*************** Device bsimbulk *************** bsim6 model (Also known as bsimbulk, for more information, please refer to the BSIM6/BSIM-BULK Model chapter in the Spectre Simulator Components and Device Models Reference manual. ) The model parameter "version" accepts only a real number value, such as 6.00 for version=6.0.0. The available versions for the bsim6 model are 6.00(6.0.0), 6.10(6.1.0), 6.11(6.1.1) 106.2(Bsimbulk 106.2.0) and 107.0(Bsimbulk 107.0). Sample Instance Statement: m1 (0 2 1 1) pchmod w=2u l=0.8u as=250p ad=250p pd=168p ps=168p m=1 Sample Model Statement: model pchmod bsim6 type=p version=6.00 This device is supported within altergroups. Synopsis: Name ( d g s b [t] ) ModelName ... Model Synopsis: model ModelName bsimbulk ... =================== Instance Parameters =================== 1 m=1.0 Multiplicity factor (number of MOSFETs in parallel). 2 geomod=0 Geo dependent parasitics model. 3 rgeomod=0 Geometry-dependent source/drain resistance. 0: RSH-based, 1: Holistic. 4 rgatemod=0 Gate resistance model selector. 5 rbodymod=0 Distributed body R model. 6 l=(10*1.0e-6) m Channel length. 7 w=(10*1.0e-6) m Total width including fingers. 8 nf=1 Number of fingers. 9 as=0.0 m^2 Source-to-substrate junction area. 10 ad=0.0 m^2 Drain-to-substrate junction area. 11 ps=0.0 m Source-to-substrate junction perimeter. 12 pd=0.0 m Drain-to-substrate junction perimeter. 13 vfbsdoff=0.0 V Flatband voltage offset parameter. 14 nrs=1.0 Number of squares in source. 15 nrd=1.0 Number of squares in drain. 16 minz=0 Minimize either drain or source. 17 xgw=0.0 m Distance from gate contact centre to device edge. 18 ngcon=1 Number of gate contacts. 19 rbpb=50.0 Ohm Resistance between bNodePrime and bNode. 20 rbdb=50.0 Ohm Resistance between bNode and dbNode. 21 rbsb=50.0 Ohm Resistance between bNode and sbNode. 22 rbps=50.0 Ohm Resistance between bNodePrime and sbNode. 23 rbpd=50.0 Ohm Resistance between bNodePrime and dNode. 24 dtemp=0.0 C Offset of device temperature. 25 trise=0.0 C Alias of dtemp. 26 sa=0.0 m Distance between OD edge and poly from one side. 27 sb=0.0 m Distance between OD edge and poly from other side. 28 sd=0.0 m Distance between neighboring fingers. 29 sca=0.0 Integration of first distribution function for scattered well dopants. 30 scb=0.0 Integration of second distribution function for scattered well dopants. 31 scc=0.0 Integration of second distribution function for scattered well dopants. 32 sc=0.0 m Distance to a single well edge; if <= 0.0, turn off WPE. 33 isnoisy=yes Should device generate noise. Possible values are no and yes. 34 sslmod=0 Sub-surface leakage drain current,0: Turn off 1: Turn on. 35 region=triode Estimated operating region. Spectre outputs number (0-4) in a rawfile. Possible values are off, triode, sat, subth and breakdown. 36 ids0mult=1.0 Variability in drain current for miscellaneous reasons. 37 delvt0=0.0 Zero bias threshold voltage variation. 38 delvto=0.0 Aliase of delvt0. 39 mulu0=1.0 40 muluo=1.0 Aliase of mulu0. 41 edgefet=1 0: Edge FET Model Off, 1: Edge FET Model ON. ================ Model Parameters ================ 1 type=n Transistor type. Possible values are p and n. 2 version=6.00 The model parameter "version" accepts only a real number value, such as 6.00 for version=6.0.0. The available versions for the bsim6 model are 6.00(6.0.0), 6.10(6.1.0), 6.11(6.1.1) 106.2(Bsimbulk 106.2.0) and 107.0(Bsimbulk 107.0).. 3 compatible=spectre Compatibility parameters. Possible values are spectre, spice2, spice3, cdsspice, hspice, spiceplus, eldo, sspice, mica. Possible values are spectre, spice2, spice3, cdsspice, hspice, spiceplus, eldo, sspice and mica. 4 vthmod=0 Vth output selector. 'std' outputs model equation Vth. 'vthcc' outputs constant current Vth, and may impact simulation performance. The default value is taken from the options parameter 'vthmod'. Possible values are std and vthcc. 5 ivth=0.0 A Vth current parameter. The default value is taken from the options parameter 'ivthn' or 'ivthp', depending on the type of the model. 6 ivthw=0.0 m Width offset for constant current Vth. The default value is taken from the options parameter 'ivthw'. 7 ivthl=0.0 m Length offset for constant current Vth. The default value is taken from the options parameter 'ivthl'. 8 ivth_vdsmin=0.05 V Minimum Vds in constant current Vth calculating. The default value is taken from the options parameter 'ivth_vdsmin'. 9 vdsatmod=0 Vdsat output selector. Possible values are std, gds, and slow_gds. Possible values are std, gds and slow_gds. 10 vdsat_c=0.0 Coefficient for Gds based Vdsat. 11 vdsat_vdl=0.0 Coefficient for Gds based Vdsat. 