source: palm/trunk/SOURCE/modules.f90 @ 49

 MODULE advection


!------------------------------------------------------------------------------!
! Actual revisions:
! -----------------
! +netcdf_64bit_3d, zu_s_inner, zw_w_inner, id_var_zusi_*, id_var_zwwi_*,
! ts_value
! -data_output_ts, dots_n
! arrays dots_label and dots_unit now dimensioned with dots_max
!
! Former revisions:
! -----------------
! $Id: modules.f90 48 2007-03-06 12:28:36Z raasch $
!
! 37 2007-03-01 08:33:54Z raasch
! +constant_top_heatflux, top_heatflux, use_top_fluxes, +arrays for top fluxes,
! +nzt_diff, default of bc_pt_t renamed "initial_gradient"
! Bugfix: p is not a pointer
!
! RCS Log replace by Id keyword, revision history cleaned up
!
! Revision 1.95  2007/02/11 13:18:30  raasch
! version 3.1b (last under RCS control)
!
! Revision 1.1  1997/07/24 11:21:26  raasch
! Initial revision
!
!
! Description:
! ------------
! Definition of variables for special advection schemes
!------------------------------------------------------------------------------!

    REAL ::  spl_gamma_x, spl_gamma_y

    REAL, DIMENSION(:), ALLOCATABLE   ::  aex, bex, dex, eex, spl_z_x, spl_z_y
    REAL, DIMENSION(:,:), ALLOCATABLE ::  spl_tri_x, spl_tri_y, spl_tri_zu, &
                                          spl_tri_zw

    SAVE

 END MODULE advection




 MODULE array_kind

!------------------------------------------------------------------------------!
! Description:
! ------------
! Definition of type parameters (used for the definition of single or double
! precision variables)
!------------------------------------------------------------------------------!

    INTEGER, PARAMETER ::  dpk = SELECTED_REAL_KIND( 12 ), &
                           spk = SELECTED_REAL_KIND( 6 )

    SAVE

 END MODULE array_kind




 MODULE arrays_3d

!------------------------------------------------------------------------------!
! Description:
! ------------
! Definition of all arrays defined on the computational grid
!------------------------------------------------------------------------------!

    USE array_kind

    REAL, DIMENSION(:), ALLOCATABLE ::                                         &
          ddzu, dd2zu, dzu, ddzw, dzw, km_damp_x, km_damp_y, l_grid, pt_init,  &
          q_init, rdf, ug, u_init, uvmean_outflow, uvmean_outflow_l, vg,       &
          v_init, zu, zw

    REAL, DIMENSION(:,:), ALLOCATABLE ::                                       &
          dzu_mg, dzw_mg, f1_mg, f2_mg, f3_mg, pt_slope_ref, qs, ts, us, z0

    REAL, DIMENSION(:,:), ALLOCATABLE, TARGET ::                               &
          qsws_1, qsws_2, qswst_1, qswst_2, rif_1, rif_2, shf_1, shf_2,        &
          tswst_1, tswst_2, usws_1, usws_2, vsws_1, vsws_2

    REAL, DIMENSION(:,:), POINTER ::                                           &
          qsws, qsws_m, qswst, qswst_m, rif, rif_m, shf, shf_m, tswst,         &
          tswst_m, usws, usws_m, vsws, vsws_m

    REAL, DIMENSION(:,:,:), ALLOCATABLE ::                                     &
          d, diss, l_wall, tend

    REAL, DIMENSION(:,:,:), ALLOCATABLE, TARGET ::                             &
          ql_v, ql_vp

    REAL, DIMENSION(:,:,:), ALLOCATABLE, TARGET ::                             &
          e_1, e_2, e_3, kh_1, kh_2, km_1, km_2, p, pt_1, pt_2, pt_3, q_1,     &
          q_2, q_3, ql_1, ql_2, u_1, u_2, u_3, v_1, v_2, v_3, vpt_1, vpt_2,    &
          w_1, w_2, w_3

    REAL, DIMENSION(:,:,:), POINTER ::                                         &
          e, e_m, e_p, kh, kh_m, km, km_m, pt, pt_m, pt_p, q, q_m, q_p, ql,    &
          ql_c, te_m, tpt_m, tq_m, tu_m, tv_m, tw_m, u, u_m, u_p, v, v_m, v_p, &
          vpt, vpt_m, w, w_m, w_p
                                                    

    SAVE

 END MODULE arrays_3d




 MODULE averaging

!------------------------------------------------------------------------------!
! Description:
! ------------
! Definition of variables needed for time-averaging of 2d/3d data
!------------------------------------------------------------------------------!

    REAL, DIMENSION(:,:), ALLOCATABLE ::  lwp_av, ts_av, us_av

    REAL, DIMENSION(:,:,:), ALLOCATABLE, TARGET :: &
          e_av, p_av, pc_av, pr_av, pt_av, q_av, ql_av, ql_c_av, ql_v_av, &
          ql_vp_av, qv_av, s_av, u_av, v_av, vpt_av, w_av

 END MODULE averaging




 MODULE cloud_parameters

!------------------------------------------------------------------------------!
! Description:
! ------------
! Definition of variables and constants for cloud physics
!------------------------------------------------------------------------------!

    REAL  ::  b_cond, cp = 1005.0, diff_coeff_l = 0.23E-4,                     &
              effective_coll_efficiency, l_d_cp, l_d_r, l_d_rv, l_v = 2.5E+06, &
              mass_of_solute, molecular_weight_of_solute,                      &
              prec_time_const = 0.001, ql_crit = 0.0005, rho_l = 1.0E3,        &
              r_d = 287.0, r_v = 461.51, rho_surface,                          &
              thermal_conductivity_l = 2.43E-2

    REAL, DIMENSION(:), ALLOCATABLE :: hydro_press, pt_d_t, t_d_pt

    SAVE

 END MODULE cloud_parameters




 MODULE constants

!------------------------------------------------------------------------------!
! Description:
! ------------
! Definition of general constants
!------------------------------------------------------------------------------!

    REAL    ::  pi = 3.141592654

    SAVE

 END MODULE constants




 MODULE control_parameters

!------------------------------------------------------------------------------!
! Description:
! ------------
! Definition of parameters for program control
!------------------------------------------------------------------------------!

