1 | SUBROUTINE gradiv2_loc(klevel, xcov, ycov, ld, gdx_out, gdy_out ) |
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2 | ! |
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3 | ! P. Le Van |
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4 | ! |
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5 | ! ********************************************************** |
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6 | ! ld |
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7 | ! calcul de (grad (div) ) du vect. v .... |
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8 | ! |
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9 | ! xcov et ycov etant les composant.covariantes de v |
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10 | ! ********************************************************** |
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11 | ! xcont , ycont et ld sont des arguments d'entree pour le s-prog |
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12 | ! gdx et gdy sont des arguments de sortie pour le s-prog |
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13 | ! |
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14 | ! |
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15 | USE comgeom_mod_h |
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16 | USE comdissipn_mod_h |
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17 | USE parallel_lmdz |
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18 | USE times |
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19 | USE Write_field_p |
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20 | USE mod_hallo |
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21 | USE mod_filtreg_p |
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22 | USE gradiv2_mod |
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23 | USE dimensions_mod, ONLY: iim, jjm, llm, ndm |
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24 | USE paramet_mod_h, ONLY: iip1, iip2, iip3, jjp1, llmp1, llmp2, llmm1, kftd, ip1jm, ip1jmp1, & |
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25 | ip1jmi1, ijp1llm, ijmllm, mvar, jcfil, jcfllm |
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26 | IMPLICIT NONE |
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27 | ! |
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28 | |
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29 | |
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30 | ! |
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31 | ! ........ variables en arguments ........ |
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32 | |
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33 | INTEGER :: klevel |
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34 | REAL :: xcov( ijb_u:ije_u,klevel ), ycov( ijb_v:ije_v,klevel ) |
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35 | REAL :: gdx_out( ijb_u:ije_u,klevel ), gdy_out( ijb_v:ije_v,klevel) |
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36 | ! |
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37 | ! ........ variables locales ......... |
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38 | ! |
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39 | REAL :: tmp_div2(ijb_u:ije_u,llm) |
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40 | REAL :: signe, nugrads |
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41 | INTEGER :: l,ij,iter,ld |
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42 | INTEGER :: ijb,ije,jjb,jje |
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43 | Type(Request),SAVE :: request_dissip |
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44 | !$OMP THREADPRIVATE(request_dissip) |
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45 | ! ........................................................ |
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46 | ! |
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47 | ! |
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48 | ! CALL SCOPY( ip1jmp1 * klevel, xcov, 1, gdx, 1 ) |
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49 | ! CALL SCOPY( ip1jm * klevel, ycov, 1, gdy, 1 ) |
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50 | |
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51 | ijb=ij_begin |
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52 | ije=ij_end |
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53 | |
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54 | !$OMP DO SCHEDULE(STATIC,OMP_CHUNK) |
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55 | DO l = 1, klevel |
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56 | gdx(ijb:ije,l)=xcov(ijb:ije,l) |
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57 | ENDDO |
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58 | !$OMP END DO NOWAIT |
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59 | |
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60 | ijb=ij_begin |
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61 | ije=ij_end |
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62 | if(pole_sud) ije=ij_end-iip1 |
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63 | |
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64 | !$OMP DO SCHEDULE(STATIC,OMP_CHUNK) |
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65 | DO l = 1, klevel |
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66 | gdy(ijb:ije,l)=ycov(ijb:ije,l) |
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67 | ENDDO |
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68 | !$OMP END DO NOWAIT |
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69 | |
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70 | !$OMP BARRIER |
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71 | call Register_Hallo_v(gdy,llm,1,0,0,1,Request_dissip) |
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72 | call SendRequest(Request_dissip) |
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73 | !$OMP BARRIER |
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74 | call WaitRequest(Request_dissip) |
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75 | !$OMP BARRIER |
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76 | ! |
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77 | ! |
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78 | signe = (-1.)**ld |
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79 | nugrads = signe * cdivu |
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80 | ! |
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81 | |
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82 | |
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83 | CALL divergf_loc( klevel, gdx, gdy , div ) |
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84 | ! call write_field3d_p('div1',reshape(div,(/iip1,jjp1,llm/))) |
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85 | |
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86 | IF( ld.GT.1 ) THEN |
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87 | !$OMP BARRIER |
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88 | call Register_Hallo_u(div,llm,1,1,1,1,Request_dissip) |
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89 | call SendRequest(Request_dissip) |
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90 | !$OMP BARRIER |
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91 | call WaitRequest(Request_dissip) |
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92 | !$OMP BARRIER |
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93 | CALL laplacien_loc( klevel, div, div ) |
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94 | |
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95 | ! ...... Iteration de l'operateur laplacien_gam ....... |
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96 | ! call write_field3d_p('div2',reshape(div,(/iip1,jjp1,llm/))) |
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97 | |
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98 | DO iter = 1, ld -2 |
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99 | !$OMP BARRIER |
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100 | call Register_Hallo_u(div,llm,1,1,1,1,Request_dissip) |
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101 | call SendRequest(Request_dissip) |
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102 | !$OMP BARRIER |
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103 | call WaitRequest(Request_dissip) |
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104 | |
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105 | !$OMP BARRIER |
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106 | |
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107 | CALL laplacien_gam_loc(klevel,cuvscvgam1,cvuscugam1, & |
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108 | unsair_gam1,unsapolnga1, unsapolsga1, & |
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109 | div, div ) |
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110 | ENDDO |
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111 | ! call write_field3d_p('div3',reshape(div,(/iip1,jjp1,llm/))) |
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112 | ENDIF |
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113 | |
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114 | jjb=jj_begin |
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115 | jje=jj_end |
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116 | |
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117 | CALL filtreg_p( div ,jjb_u,jje_u,jjb,jje, jjp1, & |
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118 | klevel, 2, 1, .TRUE., 1 ) |
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119 | ! call exchange_Hallo(div,ip1jmp1,llm,0,1) |
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120 | !$OMP BARRIER |
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121 | call Register_Hallo_u(div,llm,1,1,1,1,Request_dissip) |
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122 | call SendRequest(Request_dissip) |
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123 | !$OMP BARRIER |
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124 | call WaitRequest(Request_dissip) |
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125 | |
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126 | !$OMP BARRIER |
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127 | |
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128 | |
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129 | CALL grad_loc( klevel, div, gdx, gdy ) |
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130 | |
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131 | ! |
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132 | ijb=ij_begin |
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133 | ije=ij_end |
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134 | |
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135 | !$OMP DO SCHEDULE(STATIC,OMP_CHUNK) |
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136 | DO l = 1, klevel |
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137 | |
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138 | if (pole_sud) ije=ij_end |
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139 | DO ij = ijb, ije |
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140 | gdx_out( ij,l ) = gdx( ij,l ) * nugrads |
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141 | ENDDO |
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142 | |
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143 | if (pole_sud) ije=ij_end-iip1 |
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144 | DO ij = ijb, ije |
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145 | gdy_out( ij,l ) = gdy( ij,l ) * nugrads |
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146 | ENDDO |
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147 | |
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148 | ENDDO |
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149 | !$OMP END DO NOWAIT |
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150 | ! |
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151 | RETURN |
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152 | END SUBROUTINE gradiv2_loc |
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