1 | ! |
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2 | ! $Id: $ |
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3 | ! |
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4 | MODULE inigeomphy_mod |
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5 | |
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6 | CONTAINS |
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7 | |
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8 | SUBROUTINE inigeomphy(iim,jjm,nlayer, & |
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9 | nbp, communicator, & |
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10 | rlatu,rlatv,rlonu,rlonv,aire,cu,cv) |
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11 | USE mod_grid_phy_lmdz, ONLY: klon_glo, & ! number of atmospheric columns (on full grid) |
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12 | regular_lonlat, & ! regular longitude-latitude grid type |
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13 | nbp_lon, nbp_lat, nbp_lev |
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14 | USE mod_phys_lmdz_para, ONLY: klon_omp, & ! number of columns (on local omp grid) |
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15 | klon_omp_begin, & ! start index of local omp subgrid |
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16 | klon_omp_end, & ! end index of local omp subgrid |
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17 | klon_mpi_begin ! start indes of columns (on local mpi grid) |
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18 | USE geometry_mod, ONLY : init_geometry |
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19 | USE physics_distribution_mod, ONLY : init_physics_distribution |
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20 | USE regular_lonlat_mod, ONLY : init_regular_lonlat, & |
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21 | east, west, north, south, & |
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22 | north_east, north_west, & |
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23 | south_west, south_east |
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24 | USE mod_interface_dyn_phys, ONLY : init_interface_dyn_phys |
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25 | USE nrtype, ONLY: pi |
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26 | IMPLICIT NONE |
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27 | |
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28 | ! ======================================================================= |
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29 | ! Initialisation of the physical constants and some positional and |
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30 | ! geometrical arrays for the physics |
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31 | ! ======================================================================= |
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32 | |
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33 | include "iniprint.h" |
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34 | |
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35 | INTEGER, INTENT (IN) :: nlayer ! number of atmospheric layers |
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36 | INTEGER, INTENT (IN) :: iim ! number of atmospheric columns along longitudes |
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37 | INTEGER, INTENT (IN) :: jjm ! number of atompsheric columns along latitudes |
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38 | INTEGER, INTENT(IN) :: nbp ! number of physics columns for this MPI process |
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39 | INTEGER, INTENT(IN) :: communicator ! MPI communicator |
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40 | REAL, INTENT (IN) :: rlatu(jjm+1) ! latitudes of the physics grid |
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41 | REAL, INTENT (IN) :: rlatv(jjm) ! latitude boundaries of the physics grid |
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42 | REAL, INTENT (IN) :: rlonv(iim+1) ! longitudes of the physics grid |
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43 | REAL, INTENT (IN) :: rlonu(iim+1) ! longitude boundaries of the physics grid |
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44 | REAL, INTENT (IN) :: aire(iim+1,jjm+1) ! area of the dynamics grid (m2) |
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45 | REAL, INTENT (IN) :: cu((iim+1)*(jjm+1)) ! cu coeff. (u_covariant = cu * u) |
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46 | REAL, INTENT (IN) :: cv((iim+1)*jjm) ! cv coeff. (v_covariant = cv * v) |
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47 | |
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48 | INTEGER :: ibegin, iend, offset |
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49 | INTEGER :: i,j,k |
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50 | CHARACTER (LEN=20) :: modname = 'inigeomphy' |
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51 | CHARACTER (LEN=80) :: abort_message |
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52 | REAL :: total_area_phy, total_area_dyn |
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53 | |
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54 | ! boundaries, on global grid |
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55 | REAL,ALLOCATABLE :: boundslon_reg(:,:) |
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56 | REAL,ALLOCATABLE :: boundslat_reg(:,:) |
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57 | |
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58 | ! global array, on full physics grid: |
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59 | REAL,ALLOCATABLE :: latfi_glo(:) |
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60 | REAL,ALLOCATABLE :: lonfi_glo(:) |
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61 | REAL,ALLOCATABLE :: cufi_glo(:) |
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62 | REAL,ALLOCATABLE :: cvfi_glo(:) |
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63 | REAL,ALLOCATABLE :: airefi_glo(:) |
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64 | REAL,ALLOCATABLE :: boundslonfi_glo(:,:) |
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65 | REAL,ALLOCATABLE :: boundslatfi_glo(:,:) |
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66 | |
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67 | ! local arrays, on given MPI/OpenMP domain: |
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68 | REAL,ALLOCATABLE,SAVE :: latfi(:) |
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69 | REAL,ALLOCATABLE,SAVE :: lonfi(:) |
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70 | REAL,ALLOCATABLE,SAVE :: cufi(:) |
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71 | REAL,ALLOCATABLE,SAVE :: cvfi(:) |
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72 | REAL,ALLOCATABLE,SAVE :: airefi(:) |
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73 | REAL,ALLOCATABLE,SAVE :: boundslonfi(:,:) |
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74 | REAL,ALLOCATABLE,SAVE :: boundslatfi(:,:) |
