grid%g_RPHNDGDTEN,grid%RQVNDGDTEN, grid%g_RQVNDGDTEN,grid%RMUNDGDTEN,& ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) ENDDO !$OMP END PARALLEL DO ! !
! (5) time-split physics.
!
!     Microphysics are the only time  split physics in the WRF model
!     at this time.  Split-physics begins with the calculation of
!     needed diagnostic quantities (pressure, temperature, etc.)
!     followed by a call to the microphysics driver,
!     and finishes with a clean-up, storing off of a diabatic tendency
!     from the moist physics, and a re-calulation of the  diagnostic
!     quantities pressure and density.
!
!
IF( config_flags%specified .or. config_flags%nested ) THEN sz = grid%spec_zone ELSE sz = 0 ENDIF IF (config_flags%mp_physics /= 0) then !$OMP PARALLEL DO & !$OMP PRIVATE ( ij, its, ite, jts, jte ) scalar_tile_loop_1a: DO ij = 1 , grid%num_tiles IF ( config_flags%periodic_x ) THEN its = max(grid%i_start(ij),ids) ite = min(grid%i_end(ij),ide-1) ELSE its = max(grid%i_start(ij),ids+sz) ite = min(grid%i_end(ij),ide-1-sz) ENDIF jts = max(grid%j_start(ij),jds+sz) jte = min(grid%j_end(ij),jde-1-sz) CALL wrf_debug ( 200 , ' call g_moist_physics_prep' ) BENCH_START(g_moist_physics_prep_tim) CALL g_moist_physics_prep_em( grid%t_2,grid%g_t_2, grid%t_1, & t0, grid%rho,grid%g_rho, & grid%al,grid%g_al, grid%alb, & grid%p,grid%g_p, p8w,g_p8w, & p0, grid%pb, & grid%ph_2,grid%g_ph_2, grid%phb, & th_phy, g_th_phy, pi_phy, g_pi_phy, & p_phy, g_p_phy, & grid%z, grid%g_z, grid%z_at_w, grid%g_z_at_w, & dz8w, g_dz8w, & dtm, grid%h_diabatic, grid%g_h_diabatic, & moist(ims,kms,jms,P_QV),g_moist(ims,kms,jms,P_QV), & grid%qv_diabatic, grid%g_qv_diabatic, & moist(ims,kms,jms,P_QC),g_moist(ims,kms,jms,P_QC), & grid%qc_diabatic, grid%g_qc_diabatic, & config_flags,grid%fnm, grid%fnp, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & its, ite, jts, jte, & k_start , k_end ) BENCH_END(g_moist_physics_prep_tim) END DO scalar_tile_loop_1a !$OMP END PARALLEL DO CALL wrf_debug ( 200 , ' call g_microphysics_driver' ) grid%g_sr = 0. grid%sr = 0. specified_bdy = config_flags%specified .OR. config_flags%nested channel_bdy = config_flags%specified .AND. config_flags%periodic_x BENCH_START(g_micro_driver_tim) ! ! WRFU_AlarmIsRinging always returned false, so using an alternate method to find out if it is time ! to dump history/restart files so microphysics can be told to calculate things like radar reflectivity. ! ! diagflag = .false. ! CALL WRFU_ALARMGET(grid%alarms( HISTORY_ALARM ! ),prevringtime=temp_time,RingInterval=intervaltime) ! CALL WRFU_ALARMGET(grid%alarms( RESTART_ALARM ! ),prevringtime=restart_time,RingInterval=restartinterval) ! CALL domain_clock_get ( grid, current_time=CurrTime ) ! old_dt=min(old_dt,grid%dt) ! num = INT(old_dt * precision) ! den = precision ! CALL WRFU_TimeIntervalSet(dtInterval, Sn=num, Sd=den) ! IF (CurrTime .ge. temp_time + intervaltime - dtInterval .or. & ! CurrTime .ge. restart_time + restartinterval - dtInterval ) THEN ! diagflag = .true. ! ENDIF ! WRITE(wrf_err_message,*)'diag_flag=',diag_flag ! CALL wrf_debug ( 0 , wrf_err_message ) #ifdef DM_PARALLEL # include "HALO_EM_SBM_TL.inc" #endif CALL g_microphysics_driver( & & DT=dtm ,DX=grid%dx ,DY=grid%dy & & ,DZ8W=dz8w ,DZ8WD=g_dz8w, F_ICE_PHY=grid%f_ice_phy & & ,ITIMESTEP=grid%itimestep ,LOWLYR=grid%lowlyr & & ,P8W=p8w ,P=p_phy ,PD=g_p_phy & & ,PI_PHY=pi_phy,PI_PHYD=g_pi_phy & & ,RHO=grid%rho ,RHOD=grid%g_rho, SPEC_ZONE=grid%spec_zone & & ,SR=grid%sr ,TH=th_phy,THD=g_th_phy & & ,refl_10cm=grid%refl_10cm & ! hm, 9/22/09 for refl & ,WARM_RAIN=grid%warm_rain & & ,T8W=t8w & & ,CLDFRA=grid%cldfra, EXCH_H=grid%exch_h & & ,NSOURCE=grid%qndropsource & & ,XLAND=grid%xland & & ,SPECIFIED=specified_bdy, CHANNEL_SWITCH=channel_bdy & & ,F_RAIN_PHY=grid%f_rain_phy & & ,F_RIMEF_PHY=grid%f_rimef_phy & & ,MP_PHYSICS=config_flags%mp_physics & & ,ID=grid%id & & ,IDS=ids,IDE=ide, JDS=jds,JDE=jde, KDS=kds,KDE=kde & & ,IMS=ims,IME=ime, JMS=jms,JME=jme, KMS=kms,KME=kme & & ,IPS=ips,IPE=ipe, JPS=jps,JPE=jpe, KPS=kps,KPE=kpe & & ,I_START=grid%i_start,I_END=min(grid%i_end, ide-1) & & ,J_START=grid%j_start,J_END=min(grid%j_end, jde-1) & & ,KTS=k_start, KTE=min(k_end,kde-1) & & ,NUM_TILES=grid%num_tiles & & ,NAER=grid%naer & ! Optional & , RAINNC=grid%rainnc, RAINNCV=grid%rainncv & & , RAINNCD=grid%g_rainnc, RAINNCVD=grid%g_rainncv & & , SNOWNC=grid%snownc, SNOWNCV=grid%snowncv & & , GRAUPELNC=grid%graupelnc, GRAUPELNCV=grid%graupelncv & ! for milbrandt2mom & , HAILNC=grid%hailnc, HAILNCV=grid%hailncv & & , W=grid%w_2, Z=grid%z, HT=grid%ht & & , MP_RESTART_STATE=grid%mp_restart_state & & , TBPVS_STATE=grid%tbpvs_state & ! etampnew & , TBPVS0_STATE=grid%tbpvs0_state & ! etampnew & , QV_CURR=moist(ims,kms,jms,P_QV),QV_CURRD=g_moist(ims,kms,jms,P_QV), F_QV=F_QV & & , QC_CURR=moist(ims,kms,jms,P_QC),QC_CURRD=g_moist(ims,kms,jms,P_QC), F_QC=F_QC & & , QR_CURR=moist(ims,kms,jms,P_QR),QR_CURRD=g_moist(ims,kms,jms,P_QR), F_QR=F_QR & & , QI_CURR=moist(ims,kms,jms,P_QI), F_QI=F_QI & & , QS_CURR=moist(ims,kms,jms,P_QS), F_QS=F_QS & & , QG_CURR=moist(ims,kms,jms,P_QG), F_QG=F_QG & & , QH_CURR=moist(ims,kms,jms,P_QH), F_QH=F_QH & ! for milbrandt2mom & , QNDROP_CURR=scalar(ims,kms,jms,P_QNDROP), F_QNDROP=F_QNDROP & #if (WRF_CHEM==1) & , RAINPROD=grid%rainprod, EVAPPROD=grid%evapprod & & , QV_B4MP=grid%qv_b4mp,QC_B4MP=grid%qc_b4mp & & , QI_B4MP=grid%qi_b4mp, QS_B4MP=grid%qs_b4mp & #endif & , QT_CURR=scalar(ims,kms,jms,P_QT), F_QT=F_QT & & , QNN_CURR=scalar(ims,kms,jms,P_QNN), F_QNN=F_QNN & & , QNI_CURR=scalar(ims,kms,jms,P_QNI), F_QNI=F_QNI & & , QNC_CURR=scalar(ims,kms,jms,P_QNC), F_QNC=F_QNC & & , QNR_CURR=scalar(ims,kms,jms,P_QNR), F_QNR=F_QNR & & , QNS_CURR=scalar(ims,kms,jms,P_QNS), F_QNS=F_QNS & & , QNG_CURR=scalar(ims,kms,jms,P_QNG), F_QNG=F_QNG & & , QNH_CURR=scalar(ims,kms,jms,P_QNH), F_QNH=F_QNH & ! for milbrandt2mom and nssl_2mom ! & , QZR_CURR=scalar(ims,kms,jms,P_QZR), F_QZR=F_QZR & ! for milbrandt3mom ! & , QZI_CURR=scalar(ims,kms,jms,P_QZI), F_QZI=F_QZI & ! " ! & , QZS_CURR=scalar(ims,kms,jms,P_QZS), F_QZS=F_QZS & ! " ! & , QZG_CURR=scalar(ims,kms,jms,P_QZG), F_QZG=F_QZG & ! " ! & , QZH_CURR=scalar(ims,kms,jms,P_QZH), F_QZH=F_QZH & ! " & , QVOLG_CURR=scalar(ims,kms,jms,P_QVOLG), F_QVOLG=F_QVOLG & ! for nssl_2mom & , QVOLH_CURR=scalar(ims,kms,jms,P_QVOLH), F_QVOLH=F_QVOLH & ! for nssl_2mom & , qrcuten=grid%rqrcuten, qscuten=grid%rqscuten & & , qicuten=grid%rqicuten & & , HAIL=config_flags%gsfcgce_hail & ! for gsfcgce & , ICE2=config_flags%gsfcgce_2ice & ! for gsfcgce ! & , ccntype=config_flags%milbrandt_ccntype & ! for milbrandt (2mom) ! YLIN ! RI_CURR INPUT & , RI_CURR=grid%rimi & & , diagflag=diag_flag, do_radar_ref=config_flags%do_radar_ref & ) BENCH_END(g_micro_driver_tim) #if 0 BENCH_START(g_microswap_2) ! for load balancing; communication to redistribute the points IF ( config_flags%mp_physics .EQ. ETAMPNEW .OR. & & config_flags%mp_physics .EQ. FER_MP_HIRES) THEN #include "SWAP_ETAMP_NEW.inc" ELSE IF ( config_flags%mp_physics .EQ. WSM3SCHEME ) THEN #include "SWAP_WSM3.inc" ENDIF BENCH_END(g_microswap_2) #endif CALL wrf_debug ( 200 , ' call g_moist_physics_finish' ) BENCH_START(g_moist_phys_end_tim) !$OMP PARALLEL DO & !$OMP PRIVATE ( ij, its, ite, jts, jte, im, ii, jj, kk ) DO ij = 1 , grid%num_tiles its = max(grid%i_start(ij),ids) ite = min(grid%i_end(ij),ide-1) jts = max(grid%j_start(ij),jds) jte = min(grid%j_end(ij),jde-1) CALL g_microphysics_zero_outb ( & moist , g_moist, num_moist , config_flags , & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & its, ite, jts, jte, & k_start , k_end ) CALL g_microphysics_zero_outb ( & scalar , g_scalar, num_scalar , config_flags , & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & its, ite, jts, jte, & k_start , k_end ) !!!!! REPLACE WITH g_microphysics_zero_outb WHEN CODING TL OF PHYSICS. Ning Pan CALL microphysics_zero_outb ( & chem , num_chem , config_flags , & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & its, ite, jts, jte, & k_start , k_end ) CALL g_microphysics_zero_outb ( & tracer , g_tracer, num_tracer , config_flags , & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & its, ite, jts, jte, & k_start , k_end ) IF ( config_flags%periodic_x ) THEN its = max(grid%i_start(ij),ids) ite = min(grid%i_end(ij),ide-1) ELSE its = max(grid%i_start(ij),ids+sz) ite = min(grid%i_end(ij),ide-1-sz) ENDIF jts = max(grid%j_start(ij),jds+sz) jte = min(grid%j_end(ij),jde-1-sz) CALL g_microphysics_zero_outa ( & moist , g_moist, num_moist , config_flags , & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & its, ite, jts, jte, & k_start , k_end ) CALL g_microphysics_zero_outa ( & scalar ,g_scalar, num_scalar , config_flags , & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & its, ite, jts, jte, & k_start , k_end ) !!!!! REPLACE WITH g_microphysics_zero_outa WHEN CODING TL OF PHYSICS. Ning Pan CALL microphysics_zero_outa ( & chem , num_chem , config_flags , & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & its, ite, jts, jte, & k_start , k_end ) CALL g_microphysics_zero_outa ( & tracer , g_tracer, num_tracer , config_flags , & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & its, ite, jts, jte, & k_start , k_end ) CALL g_moist_physics_finish_em( grid%t_2, grid%g_t_2, grid%t_1, & t0, grid%muts, & th_phy, g_th_phy, & grid%h_diabatic,grid%g_h_diabatic, & moist(ims,kms,jms,P_QV),g_moist(ims,kms,jms,P_QV), & grid%qv_diabatic, grid%g_qv_diabatic, & moist(ims,kms,jms,P_QC),g_moist(ims,kms,jms,P_QC), & grid%qc_diabatic, grid%g_qc_diabatic, & dtm, config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & its, ite, jts, jte, & k_start , k_end ) END DO !$OMP END PARALLEL DO ENDIF ! microphysics test !----------------------------------------------------------- ! filter for moist variables post-microphysics and end of timestep !----------------------------------------------------------- IF (config_flags%polar) THEN IF ( num_3d_m >= PARAM_FIRST_SCALAR ) THEN CALL wrf_debug ( 200 , ' call filter moist' ) DO im = PARAM_FIRST_SCALAR, num_3d_m IF ( config_flags%coupled_filtering ) THEN DO jj = jps, MIN(jpe,jde-1) DO kk = kps, MIN(kpe,kde-1) DO ii = ips, MIN(ipe,ide-1) moist(ii,kk,jj,im)=moist(ii,kk,jj,im)*(grid%mu_2(ii,jj)+grid%mub(ii,jj)) ENDDO ENDDO ENDDO END IF CALL pxft ( grid=grid & ,lineno=__LINE__ & ,flag_uv = 0 & ,flag_rurv = 0 & ,flag_wph = 0 & ,flag_ww = 0 & ,flag_t = 0 & ,flag_mu = 0 & ,flag_mut = 0 & ,flag_moist = im & ,flag_chem = 0 & ,flag_tracer = 0 & ,flag_scalar = 0 & ,actual_distance_average=config_flags%actual_distance_average& ,pos_def = config_flags%pos_def & ,swap_pole_with_next_j = config_flags%swap_pole_with_next_j & ,moist=moist,chem=chem,tracer=tracer,scalar=scalar & ,fft_filter_lat = config_flags%fft_filter_lat & ,dclat = dclat & ,ids=ids,ide=ide,jds=jds,jde=jde,kds=kds,kde=kde & ,ims=ims,ime=ime,jms=jms,jme=jme,kms=kms,kme=kme & ,ips=ips,ipe=ipe,jps=jps,jpe=jpe,kps=kps,kpe=kpe & ,imsx=imsx,imex=imex,jmsx=jmsx,jmex=jmex,kmsx=kmsx,kmex=kmex & ,ipsx=ipsx,ipex=ipex,jpsx=jmsx,jpex=jpex,kpsx=kpsx,kpex=kpex ) IF ( config_flags%coupled_filtering ) THEN DO jj = jps, MIN(jpe,jde-1) DO kk = kps, MIN(kpe,kde-1) DO ii = ips, MIN(ipe,ide-1) moist(ii,kk,jj,im)=moist(ii,kk,jj,im)/(grid%mu_2(ii,jj)+grid%mub(ii,jj)) ENDDO ENDDO ENDDO ENDIF ENDDO ENDIF ENDIF !----------------------------------------------------------- ! end filter for moist variables post-microphysics and end of timestep !----------------------------------------------------------- !$OMP PARALLEL DO & !$OMP PRIVATE ( ij, its, ite, jts, jte, im, ii, jj, kk ) scalar_tile_loop_1ba: DO ij = 1 , grid%num_tiles IF ( config_flags%periodic_x ) THEN its = max(grid%i_start(ij),ids) ite = min(grid%i_end(ij),ide-1) ELSE its = max(grid%i_start(ij),ids+sz) ite = min(grid%i_end(ij),ide-1-sz) ENDIF jts = max(grid%j_start(ij),jds+sz) jte = min(grid%j_end(ij),jde-1-sz) CALL g_calc_p_rho_phi( moist,g_moist, num_3d_m, config_flags%hypsometric_opt, & grid%al,grid%g_al, grid%alb, grid%mu_2,grid%g_mu_2, grid%muts,grid%g_muts, & grid%ph_2,grid%g_ph_2, grid%phb, grid%p,grid%g_p, grid%pb, grid%t_2,grid%g_t_2, & p0, t0, grid%p_top, grid%znu, grid%znw, grid%dnw, grid%rdnw, & grid%rdn, config_flags%non_hydrostatic, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & its, ite, jts, jte, & k_start , k_end ) END DO scalar_tile_loop_1ba !$OMP END PARALLEL DO BENCH_END(g_moist_phys_end_tim) IF (.not. config_flags%non_hydrostatic) THEN #ifdef DM_PARALLEL # include "HALO_EM_HYDRO_UV_TL.inc" # include "PERIOD_EM_HYDRO_UV.inc" #endif !$OMP PARALLEL DO & !$OMP PRIVATE ( ij ) DO ij = 1 , grid%num_tiles CALL g_diagnose_w( ph_tend,g_ph_tend, grid%ph_2,grid%g_ph_2, grid%ph_1,grid%g_ph_1, & grid%w_2,grid%g_w_2, grid%muts,grid%g_muts, dt_rk, & grid%u_2,grid%g_u_2, grid%v_2,grid%g_v_2, grid%ht, & grid%cf1, grid%cf2, grid%cf3, grid%rdx, grid%rdy, grid%msftx, grid%msfty, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) END DO !