12 vdsat_vadj=0.0 Coefficient for Gds based Vdsat. 13 minr=0.001 Minr. 14 cvmod=0 0: Consistent I-V/C-V, 1: Different I-V/C-V. 15 covmod=0 0: Use bias-independent overlap capacitances, 1: Use bias-dependent overlap capacitances. 16 rdsmod=0 0: Internal bias-dependent and external bias-independent S/D resistance model, 1: External S/D resistance model, 2: Internal S/D resistance model. 17 wpemod=0 Model flag for WPE. 18 asymmod=0 0: Asymmetry model turned off - forward mode parameters used, 1: Asymmetry model turned on. 19 gidlmod=0 0: Turn off GIDL current, 1: Turn on GIDL current. 20 igcmod=0 0: Turn off Igc, Igs and Igd, 1: Turn on Igc, Igs and Igd. 21 igbmod=0 0: Turn off Igb, 1: Turn on Igb. 22 tnoimod=0 Thermal noise model selector. 23 shmod=0 0: Self heating model selector, 1: Turn on self heating model. 24 mobscale=0 Mobility scaling model, 0: Old Model, 1: New Model. 25 tmemod=0 26 xgw=0.0 m Distance from gate contact centre to dev edge. 27 llong=1.0e-5 m L of extracted long channel device. 28 lmlt=1.0 Length shrinking parameter. 29 wmlt=1.0 Width shrinking parameter. 30 xl=0.0 m L offset for channel length due to mask/etch effect. 31 wwide=1.0e-5 m W of extracted wide channel device. 32 xw=0.0 m W offset for channel width due to mask/etch effect. 33 lint=0.0 m Delta L for I-V. 34 ll=0.0 m^(1+lln) Length reduction parameter. 35 lw=0.0 m^(1+lwn) Length reduction parameter. 36 lwl=0.0 m^(1+lln+lwn) Length reduction parameter. 37 lln=1.0 Length reduction parameter. 38 lwn=1.0 Length reduction parameter. 39 wint=0.0 m Delta W for I-V. 40 wl=0.0 m^(1+wln) Width reduction parameter. 41 ww=0.0 m^(1+wwn) Width reduction parameter. 42 wwl=0.0 m^(1+wwn+wln) Width reduction parameter. 43 wln=1.0 Width reduction parameter. 44 wwn=1.0 Width reduction parameter. 45 dlc=0.0 m Delta L for C-V. 46 llc=0.0 m^(1+lln) Length reduction parameter. 47 lwc=0.0 m^(1+lwn) Length reduction parameter. 48 lwlc=0.0 m^(1+lln+lwn) Length reduction parameter. 49 dwc=0.0 m Delta W for C-V. 50 wlc=0.0 m^(1+wln) Width reduction parameter. 51 wwc=0.0 m^(1+wwn) Width reduction parameter. 52 wwlc=0.0 m^(1+wwn+wln) Width reduction parameter. 53 toxe=3.0e-9 m Effective gate dielectric thickness relative to SiO2. 54 toxp=3.0e-9 m Physical gate dielectric thickness. If not given, toxp is calculated from toxe and dtox. 55 dtox=0.0 m Difference between effective dielectric thickness and physical thickness. 56 ndep=1e24 1/m^3 Channel doping concentration for I-V. 57 ndepl1=0.0 m Length dependence coefficient of ndep. 58 ndeplexp1=1.0 Length dependence exponent coefficient of ndep. 59 ndepl2=0.0 m Length dependence of NDEP - for short channel devices. 60 ndeplexp2=2.0 Length dependence exponent coefficient of ndep. 61 ndepw=0.0 m Width dependence coefficient of ndep. 62 ndepwexp=1.0 Width dependence exponent coefficient of ndep. 63 ndepwl=0.0 m^2 Width-length dependence coefficient of ndep. 64 ndepwlexp=1.0 Width-length dependence exponent coefficient of ndep. 65 lndep=0.0 1/m^2 Length dependence of NDEP. 66 wndep=0.0 1/m^2 Width dependence of NDEP. 67 pndep=0.0 1/m Area dependence of NDEP. 68 ndepcv=1e24 1/m^3 Channel doping concentration for C-V. 69 ndepcvl1=0.0 m Length dependence coefficient of ndepcv. 70 ndepcvlexp1=1.0 Length dependence exponent coefficient of ndepcv. 71 ndepcvl2=0.0 m Length dependence coefficient of ndepcv - for short channel devices. 72 ndepcvlexp2=2.0 Length dependence exponent coefficient of ndepcv. 73 ndepcvw=0.0 m Width dependence coefficient of ndepcv. 74 ndepcvwexp=1.0 Width dependence exponent coefficient of ndepcv. 75 ndepcvwl=0.0 m^2 Width-length dependence coefficient of ndepcv. 76 ndepcvwlexp=1.0 Width-length dependence exponent coefficient of ndepcv. 77 lndepcv=0.0 1/m^2 Length dependence of NDEP for C-V. 78 wndepcv=0.0 1/m^2 Width dependence of NDEP for C-V. 79 pndepcv=0.0 1/m Area dependence of NDEP for C-V. 80 ngate=5e25 1/m^3 Gate doping concentration. 81 lngate=0.0 1/m^2 Length dependence of NGATE. 82 wngate=0.0 1/m^2 Width dependence of NGATE. 83 pngate=0.0 1/m Area dependence of NGATE. 84 easub=4.05 eV Electron affinity of substrate. 85 ni0sub=1.1e16 1/m^3 Intrinsic carrier concentration of the substrate at 300.15K. 86 bg0sub=1.17 eV Bandgap of substrate at 300.15K. 87 epsrsub=11.9 Relative dielectric constant of the channel material. 88 epsrox=3.9 Relative dielectric constant of the gate dielectric. 89 xj=1.5e-7 m S/D junction depth. 90 lxj=0.0 m^2 Length dependence of XJ. 91 wxj=0.0 m^2 Width dependence of XJ. 92 pxj=0.0 m^3 Area dependence of XJ. 93 vfb=(-1.0) V Flatband voltage. 