MOSFET CapacitanceDevice Simulation16FEB2012  1... $ Mesh Specification  2... mesh      rect nx=3 ny=300  3... y.m      n=...
27... material name=silicon taun0=1e-09 taup0=1e-0928... material name=sio2 permi=3.9 qf=029... interface num=1 qf=030... ...
55... solve v1=-3.0 elect=156... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_0.potc57... solve v1=-2.91919...
90... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_17.potc 91... solve v1=-1.54545454545 elect=1 92... plot...
126... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_35.potc127... solve v1=-0.0909090909084 elect=1128... p...
162... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_53.potc163... solve v1=1.36363636364 elect=1164... plot...
198... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_71.potc199... solve v1=2.81818181818 elect=1200... plot...
234... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_89.potc235... solve v1=4.27272727273 elect=1236... plot...
Mesh statistics :     Total grid points =       900     Total no. of elements =      1196     Min grid spacing (um) = 1.78...
2     Boltz 9.963E+09 1.100E+02 3.000E+01 3.200E+19 2.030E+19num      gcb            edb             gcv         eab      ...
2     n Analytic Dorkel               Caughey          Exponent SGS      p Analytic Dorkel               Caughey          ...
Ion-impurity mobility coefficientsmat #       coef 1      coef 2      coef 3        coef 4     coef 5 2      n   55.2     ...
Contacts :  Num          Work fn.      Vsurfn       Vsurfp   1       4.170   2       0.000Solution for bias:    V1 = 0.000...
1       0                    1.0000E+00                  R(   0)  1       1                    7.4493E-15                 ...
Solution for bias:    V1 = 0.0000000E+00            V2 = 0.0000000E+00  Previous solution used as initial guess o-itr i-it...
Electrode             Flux              Displacement Current           Total Current                      (Coul)          ...
1       1                                  8.7302E-15 U(      1)   1       1                                  1.0430E-01 R...
Previous solution used as initial guesso-itr i-itr    psi-error    n-error    p-error  1       0     7.1264E-01           ...
(Volts)          (Amps)                 (Amps)            (Amps)       1        -0.4000          0.00000E+00            0....
1       0                    1.0000E+00                  R(   0)  1       1                    7.1094E-15                 ...
Solution for bias:    V1 = -8.0000000E-01          V2 = 0.0000000E+00  Previous solution used as initial guess o-itr i-itr...
2       1                                  1.2520E-01 R(        1)   1       0     1.1018E-13 1.2136E-19 2.2354E-15 R(    ...
1       3%     1.1970E-01                                U(    4) 1       3%     4.9484E-06                               ...
Total cpu time for Newton equation assembly =            0.1333 Total cpu time for Newton linear solves =          0.0333 ...
2       1                    7.3817E-15                  U(    1)   2       1                    1.4061E-02               ...
1       1     7.6681E+00                               U(      1) 1       1     2.6196E-04                               R...
1           -1.54142E-16             0.00000E+00              0.00000E+00       2           -1.51177E-32             0.000...
2       1    4.1510E-11                                 R(   1)   2       0                    1.0000E+00                 ...
o-itr i-itr    psi-error        n-error      p-error  1       0     6.9582E-01                                  R(   0)  1...
1           -2.82160E-16             0.00000E+00              0.00000E+00       2           -1.51177E-32             0.000...
2       1    6.0544E-11                                 R(   1)   2       0                    1.0000E+00                 ...
o-itr i-itr    psi-error        n-error      p-error  1       0     6.8917E-01                                  R(   0)  1...
1           -4.13569E-16             0.00000E+00              0.00000E+00       2           -1.51177E-32             0.000...
2       1    5.3454E-11                                 R(   1)   2       0                    1.0000E+00                 ...
o-itr i-itr    psi-error        n-error      p-error  1       0     6.8247E-01                                  R(   0)  1...
1           -5.46681E-16             0.00000E+00              0.00000E+00       2           -1.51177E-32             0.000...
2       1    2.3759E-11                                 R(   1)   2       0                    1.0000E+00                 ...
o-itr i-itr    psi-error        n-error      p-error  1       0     6.7578E-01                                  R(   0)  1...
1          -6.80807E-16             0.00000E+00              0.00000E+00       2          -1.51177E-32             0.00000...
2       1                                 3.0275E-01 R(       1)   1       0     1.7401E-13 1.9661E-21 3.8911E-15 R(      ...
(Amps)                     (Siemens)             (Farads)    Y11        -7.53395E-27         -5.46168E-18      -2.91438E-2...
1       2*    8.7591E-04                                 U(    3) 1       2*    7.9229E-09                                ...
Total cpu time for bias point =      0.1667 Total cpu time =       3.8667Ac analysis :     Ac voltage = 2.585100E-03     F...
Total cpu time for Newton equation assembly =           0.0333 Total cpu time for Newton linear solves =         0.0333 ( ...
2       1                                 1.9959E-01 R(       1)   1       0     3.1408E-13 1.9924E-21 3.5815E-15 R(      ...
(Amps)                      (Siemens)            (Farads)    Y11        -7.51076E-27         -5.45304E-18       -2.90540E-...
1       2*    9.8491E-04                                 U(    3) 1       2*    9.0491E-09                                ...
Total cpu time for bias point =      0.1667 Total cpu time =       4.3333Ac analysis :     Ac voltage = 2.585100E-03     F...
Total cpu time for Newton equation assembly =           0.0333 Total cpu time for Newton linear solves =         0.0333 ( ...
2       1                                 2.0638E-01 R(       1)   1       0     1.3441E-13 1.7327E-21 3.7783E-15 R(      ...
(Amps)                     (Siemens)             (Farads)    Y11        -7.48466E-27         -5.44329E-18      -2.89531E-2...
1       2*    1.1152E-03                                 U(   3) 1       2*    1.0420E-08                                 ...
Total cpu time for bias point =      0.1667 Total cpu time =       4.8000Ac analysis :     Ac voltage = 2.585100E-03     F...
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MOSFET Capacitance Simulation(16FEB2012)
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MOSFET Capacitance Simulation(16FEB2012)
MOSFET Capacitance Simulation(16FEB2012)
MOSFET Capacitance Simulation(16FEB2012)
MOSFET Capacitance Simulation(16FEB2012)
MOSFET Capacitance Simulation(16FEB2012)
MOSFET Capacitance Simulation(16FEB2012)
MOSFET Capacitance Simulation(16FEB2012)
MOSFET Capacitance Simulation(16FEB2012)
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MOSFET Capacitance Simulation(16FEB2012)
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MOSFET Capacitance Simulation(16FEB2012)
MOSFET Capacitance Simulation(16FEB2012)
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MOSFET Capacitance Simulation(16FEB2012)
MOSFET Capacitance Simulation(16FEB2012)
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MOSFET Capacitance Simulation(16FEB2012)
MOSFET Capacitance Simulation(16FEB2012)
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MOSFET Capacitance Simulation(16FEB2012)