    TYPE plot_precision
       CHARACTER (LEN=6) ::  variable
       INTEGER           ::  precision
    END TYPE plot_precision

    TYPE(plot_precision), DIMENSION(100) ::  plot_3d_precision =               &
                        (/ plot_precision( 'u', 2 ), plot_precision( 'v', 2 ), &
                           plot_precision( 'w', 2 ), plot_precision( 'p', 5 ), &
                           plot_precision( 'pt', 2 ),                          &
                           ( plot_precision( ' ', 1 ), i9 = 1,95 ) /)

    TYPE file_status
       LOGICAL ::  opened, opened_before
    END TYPE file_status

    TYPE(file_status), DIMENSION(200) :: openfile = file_status(.FALSE.,.FALSE.)


    CHARACTER (LEN=1)   ::  cycle_mg = 'w', timestep_reason = ' '
    CHARACTER (LEN=5)   ::  write_binary = 'false'
    CHARACTER (LEN=6)   ::  grid_matching = 'match'
    CHARACTER (LEN=8)   ::  run_date, run_time
    CHARACTER (LEN=9)   ::  simulated_time_chr
    CHARACTER (LEN=12)  ::  version = 'PALM   3.1c'
    CHARACTER (LEN=16)  ::  momentum_advec = 'pw-scheme', &
                            psolver = 'poisfft', &
                            scalar_advec = 'pw-scheme'
    CHARACTER (LEN=20)  ::  bc_e_b = 'neumann', bc_lr = 'cyclic', &
                            bc_ns = 'cyclic', bc_p_b = 'neumann', &
                            bc_p_t = 'dirichlet', bc_pt_b = 'dirichlet', &
                            bc_pt_t = 'initial_gradient', &
                            bc_q_b = 'dirichlet', bc_q_t = 'neumann', &
                            bc_s_b = 'dirichlet', bc_s_t = 'neumann', &
                            bc_uv_b = 'dirichlet', bc_uv_t = 'dirichlet', &
                            dissipation_1d = 'as_in_3d_model', &
                            fft_method = 'system-specific', &
                            mixing_length_1d = 'as_in_3d_model', &
                            random_generator = 'numerical-recipes', &
                            timestep_scheme = 'runge-kutta-3'
    CHARACTER (LEN=40)  ::  avs_data_file, topography = 'flat'
    CHARACTER (LEN=64)  ::  host
    CHARACTER (LEN=80)  ::  log_message, run_description_header, run_identifier
    CHARACTER (LEN=100) ::  initializing_actions = ' '

    CHARACTER (LEN=7),  DIMENSION(100) ::  do3d_comp_prec = ' '
    CHARACTER (LEN=10), DIMENSION(10)  ::  data_output_format = ' '
    CHARACTER (LEN=10), DIMENSION(100) ::  data_output = ' ',    &
                                           data_output_pr = ' ', &
                                           data_output_user = ' ', doav = ' '
    CHARACTER (LEN=20), DIMENSION(10)  ::  netcdf_precision = ' '

    CHARACTER (LEN=10), DIMENSION(0:1,100) ::  do2d = ' ', do3d = ' '

    INTEGER ::  average_count_pr = 0, average_count_sp = 0, &
                average_count_3d = 0, current_timestep_number = 0, &
                dist_range = 0, disturbance_level_ind_b, &
                disturbance_level_ind_t, doav_n = 0, dopr_n = 0, &
                dopr_time_count = 0, dopts_time_count = 0, &
                dosp_time_count = 0, dots_time_count = 0, &
                do2d_xy_n = 0, do2d_xz_n = 0, do2d_yz_n = 0, do3d_avs_n = 0, &
                dvrp_filecount = 0, dz_stretch_level_index, gamma_mg, &
                grid_level, ibc_e_b, ibc_p_b, ibc_p_t, ibc_pt_b, ibc_pt_t, &
                ibc_q_b, ibc_q_t, ibc_uv_b, ibc_uv_t, &
                inflow_disturbance_begin = -1, inflow_disturbance_end = -1, &
                intermediate_timestep_count, intermediate_timestep_count_max, &
                iran = -1234567, last_dt_change = 0, maximum_grid_level, &
                mgcycles = 0, mg_cycles = -1, mg_switch_to_pe0_level = 0, &
                ngsrb = 2, nsor = 20, nsor_ini = 100, n_sor, &
                normalizing_region = 0, nz_do1d, nz_do3d = -9999, &
                outflow_damping_width = -1, prt_time_count = 0, runnr = 0, &
                skip_do_avs = 0, timestep_count = 0

    INTEGER ::  dist_nxl(0:1), dist_nxr(0:1), dist_nyn(0:1), dist_nys(0:1), &
                do2d_no(0:1) = 0, do2d_xy_time_count(0:1), &
                do2d_xz_time_count(0:1), do2d_yz_time_count(0:1), &
                do3d_no(0:1) = 0, do3d_time_count(0:1), &
                pt_vertical_gradient_level_ind(10) = -9999, &
                q_vertical_gradient_level_ind(10) = -9999, &
                section(100,3), section_xy(100) = -9999, &
                section_xz(100) = -9999, section_yz(100) = -9999, &
                ug_vertical_gradient_level_ind(10) = -9999, &
                vg_vertical_gradient_level_ind(10) = -9999

    INTEGER, DIMENSION(:), ALLOCATABLE ::  grid_level_count

    LOGICAL ::  adjust_mixing_length = .FALSE., avs_output = .FALSE., &
                call_psolver_at_all_substeps = .TRUE., &
                cloud_droplets = .FALSE., cloud_physics = .FALSE., &
                conserve_volume_flow = .FALSE., constant_diffusion = .FALSE., &
                constant_heatflux = .TRUE., constant_top_heatflux = .TRUE., &
                constant_waterflux = .TRUE., create_disturbances = .TRUE., &
                cut_spline_overshoot = .TRUE., &
                data_output_2d_on_each_pe = .TRUE., do2d_at_begin = .FALSE., &
                do3d_at_begin = .FALSE., do3d_compress = .FALSE., &
                do_sum = .FALSE., dt_changed = .FALSE., dt_fixed = .FALSE., &
                disturbance_created = .FALSE., &
                first_call_advec_particles = .TRUE., &
                force_print_header = .FALSE., galilei_transformation = .FALSE.,&
                inflow_l = .FALSE., inflow_n = .FALSE., inflow_r = .FALSE., &
                inflow_s = .FALSE., iso2d_output = .FALSE., &
                mg_switch_to_pe0 = .FALSE., moisture = .FALSE., &
                netcdf_output = .FALSE., netcdf_64bit = .FALSE., &
                netcdf_64bit_3d = .TRUE., &
                outflow_l = .FALSE., outflow_n = .FALSE., outflow_r = .FALSE., &
                outflow_s = .FALSE., passive_scalar = .FALSE., &
                prandtl_layer = .TRUE., precipitation = .FALSE., &
                profil_output = .FALSE., radiation = .FALSE., &
                random_heatflux = .FALSE., run_control_header = .FALSE., &
                sloping_surface = .FALSE., stop_dt = .FALSE., &
                terminate_run = .FALSE., use_prior_plot1d_parameters = .FALSE.,&
                use_surface_fluxes = .FALSE., use_top_fluxes = .FALSE., &
                use_ug_for_galilei_tr = .TRUE., &
                use_upstream_for_tke = .FALSE., wall_adjustment = .TRUE.