$OMP END PARALLEL DO END IF CALL wrf_debug ( 200 , ' call chem polar filter ' ) !----------------------------------------------------------- ! filter for chem and scalar variables at end of timestep !----------------------------------------------------------- IF (config_flags%polar) THEN IF ( num_3d_c >= PARAM_FIRST_SCALAR ) then chem_filter_loop: DO im = PARAM_FIRST_SCALAR, num_3d_c IF ( config_flags%coupled_filtering ) THEN DO jj = jps, MIN(jpe,jde-1) DO kk = kps, MIN(kpe,kde-1) DO ii = ips, MIN(ipe,ide-1) chem(ii,kk,jj,im)=chem(ii,kk,jj,im)*(grid%mu_2(ii,jj)+grid%mub(ii,jj)) ENDDO ENDDO ENDDO END IF CALL pxft ( grid=grid & ,lineno=__LINE__ & ,flag_uv = 0 & ,flag_rurv = 0 & ,flag_wph = 0 & ,flag_ww = 0 & ,flag_t = 0 & ,flag_mu = 0 & ,flag_mut = 0 & ,flag_moist = 0 & ,flag_chem = im & ,flag_tracer = 0 & ,flag_scalar = 0 & ,actual_distance_average=config_flags%actual_distance_average& ,pos_def = config_flags%pos_def & ,swap_pole_with_next_j = config_flags%swap_pole_with_next_j & ,moist=moist,chem=chem,tracer=tracer,scalar=scalar & ,fft_filter_lat = config_flags%fft_filter_lat & ,dclat = dclat & ,ids=ids,ide=ide,jds=jds,jde=jde,kds=kds,kde=kde & ,ims=ims,ime=ime,jms=jms,jme=jme,kms=kms,kme=kme & ,ips=ips,ipe=ipe,jps=jps,jpe=jpe,kps=kps,kpe=kpe & ,imsx=imsx,imex=imex,jmsx=jmsx,jmex=jmex,kmsx=kmsx,kmex=kmex & ,ipsx=ipsx,ipex=ipex,jpsx=jmsx,jpex=jpex,kpsx=kpsx,kpex=kpex ) IF ( config_flags%coupled_filtering ) THEN DO jj = jps, MIN(jpe,jde-1) DO kk = kps, MIN(kpe,kde-1) DO ii = ips, MIN(ipe,ide-1) chem(ii,kk,jj,im)=chem(ii,kk,jj,im)/(grid%mu_2(ii,jj)+grid%mub(ii,jj)) ENDDO ENDDO ENDDO END IF ENDDO chem_filter_loop ENDIF IF ( num_tracer >= PARAM_FIRST_SCALAR ) then tracer_filter_loop: DO im = PARAM_FIRST_SCALAR, num_tracer IF ( config_flags%coupled_filtering ) THEN DO jj = jps, MIN(jpe,jde-1) DO kk = kps, MIN(kpe,kde-1) DO ii = ips, MIN(ipe,ide-1) tracer(ii,kk,jj,im)=tracer(ii,kk,jj,im)*(grid%mu_2(ii,jj)+grid%mub(ii,jj)) ENDDO ENDDO ENDDO END IF CALL pxft ( grid=grid & ,lineno=__LINE__ & ,flag_uv = 0 & ,flag_rurv = 0 & ,flag_wph = 0 & ,flag_ww = 0 & ,flag_t = 0 & ,flag_mu = 0 & ,flag_mut = 0 & ,flag_moist = 0 & ,flag_chem = 0 & ,flag_tracer = im & ,flag_scalar = 0 & ,actual_distance_average=config_flags%actual_distance_average& ,pos_def = config_flags%pos_def & ,swap_pole_with_next_j = config_flags%swap_pole_with_next_j & ,moist=moist,chem=chem,tracer=tracer,scalar=scalar & ,fft_filter_lat = config_flags%fft_filter_lat & ,dclat = dclat & ,ids=ids,ide=ide,jds=jds,jde=jde,kds=kds,kde=kde & ,ims=ims,ime=ime,jms=jms,jme=jme,kms=kms,kme=kme & ,ips=ips,ipe=ipe,jps=jps,jpe=jpe,kps=kps,kpe=kpe & ,imsx=imsx,imex=imex,jmsx=jmsx,jmex=jmex,kmsx=kmsx,kmex=kmex & ,ipsx=ipsx,ipex=ipex,jpsx=jmsx,jpex=jpex,kpsx=kpsx,kpex=kpex ) IF ( config_flags%coupled_filtering ) THEN DO jj = jps, MIN(jpe,jde-1) DO kk = kps, MIN(kpe,kde-1) DO ii = ips, MIN(ipe,ide-1) tracer(ii,kk,jj,im)=tracer(ii,kk,jj,im)/(grid%mu_2(ii,jj)+grid%mub(ii,jj)) ENDDO ENDDO ENDDO END IF ENDDO tracer_filter_loop ENDIF IF ( num_3d_s >= PARAM_FIRST_SCALAR ) then scalar_filter_loop: DO im = PARAM_FIRST_SCALAR, num_3d_s IF ( config_flags%coupled_filtering ) THEN DO jj = jps, MIN(jpe,jde-1) DO kk = kps, MIN(kpe,kde-1) DO ii = ips, MIN(ipe,ide-1) scalar(ii,kk,jj,im)=scalar(ii,kk,jj,im)*(grid%mu_2(ii,jj)+grid%mub(ii,jj)) ENDDO ENDDO ENDDO END IF CALL pxft ( grid=grid & ,lineno=__LINE__ & ,flag_uv = 0 & ,flag_rurv = 0 & ,flag_wph = 0 & ,flag_ww = 0 & ,flag_t = 0 & ,flag_mu = 0 & ,flag_mut = 0 & ,flag_moist = 0 & ,flag_chem = 0 & ,flag_tracer = 0 & ,flag_scalar = im & ,actual_distance_average=config_flags%actual_distance_average& ,pos_def = config_flags%pos_def & ,swap_pole_with_next_j = config_flags%swap_pole_with_next_j & ,moist=moist,chem=chem,tracer=tracer,scalar=scalar & ,fft_filter_lat = config_flags%fft_filter_lat & ,dclat = dclat & ,ids=ids,ide=ide,jds=jds,jde=jde,kds=kds,kde=kde & ,ims=ims,ime=ime,jms=jms,jme=jme,kms=kms,kme=kme & ,ips=ips,ipe=ipe,jps=jps,jpe=jpe,kps=kps,kpe=kpe & ,imsx=imsx,imex=imex,jmsx=jmsx,jmex=jmex,kmsx=kmsx,kmex=kmex & ,ipsx=ipsx,ipex=ipex,jpsx=jmsx,jpex=jpex,kpsx=kpsx,kpex=kpex ) IF ( config_flags%coupled_filtering ) THEN DO jj = jps, MIN(jpe,jde-1) DO kk = kps, MIN(kpe,kde-1) DO ii = ips, MIN(ipe,ide-1) scalar(ii,kk,jj,im)=scalar(ii,kk,jj,im)/(grid%mu_2(ii,jj)+grid%mub(ii,jj)) ENDDO ENDDO ENDDO END IF ENDDO scalar_filter_loop ENDIF ENDIF !