MOSFET Capacitance Simulation(16FEB2012)
MOSFET Capacitance Simulation(16FEB2012)
MOSFET Capacitance Simulation(16FEB2012)
MOSFET Capacitance Simulation(16FEB2012)
MOSFET Capacitance Simulation(16FEB2012)
MOSFET Capacitance Simulation(16FEB2012)
MOSFET Capacitance Simulation(16FEB2012)
MOSFET Capacitance Simulation(16FEB2012)
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MOSFET Capacitance Simulation(16FEB2012)

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MOSFET Capacitance Simulation(16FEB2012)

  1. 1. MOSFET CapacitanceDevice Simulation16FEB2012 1... $ Mesh Specification 2... mesh rect nx=3 ny=300 3... y.m n=1 l=0 4... y.m n=50 l=0.05 r=1 5... y.m n=100 l=0.1 r=0.8 6... y.m n=200 l=0.12 r=1 7... y.m n=300 l=5.1 r=1.05 8... x.m n=1 l=0.001 r=1 9... x.m n=3 l=1 r=1 10... $ The y.m nodepoints and distance are inputs 11... $ The x.m parameters are static 12... $ Regions specification 13... region num=1 ix.l=1 ix.h=3 iy.l=1 iy.h=100 name=sio2 INS 14... region num=2 ix.l=1 ix.h=3 iy.l=100 iy.h=300 name=silicon SEMI 15... $ Electrodes specification 16... elec num=1 ix.l=1 ix.h=3 iy.l=1 iy.h=1 17... elec num=2 ix.l=1 ix.h=3 iy.l=300 iy.h=300 18... surface interface num=1 reg1=1 reg2=2 ... + x.min=0 x.max=1 y.min=0.1 y.max=0.1 19... $ Doping specification 20... dop reg=2 p.type conc=1e+15 uniform 21... $ doping can be p.type or n.type (two options), conc is a parameter too 22... $ Contact specification 23... contact all neutral 24... contact num=1 n.polysilicon 25... $ you can add as options: n.polysilicon, p.polysilicon tungsten 26... $ Material lifetime specification
  2. 2. 27... material name=silicon taun0=1e-09 taup0=1e-0928... material name=sio2 permi=3.9 qf=029... interface num=1 qf=030... $ Specify models31... models TEMP=300 srh conmob fldmob print32... system electrons holes newton33... $ Solve for initial conditions34... solve init35... plot.1d net.charge a.y=0 b.y=5.1 a.x=0.5 b.x=0.5 ascii outf=pdr512.ro36... plot.1d e.field a.y=0 b.y=5.1 a.x=0.5 b.x=0.5 ascii outf=pdr512.efield37... plot.1d pot a.y=0 b.y=5.1 a.x=0.5 b.x=0.5 ascii outf=pdr512.pot38... plot.1d qfn a.y=0 b.y=5.1 a.x=0.5 b.x=0.5 ascii outf=pdr512.qfn39... plot.1d qfp a.y=0 b.y=5.1 a.x=0.5 b.x=0.5 ascii outf=pdr512.qfp40... plot.1d band.val a.y=0 b.y=5.1 a.x=0.5 b.x=0.5 ascii outf=pdr512.val41... plot.1d band.con a.y=0 b.y=5.1 a.x=0.5 b.x=0.5 ascii outf=pdr512.con42... plot.1d ele a.y=0 b.y=5.1 a.x=0.5 b.x=0.5 ascii outf=pdr512.ele43... plot.1d hole a.y=0 b.y=5.1 a.x=0.5 b.x=0.5 ascii outf=pdr512.hole44... $ Solve for applied bias45... solve v1=0 vstep=-0.2 nstep=15 elect=146... log acfile=pdr512.ac247... solve v1=-3 vstep=0.0610655242736 nstep=45 elect=1 ... + ac freq=148... solve v1=-0.252051407687 vstep=0.0333333333333 nstep=30 elect=1 ... + ac freq=149... solve v1=0.747948592313 vstep=0.094490031282 nstep=45 elect=1 ... + ac freq=150... log off51... solve v1=0 vstep=-0.2 nstep=15 elect=152... log acfile=pdr512.ac153... solve v1=-3 vstep=0.08 nstep=100 elect=1 ... + ac freq=1e+0654... log off
  3. 3. 55... solve v1=-3.0 elect=156... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_0.potc57... solve v1=-2.91919191919 elect=158... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_1.potc59... solve v1=-2.83838383838 elect=160... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_2.potc61... solve v1=-2.75757575758 elect=162... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_3.potc63... solve v1=-2.67676767677 elect=164... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_4.potc65... solve v1=-2.59595959596 elect=166... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_5.potc67... solve v1=-2.51515151515 elect=168... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_6.potc69... solve v1=-2.43434343434 elect=170... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_7.potc71... solve v1=-2.35353535354 elect=172... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_8.potc73... solve v1=-2.27272727273 elect=174... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_9.potc75... solve v1=-2.19191919192 elect=176... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_10.potc77... solve v1=-2.11111111111 elect=178... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_11.potc79... solve v1=-2.0303030303 elect=180... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_12.potc81... solve v1=-1.94949494949 elect=182... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_13.potc83... solve v1=-1.86868686869 elect=184... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_14.potc85... solve v1=-1.78787878788 elect=186... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_15.potc87... solve v1=-1.70707070707 elect=188... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_16.potc89... solve v1=-1.62626262626 elect=1
  4. 4. 90... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_17.potc 91... solve v1=-1.54545454545 elect=1 92... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_18.potc 93... solve v1=-1.46464646465 elect=1 94... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_19.potc 95... solve v1=-1.38383838384 elect=1 96... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_20.potc 97... solve v1=-1.30303030303 elect=1 98... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_21.potc 99... solve v1=-1.22222222222 elect=1100... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_22.potc101... solve v1=-1.14141414141 elect=1102... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_23.potc103... solve v1=-1.06060606061 elect=1104... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_24.potc105... solve v1=-0.979797979798 elect=1106... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_25.potc107... solve v1=-0.898989898989 elect=1108... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_26.potc109... solve v1=-0.818181818181 elect=1110... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_27.potc111... solve v1=-0.737373737373 elect=1112... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_28.potc113... solve v1=-0.656565656565 elect=1114... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_29.potc115... solve v1=-0.575757575757 elect=1116... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_30.potc117... solve v1=-0.494949494949 elect=1118... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_31.potc119... solve v1=-0.414141414141 elect=1120... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_32.potc121... solve v1=-0.333333333333 elect=1122... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_33.potc123... solve v1=-0.252525252525 elect=1124... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_34.potc125... solve v1=-0.171717171717 elect=1
  5. 5. 126... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_35.potc127... solve v1=-0.0909090909084 elect=1128... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_36.potc129... solve v1=-0.0101010101003 elect=1130... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_37.potc131... solve v1=0.0707070707078 elect=1132... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_38.potc133... solve v1=0.151515151516 elect=1134... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_39.potc135... solve v1=0.232323232324 elect=1136... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_40.potc137... solve v1=0.313131313132 elect=1138... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_41.potc139... solve v1=0.39393939394 elect=1140... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_42.potc141... solve v1=0.474747474748 elect=1142... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_43.potc143... solve v1=0.555555555556 elect=1144... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_44.potc145... solve v1=0.636363636364 elect=1146... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_45.potc147... solve v1=0.717171717173 elect=1148... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_46.potc149... solve v1=0.797979797981 elect=1150... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_47.potc151... solve v1=0.878787878789 elect=1152... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_48.potc153... solve v1=0.959595959597 elect=1154... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_49.potc155... solve v1=1.0404040404 elect=1156... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_50.potc157... solve v1=1.12121212121 elect=1158... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_51.potc159... solve v1=1.20202020202 elect=1160... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_52.potc161... solve v1=1.28282828283 elect=1