94 lvfb=0.0 V*m Length dependence of VFB. 95 wvfb=0.0 V*m Width dependence of VFB. 96 pvfb=0.0 V*m^2 Area dependence VFB. 97 vfbcv=(-1.0) V Flatband voltage for C-V. 98 lvfbcv=0.0 V*m Length dependence of VFBCV. 99 wvfbcv=0.0 V*m Width dependence of VFBCV. 100 pvfbcv=0.0 V Area dependence VFBCV. 101 vfbcvl=0.0 m Length dependence coefficient of vfbcv. 102 vfbcvlexp=1.0 Length dependence exponent coefficient of vfbcv. 103 vfbcvw=0.0 m Width dependence coefficient of vfbcv. 104 vfbcvwexp=1.0 Width dependence exponent coefficient of vfbcv. 105 vfbcvwl=0.0 m^2 Width-length dependence coefficient of vfbcv. 106 vfbcvwlexp=1.0 Width-length dependence coefficient of vfbcv. 107 permod=1 Whether ps/pd (when given) include gate-edge perimeter. 108 dwj=0.0 m Delta W for S/D junctions. 109 nsd=1e26 1/m^3 S/D doping concentration. 110 lnsd=0.0 1/m^2 Length dependence of NSD. 111 wnsd=0.0 1/m^2 Width dependence of NSD. 112 pnsd=0.0 1/m Area dependence of NSD. 113 delvt0=0.0 Zero bias threshold voltage variation. 114 dvtp0=0.0 m First coefficient of drain-induced vth shift for long-channel pocket devices. 115 ldvtp0=0 m^2 Length dependence of DVTP0. 116 wdvtp0=0 m^2 Width dependence of DVTP0. 117 pdvtp0=0 m^3 Area dependence of DVTP0. 118 dvtp1=0.0 1/V Second coefficient of drain-induced Vth shift for long-channel pocket devices. 119 ldvtp1=0 m/V Length dependence of DVTP1. 120 wdvtp1=0 m/V Width dependence of DVTP1. 121 pdvtp1=0 m^2/V Area dependence of DVTP1. 122 dvtp2=0.0 m*V 3rd parameter for vth shift due to pocket. 123 ldvtp2=0 m^2/V Length dependence of DVTP2. 124 wdvtp2=0 m^2/V Width dependence of DVTP2. 125 pdvtp2=0 m^3/V Area dependence of DVTP2. 126 dvtp3=0.0 4th parameter for vth shift due to pocket. 127 ldvtp3=0 m Length dependence of DVTP3. 128 wdvtp3=0 m Width dependence of DVTP3. 129 pdvtp3=0 m^2 Area dependence of DVTP3. 130 dvtp4=0.0 1/V 5th parameter for vth shift due to pocket. 131 ldvtp4=0 m/V Length dependence of DVTP4. 132 wdvtp4=0 m/V Width dependence of DVTP4. 133 pdvtp4=0 m^2/V Area dependence of DVTP4. 134 dvtp5=0.0 V 6th parameter for vth shift due to pocket. 135 ldvtp5=0 m*V Length dependence of DVTP5. 136 wdvtp5=0 m*V Width dependence of DVTP5. 137 pdvtp5=0 m^2*V Area dependence of DVTP5. 138 phin=0.045 V Non-uniform vertical doping effect on surface potential. 139 lphin=0.0 m*V Length dependence of PHIN. 140 wphin=0.0 m*V Width dependence of PHIN. 141 pphin=0.0 m^2*V Area dependence of PHIN. 142 eta0=0.08 DIBL coefficient. 143 leta0=0.0 m Length dependence of ETA0. 144 weta0=0.0 m Width dependence of ETA0. 145 peta0=0.0 m^2 Area dependence of ETA0. 146 eta0r=0.08 DIBL coefficient. 147 leta0r=0.0 m Length dependence of ETA0R. 148 weta0r=0.0 m Width dependence of ETA0R. 149 peta0r=0.0 m^2 Area dependence of ETA0R. 150 dsub=1.0 Length scaling exponent for DIBL. 151 etab=(-0.07) 1/V Body bias coefficient for subthreshold DIBL effect. 152 etabexp=1.0 Exponent coefficient of etab. 153 letab=0.0 m/V Length dependence of ETAB. 154 wetab=0.0 m/V Width dependence of ETAB. 155 petab=0.0 m^2/V Area dependence of ETAB. 156 k1=0.0 V^0.5 First-order body-bias Vth shift due to vertical non-uniform doping. 157 k1l=0.0 Length dependence coefficient of K1. 158 k1lexp=1.0 Length dependence exponent coefficient of K1. 159 k1w=0.0 Width dependence coefficient of k1. 160 k1wexp=1.0 Width dependence exponent coefficient of K1. 161 k1wl=0.0 Width-length dependence coefficient of K1. 162 k1wlexp=1.0 Width-length dependence exponent coefficient of K1. 163 lk1=0.0 m*V^0.5 Length dependence of K1. 164 wk1=0.0 m*V^0.5 Width dependence of K1. 165 pk1=0.0 m^2*V^0.5 Area dependence of K1. 166 k2=0.0 V Vth shift due to vertical non-uniform doping. 167 k2l=0.0 m^K2LEXP Length dependence coefficient of k2. 168 k2lexp=1.0 Length dependence exponent coefficient of k2. 169 k2w=0.0 m^K2WEXP Width dependence coefficient of k2. 170 k2wexp=1.0 Width dependence exponent coefficient of k2. 171 k2wl=0.0 Width-length dependence coefficient of k2. 172 k2wlexp=1.0 Width-length dependence exponent coefficient of k2. 173 lk2=0.0 m Length dependence of K2. 174 wk2=0.0 m Width dependence of K2. 175 pk2=0.0 m^2 Area dependence of K2. 176 ados=0.0 Quantum mechanical effect pre-factor switch in inversion. 177 bdos=1.0 Charge centroid parameter - slope of C-V curve under QME in inversion. 178 qm0=1.0e-3 Charge centroid parameter - starting point for QME in inversion. 179 etaqm=0.54 Bulk charge coefficient for charge centroid in inversion. 180 cit=0.0 F/m^2 Parameter for interface traps. 181 lcit=0.0 F/m Length dependence of CIT. 182 wcit=0.0 F/m Width dependence of CIT. 183 pcit=0.0 F Area dependence of CIT. 184 nfactor=0.0 Subthreshold slope factor. 