    LOGICAL ::  data_output_xy(0:1) = .FALSE., data_output_xz(0:1) = .FALSE., &
                data_output_yz(0:1) = .FALSE.

    REAL ::  advected_distance_x = 0.0, advected_distance_y = 0.0, &
             alpha_surface = 0.0, asselin_filter_factor = 0.1, &
             averaging_interval = 0.0, averaging_interval_pr = 9999999.9, &
             averaging_interval_sp = 9999999.9, bc_pt_t_val, bc_q_t_val, &
             building_height = 50.0, building_length_x = 50.0, &
             building_length_y = 50.0, building_wall_left = 9999999.9, &
             building_wall_south = 9999999.9, cfl_factor = -1.0, &
             cos_alpha_surface, disturbance_amplitude = 0.25, &
             disturbance_energy_limit = 0.01, disturbance_level_b = -1.0, &
             disturbance_level_t = -1.0, dt = -1.0, dt_averaging_input = 0.0, &
             dt_averaging_input_pr = 9999999.9, dt_data_output = 9999999.9, &
             dt_data_output_av = 9999999.9, dt_disturb = 9999999.9, &
             dt_dopr = 9999999.9, dt_dopr_listing = 9999999.9, &
             dt_dopts = 9999999.9, dt_dosp = 9999999.9, dt_dots = 9999999.9, &
             dt_do2d_xy = 9999999.9, dt_do2d_xz = 9999999.9, &
             dt_do2d_yz = 9999999.9, dt_do3d = 9999999.9, dt_dvrp = 9999999.9, &
             dt_max = 20.0, dt_prel = 9999999.9, dt_restart = 9999999.9, &
             dt_run_control = 60.0, dt_3d = -1.0, dz = -1.0, &
             dz_max = 9999999.9, dz_stretch_factor = 1.08, &
             dz_stretch_level = 100000.0, e_min = 0.0, end_time = 0.0, &
             f = 0.0, fs = 0.0, g = 9.81, kappa = 0.4, km_constant = -1.0, &
             km_damp_max = -1.0, long_filter_factor = 0.0, &
             maximum_cpu_time_allowed = 0.0, molecular_viscosity = 1.461E-5, &
             old_dt = 1.0E-10, omega = 7.29212E-5, omega_sor = 1.8, &
             overshoot_limit_e = 0.0, overshoot_limit_pt = 0.0, &
             overshoot_limit_u = 0.0, overshoot_limit_v = 0.0, &
             overshoot_limit_w = 0.0, particle_maximum_age = 9999999.9, &
             phi = 55.0, prandtl_number = 1.0, pt_slope_offset = 0.0, &
             pt_surface = 300.0, pt_surface_initial_change = 0.0, &
             q_surface = 0.0, q_surface_initial_change = 0.0, &
             rayleigh_damping_factor = -1.0, rayleigh_damping_height = -1.0, &
             residual_limit = 1.0E-4, restart_time = 9999999.9, rif_max = 1.0, &
             rif_min = -5.0, roughness_length = 0.1, simulated_time = 0.0, &
             simulated_time_at_begin, sin_alpha_surface, &
             skip_time_data_output = 0.0, skip_time_data_output_av = 9999999.9,&
             skip_time_dopr = 9999999.9, skip_time_dosp = 9999999.9, &
             skip_time_do2d_xy = 9999999.9, skip_time_do2d_xz = 9999999.9, &
             skip_time_do2d_yz = 9999999.9, skip_time_do3d = 9999999.9, &
             surface_heatflux = 9999999.9, surface_pressure = 1013.25, &
             surface_scalarflux = 0.0, surface_waterflux = 0.0, &
             s_surface = 0.0, s_surface_initial_change = 0.0, &
             termination_time_needed = -1.0, time_disturb = 0.0, &
             time_dopr = 0.0, time_dopr_av = 0.0, time_dopr_listing = 0.0, &
             time_dopts = 0.0, time_dosp = 0.0, time_dosp_av = 0.0, &
             time_dots = 0.0, time_do2d_xy = 0.0, time_do2d_xz = 0.0, &
             time_do2d_yz = 0.0, time_do3d = 0.0, time_do_av = 0.0, &
             time_do_sla = 0.0, time_dvrp = 0.0, time_prel = 0.0, &
             time_restart = 9999999.9, time_run_control = 0.0, &
             top_heatflux = 9999999.9, ug_surface = 0.0, u_gtrans = 0.0, &
             ups_limit_e = 0.0, ups_limit_pt = 0.0, ups_limit_u = 0.0, &
             ups_limit_v = 0.0, ups_limit_w = 0.0, vg_surface = 0.0, &
             v_gtrans = 0.0, wall_adjustment_factor = 1.8, z_max_do1d = -1.0, &
             z_max_do1d_normalized = -1.0, z_max_do2d = -1.0

    REAL ::  do2d_xy_last_time(0:1) = -1.0, do2d_xz_last_time(0:1) = -1.0, &
             do2d_yz_last_time(0:1) = -1.0, pt_vertical_gradient(10) = 0.0, &
             pt_vertical_gradient_level(10) = -1.0, &
             q_vertical_gradient(10) = 0.0, &
             q_vertical_gradient_level(10) = -1.0, &
             s_vertical_gradient(10) = 0.0, &
             s_vertical_gradient_level(10) = -1.0, threshold(20) = 0.0, &
             tsc(10) = (/ 0.0, 1.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0 /), &
             ug_vertical_gradient(10) = 0.0, &
             ug_vertical_gradient_level(10) = -1.0, &
             vg_vertical_gradient(10) = 0.0, &
             vg_vertical_gradient_level(10) = -1.0, &
             volume_flow(1:2) = 0.0, volume_flow_area(1:2) = 0.0, &
             volume_flow_initial(1:2) = 0.0, wall_heatflux(0:4) = 0.0


    SAVE

 END MODULE control_parameters




 MODULE cpulog

!------------------------------------------------------------------------------!
! Description:
! ------------
! Definition of variables for cpu-time measurements
!------------------------------------------------------------------------------!