----------------------------------------------------------- ! end filter for chem and scalar variables at end of timestep !----------------------------------------------------------- ! We're finished except for boundary condition (and patch) update ! Boundary condition time (or communication time). At this time, we have ! implemented periodic and symmetric physical boundary conditions. ! b.c. routine for data within patch. ! we need to do both time levels of ! data because the time filter only works in the physical solution space. ! First, do patch communications for boundary conditions (periodicity) !----------------------------------------------------------- ! Stencils for patch communications (WCS, 29 June 2001) ! ! here's where we need a wide comm stencil - these are the ! uncoupled variables so are used for high order calc in ! advection and mixong routines. ! ! * * * * * ! * * * * * * * * * ! * + * * + * * * + * * ! * * * * * * * * * ! * * * * * ! ! grid%u_1 x ! grid%u_2 x ! grid%v_1 x ! grid%v_2 x ! grid%w_1 x ! grid%w_2 x ! grid%t_1 x ! grid%t_2 x ! grid%ph_1 x ! grid%ph_2 x ! grid%tke_1 x ! grid%tke_2 x ! ! 2D variables ! grid%mu_1 x ! grid%mu_2 x ! ! 4D variables ! moist x ! chem x ! scalar x !---------------------------------------------------------- #ifdef DM_PARALLEL IF ( config_flags%h_mom_adv_order <= 4 ) THEN # include "HALO_EM_D3_3_TL.inc" ELSE IF ( config_flags%h_mom_adv_order <= 6 ) THEN # include "HALO_EM_D3_5_TL.inc" ELSE WRITE(wrf_err_message,*)'solve_em_tl: invalid h_mom_adv_order = ',config_flags%h_mom_adv_order CALL wrf_error_fatal(TRIM(wrf_err_message)) ENDIF # include "PERIOD_BDY_EM_D3.inc" # include "PERIOD_BDY_EM_MOIST.inc" # include "PERIOD_BDY_EM_CHEM.inc" # include "PERIOD_BDY_EM_TRACER.inc" # include "PERIOD_BDY_EM_SCALAR.inc" # include "PERIOD_BDY_EM_TKE.inc" #endif ! now set physical b.c on a patch BENCH_START(g_bc_2d_tim) !$OMP PARALLEL DO & !$OMP PRIVATE ( ij ) tile_bc_loop_2: DO ij = 1 , grid%num_tiles CALL wrf_debug ( 200 , ' call g_set_phys_bc_dry_2' ) CALL g_set_phys_bc_dry_2( config_flags, & grid%u_1,grid%g_u_1, grid%u_2,grid%g_u_2, & grid%v_1,grid%g_v_1, grid%v_2,grid%g_v_2, & grid%w_1,grid%g_w_1, grid%w_2,grid%g_w_2, & grid%t_1,grid%g_t_1, grid%t_2,grid%g_t_2, & grid%ph_1,grid%g_ph_1, grid%ph_2,grid%g_ph_2, & grid%mu_1,grid%g_mu_1, grid%mu_2,grid%g_mu_2, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) CALL g_set_physical_bc3d( grid%tke_1,grid%g_tke_1, 'p', config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end-1 ) CALL g_set_physical_bc3d( grid%tke_2 ,grid%g_tke_2, 'p', config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) moisture_loop_bdy_2 : DO im = PARAM_FIRST_SCALAR , num_3d_m CALL g_set_physical_bc3d( moist(ims,kms,jms,im),g_moist(ims,kms,jms,im), 'p', & config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) END DO moisture_loop_bdy_2 chem_species_bdy_loop_2 : DO ic = PARAM_FIRST_SCALAR , num_3d_c !!!!! REPLACE WITH g_set_physical_bc3d WHEN chem IS NEEDED. Ning Pan CALL set_physical_bc3d( chem(ims,kms,jms,ic) , 'p', config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) END DO chem_species_bdy_loop_2 tracer_species_bdy_loop_2 : DO ic = PARAM_FIRST_SCALAR , num_tracer CALL g_set_physical_bc3d( tracer(ims,kms,jms,ic) , g_tracer(ims,kms,jms,ic), 'p', config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) END DO tracer_species_bdy_loop_2 scalar_species_bdy_loop_2 : DO is = PARAM_FIRST_SCALAR , num_3d_s CALL g_set_physical_bc3d( scalar(ims,kms,jms,is) ,g_scalar(ims,kms,jms,is) , 'p', config_flags, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) END DO scalar_species_bdy_loop_2 END DO tile_bc_loop_2 !$OMP END PARALLEL DO BENCH_END(g_bc_2d_tim) IF( config_flags%specified .or. config_flags%nested ) THEN ! this code forces boundary values to specified values to avoid drift !$OMP PARALLEL DO & !