185 nfactorl=0.0 m^NFACTORLEXP Length dependence coefficient of nfactor. 186 nfactorlexp=1.0 Length dependence exponent coefficient of nfactor. 187 nfactorw=0.0 m^NFACTORWEXP Width dependence coefficient of nfactor. 188 nfactorwexp=1.0 Width dependence exponent coefficient of nfactor. 189 nfactorwl=0.0 m^(2*NFACTORWLEXP) Width-length dependence coefficient of nfactor. 190 nfactorwlexp=1.0 Width-length dependence exponent coefficient of nfactor. 191 lnfactor=0.0 m Length dependence of NFACTOR. 192 wnfactor=0.0 m Width dependence of NFACTOR. 193 pnfactor=0.0 m^2 Area dependence of NFACTOR. 194 cdscd=1e-9 F/m^2*V Drain bias sensitivity of subthreshold slope. 195 cdscdl=0.0 m^CDSCDLEXP Length dependence coefficient of cdscd. 196 cdscdlexp=1.0 Length dependence exponent coefficient of cdscd. 197 lcdscd=0.0 F/m/V Length dependence of CDSCD. 198 wcdscd=0.0 F/m/V Width dependence of CDSCD. 199 pcdscd=0.0 F/V Area dependence of CDSCD. 200 cdscdr=1e-9 F/m^2*V Drain bias sensitivity of subthreshold slope. 201 cdscdlr=0.0 m^CDSCDLEXP Length dependence coefficient of CDSCDR. 202 lcdscdr=0.0 F/m*V Length dependence of CDSCDR. 203 wcdscdr=0.0 F/m*V Width dependence of CDSCDR. 204 pcdscdr=0.0 F/V Area dependence of CDSCDR. 205 cdscb=0.0 F/m^2*V Body-bias sensitivity of subthreshold slope. 206 cdscbl=0.0 m^CDSCBLEXP Length dependence coefficient of CDSCB. 207 cdscblexp=1.0 Length dependence exponent coefficient of CDSCB. 208 lcdscb=0.0 F/m/V Length dependence of CDSCB. 209 wcdscb=0.0 F/m/V Width dependence of CDSCB. 210 pcdscb=0.0 F/V Area dependence of CDSCB. 211 vsat=1e5 m/s Saturation velocity. 212 lvsat=0.0 m^2/s Length dependence of VSAT. 213 wvsat=0.0 m^2/s Width dependence of VSAT. 214 pvsat=0.0 m^3/s Area dependence of VSAT. 215 vsatl=0.0 m^VSATLEXP Length dependence coefficient of VSAT. 216 vsatlexp=1.0 Length dependence exponent coefficient of VSAT. 217 vsatw=0.0 m^VSATWEXP Width dependence coefficient of VSAT. 218 vsatwexp=1.0 Width dependence exponent coefficient of VSAT. 219 vsatwl=0.0 m^(2*VSATWLEXP) Width-length dependence coefficient of VSAT. 220 vsatwlexp=1.0 Width-length dependence exponent coefficient of VSAT. 221 vsatr=1e5 m/s Saturation velocity. 222 lvsatr=0.0 m^2/s Length dependence of VSATR. 223 wvsatr=0.0 m^2/s Width dependence of VSATR. 224 pvsatr=0.0 m^3/s Area dependence of VSATR. 225 delta=0.125 V Smoothing function factor for Vdsat. 226 ldelta=0.0 m Length dependence of DELTA. 227 wdelta=0.0 m Width dependence of DELTA. 228 pdelta=0.0 m^2 Area dependence of DELTA. 229 deltal=0.0 m^DELTALEXP Length dependence coefficient of delta. 230 deltalexp=1.0 Length dependence exponent coefficient of delta. 231 vsatcv=1e5 m/s VSAT parameter for C-V. 232 lvsatcv=0.0 m^2/s Length dependence of VSATCV. 233 wvsatcv=0.0 m^2/s Width dependence of VSATCV. 234 pvsatcv=0.0 m^3/s Area dependence of VSATCV. 235 vsatcvl=0.0 m^VSATCVLEXP Length dependence coefficient of VSATCV. 236 vsatcvlexp=1.0 Length dependence exponent coefficient of VSATCV. 237 vsatcvw=0.0 m^VSATCVWEXP Width dependence coefficient of VSATCV. 238 vsatcvwexp=1.0 Length dependence exponent coefficient of VSATCV. 239 vsatcvwl=0.0 m^(2*VSATCVWLEXP) Width-length dependence coefficient of VSATCV. 240 vsatcvwlexp=1.0 Width-length dependence exponent coefficient of VSATCV. 241 up1=0.0 Mobility channel length coefficient. 242 lp1=1.0e-8 Mobility channel length exponential coefficient. 243 up2=0.0 Mobility channel length coefficient. 244 lp2=1.0e-8 Mobility channel length exponential coefficient. 245 mulu0=1.0 Multiplication factor for low field mobility. 246 u0=67.0e-3 m^2/V/s Low Field mobility. 247 u0l=0.0 m^U0LEXP Length dependence coefficient of U0. 248 u0lexp=1.0 Length dependence exponential coefficient of u0. 249 lu0=0.0 m^3/V/s Length dependence of U0. 250 wu0=0.0 m^3/V/s Width dependence of U0. 251 pu0=0.0 m^4/V/s Area dependence of U0. 252 u0r=67.0e-3 m^2/V/s Reverse-mode Low Field mobility. 253 lu0r=0.0 m^3/V/s Length dependence of U0R. 254 wu0r=0.0 m^3/V/s Width dependence of U0R. 255 pu0r=0.0 m^4/V/s Area dependence of U0R. 256 etamob=1.0 Effective field parameter (should be kept close to 1). 257 ua=0.001 (m/V)^EU Mobility reduction coefficient. 258 ual=0.0 m^UALEXP Length dependence coefficient of UA. 259 ualexp=1.0 Length dependence exponent coefficient of UA. 260 uaw=0.0 m^UAWEXP Width dependence coefficient of UA. 261 uawexp=1.0 Width dependence exponent coefficient of UA. 262 uawl=0.0 m^UAWLEXP Width-length dependence coefficient of UA. 263 uawlexp=1.0 Width-length dependence coefficient of UA. 264 lua=0.0 m*(m/V)^EU Length dependence of UA. 265 wua=0.0 m*(m/V)^EU Width dependence of UA. 266 pua=0.0 m^2*(m/V)^EU Area dependence of UA. 267 uar=0.001 m/V Reverse-mode mobility reduction coefficient. 