    REAL ::  initial_wallclock_time

    TYPE logpoint
       REAL               ::  isum, ivect, mean, mtime, mtimevec, sum, vector
       INTEGER            ::  counts
       CHARACTER (LEN=20) ::  place
    END TYPE logpoint

    TYPE(logpoint), DIMENSION(100) ::  log_point = logpoint( 0.0, 0.0, 0.0,   &
                                       0.0, 0.0, 0.0, 0.0, 0, ' ' ),          &
                                       log_point_s = logpoint( 0.0, 0.0, 0.0, &
                                       0.0, 0.0, 0.0, 0.0, 0, ' ' )

    SAVE

 END MODULE cpulog




 MODULE dvrp_variables

!------------------------------------------------------------------------------!
! Description:
! ------------
! Definition of variables used with dvrp-software
!------------------------------------------------------------------------------!

    CHARACTER (LEN=10) ::  dvrp_output = 'rtsp'

    CHARACTER (LEN=20), DIMENSION(10) ::  mode_dvrp = &
                                     (/ ( '                    ', i9 = 1,10 ) /)

    CHARACTER (LEN=80) ::  dvrp_directory = 'default',                    &
                           dvrp_file      = 'default',                    &
                           dvrp_host      = 'origin.rvs.uni-hannover.de', &
                           dvrp_password  = '********',                   &
                           dvrp_username  = ' '

    INTEGER ::  dvrp_colourtable_entries = 4, islice_dvrp, nx_dvrp, ny_dvrp, &
                nz_dvrp

    INTEGER, DIMENSION(10) ::  slicer_position_dvrp

    LOGICAL ::  cyclic_dvrp = .FALSE., lock_steering_update = .FALSE., &
                use_seperate_pe_for_dvrp_output = .FALSE.

    REAL    ::  superelevation = 1.0, superelevation_x = 1.0, &
                superelevation_y = 1.0

#if defined( __decalpha )
    REAL, DIMENSION(2,10)  ::  slicer_range_limits_dvrp = (/ &
                                -1.0, 1.0, -1.0, 1.0, -1.0, 1.0, -1.0, 1.0, &
                                -1.0, 1.0, -1.0, 1.0, -1.0, 1.0, -1.0, 1.0, &
                                -1.0, 1.0, -1.0, 1.0 /)

    REAL, DIMENSION(2,100) ::  interval_values_dvrp, interval_h_dvrp =       &
                               (/ 270.0, 225.0, 225.0, 180.0, 70.0, 25.0,    &
                                  25.0, -25.0, ( 0.0, i9 = 1, 192 ) /),      &
                               interval_l_dvrp = 0.5, interval_s_dvrp = 1.0, &
                               interval_a_dvrp = 0.0
#else
    REAL, DIMENSION(2,10)  ::  slicer_range_limits_dvrp

    REAL, DIMENSION(2,100) ::  interval_values_dvrp, interval_h_dvrp,        &
                               interval_l_dvrp = 0.5, interval_s_dvrp = 1.0, &
                               interval_a_dvrp = 0.0

    DATA  slicer_range_limits_dvrp / -1.0, 1.0, -1.0, 1.0, -1.0, 1.0, &
                                     -1.0, 1.0, -1.0, 1.0, -1.0, 1.0, &
                                     -1.0, 1.0, -1.0, 1.0, -1.0, 1.0, &
                                     -1.0, 1.0 /

    DATA  interval_h_dvrp / 270.0, 225.0, 225.0, 180.0, 70.0, 25.0, &
                            25.0, -25.0, 192 * 0.0 /
#endif

    REAL, DIMENSION(:), ALLOCATABLE ::  xcoor_dvrp, ycoor_dvrp, zcoor_dvrp

    TYPE steering
       CHARACTER (LEN=20) ::  name
       REAL               ::  min, max
       INTEGER            ::  imin, imax
    END TYPE steering

    TYPE(steering), DIMENSION(:), ALLOCATABLE ::  steering_dvrp

    SAVE

 END MODULE dvrp_variables




 MODULE grid_variables

!------------------------------------------------------------------------------!
! Description:
! ------------
! Definition of grid spacings
!------------------------------------------------------------------------------!

    REAL ::  ddx, ddx2, dx = 1.0, dx2, ddy, ddy2, dy = 1.0, dy2

    REAL, DIMENSION(:), ALLOCATABLE ::  ddx2_mg, ddy2_mg

    REAL, DIMENSION(:,:), ALLOCATABLE ::  fwxm, fwxp, fwym, fwyp, fxm, fxp,   &
                                          fym, fyp, wall_e_x, wall_e_y,       &
                                          wall_u, wall_v, wall_w_x, wall_w_y, &
                                          zu_s_inner, zw_w_inner

    SAVE

 END MODULE grid_variables




 MODULE indices

!------------------------------------------------------------------------------!
! Description:
! ------------
! Definition of array bounds and number of gridpoints
!------------------------------------------------------------------------------!

    INTEGER ::  ngp_sums, nnx, nx = 0, nxa, nxl, nxr, nxra, nny, ny = 0, nya,  &
                nyn, nyna, nys, nnz, nz = 0, nza, nzb, nzb_diff, nzt, nzta,    &
                nzt_diff, uxrp = 0, vynp = 0

    INTEGER, DIMENSION(:), ALLOCATABLE ::                                      &
                ngp_2dh, ngp_3d, ngp_3d_inner,                                 &
                nnx_pe, nny_pe, nxl_mg, nxr_mg, nyn_mg, nys_mg, nzt_mg

    INTEGER, DIMENSION(:,:), ALLOCATABLE ::                                    &
                ngp_2dh_outer, mg_loc_ind, nzb_diff_s_inner, nzb_diff_s_outer, &
                nzb_diff_u, nzb_diff_v, nzb_inner, nzb_outer, nzb_s_inner,     &
                nzb_s_outer, nzb_u_inner, nzb_u_outer, nzb_v_inner,            &
                nzb_v_outer, nzb_w_inner, nzb_w_outer, nzb_2d

    SAVE

 END MODULE indices




 MODULE interfaces

!------------------------------------------------------------------------------!
! Description:
! ------------
! Interfaces for special subroutines which use optional parameters
!------------------------------------------------------------------------------!