$OMP PRIVATE ( ij ) tile_bc_loop_3: DO ij = 1 , grid%num_tiles CALL wrf_debug ( 200 , ' call g_spec_bdy_final' ) CALL g_spec_bdy_final ( grid%u_2, grid%g_u_2, grid%muus, grid%g_muus, grid%msfuy, & grid%u_bxs, grid%g_u_bxs, grid%u_bxe, grid%g_u_bxe, & grid%u_bys, grid%g_u_bys, grid%u_bye, grid%g_u_bye, & grid%u_btxs,grid%g_u_btxs,grid%u_btxe,grid%g_u_btxe, & grid%u_btys,grid%g_u_btys,grid%u_btye,grid%g_u_btye, & 'u', config_flags, & config_flags%spec_bdy_width, grid%spec_zone, & grid%dtbc, & ids,ide, jds,jde, kds,kde, & ! domain dims ims,ime, jms,jme, kms,kme, & ! memory dims ips,ipe, jps,jpe, kps,kpe, & ! patch dims grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) CALL g_spec_bdy_final ( grid%v_2, grid%g_v_2, grid%muvs, grid%g_muvs, grid%msfvx, & grid%v_bxs, grid%g_v_bxs, grid%v_bxe, grid%g_v_bxe, & grid%v_bys, grid%g_v_bys, grid%v_bye, grid%g_v_bye, & grid%v_btxs,grid%g_v_btxs,grid%v_btxe,grid%g_v_btxe, & grid%v_btys,grid%g_v_btys,grid%v_btye,grid%g_v_btye, & 'v', config_flags, & config_flags%spec_bdy_width, grid%spec_zone, & grid%dtbc, & ids,ide, jds,jde, kds,kde, & ! domain dims ims,ime, jms,jme, kms,kme, & ! memory dims ips,ipe, jps,jpe, kps,kpe, & ! patch dims grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) IF( config_flags%nested) THEN CALL g_spec_bdy_final ( grid%w_2, grid%g_w_2, grid%muts, grid%g_muts, grid%msfty, & grid%w_bxs, grid%g_w_bxs, grid%w_bxe, grid%g_w_bxe, & grid%w_bys, grid%g_w_bys, grid%w_bye, grid%g_w_bye, & grid%w_btxs,grid%g_w_btxs,grid%w_btxe,grid%g_w_btxe, & grid%w_btys,grid%g_w_btys,grid%w_btye,grid%g_w_btye, & 'w', config_flags, & config_flags%spec_bdy_width, grid%spec_zone, & grid%dtbc, & ids,ide, jds,jde, kds,kde, & ! domain dims ims,ime, jms,jme, kms,kme, & ! memory dims ips,ipe, jps,jpe, kps,kpe, & ! patch dims grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) ENDIF CALL g_spec_bdy_final ( grid%t_2, grid%g_t_2, grid%muts, grid%g_muts, grid%msfty, & grid%t_bxs, grid%g_t_bxs, grid%t_bxe, grid%g_t_bxe, & grid%t_bys, grid%g_t_bys, grid%t_bye, grid%g_t_bye, & grid%t_btxs,grid%g_t_btxs,grid%t_btxe,grid%g_t_btxe, & grid%t_btys,grid%g_t_btys,grid%t_btye,grid%g_t_btye, & 't', config_flags, & config_flags%spec_bdy_width, grid%spec_zone, & grid%dtbc, & ids,ide, jds,jde, kds,kde, & ! domain dims ims,ime, jms,jme, kms,kme, & ! memory dims ips,ipe, jps,jpe, kps,kpe, & ! patch dims grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) CALL g_spec_bdy_final ( grid%ph_2, grid%g_ph_2, grid%muts, grid%g_muts, grid%msfty, & grid%ph_bxs, grid%g_ph_bxs, grid%ph_bxe, grid%g_ph_bxe, & grid%ph_bys, grid%g_ph_bys, grid%ph_bye, grid%g_ph_bye, & grid%ph_btxs,grid%g_ph_btxs,grid%ph_btxe,grid%g_ph_btxe, & grid%ph_btys,grid%g_ph_btys,grid%ph_btye,grid%g_ph_btye, & 'h', config_flags, & config_flags%spec_bdy_width, grid%spec_zone, & grid%dtbc, & ids,ide, jds,jde, kds,kde, & ! domain dims ims,ime, jms,jme, kms,kme, & ! memory dims ips,ipe, jps,jpe, kps,kpe, & ! patch dims grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) IF( config_flags%spec_bdy_final_mu .EQ. 1 ) THEN CALL g_spec_bdy_final ( grid%mu_2, grid%g_mu_2, grid%muts, grid%g_muts, grid%msfty, & grid%mu_bxs, grid%g_mu_bxs, grid%mu_bxe, grid%g_mu_bxe, & grid%mu_bys, grid%g_mu_bys, grid%mu_bye, grid%g_mu_bye, & grid%mu_btxs,grid%g_mu_btxs,grid%mu_btxe,grid%g_mu_btxe, & grid%mu_btys,grid%g_mu_btys,grid%mu_btye,grid%g_mu_btye, & 'm', config_flags, & config_flags%spec_bdy_width, grid%spec_zone, & grid%dtbc, & ids,ide, jds,jde, 1, 1, & ! domain dims ims,ime, jms,jme, 1, 1, & ! memory dims ips,ipe, jps,jpe, 1, 1, & ! patch dims grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & 1 , 1 ) ENDIF moisture_loop_bdy_3 : DO im = PARAM_FIRST_SCALAR , num_3d_m IF ( im .EQ. P_QV .OR. config_flags%nested .OR. & ( config_flags%specified .AND. config_flags%have_bcs_moist ) ) THEN CALL g_spec_bdy_final ( moist(ims,kms,jms,im), g_moist(ims,kms,jms,im), & grid%muts, grid%g_muts, grid%msfty, & moist_bxs(jms,kms,1,im), g_moist_bxs(jms,kms,1,im), & moist_bxe(jms,kms,1,im), g_moist_bxe(jms,kms,1,im), & moist_bys(ims,kms,1,im), g_moist_bys(ims,kms,1,im), & moist_bye(ims,kms,1,im), g_moist_bye(ims,kms,1,im), & moist_btxs(jms,kms,1,im), g_moist_btxs(jms,kms,1,im), & moist_btxe(jms,kms,1,im), g_moist_btxe(jms,kms,1,im), & moist_btys(ims,kms,1,im), g_moist_btys(ims,kms,1,im), & moist_btye(ims,kms,1,im), g_moist_btye(ims,kms,1,im), & 