268 luar=0.0 m*(m/V)^EU Length dependence of UAR. 269 wuar=0.0 m*(m/V)^EU Width dependence of UAR. 270 puar=0.0 m^2*(m/V)^EU Area dependence of UAR. 271 eu=1.5 Mobility reduction exponent. 272 leu=0.0 m Length dependence of EU. 273 weu=0.0 m Width dependence of EU. 274 peu=0.0 m^2 Area dependence of EU. 275 eul=0.0 m^EULEXP Length dependence coefficient of EU. 276 eulexp=1.0 Length dependence exponent coefficient of EU. 277 euw=0.0 m^EUWEXP Width dependence coefficient of EU. 278 euwexp=1.0 Width dependence exponent coefficient of EU. 279 euwl=0.0 m^EUWLEXP Width-length dependence coefficient of EU. 280 euwlexp=1.0 Width-length dependence coefficient of EU. 281 ud=0.001 1/m^2 Coulomb scattering parameter. 282 udl=0.0 m^UDLEXP Length dependence coefficient of UD. 283 udlexp=1.0 Length dependence exponent coefficient of UD. 284 lud=0.0 m Length dependence of UD. 285 wud=0.0 m Width dependence of UD. 286 pud=0.0 m^2 Area dependence of UD. 287 udr=0.001 1/m^2 Reverse-mode Coulomb scattering parameter. 288 ludr=0.0 m Length dependence of UDR. 289 wudr=0.0 m Width dependence of UDR. 290 pudr=0.0 m^2 Area dependence of UDR. 291 ucs=2.0 Coulomb scattering parameter. 292 lucs=0.0 m Length dependence of UCS. 293 wucs=0.0 m Width dependence of UCS. 294 pucs=0.0 m^2 Area dependence of UCS. 295 ucsr=2.0 Reverse-mode Coulomb scattering parameter. 296 lucsr=0.0 m Length dependence of UCSR. 297 wucsr=0.0 m Width dependence of UCSR. 298 pucsr=0.0 m^2 Area dependence of UCSR. 299 uc=0.0 (m/V)^EU/V Mobility reduction with body bias. 300 ucl=0.0 m^UCLEXP Length dependence coefficient of UC. 301 uclexp=1.0 Length dependence exponent coefficient of UC. 302 ucw=0.0 m^UCWEXP Width dependence coefficient of UC. 303 ucwexp=1.0 Width dependence exponent coefficient of UC. 304 ucwl=0.0 m^(2*UCWLEXP) Width-length dependence coefficient of UC. 305 ucwlexp=1.0 Width-length dependence exponent coefficient. 306 luc=0.0 m*(m/V)^EU/V Length dependence of UC. 307 wuc=0.0 m*(m/V)^EU/V Width dependence of UC. 308 puc=0.0 m^2*(m/V)^EU/V Area dependence of UC. 309 ucr=0.0 (m/V)^EU/V Reverse-mode mobility reduction with body bias. 310 lucr=0.0 m*(m/V)^EU/V Length dependence of UCR. 311 wucr=0.0 m*(m/V)^EU/V Width dependence of UCR. 312 pucr=0.0 m^2*(m/V)^EU/V Area dependence of UCR. 313 pclm=0.0 CLM pre_factor. 314 pclml=0.0 m^PCLMLEXP Length dependence coefficient of PCLM. 315 pclmlexp=1.0 Length dependence exponent coefficient of PCLM. 316 lpclm=0.0 m Length dependence of PCLM. 317 wpclm=0.0 m Width dependence of PCLM. 318 ppclm=0.0 m^2 Area dependence of PCLM. 319 pclmr=0.0 Reverse-mode CLM pre-factor. 320 lpclmr=0.0 m Length dependence of PCLMR. 321 wpclmr=0.0 m Width dependence of PCLMR. 322 ppclmr=0.0 m^2 Area dependence of PCLMR. 323 pclmg=0.0 V CLM pre-factor gate voltage dependence. 324 pclmcv=0.0 CLM parameter for C-V. 325 pclmcvl=0.0 m^PCLMLEXP Length dependence coefficient of PCLMCV. 326 pclmcvlexp=1.0 Length dependence exponent coefficient of PCLMCV. 327 lpclmcv=0.0 m Length dependence of PCLMCV. 328 wpclmcv=0.0 m Width dependence of PCLMCV. 329 ppclmcv=0.0 m^2 Area dependence of PCLMCV. 330 pscbe1=4.24e8 V/m Substrate current body-effect coefficient. 331 lpscbe1=0.0 V Length dependence of PSCBE1. 332 wpscbe1=0.0 V Width dependence of PSCBE1. 333 ppscbe1=0.0 V*m Area dependence of PSCBE1. 334 pscbe2=1.0e-8 m/V Substrate current body-effect coefficient. 335 lpscbe2=0.0 m^2/V Length dependence of PSCBE2. 336 wpscbe2=0.0 m^2/V Width dependence of PSCBE2. 337 ppscbe2=0.0 m^3/V Area dependence of PSCBE2. 338 pdits=0.0 1/V Coefficient for drain-induced vth shifts. 339 lpdits=0.0 m/V Length dependence of PDITS. 340 wpdits=0.0 m/V Width dependence of PDITS. 341 ppdits=0.0 m^2/V Area dependence of PDITS. 342 pditsl=0.0 1/m L dep of drain-induced vth shifts. 343 pditsd=0.0 1/V Vds dep of drain-induced vth shifts. 344 lpditsd=0.0 m/V Length dependence of PDITSD. 345 wpditsd=0.0 m/V Width dependence of PDITSD. 346 ppditsd=0.0 m^2/V Area dependence of PDITSD. 347 rsh=0.0 Ohm/square Source-drain sheet resistances. 348 prwg=1.0 1/V Gate bias dependence of S/D extension resistances. 349 lprwg=0.0 m/V Length dependence of PRWG. 350 wprwg=0.0 m/V Width dependence of PRWG. 351 pprwg=0.0 m^2/V Area dependence of PRWG. 352 prwb=0.0 1/V Body bias dependence of resistances. 353 lprwb=0.0 m/V Length dependence of PRWB. 354 wprwb=0.0 m/V Width dependence of PRWB. 355 pprwb=0.0 m^2/V Area dependence of PRWB. 356 prwbl=0.0 m^PRWBLEXP Length dependence coefficient of PPRWB. 