octave_packages/secs2d-0.0.8/DDGOX/doc-cache

   1 # Created by Octave 3.6.1, Sun Mar 25 18:44:37 2012 UTC <root@t61>
   2 # name: cache
   3 # type: cell
   4 # rows: 3
   5 # columns: 6
   6 # name: <cell-element>
   7 # type: sq_string
   8 # elements: 1
   9 # length: 14
  10 DDGOXddcurrent
  11
  12
  13 # name: <cell-element>
  14 # type: sq_string
  15 # elements: 1
  16 # length: 61
  17  [current,divrg]=DDGOXddcurrent(mesh,Sinodes,data,contacts);
  18
  19
  20
  21 # name: <cell-element>
  22 # type: sq_string
  23 # elements: 1
  24 # length: 61
  25  [current,divrg]=DDGOXddcurrent(mesh,Sinodes,data,contacts);
  26
  27
  28
  29
  30 # name: <cell-element>
  31 # type: sq_string
  32 # elements: 1
  33 # length: 28
  34 DDGOXelectron_driftdiffusion
  35
  36
  37 # name: <cell-element>
  38 # type: sq_string
  39 # elements: 1
  40 # length: 293
  41
  42    n=DDGelectron_driftdiffusion(mesh,Dsides,nin,pin,V,un,tn,tp,n0,p0)
  43    IN:
  44           v    = electric potential
  45           mesh = integration domain
  46      ng   = initial guess and BCs for electron density
  47      p    = hole density (to compute SRH recombination)
  48    OUT:
  49      n    = updated electron density
  50
  51
  52
  53
  54 # name: <cell-element>
  55 # type: sq_string
  56 # elements: 1
  57 # length: 80
  58
  59    n=DDGelectron_driftdiffusion(mesh,Dsides,nin,pin,V,un,tn,tp,n0,p0)
  60    IN:
  61
  62
  63
  64
  65 # name: <cell-element>
  66 # type: sq_string
  67 # elements: 1
  68 # length: 14
  69 DDGOXgummelmap
  70
  71
  72 # name: <cell-element>
  73 # type: sq_string
  74 # elements: 1
  75 # length: 185
  76  [odata,it,res] = DDGOXgummelmap (imesh,Dsides,...
  77                            Simesh,Sinodes,Sielements,SiDsides,...
  78                            idata,toll,maxit,ptoll,pmaxit,verbose)
  79
  80
  81
  82
  83 # name: <cell-element>
  84 # type: sq_string
  85 # elements: 1
  86 # length: 48
  87  [odata,it,res] = DDGOXgummelmap (imesh,Dsides,.
  88
  89
  90
  91 # name: <cell-element>
  92 # type: sq_string
  93 # elements: 1
  94 # length: 24
  95 DDGOXhole_driftdiffusion
  96
  97
  98 # name: <cell-element>
  99 # type: sq_string
 100 # elements: 1
 101 # length: 286
 102
 103     p=DDGhole_driftdiffusion(mesh,Dsides,nin,pin,V,up,tn,tp,n0,p0)
 104    IN:
 105           v    = electric potential
 106           mesh = integration domain
 107      nin  = initial guess and BCs for electron density
 108      pin  = hole density (to compute SRH recombination)
 109    OUT:
 110      p    = updated hole density
 111
 112
 113
 114
 115 # name: <cell-element>
 116 # type: sq_string
 117 # elements: 1
 118 # length: 80
 119
 120     p=DDGhole_driftdiffusion(mesh,Dsides,nin,pin,V,up,tn,tp,n0,p0)
 121    IN:
 122           v
 123
 124
 125
 126 # name: <cell-element>
 127 # type: sq_string
 128 # elements: 1
 129 # length: 14
 130 DDGOXnlpoisson
 131
 132
 133 # name: <cell-element>
 134 # type: sq_string
 135 # elements: 1
 136 # length: 219
 137
 138    [V,n,p,res,niter] = DDGOXnlpoisson (mesh,Dsides,Sinodes,Vin,nin,pin,...
 139                                              Fnin,Fpin,D,l2,l2ox,toll,maxit,verbose)
 140
 141   solves $$ -\lambda^2 V'' + (n(V,Fn) - p(V,Fp) -D)$$
 142
 143
 144
 145
 146 # name: <cell-element>
 147 # type: sq_string
 148 # elements: 1
 149 # length: 75
 150
 151    [V,n,p,res,niter] = DDGOXnlpoisson (mesh,Dsides,Sinodes,Vin,nin,pin,.
 152
 153
 154
 155 # name: <cell-element>
 156 # type: sq_string
 157 # elements: 1
 158 # length: 16
 159 DDGOXplotresults
 160
 161
 162 # name: <cell-element>
 163 # type: sq_string
 164 # elements: 1
 165 # length: 59
 166
 167  DDGOXplotresults(mesh,Simesh,n,p,V,Fn,Fp,gi,nrm,step);
 168
 169
 170
 171
 172
 173 # name: <cell-element>
 174 # type: sq_string
 175 # elements: 1
 176 # length: 57
 177
 178  DDGOXplotresults(mesh,Simesh,n,p,V,Fn,Fp,gi,nrm,step);
 179
 180
 181
 182
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 184