    INTERFACE

       SUBROUTINE cpu_log( log_event, place, modus, barrierwait )

          USE cpulog

          CHARACTER (LEN=*)           ::  modus, place
          CHARACTER (LEN=*), OPTIONAL ::  barrierwait
          TYPE(logpoint)              ::  log_event

       END SUBROUTINE cpu_log

    END INTERFACE



    INTERFACE

       SUBROUTINE global_min_max ( i1, i2, j1, j2, k1, k2, feld, mode, wert, &
                                   wert_ijk, wert1, wert1_ijk )
          CHARACTER (LEN=*), INTENT(IN) ::  mode
          INTEGER, INTENT(IN)           ::  i1, i2, j1, j2, k1, k2
          INTEGER                       ::  wert_ijk(3)
          INTEGER, OPTIONAL             ::  wert1_ijk(3)
          REAL                          ::  wert
          REAL, OPTIONAL                ::  wert1
          REAL, INTENT(IN)              ::  feld(i1:i2,j1:j2,k1:k2)

       END SUBROUTINE global_min_max

    END INTERFACE

    SAVE

 END MODULE interfaces



 MODULE pointer_interfaces

!------------------------------------------------------------------------------!
! Description:
! ------------
! Interfaces for subroutines with pointer arguments called in
! prognostic_equations
!------------------------------------------------------------------------------!

    INTERFACE

       SUBROUTINE advec_s_bc( sk, sk_char )

          CHARACTER (LEN=*), INTENT(IN)   ::  sk_char
          REAL, DIMENSION(:,:,:), POINTER ::  sk

       END SUBROUTINE advec_s_bc

    END INTERFACE


    SAVE

 END MODULE pointer_interfaces




 MODULE model_1d

!------------------------------------------------------------------------------!
! Description:
! ------------
! Definition of variables for the 1D-model
!------------------------------------------------------------------------------!

    INTEGER ::  current_timestep_number_1d = 0, damp_level_ind_1d, &
                last_dt_change_1d = 0 

    LOGICAL ::  run_control_header_1d = .FALSE., stop_dt_1d = .FALSE. 

    REAL ::     damp_level_1d = -1.0, dt_1d = 60.0, dt_max_1d = 300.0, &
                dt_pr_1d = 9999999.9, dt_run_control_1d = 60.0, &
                end_time_1d = 864000.0, old_dt_1d = 1.0E-10, &
                qs1d, simulated_time_1d = 0.0, time_pr_1d = 0.0, &
                time_run_control_1d = 0.0, ts1d, us1d, usws1d, usws1d_m, &
                vsws1d, vsws1d_m, z01d


    REAL, DIMENSION(:), ALLOCATABLE ::  e1d, e1d_m, e1d_p, kh1d, kh1d_m, km1d, &
                                        km1d_m, l_black, l1d, l1d_m, rif1d,    &
                                        te_e, te_em, te_u, te_um, te_v, te_vm, &
                                        u1d, u1d_m, u1d_p, v1d, v1d_m, v1d_p

    SAVE

 END MODULE model_1d




 MODULE netcdf_control

!------------------------------------------------------------------------------!
! Description:
! ------------
! Definition of parameters and variables for netcdf control.
!------------------------------------------------------------------------------!

#if defined( __netcdf )
    USE netcdf
#endif

    INTEGER, PARAMETER ::  dopr_norm_num = 7, dopts_num = 26, dots_max = 100, &
                           replace_num = 6

    INTEGER ::  dots_num = 22

    CHARACTER, DIMENSION( replace_num ) :: &
                           replace_char = (/ '''', '"', '*', '/', '(', ')' /), &
                           replace_by   = (/ 'p' , 'p', 's', 'o', '_', '_' /)

    CHARACTER (LEN=6), DIMENSION(dopr_norm_num) ::  dopr_norm_names =   &
         (/ 'wpt0  ', 'ws2   ', 'tsw2  ', 'ws3   ', 'ws2tsw', 'wstsw2', &
            'z_i   ' /)

    CHARACTER (LEN=6), DIMENSION(dopr_norm_num) ::  dopr_norm_longnames = &
         (/ 'wpt0  ', 'w*2   ', 't*w2  ', 'w*3   ', 'w*2t*w', 'w*t*w2',   &
            'z_i   ' /)

    CHARACTER (LEN=7), DIMENSION(dopts_num) :: dopts_label = &
          (/ 'tnpt   ', 'x_     ', 'y_     ', 'z_     ', 'z_abs  ', 'u      ', &
             'v      ', 'w      ', 'u"     ', 'v"     ', 'w"     ', 'npt_up ', &
             'w_up   ', 'w_down ', 'npt_max', 'npt_min', 'x*2    ', 'y*2    ', &
             'z*2    ', 'u*2    ', 'v*2    ', 'w*2    ', 'u"2    ', 'v"2    ', &
             'w"2    ', 'npt*2  ' /)

    CHARACTER (LEN=7), DIMENSION(dopts_num) :: dopts_unit = &
          (/ 'number ', 'm      ', 'm      ', 'm      ', 'm      ', 'm/s    ', &
             'm/s    ', 'm/s    ', 'm/s    ', 'm/s    ', 'm/s    ', 'number ', &
             'm/s    ', 'm/s    ', 'number ', 'number ', 'm2     ', 'm2     ', &
             'm2     ', 'm2/s2  ', 'm2/s2  ', 'm2/s2  ', 'm2/s2  ', 'm2/s2  ', &
             'm2/s2  ', 'number2' /)

    CHARACTER (LEN=7), DIMENSION(dots_max) :: dots_label = &
          (/ 'E      ', 'E*     ', 'dt     ', 'u*     ', 'th*    ', 'umax   ', &
             'vmax   ', 'wmax   ', 'div_new', 'div_old', 'z_i_wpt', 'z_i_pt ', &
             'w*     ', 'w"pt"0 ', 'w"pt"  ', 'wpt    ', 'pt(0)  ', 'pt(zp) ', &
             'splptx ', 'splpty ', 'splptz ', 'mo_L   ',                       &
             ( 'unknown', i9 = 1, 78) /)