357 prwblexp=1.0 Length dependence exponent coefficient of PPRWB. 358 wr=1.0 W dependence parameter of S/D extension resistances. 359 lwr=0.0 m Length dependence of WR. 360 wwr=0.0 m Width dependence of WR. 361 pwr=0.0 m^2 Area dependence of WR. 362 rswmin=0.0 Ohm*m^WR Source resistance per unit width at high Vgs (RDSMOD=1). 363 lrswmin=0.0 ohm*m^(2*WR) Length dependence of RSWMIN. 364 wrswmin=0.0 ohm*m^(2*WR) Width dependence of RSWMIN. 365 prswmin=0.0 ohm*m^(3*WR) Area dependence of RSWMIN. 366 rsw=10.0 Ohm*m^WR Zero bias source resistance (RDSMOD=1). 367 lrsw=0.0 ohm*m^(2*WR) Length dependence of RSW. 368 wrsw=0.0 ohm*m^(2*WR) Width dependence of RSW. 369 prsw=0.0 ohm*m^(3*WR) Area dependence of RSW. 370 rswl=0.0 m^RSWLEXP Geometrical scaling of RSW (RDSMOD=1). 371 rswlexp=1.0 Geometrical scaling of RSW (RDSMOD=1). 372 rdwmin=rswmin Ohm*m^WR Drain resistance per unit width at high Vgs (RDSMOD=1). 373 lrdwmin=lrswmin ohm*m^(2*WR) Length dependence of RDWMIN. 374 wrdwmin=wrswmin ohm*m^(2*WR) Width dependence of RDWMIN. 375 prdwmin=prswmin ohm*m^(3*WR) Area dependence of RDWMIN. 376 rdw=rsw Ohm*m^WR Zero bias drain resistance (RDSMOD=1). 377 lrdw=lrsw ohm*m^(2*WR) Length dependence of RDW. 378 wrdw=wrsw ohm*m^(2*WR) Width dependence of RDW. 379 prdw=prsw ohm*m^(3*WR) Area dependence of RDW. 380 rdwl=rswl m^RDWLEXP Geometrical scaling of rdw (rdsmod=1). 381 rdwlexp=rswlexp Geometrical scaling of rdw (rdsmod=1). 382 rdswmin=0.0 Ohm*m^WR S/D Resistance per unit width at high Vgs (RDSMOD=0 and RDSMOD=2). 383 lrdswmin=0.0 ohm*m^(2*WR) Length dependence of RDSWMIN. 384 wrdswmin=0.0 ohm*m^(2*WR) Width dependence of RDSWMIN. 385 prdswmin=0.0 ohm*m^(3*WR) Area dependence of RDSWMIN. 386 rdsw=20.0 Ohm*m^WR Zero bias resistance (RDSMOD=0 and RDSMOD=2). 387 rdswl=0.0 m^RDSWLEXP Geometrical scaling of RDSW (RDSMOD=0 and RDSMOD=2). 388 rdswlexp=1.0 Geometrical scaling of RDSW (RDSMOD=0 and RDSMOD=2). 389 lrdsw=0.0 ohm*m^(2*WR) Length dependence of RDSW. 390 wrdsw=0.0 ohm*m^(2*WR) Width dependence of RDSW. 391 prdsw=0.0 ohm*m^(3*WR) Area dependence of RDSW. 392 psat=1.0 Gmsat variation with gate bias. 393 lpsat=0.0 m Length dependence of PSAT. 394 wpsat=0.0 m Width dependence of PSAT. 395 ppsat=0.0 m^2 Area dependence of PSAT. 396 psatl=0.0 m^PSATLEXP Length dependence coefficient of PSATL. 397 psatlexp=1.0 Length dependence exponent coefficient of PSATLEXP. 398 psatb=0.0 1/V Body bias effect on Idsat. 399 lpsatb=0.0 m/V Length dependence of PSATB. 400 wpsatb=0.0 m/V Width dependence of PSATB. 401 ppsatb=0.0 m^2/V Area dependence of PSATB. 402 psatr=1.0 Reverse-mode Gmsat variation with gate bias. 403 lpsatr=0.0 m Length dependence of PSATR. 404 wpsatr=0.0 m Width dependence of PSATR. 405 ppsatr=0.0 m^2 Area dependence of PSATR. 406 psatx=1.0 Fine tuning of PTWG effect. 407 ptwg=0.0 Idsat variation with gate bias. 408 lptwg=0.0 m Length dependence of PTWG. 409 wptwg=0.0 m Width dependence of PTWG. 410 pptwg=0.0 m^2 Area dependence of PTWG. 411 ptwgl=0.0 m^PTWGLEXP Length dependence coefficient of PTWG. 412 ptwglexp=1.0 Length dependence exponent coefficient of ptwg. 413 ptwgr=0.0 Reverse-mode Idsat variation with gate bias. 414 lptwgr=0.0 m Length dependence of PTWGR. 415 wptwgr=0.0 m Width dependence of PTWGR. 416 pptwgr=0.0 m^2 Area dependence of PTWGR. 417 ptwglr=0.0 m^PTWGLEXPR Length dependence coefficient of PTWGR. 418 ptwglexpr=1.0 Length dependence exponent coefficient of PTWGR. 419 a1=0.0 1/V^2 Non-saturation effect parameter for strong inversion region. 420 la1=0.0 m/V^2 Length dependence of A1. 421 wa1=0.0 m/V^2 Width dependence of A1. 422 pa1=0.0 m^2/V^2 Area dependence of A1. 423 a11=0.0 Temperature dependence of A1. 424 la11=0.0 m Length dependence of A11. 425 wa11=0.0 m Width dependence of A11. 426 pa11=0.0 m^2 Area dependence of A11. 427 a2=0.0 1/V Non-saturation effect parameter for moderate inversion region. 428 la2=0.0 m/V Length dependence of A2. 429 wa2=0.0 m/V Width dependence of A2. 430 pa2=0.0 m^2/V Area dependence of A2. 431 a21=0.0 Temperature dependence of A2. 432 la21=0.0 m Length dependence of A21. 433 wa21=0.0 m Width dependence of A21. 434 pa21=0.0 m^2 Area dependence of A21. 435 pdiblc=0.0 Parameter for DIBL effect on rout. 436 pdiblcl=0.0 m^PDIBLCLEXP Length dependence coefficient of PDIBLC. 437 pdiblclexp=1.0 Length dependence exponent coefficient of PDIBLC. 438 lpdiblc=0.0 m Length dependence of PDIBLC. 439 wpdiblc=0.0 m Width dependence of PDIBLC. 440 ppdiblc=0.0 m^2 Area dependence of PDIBLC. 