't', config_flags, & config_flags%spec_bdy_width, grid%spec_zone, & grid%dtbc, & ids,ide, jds,jde, kds,kde, & ! domain dims ims,ime, jms,jme, kms,kme, & ! memory dims ips,ipe, jps,jpe, kps,kpe, & ! patch dims grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) ENDIF END DO moisture_loop_bdy_3 #if (WRF_CHEM == 1) IF (num_3d_c >= PARAM_FIRST_SCALAR) THEN chem_species_bdy_loop_3 : DO ic = PARAM_FIRST_SCALAR , num_3d_c IF( ( config_flags%nested ) ) THEN ! CALL g_spec_bdy_final ( chem(ims,kms,jms,ic), g_chem(ims,kms,jms,ic), & ! grid%muts, grid%g_muts, grid%msfty, & ! chem_bxs(jms,kms,1,ic), g_chem_bxs(jms,kms,1,ic), & ! chem_bxe(jms,kms,1,ic), g_chem_bxe(jms,kms,1,ic), & ! chem_bys(ims,kms,1,ic), g_chem_bys(ims,kms,1,ic), & ! chem_bye(ims,kms,1,ic), g_chem_bye(ims,kms,1,ic), & ! chem_btxs(jms,kms,1,ic), g_chem_btxs(jms,kms,1,ic), & ! chem_btxe(jms,kms,1,ic), g_chem_btxe(jms,kms,1,ic), & ! chem_btys(ims,kms,1,ic), g_chem_btys(ims,kms,1,ic), & ! chem_btye(ims,kms,1,ic), g_chem_btye(ims,kms,1,ic), & !hcl-beg no g_chem for now CALL g_spec_bdy_final ( chem(ims,kms,jms,ic), chem(ims,kms,jms,ic), & grid%muts, grid%g_muts, grid%msfty, & chem_bxs(jms,kms,1,ic), chem_bxs(jms,kms,1,ic), & chem_bxe(jms,kms,1,ic), chem_bxe(jms,kms,1,ic), & chem_bys(ims,kms,1,ic), chem_bys(ims,kms,1,ic), & chem_bye(ims,kms,1,ic), chem_bye(ims,kms,1,ic), & chem_btxs(jms,kms,1,ic), chem_btxs(jms,kms,1,ic), & chem_btxe(jms,kms,1,ic), chem_btxe(jms,kms,1,ic), & chem_btys(ims,kms,1,ic), chem_btys(ims,kms,1,ic), & chem_btye(ims,kms,1,ic), chem_btye(ims,kms,1,ic), & !hcl-end no g_chem for now 't', config_flags, & config_flags%spec_bdy_width, grid%spec_zone, & grid%dtbc, & ids,ide, jds,jde, kds,kde, & ! domain dims ims,ime, jms,jme, kms,kme, & ! memory dims ips,ipe, jps,jpe, kps,kpe, & ! patch dims grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) ENDIF END DO chem_species_bdy_loop_3 ENDIF #endif tracer_species_bdy_loop_3 : DO im = PARAM_FIRST_SCALAR , num_tracer IF( ( config_flags%nested ) ) THEN CALL g_spec_bdy_final ( tracer(ims,kms,jms,im), g_tracer(ims,kms,jms,im), & grid%muts, grid%g_muts, grid%msfty, & tracer_bxs(jms,kms,1,im), g_tracer_bxs(jms,kms,1,im), & tracer_bxe(jms,kms,1,im), g_tracer_bxe(jms,kms,1,im), & tracer_bys(ims,kms,1,im), g_tracer_bys(ims,kms,1,im), & tracer_bye(ims,kms,1,im), g_tracer_bye(ims,kms,1,im), & tracer_btxs(jms,kms,1,im), g_tracer_btxs(jms,kms,1,im), & tracer_btxe(jms,kms,1,im), g_tracer_btxe(jms,kms,1,im), & tracer_btys(ims,kms,1,im), g_tracer_btys(ims,kms,1,im), & tracer_btye(ims,kms,1,im), g_tracer_btye(ims,kms,1,im), & 't', config_flags, & config_flags%spec_bdy_width, grid%spec_zone, & grid%dtbc, & ids,ide, jds,jde, kds,kde, & ! domain dims ims,ime, jms,jme, kms,kme, & ! memory dims ips,ipe, jps,jpe, kps,kpe, & ! patch dims grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) ENDIF END DO tracer_species_bdy_loop_3 scalar_species_bdy_loop_3 : DO is = PARAM_FIRST_SCALAR , num_3d_s IF( ( config_flags%nested ) ) THEN CALL g_spec_bdy_final ( scalar(ims,kms,jms,is), g_scalar(ims,kms,jms,is), & grid%muts, grid%g_muts, grid%msfty, & scalar_bxs(jms,kms,1,is), g_scalar_bxs(jms,kms,1,is), & scalar_bxe(jms,kms,1,is), g_scalar_bxe(jms,kms,1,is), & scalar_bys(ims,kms,1,is), g_scalar_bys(ims,kms,1,is), & scalar_bye(ims,kms,1,is), g_scalar_bye(ims,kms,1,is), & scalar_btxs(jms,kms,1,is), g_scalar_btxs(jms,kms,1,is), & scalar_btxe(jms,kms,1,is), g_scalar_btxe(jms,kms,1,is), & scalar_btys(ims,kms,1,is), g_scalar_btys(ims,kms,1,is), & scalar_btye(ims,kms,1,is), g_scalar_btye(ims,kms,1,is), & 't', config_flags, & config_flags%spec_bdy_width, grid%spec_zone, & grid%dtbc, & ids,ide, jds,jde, kds,kde, & ! domain dims ims,ime, jms,jme, kms,kme, & ! memory dims ips,ipe, jps,jpe, kps,kpe, & ! patch dims grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start , k_end ) ENDIF END DO scalar_species_bdy_loop_3 END DO tile_bc_loop_3 !$OMP END PARALLEL DO CALL wrf_debug ( 200 , ' end call g_spec_bdy_final' ) ENDIF ! dtbc will be read from basic state at every time step, so it need not to be updated here. ! ! IF( config_flags%specified .or. config_flags%nested ) THEN ! grid%dtbc = grid%dtbc + grid%dt ! ENDIF ! reset surface w for consistency #ifdef DM_PARALLEL # include "HALO_EM_C_TL.inc" # include "PERIOD_BDY_EM_E.inc" #endif CALL wrf_debug ( 10 , ' call g_set_w_surface' ) fill_w_flag = .false. !