    CHARACTER (LEN=7), DIMENSION(dots_max) :: dots_unit = &
          (/ 'm2/s2  ', 'm2/s2  ', 's      ', 'm/s    ', 'K      ', 'm/s    ', &
             'm/s    ', 'm/s    ', 's-1    ', 's-1    ', 'm      ', 'm      ', &
             'm/s    ', 'K m/s  ', 'K m/s  ', 'k m/s  ', 'K      ', 'K      ', &
             '%      ', '%      ', '%      ', 'm      ',                       &
             ( 'unknown', i9 = 1, 78 ) /)

    CHARACTER (LEN=7), DIMENSION(100) ::  dopr_unit = 'unknown'

    CHARACTER (LEN=7), DIMENSION(0:1,100) ::  do2d_unit, do3d_unit

    CHARACTER (LEN=16), DIMENSION(25) ::  prt_var_names = &
          (/ 'pt_age          ', 'pt_dvrp_size    ', 'pt_origin_x     ', &
             'pt_origin_y     ', 'pt_origin_z     ', 'pt_radius       ', &
             'pt_speed_x      ', 'pt_speed_y      ', 'pt_speed_z      ', &
             'pt_weight_factor', 'pt_x            ', 'pt_y            ', &
             'pt_z            ', 'pt_color        ', 'pt_group        ', &
             'pt_tailpoints   ', 'pt_tail_id      ', 'pt_density_ratio', &
             'pt_exp_arg      ', 'pt_exp_term     ', 'not_used        ', &
             'not_used        ', 'not_used        ', 'not_used        ', &
             'not_used        ' /)

    CHARACTER (LEN=16), DIMENSION(25) ::  prt_var_units = &
          (/ 'seconds         ', 'meters          ', 'meters          ', &
             'meters          ', 'meters          ', 'meters          ', &
             'm/s             ', 'm/s             ', 'm/s             ', &
             'factor          ', 'meters          ', 'meters          ', &
             'meters          ', 'none            ', 'none            ', &
             'none            ', 'none            ', 'ratio           ', &
             'none            ', 'none            ', 'not_used        ', &
             'not_used        ', 'not_used        ', 'not_used        ', &
             'not_used        ' /)

    INTEGER ::  id_dim_prtnum, id_dim_time_pr, id_dim_time_prt, &
                id_dim_time_pts, id_dim_time_sp, id_dim_time_ts, id_dim_x_sp, &
                id_dim_y_sp, id_dim_zu_sp, id_dim_zw_sp, id_set_pr, &
                id_set_prt, id_set_pts, id_set_sp, id_set_ts, id_var_prtnum, &
                id_var_rnop_prt, id_var_time_pr, id_var_time_prt, &
                id_var_time_pts, id_var_time_sp, id_var_time_ts, id_var_x_sp, &
                id_var_y_sp, id_var_zu_sp, id_var_zw_sp, nc_stat

    INTEGER, DIMENSION(0:1) ::  id_dim_time_xy, id_dim_time_xz, &
                id_dim_time_yz, id_dim_time_3d, id_dim_x_xy, id_dim_xu_xy, &
                id_dim_x_xz, id_dim_xu_xz, id_dim_x_yz, id_dim_xu_yz, &
                id_dim_x_3d, id_dim_xu_3d, id_dim_y_xy, id_dim_yv_xy, &
                id_dim_y_xz, id_dim_yv_xz, id_dim_y_yz, id_dim_yv_yz, &
                id_dim_y_3d, id_dim_yv_3d, id_dim_zu_xy, id_dim_zu1_xy, &
                id_dim_zu_xz, id_dim_zu_yz, id_dim_zu_3d, id_dim_zw_xy, &
                id_dim_zw_xz, id_dim_zw_yz, id_dim_zw_3d, id_set_xy, &
                id_set_xz, id_set_yz, id_set_3d, id_var_ind_x_yz, &
                id_var_ind_y_xz, id_var_ind_z_xy, id_var_time_xy, &
                id_var_time_xz, id_var_time_yz, id_var_time_3d, id_var_x_xy, &
                id_var_xu_xy, id_var_x_xz, id_var_xu_xz, id_var_x_yz, &
                id_var_xu_yz, id_var_x_3d, id_var_xu_3d, id_var_y_xy, &
                id_var_yv_xy, id_var_y_xz, id_var_yv_xz, id_var_y_yz, &
                id_var_yv_yz, id_var_y_3d, id_var_yv_3d, id_var_zusi_xy, &
                id_var_zusi_3d, id_var_zu_xy, id_var_zu1_xy, id_var_zu_xz, &
                id_var_zu_yz, id_var_zu_3d, id_var_zwwi_xy, id_var_zwwi_3d, &
                id_var_zw_xy, id_var_zw_xz, id_var_zw_yz, id_var_zw_3d

    INTEGER, DIMENSION(10)  ::  id_var_dospx, id_var_dospy, nc_precision 
    INTEGER, DIMENSION(20)  ::  id_var_prt
    INTEGER, DIMENSION(dopr_norm_num) ::  id_var_norm_dopr

    INTEGER, DIMENSION(dopts_num,0:10) ::  id_var_dopts
    INTEGER, DIMENSION(0:1,100)        ::  id_var_do2d, id_var_do3d
    INTEGER, DIMENSION(100,0:9)        ::  id_dim_z_pr, id_var_dopr, &
                                           id_var_z_pr
    INTEGER, DIMENSION(dots_max,0:9)   ::  id_var_dots


    SAVE

 END MODULE netcdf_control



 MODULE particle_attributes

!------------------------------------------------------------------------------!
! Description:
! ------------
! Definition of variables used to compute particle transport
!------------------------------------------------------------------------------!