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75 | INTEGER,ALLOCATABLE,SAVE :: ind_cell_glo_fi(:) |
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76 | !$OMP THREADPRIVATE (latfi,lonfi,cufi,cvfi,airefi,boundslonfi,boundslatfi,ind_cell_glo_fi) |
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77 | |
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78 | ! Initialize Physics distibution and parameters and interface with dynamics |
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79 | IF (iim*jjm>1) THEN ! general 3D case |
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80 | CALL init_physics_distribution(regular_lonlat,4, & |
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81 | nbp,iim,jjm+1,nlayer,communicator) |
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82 | ELSE ! For 1D model |
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83 | CALL init_physics_distribution(regular_lonlat,4, & |
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84 | 1,1,1,nlayer,communicator) |
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85 | ENDIF |
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86 | CALL init_interface_dyn_phys |
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87 | |
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88 | ! init regular global longitude-latitude grid points and boundaries |
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89 | ALLOCATE(boundslon_reg(iim,2)) |
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90 | ALLOCATE(boundslat_reg(jjm+1,2)) |
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91 | |
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92 | DO i=1,iim |
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93 | boundslon_reg(i,east)=rlonu(i) |
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94 | boundslon_reg(i,west)=rlonu(i+1) |
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95 | ENDDO |
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96 | |
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97 | boundslat_reg(1,north)= PI/2 |
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98 | boundslat_reg(1,south)= rlatv(1) |
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99 | DO j=2,jjm |
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100 | boundslat_reg(j,north)=rlatv(j-1) |
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101 | boundslat_reg(j,south)=rlatv(j) |
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102 | ENDDO |
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103 | boundslat_reg(jjm+1,north)= rlatv(jjm) |
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104 | boundslat_reg(jjm+1,south)= -PI/2 |
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105 | |
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106 | ! Write values in module regular_lonlat_mod |
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107 | CALL init_regular_lonlat(iim,jjm+1, rlonv(1:iim), rlatu, & |
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108 | boundslon_reg, boundslat_reg) |
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109 | |
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110 | ! Generate global arrays on full physics grid |
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111 | ALLOCATE(latfi_glo(klon_glo),lonfi_glo(klon_glo)) |
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112 | ALLOCATE(cufi_glo(klon_glo),cvfi_glo(klon_glo)) |
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113 | ALLOCATE(airefi_glo(klon_glo)) |
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114 | ALLOCATE(boundslonfi_glo(klon_glo,4)) |
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115 | ALLOCATE(boundslatfi_glo(klon_glo,4)) |
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116 | |
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117 | IF (klon_glo>1) THEN ! general case |
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118 | ! North pole |
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119 | latfi_glo(1)=rlatu(1) |
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120 | lonfi_glo(1)=0. |
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121 | cufi_glo(1) = cu(1) |
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122 | cvfi_glo(1) = cv(1) |
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123 | boundslonfi_glo(1,north_east)=0 |
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124 | boundslatfi_glo(1,north_east)=PI/2 |
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125 | boundslonfi_glo(1,north_west)=2*PI |
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126 | boundslatfi_glo(1,north_west)=PI/2 |
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127 | boundslonfi_glo(1,south_west)=2*PI |
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128 | boundslatfi_glo(1,south_west)=rlatv(1) |
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129 | boundslonfi_glo(1,south_east)=0 |
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130 | boundslatfi_glo(1,south_east)=rlatv(1) |
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131 | DO j=2,jjm |
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132 | DO i=1,iim |
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133 | k=(j-2)*iim+1+i |
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134 | latfi_glo(k)= rlatu(j) |
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135 | lonfi_glo(k)= rlonv(i) |
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136 | cufi_glo(k) = cu((j-1)*(iim+1)+i) |
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137 | cvfi_glo(k) = cv((j-1)*(iim+1)+i) |
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138 | boundslonfi_glo(k,north_east)=rlonu(i) |
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139 | boundslatfi_glo(k,north_east)=rlatv(j-1) |
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140 | boundslonfi_glo(k,north_west)=rlonu(i+1) |
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141 | boundslatfi_glo(k,north_west)=rlatv(j-1) |
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142 | boundslonfi_glo(k,south_west)=rlonu(i+1) |
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143 | boundslatfi_glo(k,south_west)=rlatv(j) |
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144 | boundslonfi_glo(k,south_east)=rlonu(i) |
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145 | boundslatfi_glo(k,south_east)=rlatv(j) |
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146 | ENDDO |
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147 | ENDDO |
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148 | ! South pole |
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149 | latfi_glo(klon_glo)= rlatu(jjm+1) |
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150 | lonfi_glo(klon_glo)= 0. |
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151 | cufi_glo(klon_glo) = cu((iim+1)*jjm+1) |
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152 | cvfi_glo(klon_glo) = cv((iim+1)*jjm-iim) |
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153 | boundslonfi_glo(klon_glo,north_east)= 0 |
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154 | boundslatfi_glo(klon_glo,north_east)= rlatv(jjm) |