$OMP PARALLEL DO & !$OMP PRIVATE ( ij ) DO ij = 1 , grid%num_tiles CALL g_set_w_surface( config_flags, grid%znw, fill_w_flag, & grid%w_2,grid%g_w_2, grid%ht, & grid%u_2,grid%g_u_2, grid%v_2,grid%g_v_2, & grid%cf1, grid%cf2, grid%cf3, grid%rdx, grid%rdy,& grid%msftx, grid%msfty, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & grid%i_start(ij), grid%i_end(ij), & grid%j_start(ij), grid%j_end(ij), & k_start, k_end ) ! its, ite, jts, jte, k_start, min(k_end,kde-1), & END DO !$OMP END PARALLEL DO !----------------------------------------------------------- ! After all of the RK steps, after the microphysics, after p-rho-phi, ! after w, after filtering, we have data ready to use. !----------------------------------------------------------- CALL after_all_rk_steps ( grid, config_flags, & moist, chem, tracer, scalar, & th_phy, pi_phy, p_phy, rho_phy, & p8w, t8w, dz8w, & REAL(curr_secs,8), curr_secs2, & diag_flag, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & imsx, imex, jmsx, jmex, kmsx, kmex, & ipsx, ipex, jpsx, jpex, kpsx, kpex, & imsy, imey, jmsy, jmey, kmsy, kmey, & ipsy, ipey, jpsy, jpey, kpsy, kpey ) #ifdef DM_PARALLEL !----------------------------------------------------------------------- ! see above !-------------------------------------------------------------- CALL wrf_debug ( 200 , ' call HALO_RK_E' ) IF ( config_flags%h_mom_adv_order <= 4 ) THEN # include "HALO_EM_E_3_TL.inc" ELSE IF ( config_flags%h_mom_adv_order <= 6 ) THEN # include "HALO_EM_E_5_TL.inc" ELSE WRITE(wrf_err_message,*)'solve_em_tl: invalid h_mom_adv_order = ',config_flags%h_mom_adv_order CALL wrf_error_fatal(TRIM(wrf_err_message)) ENDIF #endif #ifdef DM_PARALLEL IF ( num_moist >= PARAM_FIRST_SCALAR ) THEN !----------------------------------------------------------------------- ! see above !-------------------------------------------------------------- CALL wrf_debug ( 200 , ' call HALO_RK_MOIST' ) IF ( config_flags%h_mom_adv_order <= 4 ) THEN # include "HALO_EM_MOIST_E_3_TL.inc" ELSE IF ( config_flags%h_mom_adv_order <= 6 ) THEN # include "HALO_EM_MOIST_E_5_TL.inc" ELSE WRITE(wrf_err_message,*)'solve_em_tl: invalid h_mom_adv_order = ',config_flags%h_mom_adv_order CALL wrf_error_fatal(TRIM(wrf_err_message)) ENDIF ENDIF IF ( num_chem >= PARAM_FIRST_SCALAR ) THEN !----------------------------------------------------------------------- ! see above !-------------------------------------------------------------- CALL wrf_debug ( 200 , ' call HALO_RK_CHEM' ) IF ( config_flags%h_mom_adv_order <= 4 ) THEN # include "HALO_EM_CHEM_E_3.inc" ELSE IF ( config_flags%h_mom_adv_order <= 6 ) THEN # include "HALO_EM_CHEM_E_5.inc" ELSE WRITE(wrf_err_message,*)'solve_em_tl: invalid h_mom_adv_order = ',config_flags%h_mom_adv_order CALL wrf_error_fatal(TRIM(wrf_err_message)) ENDIF ENDIF IF ( num_tracer >= PARAM_FIRST_SCALAR ) THEN !----------------------------------------------------------------------- ! see above !-------------------------------------------------------------- CALL wrf_debug ( 200 , ' call HALO_RK_TRACER' ) IF ( config_flags%h_mom_adv_order <= 4 ) THEN # include "HALO_EM_TRACER_E_3_TL.inc" ELSE IF ( config_flags%h_mom_adv_order <= 6 ) THEN # include "HALO_EM_TRACER_E_5_TL.inc" ELSE WRITE(wrf_err_message,*)'solve_em_tl: invalid h_mom_adv_order = ',config_flags%h_mom_adv_order CALL wrf_error_fatal(TRIM(wrf_err_message)) ENDIF ENDIF IF ( num_scalar >= PARAM_FIRST_SCALAR ) THEN !----------------------------------------------------------------------- ! see above !-------------------------------------------------------------- CALL wrf_debug ( 200 , ' call HALO_RK_SCALAR' ) IF ( config_flags%h_mom_adv_order <= 4 ) THEN # include "HALO_EM_SCALAR_E_3.inc" ELSE IF ( config_flags%h_mom_adv_order <= 6 ) THEN # include "HALO_EM_SCALAR_E_5.inc" ELSE WRITE(wrf_err_message,*)'solve_em_tl: invalid h_mom_adv_order = ',config_flags%h_mom_adv_order CALL wrf_error_fatal(TRIM(wrf_err_message)) ENDIF ENDIF #endif ! Max values of CFL for adaptive time step scheme DEALLOCATE(max_vert_cfl_tmp) DEALLOCATE(max_horiz_cfl_tmp) CALL wrf_debug ( 200 , ' call end of solve_em_tl' ) ! Finish timers if compiled with -DBENCH. #include "bench_solve_em_end.h" RETURN END SUBROUTINE solve_em_tl