441 pdiblcr=0.0 Reverse-mode parameter for DIBL effect on rout. 442 pdiblclr=0.0 m^PDIBLCLEXPR Length dependence coefficient of pdiblcr. 443 pdiblclexpr=1.0 Length dependence exponent coefficient of pdiblcr. 444 lpdiblcr=0.0 m Length dependence of PDIBLCR. 445 wpdiblcr=0.0 m Width dependence of PDIBLCR. 446 ppdiblcr=0.0 m^2 Area dependence of PDIBLCR. 447 pdiblcb=0.0 1/V Parameter for DIBL effect on rout. 448 lpdiblcb=0.0 m/V Length dependence of PDIBLCB. 449 wpdiblcb=0.0 m/V Width dependence of PDIBLCB. 450 ppdiblcb=0.0 m^2/V Area dependence of PDIBLCB. 451 pvag=1.0 Vg dependence of EARLY voltage. 452 lpvag=0.0 m Length dependence of PVAG. 453 wpvag=0.0 m Width dependence of PVAG. 454 ppvag=0.0 m^2 Area dependence of PVAG. 455 fprout=0.0 V/m^0.5 Gds degradation factor due to pocket implants. 456 fproutl=0.0 m^FPROUTLEXP Length dependence coefficient of fprout. 457 fproutlexp=1.0 Length dependence exponent coefficient of FPROUT. 458 lfprout=0.0 V*m^0.5 Length dependence of FPROUT. 459 wfprout=0.0 V*m^0.5 Width dependence of FPROUT. 460 pfprout=0.0 V*m^1.5 Area dependence of FPROUT. 461 alpha0=0.0 m/V First parameter of Iii. 462 alpha0l=0.0 m^ALPHA0LEXP Length dependence coefficient of ALPHA0. 463 alpha0lexp=1.0 Length dependence exponent coefficient of ALPHA0. 464 lalpha0=0.0 m^2/V Length dependence of ALPHA0. 465 walpha0=0.0 m^2/V Width dependence of ALPHA0. 466 palpha0=0.0 m^3/V Area dependence of ALPHA0. 467 beta0=0.0 1/V Vds dependent parameter of Iii. 468 lbeta0=0.0 m/V Length dependence of BETA0. 469 wbeta0=0.0 m/V Width dependence of BETA0. 470 pbeta0=0.0 m^2/V Area dependence of BETA0. 471 aigbacc=1.36e-2 (F*s^2/g)^0.5/m Parameter for Igb in accumulation. 472 bigbacc=1.71e-3 (F*s^2/g)^0.5/m/V Parameter for Igb in accumulation. 473 cigbacc=0.075 1/V Parameter for Igb in accumulation. 474 nigbacc=1.0 Parameter for Igbacc slope. 475 aigbinv=1.11e-2 (F*s^2/g)^0.5/m Parameter for Igb in inversion. 476 bigbinv=9.49e-4 (F*s^2/g)^0.5/m/V Parameter for Igb in inversion. 477 cigbinv=0.006 1/V Parameter for Igb in inversion. 478 eigbinv=1.1 V Parameter for the Si bandgap for Igbinv. 479 nigbinv=3.0 Parameter for Igbinv slope. 480 aigc=1.36e-2 (F*s^2/g)^0.5/m Parameter for Igc. 481 bigc=1.71e-3 (F*s^2/g)^0.5/m/V Parameter for Igc. 482 cigc=0.075 1/V Parameter for Igc. 483 aigs=1.36e-2 (F*s^2/g)^0.5/m Parameter for Igs. 484 bigs=1.71e-3 (F*s^2/g)^0.5/m/V Parameter for Igs. 485 cigs=0.075 1/V Parameter for Igs. 486 aigd=1.36e-2 (F*s^2/g)^0.5/m Parameter for Igd. 487 bigd=1.71e-3 (F*s^2/g)^0.5/m/V Parameter for Igd. 488 cigd=0.075 1/V Parameter for Igd. 489 dlcig=0.0 m Delta L for Ig model. 490 dlcigd=0.0 m Delta L for Ig model. 491 poxedge=1.0 Factor for the gate edge tox. 492 ntox=1.0 Exponent for tox ratio. 493 toxref=3.0e-9 m Target tox value. 494 pigcd=1.0 Igc, S/D partition parameter. 495 aigcl=0.0 m Length dependence coefficient of aigc. 496 aigcw=0.0 m Width dependence coefficient of aigc. 497 aigsl=0.0 m Length dependence coefficient of aigs. 498 aigsw=0.0 m Width dependence coefficient of aigs. 499 aigdl=0.0 m Length dependence coefficient of aigd. 500 aigdw=0.0 m Width dependence coefficient of aigd. 501 pigcdl=0.0 m Length dependence coefficient of pigcd. 502 laigbinv=0.0 (F*s^2/g)^0.5 Length dependence of AIGBINV. 503 waigbinv=0.0 (F*s^2/g)^0.5 Width dependence of AIGBINV. 504 paigbinv=0.0 m*(F*s^2/g)^0.5 Area dependence of AIGBINV. 505 lbigbinv=0.0 (F*s^2/g)^0.5/V Length dependence of BIGBINV. 506 wbigbinv=0.0 (F*s^2/g)^0.5/V Width dependence of BIGBINV. 507 pbigbinv=0.0 m*(F*s^2/g)^0.5/V Area dependence of BIGBINV. 508 lcigbinv=0.0 m/V Length dependence of CIGBINV. 509 wcigbinv=0.0 m/V Width dependence of CIGBINV. 510 pcigbinv=0.0 m^2/V Area dependence of CIGBINV. 511 leigbinv=0.0 m*V Length dependence of EIGBINV. 512 weigbinv=0.0 m*V Width dependence of EIGBINV. 513 peigbinv=0.0 m^2*V Area dependence of EIGBINV. 514 lnigbinv=0.0 m Length dependence of NIGBINV. 515 wnigbinv=0.0 m Width dependence of NIGBINV. 516 pnigbinv=0.0 m^2 Area dependence of NIGBINV. 517 laigbacc=0.0 (F*s^2/g)^0.5 Length dependence of AIGBACC. 518 waigbacc=0.0 (F*s^2/g)^0.5 Width dependence of AIGBACC. 519 paigbacc=0.0 m*(F*s^2/g)^0.5 Area dependence of AIGBACC. 520 lbigbacc=0.0 (F*s^2/g)^0.5/V Length dependence of BIGBACC. 521 wbigbacc=0.0 (F*s^2/g)^0.5/V Width dependence of BIGBACC. 522 pbigbacc=0.0 m*(F*s^2/g)^0.5/V Area dependence of BIGBACC. 523 lcigbacc=0.0 m/V Length dependence of CIGBACC. 524 wcigbacc=0.0 m/V Width dependence of CIGBACC. 525 pcigbacc=0.0 m^2/V Area dependence of CIGBACC. 526 lnigbacc=0.0 m Length dependence of NIGBACC. 527 wnigbacc=0.0 m Width dependence of NIGBACC. 528 pnigbacc=0.0 m^2 Area dependence of NIGBACC. 