  6. 6. 162... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_53.potc163... solve v1=1.36363636364 elect=1164... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_54.potc165... solve v1=1.44444444445 elect=1166... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_55.potc167... solve v1=1.52525252525 elect=1168... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_56.potc169... solve v1=1.60606060606 elect=1170... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_57.potc171... solve v1=1.68686868687 elect=1172... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_58.potc173... solve v1=1.76767676768 elect=1174... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_59.potc175... solve v1=1.84848484849 elect=1176... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_60.potc177... solve v1=1.92929292929 elect=1178... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_61.potc179... solve v1=2.0101010101 elect=1180... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_62.potc181... solve v1=2.09090909091 elect=1182... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_63.potc183... solve v1=2.17171717172 elect=1184... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_64.potc185... solve v1=2.25252525253 elect=1186... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_65.potc187... solve v1=2.33333333333 elect=1188... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_66.potc189... solve v1=2.41414141414 elect=1190... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_67.potc191... solve v1=2.49494949495 elect=1192... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_68.potc193... solve v1=2.57575757576 elect=1194... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_69.potc195... solve v1=2.65656565657 elect=1196... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_70.potc197... solve v1=2.73737373738 elect=1
  7. 7. 198... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_71.potc199... solve v1=2.81818181818 elect=1200... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_72.potc201... solve v1=2.89898989899 elect=1202... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_73.potc203... solve v1=2.9797979798 elect=1204... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_74.potc205... solve v1=3.06060606061 elect=1206... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_75.potc207... solve v1=3.14141414142 elect=1208... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_76.potc209... solve v1=3.22222222222 elect=1210... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_77.potc211... solve v1=3.30303030303 elect=1212... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_78.potc213... solve v1=3.38383838384 elect=1214... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_79.potc215... solve v1=3.46464646465 elect=1216... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_80.potc217... solve v1=3.54545454546 elect=1218... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_81.potc219... solve v1=3.62626262626 elect=1220... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_82.potc221... solve v1=3.70707070707 elect=1222... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_83.potc223... solve v1=3.78787878788 elect=1224... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_84.potc225... solve v1=3.86868686869 elect=1226... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_85.potc227... solve v1=3.9494949495 elect=1228... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_86.potc229... solve v1=4.0303030303 elect=1230... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_87.potc231... solve v1=4.11111111111 elect=1232... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_88.potc233... solve v1=4.19191919192 elect=1
  8. 8. 234... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_89.potc235... solve v1=4.27272727273 elect=1236... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_90.potc237... solve v1=4.35353535354 elect=1238... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_91.potc239... solve v1=4.43434343435 elect=1240... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_92.potc241... solve v1=4.51515151515 elect=1242... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_93.potc243... solve v1=4.59595959596 elect=1244... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_94.potc245... solve v1=4.67676767677 elect=1246... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_95.potc247... solve v1=4.75757575758 elect=1248... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_96.potc249... solve v1=4.83838383839 elect=1250... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_97.potc251... solve v1=4.91919191919 elect=1252... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_98.potc253... solve v1=5.0 elect=1254... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_99.potc255... solve v1=5.08080808081 elect=1256... plot.1d pot a.y=0.1 b.y=5 a.x=0.5 b.x=0.5 ascii outf=pdr512_100.potc257... plot.1d net.charge a.y=0 b.y=5.1 a.x=0.5 b.x=0.5 ascii outf=pdr512.roiv258... plot.1d e.field a.y=0 b.y=5.1 a.x=0.5 b.x=0.5 ascii outf=pdr512.efieldiv259... plot.1d pot a.y=0 b.y=5.1 a.x=0.5 b.x=0.5 ascii outf=pdr512.potiv260... plot.1d qfn a.y=0 b.y=5.1 a.x=0.5 b.x=0.5 ascii outf=pdr512.qfniv261... plot.1d qfp a.y=0 b.y=5.1 a.x=0.5 b.x=0.5 ascii outf=pdr512.qfpiv262... plot.1d band.val a.y=0 b.y=5.1 a.x=0.5 b.x=0.5 ascii outf=pdr512.valiv263... plot.1d band.con a.y=0 b.y=5.1 a.x=0.5 b.x=0.5 ascii outf=pdr512.coniv264... plot.1d ele a.y=0 b.y=5.1 a.x=0.5 b.x=0.5 ascii outf=pdr512.eleiv265... plot.1d hole a.y=0 b.y=5.1 a.x=0.5 b.x=0.5 ascii outf=pdr512.holeiv266... end
  9. 9. Mesh statistics : Total grid points = 900 Total no. of elements = 1196 Min grid spacing (um) = 1.7841E-07 Max grid spacing (um) = 5.5372E-01 (r= 3.1036E+06) Obtuse elements = 0 ( 0.0%) Material Definitions Index Name Regions 1 sio2 1 2 silicon 2Constants : Boltzmanns k = 8.61700E-05 charge = 1.60200E-19 permittivity = 8.85400E-14 electron mass= 9.10950E-31Ambient temperature = 300.000Thermal voltage = 0.025851 Material datanum r-perm Egap Affinity Ec offset Bulk qf k-therm Gen con1 3.90 9.0000E+00 9.0000E-01 -3.2700E+00 0.0000E+00 2.5000E-01 0.0000E+002 11.80 1.1200E+00 4.1700E+00 0.0000E+00 0.0000E+00 1.4500E+004.0000E+13 Semiconductor datanum stats ni An** Ap** Nc Nv
  10. 10. 2 Boltz 9.963E+09 1.100E+02 3.000E+01 3.200E+19 2.030E+19num gcb edb gcv eab w2d H-alphn H-alphp2 2.000E+00 5.000E-02 4.000E+00 4.500E-02 1.000E-03 3.000E-052.000E-07 Model flags : Incomp. ionization = F Band-gap narrowing = F SRH recombination =T Conc-dep lifetime =F Auger recombination = F Deep level traps =F Radiative recomb =F Impact ionization =F Band-to-band tunnel = F Trap-assist tunnel = F Stimulated emission = F Carrier-carr. scat. = F Neutral imp. scat. = F Ion-impurity scat. = T Field dep. mobil =T Gate fld dep mobil = F Field dep. diff =F Thermoelectric curr = T ET ebal formulation = F Model Types: mat # II-scat CC-scat Fld mob Vsat Gate mob