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155 | boundslonfi_glo(klon_glo,north_west)= 2*PI |
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156 | boundslatfi_glo(klon_glo,north_west)= rlatv(jjm) |
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157 | boundslonfi_glo(klon_glo,south_west)= 2*PI |
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158 | boundslatfi_glo(klon_glo,south_west)= -PI/2 |
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159 | boundslonfi_glo(klon_glo,south_east)= 0 |
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160 | boundslatfi_glo(klon_glo,south_east)= -Pi/2 |
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161 | |
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162 | ! build airefi(), mesh area on physics grid |
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163 | CALL gr_dyn_fi(1,iim+1,jjm+1,klon_glo,aire,airefi_glo) |
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164 | ! Poles are single points on physics grid |
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165 | airefi_glo(1)=sum(aire(1:iim,1)) |
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166 | airefi_glo(klon_glo)=sum(aire(1:iim,jjm+1)) |
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167 | |
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168 | ! Sanity check: do total planet area match between physics and dynamics? |
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169 | total_area_dyn=sum(aire(1:iim,1:jjm+1)) |
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170 | total_area_phy=sum(airefi_glo(1:klon_glo)) |
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171 | IF (total_area_dyn/=total_area_phy) THEN |
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172 | WRITE (lunout, *) 'inigeomphy: planet total surface discrepancy !!!' |
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173 | WRITE (lunout, *) ' in the dynamics total_area_dyn=', total_area_dyn |
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174 | WRITE (lunout, *) ' but in the physics total_area_phy=', total_area_phy |
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175 | IF (abs(total_area_dyn-total_area_phy)>0.00001*total_area_dyn) THEN |
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176 | ! stop here if the relative difference is more than 0.001% |
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177 | abort_message = 'planet total surface discrepancy' |
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178 | CALL abort_gcm(modname, abort_message, 1) |
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179 | ENDIF |
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180 | ENDIF |
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181 | ELSE ! klon_glo==1, running the 1D model |
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182 | ! just copy over input values |
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183 | latfi_glo(1)=rlatu(1) |
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184 | lonfi_glo(1)=rlonv(1) |
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185 | cufi_glo(1)=cu(1) |
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186 | cvfi_glo(1)=cv(1) |
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187 | airefi_glo(1)=aire(1,1) |
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188 | boundslonfi_glo(1,north_east)=rlonu(1) |
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189 | boundslatfi_glo(1,north_east)=PI/2 |
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190 | boundslonfi_glo(1,north_west)=rlonu(2) |
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191 | boundslatfi_glo(1,north_west)=PI/2 |
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192 | boundslonfi_glo(1,south_west)=rlonu(2) |
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193 | boundslatfi_glo(1,south_west)=rlatv(1) |
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194 | boundslonfi_glo(1,south_east)=rlonu(1) |
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195 | boundslatfi_glo(1,south_east)=rlatv(1) |
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196 | ENDIF ! of IF (klon_glo>1) |
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197 | |
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198 | !$OMP PARALLEL |
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199 | ! Now generate local lon/lat/cu/cv/area/bounds arrays |
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200 | ALLOCATE(latfi(klon_omp),lonfi(klon_omp),cufi(klon_omp),cvfi(klon_omp)) |
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201 | ALLOCATE(airefi(klon_omp)) |
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202 | ALLOCATE(boundslonfi(klon_omp,4)) |
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203 | ALLOCATE(boundslatfi(klon_omp,4)) |
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204 | ALLOCATE(ind_cell_glo_fi(klon_omp)) |
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205 | |
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206 | |
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207 | offset = klon_mpi_begin - 1 |
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208 | airefi(1:klon_omp) = airefi_glo(offset+klon_omp_begin:offset+klon_omp_end) |
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209 | cufi(1:klon_omp) = cufi_glo(offset+klon_omp_begin:offset+klon_omp_end) |
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210 | cvfi(1:klon_omp) = cvfi_glo(offset+klon_omp_begin:offset+klon_omp_end) |
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211 | lonfi(1:klon_omp) = lonfi_glo(offset+klon_omp_begin:offset+klon_omp_end) |
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212 | latfi(1:klon_omp) = latfi_glo(offset+klon_omp_begin:offset+klon_omp_end) |
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213 | boundslonfi(1:klon_omp,:) = boundslonfi_glo(offset+klon_omp_begin:offset+klon_omp_end,:) |
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214 | boundslatfi(1:klon_omp,:) = boundslatfi_glo(offset+klon_omp_begin:offset+klon_omp_end,:) |
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215 | ind_cell_glo_fi(1:klon_omp)=(/ (i,i=offset+klon_omp_begin,offset+klon_omp_end) /) |
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216 | |
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217 | ! copy over local grid longitudes and latitudes |
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218 | CALL init_geometry(klon_omp,lonfi,latfi,boundslonfi,boundslatfi, & |
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219 | airefi,ind_cell_glo_fi,cufi,cvfi) |
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220 | |
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221 | !$OMP END PARALLEL |
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222 | |
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223 | |
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224 | END SUBROUTINE inigeomphy |
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225 | |
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226 | END MODULE inigeomphy_mod |
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227 | |
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