    USE array_kind

    CHARACTER (LEN=15)  ::  bc_par_lr = 'cyclic',  bc_par_ns = 'cyclic', &
                            bc_par_b  = 'reflect', bc_par_t  = 'absorb'

#if defined( __parallel )
    INTEGER ::  mpi_particle_type
#endif
    INTEGER ::  ibc_par_lr, ibc_par_ns, ibc_par_b, ibc_par_t,                  &
                iran_part = -1234567, maximum_number_of_particles = 1000,      &
                maximum_number_of_tailpoints = 100,                            &
                maximum_number_of_tails = 0,                                   &
                number_of_initial_particles = 0, number_of_particles = 0,      &
                number_of_particle_groups = 1, number_of_tails = 0,            &
                number_of_initial_tails = 0, particles_per_point = 1,          &
                particle_file_count = 0, skip_particles_for_tail = 100,        &
                total_number_of_particles, total_number_of_tails = 0

    INTEGER, PARAMETER ::  max_number_of_particle_groups = 10

    INTEGER, DIMENSION(:), ALLOCATABLE     ::  new_tail_id
    INTEGER, DIMENSION(:,:,:), ALLOCATABLE ::  prt_count, prt_start_index

    LOGICAL ::  particle_advection = .FALSE., random_start_position = .FALSE., &
                read_particles_from_restartfile = .TRUE.,                      &
                uniform_particles = .TRUE., use_particle_tails = .FALSE.,      &
                use_sgs_for_particles = .FALSE.,                               &
                vertical_particle_advection = .TRUE.,                          &
                write_particle_statistics = .FALSE.
    LOGICAL, DIMENSION(:), ALLOCATABLE ::  particle_mask, tail_mask

    REAL    ::  c_0 = 3.0, dt_min_part = 0.0002,                               &
                dt_write_particle_data = 9999999.9, dvrp_psize = 9999999.9,    &
                end_time_prel = 9999999.9, initial_weighting_factor = 1.0,     &
                maximum_tailpoint_age = 100000.0,                              &
                minimum_tailpoint_distance = 0.0,                              &
                particle_advection_start = 0.0, sgs_wfu_part = 0.3333333,      &
                sgs_wfv_part = 0.3333333, sgs_wfw_part = 0.3333333,            &
                time_write_particle_data = 0.0

    REAL, DIMENSION(max_number_of_particle_groups) ::  &
                density_ratio = 9999999.9, pdx = 9999999.9, pdy = 9999999.9, &
                pdz = 9999999.9, psb = 9999999.9, psl = 9999999.9,           &
                psn = 9999999.9, psr = 9999999.9, pss = 9999999.9,           &
                pst = 9999999.9, radius = 9999999.9

    REAL, DIMENSION(:,:,:), ALLOCATABLE ::  particle_tail_coordinates


    TYPE particle_type
       SEQUENCE
       REAL    ::  age, dt_sum, dvrp_psize, e_m, origin_x, origin_y, origin_z, &
                   radius, speed_x, speed_x_sgs, speed_y, speed_y_sgs,         &
                   speed_z, speed_z_sgs, weight_factor, x, y, z
       INTEGER ::  color, group, tailpoints, tail_id
    END TYPE particle_type

    TYPE(particle_type), DIMENSION(:), ALLOCATABLE ::  initial_particles, &
                                                       particles

    TYPE particle_groups_type
       SEQUENCE
       REAL    ::  density_ratio, radius, exp_arg, exp_term
    END TYPE particle_groups_type

    TYPE(particle_groups_type), DIMENSION(max_number_of_particle_groups) ::&
                   particle_groups

    SAVE

 END MODULE particle_attributes





 MODULE pegrid

!------------------------------------------------------------------------------!
! Description:
! ------------
! Definition of variables which define processor topology and the exchange of
! ghost point layers. This modules must be placed in all routines which contain
! MPI-calls.
!------------------------------------------------------------------------------!

#if defined( __parallel )
#if defined( __lcmuk )
    USE MPI
!    INCLUDE "mpif.h"
#else
    INCLUDE "mpif.h"
#endif
#endif
    CHARACTER(LEN=5)       ::  myid_char = '', myid_char_14 = ''
    INTEGER                ::  myid=0, npex = -1, npey = -1, numprocs = 1, &
                               tasks_per_node = -9999, threads_per_task = 1

#if defined( __parallel )
    INTEGER ::  comm1dx, comm1dy, comm2d, comm_palm, ierr, myidx, myidy,       &
                ndim = 2, ngp_y, ngp_yz_p, pleft, pnorth, pright, psouth,      &
                sendrecvcount_xy, sendrecvcount_yz, sendrecvcount_zx,          &
                sendrecvcount_zyd, sendrecvcount_yxd,                          &
                type_x, type_x_int, type_xz_p, ibuf(12), pcoord(2), pdims(2),  &
                status(MPI_STATUS_SIZE)

    INTEGER, DIMENSION(:), ALLOCATABLE ::  ngp_yz, type_xz

    LOGICAL ::  reorder = .TRUE.
    LOGICAL, DIMENSION(2) ::  cyclic = (/ .TRUE. , .TRUE. /), &
                              remain_dims
#endif

    SAVE

 END MODULE pegrid




 MODULE profil_parameter

!------------------------------------------------------------------------------!
! Description:
! ------------
! Definition of variables which control PROFIL-output
!------------------------------------------------------------------------------!

    INTEGER, PARAMETER ::  crmax = 100

    CHARACTER (LEN=10), DIMENSION(100) ::  dopr_label = ' '

    CHARACTER (LEN=10), DIMENSION(crmax) ::  cross_normalized_x = ' ', &
                                             cross_normalized_y = ' '

    CHARACTER (LEN=20), DIMENSION(20) ::  cross_ts_profiles = &
                           (/ ' E E*               ', ' dt                 ', &
                              ' u* w*              ', ' th*                ', &
                              ' umax vmax wmax     ', ' div_old div_new    ', &
                              ' z_i_wpt z_i_pt     ', ' w"pt"0 w"pt" wpt   ', &
                              ' pt(0) pt(zp)       ', ' splux spluy spluz  ', &
                              ' L                  ',                         &
                            ( '                    ', i9 = 1, 9 ) /)

    CHARACTER (LEN=40), DIMENSION(crmax) ::  cross_xtext = &
                           (/ 'windspeed in ms>->1         ', &
                              'pot. temperature in K       ', &
                              'heat flux in K ms>->1       ', &
                              'momentum flux in m>2s>2     ', &
                              'eddy diffusivity in m>2s>->1', &
                              'mixing length in m          ', &
                            ( '                            ', i9 = 1, 94 ) /)