  11. 11. 2 n Analytic Dorkel Caughey Exponent SGS p Analytic Dorkel Caughey Power SGSmat # D(E) Energy Ce(T) BGN2 n Lincut Const. P Slotboom p Lincut Const. P SlotboomDriving forces : Mobility, parallel field = qfb Mobility, gate field = exj Diffusivity = qfb Impact ionization = eoj Default low-field mobilities/relax-times, vsat, w-kappamat # mobl0 tauw vsat(T0) kappa 2 n 1390. 2.0000E-13 1.0349E+07 1.500 p 470.0 2.0000E-13 8.3700E+06 1.500 Trap level datamat # Type Et-Ei (eV) tau0 (n) tau0 (p) Ntrap 2 0 0.00 1.000E-09 1.000E-09 0.00 Velocity saturation coefficientsmat # coef 1 coef 2 coef 3 coef 4 coef 5 2 n 2.400E+07 0.800 0.500 0.00 0.00 p 8.370E+06 0.800 -0.520 0.00 0.00 Lattice scat. mobility coefficientsmat # coef 1 coef 2 coef 3 coef 4 coef 5 2 n 1.390E+03 -2.30 0.00 0.00 0.00 p 470. -2.20 0.00 0.00 0.00
  12. 12. Ion-impurity mobility coefficientsmat # coef 1 coef 2 coef 3 coef 4 coef 5 2 n 55.2 1.072E+17 0.733 -2.55 -0.570 p 49.7 1.606E+17 0.700 -2.55 -0.570 Field mobility coefficientsmat # coef 1 coef 2 coef 3 coef 4 coef 5 2 n 2.00 0.00 0.00 0.00 0.00 p 1.00 0.00 0.00 0.00 0.00 Field mobility coefficients (cont.)mat # coef 6 coef 7 coef 8 coef 9 coef 10 2 n 0.00 0.00 0.00 0.00 0.00 p 0.00 0.00 0.00 0.00 0.00 Energy relaxation coefficientsmat # coef 1 coef 2 coef 3 coef 4 coef 5 2 n 1.00 0.00 0.00 0.00 0.00 p 1.00 0.00 0.00 0.00 0.00 Energy relaxation coefficients (cont.)mat # coef 6 coef 7 coef 8 coef 9 coef 10 2 n 0.00 0.00 0.00 0.00 0.00 p 0.00 0.00 0.00 0.00 0.00 Misc energy trans coefficientsmat # coef 1 coef 2 coef 3 coef 4 coef 5 2 n 0.00 0.00 0.00 0.00 0.00 p 0.00 0.00 0.00 0.00 0.00
  13. 13. Contacts : Num Work fn. Vsurfn Vsurfp 1 4.170 2 0.000Solution for bias: V1 = 0.0000000E+00 V2 = 0.0000000E+00 Initial solution o-itr i-itr psi-error n-error p-error 1 0 1.0000E+00 R( 0) 1 1 4.7342E+01 U( 1) 1 1 1.8578E-07 R( 1) 1 2% 8.0560E+00 U( 6) 1 2% 9.3012E-08 R( 1) 1 3 2.7615E+00 U( 1) 1 3 2.6528E-08 R( 1) 1 4 5.5409E-01 U( 1) 1 4 2.4791E-09 R( 1) 1 5* 3.7146E-02 U( 4) 1 5* 2.0983E-11 R( 1) 1 6* 2.4645E-04 U( 4) 1 6* 1.3522E-15 R( 1) 1 7* 1.3842E-08 U( 4) 1 7* 4.6335E-17 R( 1)
  14. 14. 1 0 1.0000E+00 R( 0) 1 1 7.4493E-15 U( 1) 1 1 5.7026E-02 R( 1) 1 0 9.9996E-01 R( 0) 1 1 5.4468E-15 U( 1) 1 1 4.5848E-01 R( 1) 2 0 3.6900E-11 R( 0) 2 1 1.6849E-14 U( 1) 2 1 5.8462E-11 R( 1) 2 0 1.0000E+00 R( 0) 2 1 6.1844E-15 U( 1) 2 1 4.9864E-02 R( 1) 2 0 9.9996E-01 R( 0) 2 1 3.9980E-15 U( 1) 2 1 4.2753E-01 R( 1) 1 0 7.6735E-14 2.8059E-15 4.1715E-15 R( 0) 1 1 5.0561E-15 4.3481E-15 5.8162E-15 U( 1) 1 1 7.5673E-14 1.7874E-14 5.7734E-14 R( 1)Electrode Voltage Electron Current Hole Current Conduction Current (Volts) (Amps) (Amps) (Amps) 1 0.0000 0.00000E+00 0.00000E+00 0.00000E+00 2 0.0000 1.72468E-32 4.96877E-22 4.96877E-22Electrode Flux Displacement Current Total Current (Coul) (Amps) (Amps) 1 1.25809E-16 0.00000E+00 0.00000E+00 2 -1.23860E-30 0.00000E+00 4.96877E-22Convergence criterion completely metTotal cpu time for Newton equation assembly = 0.1000Total cpu time for Newton linear solves = 0.0667 ( 0.0667)Total cpu time for bias point = 0.2000Total cpu time = 0.3667
  15. 15. Solution for bias: V1 = 0.0000000E+00 V2 = 0.0000000E+00 Previous solution used as initial guess o-itr i-itr psi-error n-error p-error 1 0 5.7653E-11 R( 0) 1 1 2.0083E-15 U( 1) 1 1 5.4103E-11 R( 1) 1 0 1.0000E+00 R( 0) 1 1 4.0626E-15 U( 1) 1 1 7.3630E-02 R( 1) 1 0 1.0000E+00 R( 0) 1 1 5.1024E-15 U( 1) 1 1 1.0172E-01 R( 1) 2 0 5.4103E-11 R( 0) 2 1 1.8146E-15 U( 1) 2 1 5.7653E-11 R( 1) 2 0 1.0000E+00 R( 0) 2 1 3.8355E-15 U( 1) 2 1 7.4627E-02 R( 1) 2 0 9.9996E-01 R( 0) 2 1 3.7379E-15 U( 1) 2 1 4.4217E-01 R( 1) 1 0 7.5673E-14 2.8991E-15 4.2766E-15 R( 0) 1 1 1.7313E-15 1.2117E-15 1.5794E-15 U( 1) 1 1 4.5394E-14 1.6910E-14 5.7683E-14 R( 1) Electrode Voltage Electron Current Hole Current Conduction Current (Volts) (Amps) (Amps) (Amps) 1 0.0000 0.00000E+00 0.00000E+00 0.00000E+00 2 0.0000 1.72468E-32 4.96877E-22 4.96877E-22
  16. 16. Electrode Flux Displacement Current Total Current (Coul) (Amps) (Amps) 1 1.25809E-16 0.00000E+00 0.00000E+00 2 -1.23860E-30 0.00000E+00 4.96877E-22 Convergence criterion completely met Total cpu time for Newton equation assembly = 0.1667 Total cpu time for Newton linear solves = -0.0000 ( -0.0000) Total cpu time for bias point = 0.1667 Total cpu time = 0.6000Solution for bias: V1 = -2.0000000E-01 V2 = 0.0000000E+00 Previous solution used as initial guess o-itr i-itr psi-error n-error p-error 1 0 7.1372E-01 R( 0) 1 1 7.7143E+00 U( 1) 1 1 3.0065E-04 R( 1) 1 2* 2.8491E-01 U( 5) 1 2* 2.3230E-05 R( 1) 1 3* 2.3073E-02 U( 4) 1 3* 1.5093E-07 R( 1) 1 4* 1.4057E-04 U( 4) 1 4* 6.1931E-12 R( 1) 1 5* 5.4724E-09 U( 4) 1 5* 1.1881E-13 R( 1) 1 0 1.0000E+00 R( 0) 1 1 6.7822E-15 U( 1) 1 1 3.8622E-02 R( 1) 1 0 1.0000E+00 R( 0)
  17. 17. 1 1 8.7302E-15 U( 1) 1 1 1.0430E-01 R( 1) 2 0 1.0681E-11 R( 0) 2 1 1.1468E-14 U( 1) 2 1 1.5787E-11 R( 1) 2 0 1.0000E+00 R( 0) 2 1 5.5463E-15 U( 1) 2 1 4.4480E-02 R( 1) 2 0 1.0000E+00 R( 0) 2 1 4.7854E-15 U( 1) 2 1 6.7295E-02 R( 1) 1 0 1.7356E-14 3.0626E-15 4.7144E-15 R( 0) 1 1 3.1194E-15 3.3021E-15 3.2355E-15 U( 1) 1 1 1.6509E-14 8.1124E-15 5.6689E-14 R( 1) Electrode Voltage Electron Current Hole Current Conduction Current (Volts) (Amps) (Amps) (Amps) 1 -0.2000 0.00000E+00 0.00000E+00 0.00000E+00 2 0.0000 1.10093E-32 4.62549E-22 4.62549E-22 Electrode Flux Displacement Current Total Current (Coul) (Amps) (Amps) 1 1.05374E-16 0.00000E+00 0.00000E+00 2 -4.76432E-31 0.00000E+00 4.62549E-22 Convergence criterion completely met Total cpu time for Newton equation assembly = 0.2000 Total cpu time for Newton linear solves = 0.0000 ( 0.0000) Total cpu time for bias point = 0.2000 Total cpu time = 0.8000Solution for bias: V1 = -4.0000000E-01 V2 = 0.0000000E+00
  18. 18. Previous solution used as initial guesso-itr i-itr psi-error n-error p-error 1 0 7.1264E-01 R( 0) 1 1 7.7118E+00 U( 1) 1 1 3.7685E-04 R( 1) 1 2% 3.6008E-01 U( 5) 1 2% 3.7616E-05 R( 1) 1 3% 3.9530E-02 U( 4) 1 3% 4.2118E-07 R( 1) 1 4* 4.1819E-04 U( 2) 1 4* 5.1461E-11 R( 1) 1 5% 4.8505E-08 U( 3) 1 5% 3.1176E-13 R( 1) 1 0 1.0000E+00 R( 0) 1 1 6.1803E-15 U( 1) 1 1 2.7024E-02 R( 1) 1 0 1.0000E+00 R( 0) 1 1 6.4925E-15 U( 1) 1 1 4.4819E-02 R( 1) 2 0 3.6138E-11 R( 0) 2 1 3.3585E-15 U( 1) 2 1 4.0190E-11 R( 1) 2 0 1.0000E+00 R( 0) 2 1 7.1557E-15 U( 1) 2 1 4.2615E-02 R( 1) 2 0 9.9999E-01 R( 0) 2 1 3.6703E-15 U( 1) 2 1 2.3878E-01 R( 1) 1 0 3.4320E-14 2.5171E-16 2.9026E-15 R( 0) 1 1 1.2709E-15 1.7925E-15 1.3631E-15 U( 1) 1 1 2.9489E-14 8.2501E-16 3.3092E-14 R( 1)Electrode Voltage Electron Current Hole Current Conduction Current
  19. 19. (Volts) (Amps) (Amps) (Amps) 1 -0.4000 0.00000E+00 0.00000E+00 0.00000E+00 2 0.0000 -2.16268E-31 -2.75081E-22 -2.75081E-22 Electrode Flux Displacement Current Total Current (Coul) (Amps) (Amps) 1 8.18498E-17 0.00000E+00 0.00000E+00 2 -1.75575E-31 0.00000E+00 -2.75081E-22 Convergence criterion completely met Total cpu time for Newton equation assembly = 0.1667 Total cpu time for Newton linear solves = 0.0333 ( 0.0333) Total cpu time for bias point = 0.2000 Total cpu time = 1.0000Solution for bias: V1 = -6.0000000E-01 V2 = 0.0000000E+00 Previous solution used as initial guess o-itr i-itr psi-error n-error p-error 1 0 7.1140E-01 R( 0) 1 1 7.7073E+00 U( 1) 1 1 4.9521E-04 R( 1) 1 2* 4.5911E-01 U( 5) 1 2* 6.4867E-05 R( 1) 1 3% 7.2487E-02 U( 5) 1 3% 1.3521E-06 R( 1) 1 4* 1.4621E-03 U( 3) 1 4* 5.8431E-10 R( 1) 1 5* 5.9911E-07 U( 2) 1 5* 6.2214E-13 R( 1)
  20. 20. 1 0 1.0000E+00 R( 0) 1 1 7.1094E-15 U( 1) 1 1 3.8639E-02 R( 1) 1 0 1.0000E+00 R( 0) 1 1 4.4047E-15 U( 1) 1 1 3.0710E-02 R( 1) 2 0 1.1142E-10 R( 0) 2 1 1.7346E-13 U( 1) 2 1 1.1911E-10 R( 1) 2 0 1.0000E+00 R( 0) 2 1 7.3635E-15 U( 1) 2 1 3.5387E-02 R( 1) 2 0 1.0000E+00 R( 0) 2 1 2.5002E-15 U( 1) 2 1 4.0691E-02 R( 1) 1 0 6.5949E-14 3.4892E-18 2.0462E-15 R( 0) 1 1 1.2269E-15 1.4534E-15 1.5546E-15 U( 1) 1 1 3.6050E-14 1.9753E-17 1.5437E-14 R( 1)Electrode Voltage Electron Current Hole Current Conduction Current (Volts) (Amps) (Amps) (Amps) 1 -0.6000 0.00000E+00 0.00000E+00 0.00000E+00 2 0.0000 -1.97686E-32 3.39297E-22 3.39297E-22Electrode Flux Displacement Current Total Current (Coul) (Amps) (Amps) 1 5.30693E-17 0.00000E+00 0.00000E+00 2 -5.52320E-32 0.00000E+00 3.39297E-22Convergence criterion completely metTotal cpu time for Newton equation assembly = 0.1667Total cpu time for Newton linear solves = 0.0333 ( 0.0333)Total cpu time for bias point = 0.2000Total cpu time = 1.2000
  21. 21. Solution for bias: V1 = -8.0000000E-01 V2 = 0.0000000E+00 Previous solution used as initial guess o-itr i-itr psi-error n-error p-error 1 0 7.0989E-01 R( 0) 1 1 7.6993E+00 U( 1) 1 1 6.9886E-04 R( 1) 1 2% 5.7869E-01 U( 5) 1 2% 1.2172E-04 R( 1) 1 3* 1.4103E-01 U( 4) 1 3* 5.1427E-06 R( 1) 1 4% 6.1462E-03 U( 4) 1 4% 9.6711E-09 R( 1) 1 5* 1.1088E-05 U( 2) 1 5* 1.4146E-12 R( 1) 1 6* 3.6939E-11 U( 2) 1 6* 1.2536E-12 R( 1) 1 0 1.0000E+00 R( 0) 1 1 7.7018E-15 U( 1) 1 1 1.6560E-02 R( 1) 1 0 1.0000E+00 R( 0) 1 1 3.2268E-15 U( 1) 1 1 4.4908E-02 R( 1) 2 0 8.0897E-10 R( 0) 2 1 1.5090E-15 U( 1) 2 1 7.1550E-10 R( 1) 2 0 1.0000E+00 R( 0) 2 1 5.4229E-15 U( 1) 2 1 2.0451E-02 R( 1) 2 0 1.0000E+00 R( 0) 2 1 2.0242E-15 U( 1)
  22. 22. 2 1 1.2520E-01 R( 1) 1 0 1.1018E-13 1.2136E-19 2.2354E-15 R( 0) 1 1 1.0915E-15 1.1446E-15 1.1015E-15 U( 1) 1 1 1.1031E-13 1.4526E-18 3.4702E-14 R( 1) Electrode Voltage Electron Current Hole Current Conduction Current (Volts) (Amps) (Amps) (Amps) 1 -0.8000 0.00000E+00 0.00000E+00 0.00000E+00 2 0.0000 -2.93067E-31 -5.88191E-22 -5.88191E-22 Electrode Flux Displacement Current Total Current (Coul) (Amps) (Amps) 1 1.47597E-17 0.00000E+00 0.00000E+00 2 -3.51749E-32 0.00000E+00 -5.88191E-22 Convergence criterion completely met Total cpu time for Newton equation assembly = 0.1667 Total cpu time for Newton linear solves = 0.0333 ( 0.0333) Total cpu time for bias point = 0.2000 Total cpu time = 1.4000Solution for bias: V1 = -1.0000000E+00 V2 = 0.0000000E+00 Previous solution used as initial guess o-itr i-itr psi-error n-error p-error 1 0 7.0788E-01 R( 0) 1 1 7.6857E+00 U( 1) 1 1 7.3523E-04 R( 1) 1 2% 5.1382E-01 U( 5) 1 2% 1.2416E-04 R( 1)
  23. 23. 1 3% 1.1970E-01 U( 4) 1 3% 4.9484E-06 R( 1) 1 4* 4.9805E-03 U( 3) 1 4* 8.3749E-09 R( 1) 1 5% 8.2282E-06 U( 3) 1 5% 8.4460E-13 R( 1) 1 0 1.0000E+00 R( 0) 1 1 8.1802E-15 U( 1) 1 1 1.3820E-02 R( 1) 1 0 1.0000E+00 R( 0) 1 1 2.6231E-15 U( 1) 1 1 5.9396E-02 R( 1) 2 0 2.2894E-10 R( 0) 2 1 2.2832E-11 U( 1) 2 1 3.3609E-10 R( 1) 2 0 1.0000E+00 R( 0) 2 1 9.3247E-15 U( 1) 2 1 1.3248E-02 R( 1) 2 0 1.0000E+00 R( 0) 2 1 2.3539E-15 U( 1) 2 1 1.2740E-01 R( 1) 1 0 1.2356E-13 1.4975E-20 3.1296E-15 R( 0) 1 1 1.7198E-15 1.9265E-15 1.6665E-15 U( 1) 1 1 8.5033E-14 2.0827E-19 3.5321E-14 R( 1)Electrode Voltage Electron Current Hole Current Conduction Current (Volts) (Amps) (Amps) (Amps) 1 -1.0000 0.00000E+00 0.00000E+00 0.00000E+00 2 0.0000 -4.74084E-32 2.33182E-22 2.33182E-22Electrode Flux Displacement Current Total Current (Coul) (Amps) (Amps) 1 -3.52371E-17 0.00000E+00 0.00000E+00 2 -1.51177E-32 0.00000E+00 2.33182E-22Convergence criterion completely met
  24. 24. Total cpu time for Newton equation assembly = 0.1333 Total cpu time for Newton linear solves = 0.0333 ( 0.0333) Total cpu time for bias point = 0.2000 Total cpu time = 1.6000Solution for bias: V1 = -1.2000000E+00 V2 = 0.0000000E+00 Previous solution used as initial guess o-itr i-itr psi-error n-error p-error 1 0 7.0527E-01 R( 0) 1 1 7.6742E+00 U( 1) 1 1 4.3991E-04 R( 1) 1 2* 2.9633E-01 U( 4) 1 2* 4.6584E-05 R( 1) 1 3* 3.5949E-02 U( 4) 1 3* 6.1880E-07 R( 1) 1 4* 4.6597E-04 U( 4) 1 4* 1.0771E-10 R( 1) 1 5* 7.8880E-08 U( 4) 1 5* 1.0066E-12 R( 1) 1 0 1.0000E+00 R( 0) 1 1 9.4764E-15 U( 1) 1 1 1.5812E-02 R( 1) 1 0 1.0000E+00 R( 0) 1 1 4.2472E-15 U( 1) 1 1 5.9911E-02 R( 1) 2 0 1.0400E-10 R( 0) 2 1 5.4691E-15 U( 1) 2 1 1.4176E-10 R( 1) 2 0 1.0000E+00 R( 0)
  25. 25. 2 1 7.3817E-15 U( 1) 2 1 1.4061E-02 R( 1) 2 0 1.0000E+00 R( 0) 2 1 1.8465E-15 U( 1) 2 1 2.3273E-01 R( 1) 1 0 1.3723E-13 6.7214E-21 3.0250E-15 R( 0) 1 1 1.7757E-15 1.5771E-15 1.3014E-15 U( 1) 1 1 1.3723E-13 7.5624E-20 3.7540E-14 R( 1) Electrode Voltage Electron Current Hole Current Conduction Current (Volts) (Amps) (Amps) (Amps) 1 -1.2000 0.00000E+00 0.00000E+00 0.00000E+00 2 0.0000 -1.27248E-31 7.48865E-33 -1.19759E-31 Electrode Flux Displacement Current Total Current (Coul) (Amps) (Amps) 1 -9.27876E-17 0.00000E+00 0.00000E+00 2 -1.51177E-32 0.00000E+00 -1.19759E-31 Convergence criterion completely met Total cpu time for Newton equation assembly = 0.1333 Total cpu time for Newton linear solves = 0.0333 ( 0.0333) Total cpu time for bias point = 0.1667 Total cpu time = 1.7667Solution for bias: V1 = -1.4000000E+00 V2 = 0.0000000E+00 Previous solution used as initial guess o-itr i-itr psi-error n-error p-error 1 0 7.0227E-01 R( 0)
  26. 26. 1 1 7.6681E+00 U( 1) 1 1 2.6196E-04 R( 1) 1 2* 1.5733E-01 U( 4) 1 2* 1.5301E-05 R( 1) 1 3* 9.5110E-03 U( 4) 1 3* 5.6775E-08 R( 1) 1 4* 3.3622E-05 U( 4) 1 4* 1.1420E-12 R( 1) 1 5% 4.3141E-10 U( 5) 1 5% 1.5226E-12 R( 1) 1 0 1.0000E+00 R( 0) 1 1 8.3052E-15 U( 1) 1 1 1.4487E-02 R( 1) 1 0 1.0000E+00 R( 0) 1 1 2.9346E-15 U( 1) 1 1 6.3305E-02 R( 1) 2 0 9.5103E-11 R( 0) 2 1 3.1046E-15 U( 1) 2 1 6.6340E-11 R( 1) 2 0 1.0000E+00 R( 0) 2 1 5.9442E-15 U( 1) 2 1 2.4121E-02 R( 1) 2 0 1.0000E+00 R( 0) 2 1 1.5621E-15 U( 1) 2 1 1.5389E-01 R( 1) 1 0 1.0669E-13 3.6692E-21 2.8094E-15 R( 0) 1 1 3.0983E-15 1.8947E-15 1.1627E-15 U( 1) 1 1 8.8574E-14 3.4290E-20 3.5142E-14 R( 1)Electrode Voltage Electron Current Hole Current Conduction Current (Volts) (Amps) (Amps) (Amps) 1 -1.4000 0.00000E+00 0.00000E+00 0.00000E+00 2 0.0000 -1.27248E-31 -1.16591E-22 -1.16591E-22Electrode Flux Displacement Current Total Current (Coul) (Amps) (Amps)
  27. 27. 1 -1.54142E-16 0.00000E+00 0.00000E+00 2 -1.51177E-32 0.00000E+00 -1.16591E-22 Convergence criterion completely met Total cpu time for Newton equation assembly = 0.1667 Total cpu time for Newton linear solves = 0.0333 ( 0.0333) Total cpu time for bias point = 0.2000 Total cpu time = 1.9667Solution for bias: V1 = -1.6000000E+00 V2 = 0.0000000E+00 Previous solution used as initial guess o-itr i-itr psi-error n-error p-error 1 0 6.9909E-01 R( 0) 1 1 7.6651E+00 U( 1) 1 1 1.8662E-04 R( 1) 1 2* 9.0573E-02 U( 4) 1 2* 6.1574E-06 R( 1) 1 3* 3.0699E-03 U( 4) 1 3* 7.4800E-09 R( 1) 1 4* 3.5783E-06 U( 4) 1 4* 1.6471E-12 R( 1) 1 0 1.0000E+00 R( 0) 1 1 8.5614E-15 U( 1) 1 1 1.3943E-02 R( 1) 1 0 1.0000E+00 R( 0) 1 1 3.3332E-15 U( 1) 1 1 6.7534E-02 R( 1) 2 0 7.3228E-11 R( 0) 2 1 5.0231E-12 U( 1)
  28. 28. 2 1 4.1510E-11 R( 1) 2 0 1.0000E+00 R( 0) 2 1 9.2495E-15 U( 1) 2 1 1.5281E-02 R( 1) 2 0 1.0000E+00 R( 0) 2 1 3.1629E-15 U( 1) 2 1 2.1855E-01 R( 1) 1 0 9.4211E-14 2.3852E-21 3.6508E-15 R( 0) 1 1 4.6795E-15 4.6948E-15 3.6807E-15 U( 1) 1 1 1.2528E-13 2.7265E-20 3.5087E-14 R( 1) Electrode Voltage Electron Current Hole Current Conduction Current (Volts) (Amps) (Amps) (Amps) 1 -1.6000 0.00000E+00 0.00000E+00 0.00000E+00 2 0.0000 -1.67168E-31 -1.16591E-22 -1.16591E-22 Electrode Flux Displacement Current Total Current (Coul) (Amps) (Amps) 1 -2.17538E-16 0.00000E+00 0.00000E+00 2 -1.51177E-32 0.00000E+00 -1.16591E-22 Convergence criterion completely met Total cpu time for Newton equation assembly = 0.1333 Total cpu time for Newton linear solves = 0.0333 ( 0.0333) Total cpu time for bias point = 0.2000 Total cpu time = 2.1667Solution for bias: V1 = -1.8000000E+00 V2 = 0.0000000E+00 Previous solution used as initial guess