    CHARACTER (LEN=100), DIMENSION(crmax) ::  cross_profiles = &
                           (/ ' u v                           ', &
                              ' pt                            ', &
                              ' w"pt" w*pt* w*pt*BC wpt wptBC ', &
                              ' w"u" w*u* wu w"v" w*v* wv     ', &
                              ' km kh                         ', &
                              ' l                             ', &
                         ( '                               ', i9 = 1, 94 ) /)

    INTEGER ::  profile_columns = 3, profile_rows = 2, profile_number = 0

    INTEGER ::  cross_linecolors(100,crmax) = 1, &
                cross_linestyles(100,crmax) = 0, &
                cross_profile_numbers(100,crmax) = 0, &
                cross_pnc_local(crmax), cross_profile_number_count(crmax) = 0, &
                cross_ts_numbers(crmax,crmax) = 0, &
                cross_ts_number_count(crmax) = 0, dopr_crossindex(100) = 0, &
                dopr_index(100) = 0, dopr_initial_index(100) = 0, &
                dots_crossindex(100) = 0, dots_index(100) = 0, &
                linecolors(10) = (/ 2, 3, 4,  5, 7, 8, 12, 15, 16, 23 /), &
                linestyles(11) = (/ 0, 7, 3, 10, 4, 1,  9,  2,  5,  8, 6 /)
                

    REAL ::  cross_normx_factor(100,crmax) = 1.0, &
             cross_normy_factor(100,crmax) = 1.0, &
             cross_ts_uymax(20) = &
                             (/ 999.999, 999.999, 999.999, 999.999, 999.999,   &
                                999.999, 999.999, 999.999, 999.999, 999.999,   &
                                999.999, 999.999, 999.999, 999.999, 999.999,   &
                                999.999, 999.999, 999.999, 999.999, 999.999 /),&
             cross_ts_uymax_computed(20) = 999.999, &
             cross_ts_uymin(20) = &
                             (/ 999.999, 999.999, 999.999,  -5.000, 999.999,   &
                                999.999,   0.000, 999.999, 999.999, 999.999,   &
                                999.999, 999.999, 999.999, 999.999, 999.999,   &
                                999.999, 999.999, 999.999, 999.999, 999.999 /),&
             cross_ts_uymin_computed(20) = 999.999, &
             cross_uxmax(crmax) = 0.0, cross_uxmax_computed(crmax) = -1.0, &
             cross_uxmax_normalized(crmax) = 0.0, &
             cross_uxmax_normalized_computed(crmax) = -1.0, &
             cross_uxmin(crmax) = 0.0, cross_uxmin_computed(crmax) =  1.0, &
             cross_uxmin_normalized(crmax) = 0.0, &
             cross_uxmin_normalized_computed(crmax) = 1.0, &
             cross_uymax(crmax), cross_uymin(crmax)

    SAVE

 END MODULE profil_parameter




 MODULE spectrum

!------------------------------------------------------------------------------!
! Description:
! ------------
! Definition of quantities used for computing spectra
!------------------------------------------------------------------------------!

    CHARACTER (LEN=6),  DIMENSION(1:5) ::  header_char = (/ 'PS(u) ', 'PS(v) ',&
                                           'PS(w) ', 'PS(pt)', 'PS(q) ' /)
    CHARACTER (LEN=2),  DIMENSION(10)  ::  spectra_direction = 'x'
    CHARACTER (LEN=10), DIMENSION(10)  ::  data_output_sp  = ' '
    CHARACTER (LEN=25), DIMENSION(1:5) ::  utext_char =                    &
                                           (/ '-power spectrum of u     ', &
                                              '-power spectrum of v     ', &
                                              '-power spectrum of w     ', &
                                              '-power spectrum of ^1185 ', &
                                              '-power spectrum of q     ' /)
    CHARACTER (LEN=39), DIMENSION(1:5) ::  ytext_char =                        &
                                 (/ 'k ^2236 ^2566^2569<u(k) in m>2s>->2    ', &
                                    'k ^2236 ^2566^2569<v(k) in m>2s>->2    ', &
                                    'k ^2236 ^2566^2569<w(k) in m>2s>->2    ', &
                                    'k ^2236 ^2566^2569<^1185(k) in m>2s>->2', &
                                    'k ^2236 ^2566^2569<q(k) in m>2s>->2    ' /)

    INTEGER ::  klist_x = 0, klist_y = 0, n_sp_x = 0, n_sp_y = 0

    INTEGER ::  comp_spectra_level(10) = 999999,                   &
                lstyles(10) = (/ 0, 7, 3, 10, 1, 4, 9, 2, 6, 8 /), &
                plot_spectra_level(10) = 999999

    REAL    ::  time_to_start_sp = 0.0

    SAVE

 END MODULE spectrum




 MODULE statistics

!------------------------------------------------------------------------------!
! Description:
! ------------
! Definition of statistical quantities, e.g. global sums
!------------------------------------------------------------------------------!

    CHARACTER (LEN=40) ::  region(0:9)
    INTEGER ::  statistic_regions = 0, var_hom = 80, var_sum = 80, var_ts = 100
    INTEGER ::  u_max_ijk(3), v_max_ijk(3), w_max_ijk(3)
    LOGICAL ::  flow_statistics_called = .FALSE.
    REAL ::     u_max, v_max, w_max
    REAL, DIMENSION(:), ALLOCATABLE       ::  sums_divnew_l, sums_divold_l
    REAL, DIMENSION(:,:), ALLOCATABLE     ::  sums, sums_wsts_bc_l, ts_value
    REAL, DIMENSION(:,:,:), ALLOCATABLE   ::  hom_sum, rmask, spectrum_x, &
                                              spectrum_y, sums_l, sums_l_l, &
                                              sums_up_fraction_l
    REAL, DIMENSION(:,:,:,:), ALLOCATABLE ::  hom

    SAVE

 END MODULE statistics




 MODULE transpose_indices

!------------------------------------------------------------------------------!
! Description:
! ------------
! Definition of indices for transposed arrays
!------------------------------------------------------------------------------!

    INTEGER ::  nxl_y, nxl_yd, nxl_z, nxr_y, nxr_ya, nxr_yd, nxr_yda, nxr_z, &
                nxr_za, nyn_x, nyn_xa, nyn_z, nyn_za, nys_x, nys_z, nzb_x,   &
                nzb_y, nzb_yd, nzt_x, nzt_xa, nzt_y, nzt_ya, nzt_yd, nzt_yda
                

    SAVE

 END MODULE transpose_indices