  29. 29. o-itr i-itr psi-error n-error p-error 1 0 6.9582E-01 R( 0) 1 1 7.6633E+00 U( 1) 1 1 1.5098E-04 R( 1) 1 2* 5.7110E-02 U( 4) 1 2* 3.0365E-06 R( 1) 1 3* 1.2069E-03 U( 4) 1 3* 1.4432E-09 R( 1) 1 4* 5.6075E-07 U( 4) 1 4* 2.1212E-12 R( 1) 1 0 1.0000E+00 R( 0) 1 1 1.0395E-14 U( 1) 1 1 1.6797E-02 R( 1) 1 0 1.0000E+00 R( 0) 1 1 3.2704E-15 U( 1) 1 1 9.7696E-02 R( 1) 2 0 7.3049E-11 R( 0) 2 1 1.2515E-13 U( 1) 2 1 7.5521E-11 R( 1) 2 0 1.0000E+00 R( 0) 2 1 8.7113E-15 U( 1) 2 1 1.5068E-02 R( 1) 2 0 1.0000E+00 R( 0) 2 1 2.5660E-15 U( 1) 2 1 2.3016E-01 R( 1) 1 0 2.2232E-13 2.0001E-21 3.7008E-15 R( 0) 1 1 4.6524E-15 3.3381E-15 3.8602E-15 U( 1) 1 1 1.6759E-13 2.4582E-20 4.4627E-14 R( 1)Electrode Voltage Electron Current Hole Current Conduction Current (Volts) (Amps) (Amps) (Amps) 1 -1.8000 0.00000E+00 0.00000E+00 0.00000E+00 2 0.0000 -1.67168E-31 -2.33182E-22 -2.33182E-22Electrode Flux Displacement Current Total Current (Coul) (Amps) (Amps)
  30. 30. 1 -2.82160E-16 0.00000E+00 0.00000E+00 2 -1.51177E-32 0.00000E+00 -2.33182E-22 Convergence criterion completely met Total cpu time for Newton equation assembly = 0.0667 Total cpu time for Newton linear solves = 0.1000 ( 0.1000) Total cpu time for bias point = 0.1667 Total cpu time = 2.3333Solution for bias: V1 = -2.0000000E+00 V2 = 0.0000000E+00 Previous solution used as initial guess o-itr i-itr psi-error n-error p-error 1 0 6.9251E-01 R( 0) 1 1 7.6622E+00 U( 1) 1 1 1.3046E-04 R( 1) 1 2* 3.8741E-02 U( 4) 1 2* 1.7349E-06 R( 1) 1 3* 5.5244E-04 U( 4) 1 3* 3.7407E-10 R( 1) 1 4* 1.1859E-07 U( 4) 1 4* 7.6737E-13 R( 1) 1 0 1.0000E+00 R( 0) 1 1 1.0115E-14 U( 1) 1 1 1.6390E-02 R( 1) 1 0 1.0000E+00 R( 0) 1 1 3.9134E-15 U( 1) 1 1 6.0024E-02 R( 1) 2 0 2.1555E-11 R( 0) 2 1 6.2223E-15 U( 1)
  31. 31. 2 1 6.0544E-11 R( 1) 2 0 1.0000E+00 R( 0) 2 1 8.8694E-15 U( 1) 2 1 1.5096E-02 R( 1) 2 0 1.0000E+00 R( 0) 2 1 1.6930E-15 U( 1) 2 1 2.4066E-01 R( 1) 1 0 2.1955E-13 1.9879E-21 3.7240E-15 R( 0) 1 1 3.6782E-15 2.0744E-15 2.2446E-15 U( 1) 1 1 1.9654E-13 2.1254E-20 4.9150E-14 R( 1) Electrode Voltage Electron Current Hole Current Conduction Current (Volts) (Amps) (Amps) (Amps) 1 -2.0000 0.00000E+00 0.00000E+00 0.00000E+00 2 0.0000 -1.67168E-31 -2.33182E-22 -2.33182E-22 Electrode Flux Displacement Current Total Current (Coul) (Amps) (Amps) 1 -3.47583E-16 0.00000E+00 0.00000E+00 2 -1.51177E-32 0.00000E+00 -2.33182E-22 Convergence criterion completely met Total cpu time for Newton equation assembly = 0.1333 Total cpu time for Newton linear solves = 0.0333 ( 0.0333) Total cpu time for bias point = 0.2000 Total cpu time = 2.5333Solution for bias: V1 = -2.2000000E+00 V2 = 0.0000000E+00 Previous solution used as initial guess
  32. 32. o-itr i-itr psi-error n-error p-error 1 0 6.8917E-01 R( 0) 1 1 7.6614E+00 U( 1) 1 1 1.1664E-04 R( 1) 1 2* 2.7791E-02 U( 4) 1 2* 1.0957E-06 R( 1) 1 3% 2.8356E-04 U( 4) 1 3% 1.2059E-10 R( 1) 1 4* 3.1445E-08 U( 2) 1 4* 2.8959E-12 R( 1) 1 0 1.0000E+00 R( 0) 1 1 8.8332E-15 U( 1) 1 1 1.7767E-02 R( 1) 1 0 1.0000E+00 R( 0) 1 1 2.9820E-15 U( 1) 1 1 6.5877E-02 R( 1) 2 0 6.8696E-11 R( 0) 2 1 4.7006E-15 U( 1) 2 1 5.0807E-11 R( 1) 2 0 1.0000E+00 R( 0) 2 1 6.3162E-15 U( 1) 2 1 2.5131E-02 R( 1) 2 0 1.0000E+00 R( 0) 2 1 1.2636E-15 U( 1) 2 1 2.3289E-01 R( 1) 1 0 2.1922E-13 1.9555E-21 3.1896E-15 R( 0) 1 1 3.6642E-15 2.1816E-15 2.4672E-15 U( 1) 1 1 1.9570E-13 1.8413E-20 8.8057E-14 R( 1)Electrode Voltage Electron Current Hole Current Conduction Current (Volts) (Amps) (Amps) (Amps) 1 -2.2000 0.00000E+00 0.00000E+00 0.00000E+00 2 0.0000 -1.67168E-31 -2.33182E-22 -2.33182E-22Electrode Flux Displacement Current Total Current (Coul) (Amps) (Amps)
  33. 33. 1 -4.13569E-16 0.00000E+00 0.00000E+00 2 -1.51177E-32 0.00000E+00 -2.33182E-22 Convergence criterion completely met Total cpu time for Newton equation assembly = 0.1333 Total cpu time for Newton linear solves = 0.0667 ( 0.0667) Total cpu time for bias point = 0.2000 Total cpu time = 2.7333Solution for bias: V1 = -2.4000000E+00 V2 = 0.0000000E+00 Previous solution used as initial guess o-itr i-itr psi-error n-error p-error 1 0 6.8582E-01 R( 0) 1 1 7.6609E+00 U( 1) 1 1 1.0637E-04 R( 1) 1 2% 2.0816E-02 U( 4) 1 2% 7.4204E-07 R( 1) 1 3* 1.5886E-04 U( 2) 1 3* 4.5621E-11 R( 1) 1 4% 9.9227E-09 U( 3) 1 4% 1.9136E-12 R( 1) 1 0 1.0000E+00 R( 0) 1 1 8.6235E-15 U( 1) 1 1 1.8438E-02 R( 1) 1 0 1.0000E+00 R( 0) 1 1 3.6649E-15 U( 1) 1 1 3.8513E-02 R( 1) 2 0 3.9306E-11 R( 0) 2 1 6.5710E-15 U( 1)
  34. 34. 2 1 5.3454E-11 R( 1) 2 0 1.0000E+00 R( 0) 2 1 7.6996E-15 U( 1) 2 1 2.1647E-02 R( 1) 2 0 1.0000E+00 R( 0) 2 1 2.2120E-15 U( 1) 2 1 1.9207E-01 R( 1) 1 0 2.6767E-13 1.7969E-21 3.4669E-15 R( 0) 1 1 6.7300E-15 3.2849E-15 3.1561E-15 U( 1) 1 1 2.0902E-13 2.0309E-20 7.6267E-14 R( 1) Electrode Voltage Electron Current Hole Current Conduction Current (Volts) (Amps) (Amps) (Amps) 1 -2.4000 0.00000E+00 0.00000E+00 0.00000E+00 2 0.0000 -1.67168E-31 -2.33182E-22 -2.33182E-22 Electrode Flux Displacement Current Total Current (Coul) (Amps) (Amps) 1 -4.79967E-16 0.00000E+00 0.00000E+00 2 -1.51177E-32 0.00000E+00 -2.33182E-22 Convergence criterion completely met Total cpu time for Newton equation assembly = 0.1667 Total cpu time for Newton linear solves = 0.0000 ( 0.0000) Total cpu time for bias point = 0.1667 Total cpu time = 2.9000Solution for bias: V1 = -2.6000000E+00 V2 = 0.0000000E+00 Previous solution used as initial guess
  35. 35. o-itr i-itr psi-error n-error p-error 1 0 6.8247E-01 R( 0) 1 1 7.6605E+00 U( 1) 1 1 9.8261E-05 R( 1) 1 2% 1.6128E-02 U( 4) 1 2% 5.2862E-07 R( 1) 1 3* 9.5295E-05 U( 2) 1 3* 1.9534E-11 R( 1) 1 4% 3.5830E-09 U( 3) 1 4% 6.5754E-13 R( 1) 1 0 1.0000E+00 R( 0) 1 1 8.9355E-15 U( 1) 1 1 1.6785E-02 R( 1) 1 0 1.0000E+00 R( 0) 1 1 3.3114E-15 U( 1) 1 1 4.6042E-02 R( 1) 2 0 1.1916E-11 R( 0) 2 1 6.7554E-15 U( 1) 2 1 1.2030E-11 R( 1) 2 0 1.0000E+00 R( 0) 2 1 6.5368E-15 U( 1) 2 1 2.7332E-02 R( 1) 2 0 1.0000E+00 R( 0) 2 1 2.0777E-15 U( 1) 2 1 2.3835E-01 R( 1) 1 0 6.8614E-14 1.8642E-21 4.4895E-15 R( 0) 1 1 6.5983E-15 3.2078E-15 3.0947E-15 U( 1) 1 1 2.4546E-13 1.9409E-20 9.0803E-14 R( 1)Electrode Voltage Electron Current Hole Current Conduction Current (Volts) (Amps) (Amps) (Amps) 1 -2.6000 0.00000E+00 0.00000E+00 0.00000E+00 2 0.0000 -1.67168E-31 -2.33182E-22 -2.33182E-22Electrode Flux Displacement Current Total Current (Coul) (Amps) (Amps)
  36. 36. 1 -5.46681E-16 0.00000E+00 0.00000E+00 2 -1.51177E-32 0.00000E+00 -2.33182E-22 Convergence criterion completely met Total cpu time for Newton equation assembly = 0.1333 Total cpu time for Newton linear solves = 0.0667 ( 0.0667) Total cpu time for bias point = 0.2000 Total cpu time = 3.1000Solution for bias: V1 = -2.8000000E+00 V2 = 0.0000000E+00 Previous solution used as initial guess o-itr i-itr psi-error n-error p-error 1 0 6.7912E-01 R( 0) 1 1 7.6602E+00 U( 1) 1 1 9.1607E-05 R( 1) 1 2* 1.2839E-02 U( 3) 1 2* 3.9137E-07 R( 1) 1 3* 6.0369E-05 U( 3) 1 3* 9.2254E-12 R( 1) 1 4* 1.4401E-09 U( 4) 1 4* 1.8325E-12 R( 1) 1 0 1.0000E+00 R( 0) 1 1 7.9934E-15 U( 1) 1 1 1.6456E-02 R( 1) 1 0 1.0000E+00 R( 0) 1 1 4.6188E-15 U( 1) 1 1 5.9356E-02 R( 1) 2 0 2.9732E-11 R( 0) 2 1 8.0909E-15 U( 1)
  37. 37. 2 1 2.3759E-11 R( 1) 2 0 1.0000E+00 R( 0) 2 1 7.7434E-15 U( 1) 2 1 2.3809E-02 R( 1) 2 0 1.0000E+00 R( 0) 2 1 1.8422E-15 U( 1) 2 1 2.3869E-01 R( 1) 1 0 1.5211E-13 1.9249E-21 4.4557E-15 R( 0) 1 1 6.9985E-15 2.2901E-15 2.4868E-15 U( 1) 1 1 1.5239E-13 1.8950E-20 9.2082E-14 R( 1) Electrode Voltage Electron Current Hole Current Conduction Current (Volts) (Amps) (Amps) (Amps) 1 -2.8000 0.00000E+00 0.00000E+00 0.00000E+00 2 0.0000 -1.67168E-31 -2.33182E-22 -2.33182E-22 Electrode Flux Displacement Current Total Current (Coul) (Amps) (Amps) 1 -6.13644E-16 0.00000E+00 0.00000E+00 2 -1.51177E-32 0.00000E+00 -2.33182E-22 Convergence criterion completely met Total cpu time for Newton equation assembly = 0.1667 Total cpu time for Newton linear solves = -0.0000 ( -0.0000) Total cpu time for bias point = 0.1667 Total cpu time = 3.2667Solution for bias: V1 = -3.0000000E+00 V2 = 0.0000000E+00 Previous solution used as initial guess
  38. 38. o-itr i-itr psi-error n-error p-error 1 0 6.7578E-01 R( 0) 1 1 7.6599E+00 U( 1) 1 1 8.6002E-05 R( 1) 1 2* 1.0448E-02 U( 3) 1 2* 2.9867E-07 R( 1) 1 3* 3.9981E-05 U( 3) 1 3* 4.5992E-12 R( 1) 1 4% 6.3294E-10 U( 4) 1 4% 1.4945E-12 R( 1) 1 0 1.0000E+00 R( 0) 1 1 9.5432E-15 U( 1) 1 1 1.5068E-02 R( 1) 1 0 1.0000E+00 R( 0) 1 1 3.9327E-15 U( 1) 1 1 5.9947E-02 R( 1) 2 0 2.1963E-11 R( 0) 2 1 7.5675E-15 U( 1) 2 1 2.3798E-11 R( 1) 2 0 1.0000E+00 R( 0) 2 1 5.7557E-15 U( 1) 2 1 2.3398E-02 R( 1) 2 0 1.0000E+00 R( 0) 2 1 1.7415E-15 U( 1) 2 1 2.3269E-01 R( 1) 1 0 1.6903E-13 1.6657E-21 4.1810E-15 R( 0) 1 1 7.0498E-15 1.8451E-15 1.9630E-15 U( 1) 1 1 1.7463E-13 1.9217E-20 7.5604E-14 R( 1)Electrode Voltage Electron Current Hole Current Conduction Current (Volts) (Amps) (Amps) (Amps) 1 -3.0000 0.00000E+00 0.00000E+00 0.00000E+00 2 0.0000 -1.67168E-31 -2.33182E-22 -2.33182E-22Electrode Flux Displacement Current Total Current (Coul) (Amps) (Amps)
  39. 39. 1 -6.80807E-16 0.00000E+00 0.00000E+00 2 -1.51177E-32 0.00000E+00 -2.33182E-22 Convergence criterion completely met Total cpu time for Newton equation assembly = 0.1667 Total cpu time for Newton linear solves = 0.0333 ( 0.0333) Total cpu time for bias point = 0.2000 Total cpu time = 3.4667Solution for bias: V1 = -3.0000000E+00 V2 = 0.0000000E+00 Previous solution used as initial guess o-itr i-itr psi-error n-error p-error 1 0 2.4585E-11 R( 0) 1 1 1.9899E-14 U( 1) 1 1 2.4501E-11 R( 1) 1 0 1.0000E+00 R( 0) 1 1 4.5704E-15 U( 1) 1 1 2.7447E-02 R( 1) 1 0 1.0000E+00 R( 0) 1 1 2.4880E-15 U( 1) 1 1 5.4712E-02 R( 1) 2 0 2.4501E-11 R( 0) 2 1 6.8994E-15 U( 1) 2 1 2.4498E-11 R( 1) 2 0 1.0000E+00 R( 0) 2 1 5.6458E-15 U( 1) 2 1 2.8232E-02 R( 1) 2 0 1.0000E+00 R( 0) 2 1 1.1964E-15 U( 1)
  40. 40. 2 1 3.0275E-01 R( 1) 1 0 1.7401E-13 1.9661E-21 3.8911E-15 R( 0) 1 1 6.9165E-15 1.7704E-15 2.1586E-15 U( 1) 1 1 1.7401E-13 1.8016E-20 8.0365E-14 R( 1) Electrode Voltage Electron Current Hole Current Conduction Current (Volts) (Amps) (Amps) (Amps) 1 -3.0000 0.00000E+00 0.00000E+00 0.00000E+00 2 0.0000 -1.67168E-31 -2.33182E-22 -2.33182E-22 Electrode Flux Displacement Current Total Current (Coul) (Amps) (Amps) 1 -6.80807E-16 0.00000E+00 0.00000E+00 2 -1.51177E-32 0.00000E+00 -2.33182E-22 Convergence criterion completely met Total cpu time for Newton equation assembly = 0.1333 Total cpu time for Newton linear solves = 0.0000 ( 0.0000) Total cpu time for bias point = 0.1667 Total cpu time = 3.6333Ac analysis : Ac voltage = 2.585100E-03 Frequency = 1.000000E+00 HzElectrode # 1 Electrode Conduction Current Displacement Current (Amps) (Amps) 1 -0.00000E+00 -0.00000E+00 -7.53395E-27 -5.46168E-18 2 2.46273E-18 5.46168E-18 -4.88307E-28 2.20183E-28 Element Total Current Conductance Capacitance
  41. 41. (Amps) (Siemens) (Farads) Y11 -7.53395E-27 -5.46168E-18 -2.91438E-24 -3.36255E-16 Y21 2.46273E-18 5.46168E-18 9.52662E-16 3.36255E-16Electrode # 2 Electrode Conduction Current Displacement Current (Amps) (Amps) 1 -0.00000E+00 -0.00000E+00 7.53395E-27 5.46168E-18 2 -5.00280E-17 -5.46168E-18 4.88307E-28 -4.47280E-27 Element Total Current Conductance Capacitance (Amps) (Siemens) (Farads) Y12 7.53395E-27 5.46168E-18 2.91438E-24 3.36255E-16 Y22 -5.00280E-17 -5.46168E-18 -1.93524E-14 -3.36255E-16 Total cpu time for Newton equation assembly = 0.0333 Total cpu time for Newton linear solves = 0.0333 ( 0.0333) Total cpu time for ac analysis = 0.0667 Total cpu time = 3.7000Solution for bias: V1 = -2.9389345E+00 V2 = 0.0000000E+00 Previous solution used as initial guess o-itr i-itr psi-error n-error p-error 1 0 8.3069E-01 R( 0) 1 1 2.3387E+00 U( 1) 1 1 2.8422E-05 R( 1)
  42. 42. 1 2* 8.7591E-04 U( 3) 1 2* 7.9229E-09 R( 1) 1 3* 2.7285E-07 U( 3) 1 3* 8.9715E-12 R( 1) 1 0 1.0000E+00 R( 0) 1 1 1.2870E-14 U( 1) 1 1 1.6740E-02 R( 1) 1 0 1.0000E+00 R( 0) 1 1 7.4405E-15 U( 1) 1 1 6.5205E-02 R( 1) 2 0 3.3767E-11 R( 0) 2 1 2.7293E-14 U( 1) 2 1 2.6152E-11 R( 1) 2 0 1.0000E+00 R( 0) 2 1 8.7446E-15 U( 1) 2 1 2.1132E-02 R( 1) 2 0 1.0000E+00 R( 0) 2 1 2.3424E-15 U( 1) 2 1 3.8155E-01 R( 1) 1 0 1.8015E-13 1.9136E-21 4.8360E-15 R( 0) 1 1 3.6493E-15 1.9591E-15 2.8974E-15 U( 1) 1 1 2.0801E-13 1.7985E-20 8.6538E-14 R( 1)Electrode Voltage Electron Current Hole Current Conduction Current (Volts) (Amps) (Amps) (Amps) 1 -2.9389 0.00000E+00 0.00000E+00 0.00000E+00 2 0.0000 -1.67168E-31 -2.33182E-22 -2.33182E-22Electrode Flux Displacement Current Total Current (Coul) (Amps) (Amps) 1 -6.60281E-16 0.00000E+00 0.00000E+00 2 -1.51177E-32 0.00000E+00 -2.33182E-22Convergence criterion completely metTotal cpu time for Newton equation assembly = 0.1667Total cpu time for Newton linear solves = -0.0000 ( -0.0000)
  43. 43. Total cpu time for bias point = 0.1667 Total cpu time = 3.8667Ac analysis : Ac voltage = 2.585100E-03 Frequency = 1.000000E+00 HzElectrode # 1 Electrode Conduction Current Displacement Current (Amps) (Amps) 1 -0.00000E+00 -0.00000E+00 -7.52269E-27 -5.45748E-18 2 3.46230E-18 5.45748E-18 -4.87932E-28 3.09550E-28 Element Total Current Conductance Capacitance (Amps) (Siemens) (Farads) Y11 -7.52269E-27 -5.45748E-18 -2.91002E-24 -3.35997E-16 Y21 3.46230E-18 5.45748E-18 1.33933E-15 3.35997E-16Electrode # 2 Electrode Conduction Current Displacement Current (Amps) (Amps) 1 -0.00000E+00 -0.00000E+00 7.52269E-27 5.45748E-18 2 -1.91631E-17 -5.45748E-18 4.87932E-28 -1.71329E-27 Element Total Current Conductance Capacitance (Amps) (Siemens) (Farads) Y12 7.52269E-27 5.45748E-18 2.91002E-24 3.35997E-16 Y22 -1.91631E-17 -5.45748E-18 -7.41290E-15 -3.35997E-16
  44. 44. Total cpu time for Newton equation assembly = 0.0333 Total cpu time for Newton linear solves = 0.0333 ( 0.0333) Total cpu time for ac analysis = 0.0667 Total cpu time = 3.9333Solution for bias: V1 = -2.8778690E+00 V2 = 0.0000000E+00 Previous solution used as initial guess o-itr i-itr psi-error n-error p-error 1 0 8.2687E-01 R( 0) 1 1 2.3387E+00 U( 1) 1 1 2.8670E-05 R( 1) 1 2* 9.2805E-04 U( 3) 1 2* 8.4590E-09 R( 1) 1 3* 3.0596E-07 U( 3) 1 3* 8.3324E-12 R( 1) 1 0 1.0000E+00 R( 0) 1 1 1.0464E-14 U( 1) 1 1 1.6061E-02 R( 1) 1 0 1.0000E+00 R( 0) 1 1 6.3595E-15 U( 1) 1 1 5.4065E-02 R( 1) 2 0 3.2516E-11 R( 0) 2 1 4.3515E-14 U( 1) 2 1 4.7055E-11 R( 1) 2 0 1.0000E+00 R( 0) 2 1 7.6370E-15 U( 1) 2 1 2.0200E-02 R( 1) 2 0 1.0000E+00 R( 0) 2 1 1.3495E-15 U( 1)
  45. 45. 2 1 1.9959E-01 R( 1) 1 0 3.1408E-13 1.9924E-21 3.5815E-15 R( 0) 1 1 7.4053E-15 3.0611E-15 3.5880E-15 U( 1) 1 1 3.1490E-13 1.9027E-20 7.7703E-14 R( 1) Electrode Voltage Electron Current Hole Current Conduction Current (Volts) (Amps) (Amps) (Amps) 1 -2.8779 0.00000E+00 0.00000E+00 0.00000E+00 2 0.0000 -1.67168E-31 -2.33182E-22 -2.33182E-22 Electrode Flux Displacement Current Total Current (Coul) (Amps) (Amps) 1 -6.39772E-16 0.00000E+00 0.00000E+00 2 -1.51177E-32 0.00000E+00 -2.33182E-22 Convergence criterion completely met Total cpu time for Newton equation assembly = 0.1333 Total cpu time for Newton linear solves = 0.0333 ( 0.0333) Total cpu time for bias point = 0.1667 Total cpu time = 4.1000Ac analysis : Ac voltage = 2.585100E-03 Frequency = 1.000000E+00 HzElectrode # 1 Electrode Conduction Current Displacement Current (Amps) (Amps) 1 -0.00000E+00 -0.00000E+00 -7.51076E-27 -5.45304E-18 2 3.23867E-18 5.45304E-18 -4.87534E-28 2.89557E-28 Element Total Current Conductance Capacitance
  46. 46. (Amps) (Siemens) (Farads) Y11 -7.51076E-27 -5.45304E-18 -2.90540E-24 -3.35723E-16 Y21 3.23867E-18 5.45304E-18 1.25282E-15 3.35723E-16Electrode # 2 Electrode Conduction Current Displacement Current (Amps) (Amps) 1 -0.00000E+00 -0.00000E+00 7.51076E-27 5.45304E-18 2 3.34473E-17 -5.45304E-18 4.87534E-28 2.99039E-27 Element Total Current Conductance Capacitance (Amps) (Siemens) (Farads) Y12 7.51076E-27 5.45304E-18 2.90540E-24 3.35723E-16 Y22 3.34473E-17 -5.45304E-18 1.29385E-14 -3.35723E-16 Total cpu time for Newton equation assembly = 0.0333 Total cpu time for Newton linear solves = -0.0000 ( -0.0000) Total cpu time for ac analysis = 0.0667 Total cpu time = 4.1667Solution for bias: V1 = -2.8168034E+00 V2 = 0.0000000E+00 Previous solution used as initial guess o-itr i-itr psi-error n-error p-error 1 0 8.2304E-01 R( 0) 1 1 2.3388E+00 U( 1) 1 1 2.8930E-05 R( 1)
  47. 47. 1 2* 9.8491E-04 U( 3) 1 2* 9.0491E-09 R( 1) 1 3* 3.4420E-07 U( 3) 1 3* 8.5359E-12 R( 1) 1 0 1.0000E+00 R( 0) 1 1 8.6584E-15 U( 1) 1 1 1.7014E-02 R( 1) 1 0 1.0000E+00 R( 0) 1 1 4.5488E-15 U( 1) 1 1 4.6070E-02 R( 1) 2 0 3.4573E-11 R( 0) 2 1 4.9783E-14 U( 1) 2 1 2.0745E-11 R( 1) 2 0 1.0000E+00 R( 0) 2 1 7.4241E-15 U( 1) 2 1 2.0190E-02 R( 1) 2 0 1.0000E+00 R( 0) 2 1 2.4151E-15 U( 1) 2 1 3.2410E-01 R( 1) 1 0 1.3403E-13 1.9469E-21 5.2241E-15 R( 0) 1 1 6.9269E-15 2.6462E-15 4.4503E-15 U( 1) 1 1 1.4196E-13 2.0184E-20 7.8751E-14 R( 1)Electrode Voltage Electron Current Hole Current Conduction Current (Volts) (Amps) (Amps) (Amps) 1 -2.8168 0.00000E+00 0.00000E+00 0.00000E+00 2 0.0000 -1.67168E-31 -2.33182E-22 -2.33182E-22Electrode Flux Displacement Current Total Current (Coul) (Amps) (Amps) 1 -6.19280E-16 0.00000E+00 0.00000E+00 2 -1.51177E-32 0.00000E+00 -2.33182E-22Convergence criterion completely metTotal cpu time for Newton equation assembly = 0.1667Total cpu time for Newton linear solves = -0.0000 ( -0.0000)
  48. 48. Total cpu time for bias point = 0.1667 Total cpu time = 4.3333Ac analysis : Ac voltage = 2.585100E-03 Frequency = 1.000000E+00 HzElectrode # 1 Electrode Conduction Current Displacement Current (Amps) (Amps) 1 -0.00000E+00 -0.00000E+00 -7.49810E-27 -5.44832E-18 2 3.65049E-18 5.44832E-18 -4.87112E-28 3.26376E-28 Element Total Current Conductance Capacitance (Amps) (Siemens) (Farads) Y11 -7.49810E-27 -5.44832E-18 -2.90051E-24 -3.35432E-16 Y21 3.65049E-18 5.44832E-18 1.41213E-15 3.35432E-16Electrode # 2 Electrode Conduction Current Displacement Current (Amps) (Amps) 1 -0.00000E+00 -0.00000E+00 7.49810E-27 5.44832E-18 2 -1.55270E-17 -5.44832E-18 4.87112E-28 -1.38821E-27 Element Total Current Conductance Capacitance (Amps) (Siemens) (Farads) Y12 7.49810E-27 5.44832E-18 2.90051E-24 3.35432E-16 Y22 -1.55270E-17 -5.44832E-18 -6.00636E-15 -3.35432E-16
  49. 49. Total cpu time for Newton equation assembly = 0.0333 Total cpu time for Newton linear solves = 0.0333 ( 0.0333) Total cpu time for ac analysis = 0.0667 Total cpu time = 4.4000Solution for bias: V1 = -2.7557379E+00 V2 = 0.0000000E+00 Previous solution used as initial guess o-itr i-itr psi-error n-error p-error 1 0 8.1922E-01 R( 0) 1 1 2.3388E+00 U( 1) 1 1 2.9200E-05 R( 1) 1 2* 1.0471E-03 U( 3) 1 2* 9.6999E-09 R( 1) 1 3* 3.8853E-07 U( 3) 1 3* 5.1351E-12 R( 1) 1 0 1.0000E+00 R( 0) 1 1 9.1257E-15 U( 1) 1 1 1.9346E-02 R( 1) 1 0 1.0000E+00 R( 0) 1 1 4.8432E-15 U( 1) 1 1 7.1527E-02 R( 1) 2 0 2.1610E-11 R( 0) 2 1 5.9003E-14 U( 1) 2 1 2.1515E-11 R( 1) 2 0 1.0000E+00 R( 0) 2 1 8.7210E-15 U( 1) 2 1 2.1472E-02 R( 1) 2 0 1.0000E+00 R( 0) 2 1 1.1421E-15 U( 1)
  50. 50. 2 1 2.0638E-01 R( 1) 1 0 1.3441E-13 1.7327E-21 3.7783E-15 R( 0) 1 1 5.1811E-15 2.6836E-15 2.3482E-15 U( 1) 1 1 1.3438E-13 1.9465E-20 7.5747E-14 R( 1) Electrode Voltage Electron Current Hole Current Conduction Current (Volts) (Amps) (Amps) (Amps) 1 -2.7557 0.00000E+00 0.00000E+00 0.00000E+00 2 0.0000 -1.67168E-31 -2.33182E-22 -2.33182E-22 Electrode Flux Displacement Current Total Current (Coul) (Amps) (Amps) 1 -5.98806E-16 0.00000E+00 0.00000E+00 2 -1.51177E-32 0.00000E+00 -2.33182E-22 Convergence criterion completely met Total cpu time for Newton equation assembly = 0.1667 Total cpu time for Newton linear solves = -0.0000 ( -0.0000) Total cpu time for bias point = 0.1667 Total cpu time = 4.5667Ac analysis : Ac voltage = 2.585100E-03 Frequency = 1.000000E+00 HzElectrode # 1 Electrode Conduction Current Displacement Current (Amps) (Amps) 1 -0.00000E+00 -0.00000E+00 -7.48466E-27 -5.44329E-18 2 2.91127E-18 5.44329E-18 -4.86663E-28 2.60285E-28 Element Total Current Conductance Capacitance
  51. 51. (Amps) (Siemens) (Farads) Y11 -7.48466E-27 -5.44329E-18 -2.89531E-24 -3.35123E-16 Y21 2.91127E-18 5.44329E-18 1.12617E-15 3.35123E-16Electrode # 2 Electrode Conduction Current Displacement Current (Amps) (Amps) 1 -0.00000E+00 -0.00000E+00 7.48466E-27 5.44329E-18 2 -3.94305E-18 -5.44329E-18 4.86663E-28 -3.52533E-28 Element Total Current Conductance Capacitance (Amps) (Siemens) (Farads) Y12 7.48466E-27 5.44329E-18 2.89531E-24 3.35123E-16 Y22 -3.94305E-18 -5.44329E-18 -1.52530E-15 -3.35123E-16 Total cpu time for Newton equation assembly = 0.0333 Total cpu time for Newton linear solves = 0.0333 ( 0.0333) Total cpu time for ac analysis = 0.0667 Total cpu time = 4.6333Solution for bias: V1 = -2.6946724E+00 V2 = 0.0000000E+00 Previous solution used as initial guess o-itr i-itr psi-error n-error p-error 1 0 8.1541E-01 R( 0) 1 1 2.3388E+00 U( 1) 1 1 2.9483E-05 R( 1)
  52. 52. 1 2* 1.1152E-03 U( 3) 1 2* 1.0420E-08 R( 1) 1 3* 4.4014E-07 U( 3) 1 3* 5.1483E-12 R( 1) 1 0 1.0000E+00 R( 0) 1 1 9.8557E-15 U( 1) 1 1 1.9486E-02 R( 1) 1 0 1.0000E+00 R( 0) 1 1 5.8186E-15 U( 1) 1 1 5.7035E-02 R( 1) 2 0 2.2537E-11 R( 0) 2 1 8.0990E-14 U( 1) 2 1 4.9760E-11 R( 1) 2 0 1.0000E+00 R( 0) 2 1 8.7428E-15 U( 1) 2 1 1.9264E-02 R( 1) 2 0 1.0000E+00 R( 0) 2 1 2.2097E-15 U( 1) 2 1 1.8849E-01 R( 1) 1 0 3.0025E-13 1.8464E-21 3.8313E-15 R( 0) 1 1 7.1379E-15 3.1978E-15 2.4370E-15 U( 1) 1 1 3.4515E-13 1.9118E-20 7.7212E-14 R( 1)Electrode Voltage Electron Current Hole Current Conduction Current (Volts) (Amps) (Amps) (Amps) 1 -2.6947 0.00000E+00 0.00000E+00 0.00000E+00 2 0.0000 -1.67168E-31 -2.33182E-22 -2.33182E-22Electrode Flux Displacement Current Total Current (Coul) (Amps) (Amps) 1 -5.78351E-16 0.00000E+00 0.00000E+00 2 -1.51177E-32 0.00000E+00 -2.33182E-22Convergence criterion completely metTotal cpu time for Newton equation assembly = 0.1667Total cpu time for Newton linear solves = -0.0000 ( -0.0000)
  53. 53. Total cpu time for bias point = 0.1667 Total cpu time = 4.8000Ac analysis : Ac voltage = 2.585100E-03 Frequency = 1.000000E+00 HzElectrode # 1 Electrode Conduction Current Displacement Current (Amps) (Amps) 1 -0.00000E+00 -0.00000E+00 -7.47034E-27 -5.43795E-18 2 2.84201E-18 5.43795E-18 -4.86185E-28 2.54093E-28 Element Total Current Conductance Capacitance (Amps) (Siemens) (Farads) Y11 -7.47034E-27 -5.43795E-18 -2.88977E-24 -3.34794E-16 Y21 2.84201E-18 5.43795E-18 1.09938E-15 3.34794E-16Electrode # 2 Electrode Conduction Current Displacement Current (Amps) (Amps) 1 -0.00000E+00 -0.00000E+00 7.47034E-27 5.43795E-18 2 2.08364E-18 -5.43795E-18 4.86185E-28 1.86289E-28 Element Total Current Conductance Capacitance (Amps) (Siemens) (Farads) Y12 7.47034E-27 5.43795E-18 2.88977E-24 3.34794E-16 Y22 2.08364E-18 -5.43795E-18 8.06019E-16 -3.34794E-16

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