529 laigc=0.0 (F*s^2/g)^0.5 Length dependence of AIGC. 530 waigc=0.0 (F*s^2/g)^0.5 Width dependence of AIGC. 531 paigc=0.0 m*(F*s^2/g)^0.5 Area dependence of AIGC. 532 lbigc=0.0 (F*s^2/g)^0.5/V Length dependence of BIGC. 533 wbigc=0.0 (F*s^2/g)^0.5/V Width dependence of BIGC. 534 pbigc=0.0 m*(F*s^2/g)^0.5/V Area dependence of BIGC. 535 lcigc=0.0 m/V Length dependence of CIGC. 536 wcigc=0.0 m/V Width dependence of CIGC. 537 pcigc=0.0 m^2/V Area dependence of CIGC. 538 laigs=0.0 (F*s^2/g)^0.5 Length dependence of AIGS. 539 waigs=0.0 (F*s^2/g)^0.5 Width dependence of AIGS. 540 paigs=0.0 m*(F*s^2/g)^0.5 Area dependence of AIGS. 541 lbigs=0.0 (F*s^2/g)^0.5/V Length dependence of BIGS. 542 wbigs=0.0 (F*s^2/g)^0.5/V Width dependence of BIGS. 543 pbigs=0.0 m*(F*s^2/g)^0.5/V Area dependence of BIGS. 544 lcigs=0.0 m/V Length dependence of CIGS. 545 wcigs=0.0 m/V Width dependence of CIGS. 546 pcigs=0.0 m^2/V Area dependence of CIGS. 547 laigd=0.0 (F*s^2/g)^0.5 Length dependence of AIGD. 548 waigd=0.0 (F*s^2/g)^0.5 Width dependence of AIGD. 549 paigd=0.0 m*(F*s^2/g)^0.5 Area dependence of AIGD. 550 lbigd=0.0 (F*s^2/g)^0.5/V Length dependence of BIGD. 551 wbigd=0.0 (F*s^2/g)^0.5/V Width dependence of BIGD. 552 pbigd=0.0 m*(F*s^2/g)^0.5/V Area dependence of BIGD. 553 lcigd=0.0 m/V Length dependence of CIGD. 554 wcigd=0.0 m/V Width dependence of CIGD. 555 pcigd=0.0 m^2/V Area dependence of CIGD. 556 lpoxedge=0.0 m Length dependence of POXEDGE. 557 wpoxedge=0.0 m Width dependence of POXEDGE. 558 ppoxedge=0.0 m^2 Area dependence of POXEDGE. 559 ldlcig=0.0 m^2 Length dependence of DLCIG. 560 wdlcig=0.0 m^2 Width dependence of DLCIG. 561 pdlcig=0.0 m^3 Area dependence of DLCIG. 562 ldlcigd=0.0 m^2 Length dependence of DLCIGD. 563 wdlcigd=0.0 m^2 Width dependence of DLCIGD. 564 pdlcigd=0.0 m^3 Area dependence of DLCIGD. 565 lntox=0.0 m Length dependence of NTOX. 566 wntox=0.0 m Width dependence of NTOX. 567 pntox=0.0 m^2 Area dependence of NTOX. 568 agidl=0.0 V/m Pre-exponential coefficient for GIDL. 569 agidll=0.0 m Length dependence coefficient of agidl. 570 agidlw=0.0 m Width dependence coefficient of agidl. 571 lagidl=0.0 m^2 Length dependence of AGIDL. 572 wagidl=0.0 m^2 Width dependence of AGIDL. 573 pagidl=0.0 m^3 Area dependence of AGIDL. 574 bgidl=2.3e9 V/m Exponential coefficient for GIDL. 575 lbgidl=0.0 V Length dependence of BGIDL. 576 wbgidl=0.0 V Width dependence of BGIDL. 577 pbgidl=0.0 V*m Area dependence of BGIDL. 578 cgidl=0.5 V/m Parameter for body-bias effect on GIDL. 579 lcgidl=0.0 V Length dependence of CGIDL. 580 wcgidl=0.0 V Width dependence of CGIDL. 581 pcgidl=0.0 V*m Area dependence of CGIDL. 582 egidl=0.8 V Band bending parameter for GIDL. 583 legidl=0.0 V*m Length dependence of EGIDL. 584 wegidl=0.0 V*m Width dependence of EGIDL. 585 pegidl=0.0 V*m^2 Area dependence of EGIDL. 586 agisl=0.0 V/m Pre-exponential coefficient for GISL. 587 agisll=0.0 m Length dependence coefficient of agisl. 588 agislw=0.0 m Width dependence coefficient of agisl. 589 lagisl=0.0 m^2 Length dependence of AGISL. 590 wagisl=0.0 m^2 Width dependence of AGISL. 591 pagisl=0.0 m^3 Area dependence of AGISL. 592 bgisl=2.3e9 V/m Exponential coefficient for GISL. 593 lbgisl=0.0 V Length dependence of BGISL. 594 wbgisl=0.0 V Width dependence of BGISL. 595 pbgisl=0.0 V*m Area dependence of BGISL. 596 cgisl=0.5 V^3 Parameter for body-bias effect on GISL. 597 lcgisl=0.0 V Length dependence of CGISL. 598 wcgisl=0.0 V Width dependence of CGISL. 599 pcgisl=0.0 V*m Area dependence of CGISL. 600 egisl=0.8 V Fitting parameter for band bending for GISL. 601 legisl=0.0 V*m Length dependence of EGISL. 602 wegisl=0.0 V*m Width dependence of EGISL. 603 pegisl=0.0 V*m^2 Area dependence of EGISL. 604 cf=0.0 F/m Outer fringe capacitance. 605 lcf=0.0 F Length dependence of CF. 606 wcf=0.0 F Width dependence of CF. 607 pcf=0.0 F*m Area dependence of CF. 608 cfrcoeff=1.0 F/m Coefficient for outer fringe capacitance. 609 cgso=0.0 F/m Gate-to-source overlap capacitance. 610 cgdo=0.0 F/m Gate-to-drain overlap capacitance. 611 cgbo=0.0 F/m Gate-to-body overlap capacitance. 612 cgsl=0.0 F/m Overlap capacitance between gate and lightly-doped source region. 613 lcgsl=0.0 Length dependence of CGSL. 614 wcgsl=0.0 Width dependence of CGSL. 615 pcgsl=0.0 Area dependence of CGSL. 616 cgdl=0.0 F/m Overlap capacitance between gate and lightly-doped drain region. 617 lcgdl=0.0 F Length dependence of CGDL. 618 wcgdl=0.0 F Width dependence of CGDL. 619 pcgdl=0.0 F*m Area dependence of CGDL. 620 ckappas=0.6 V Coefficient of bias-dependent overlap capacitance for the source side. 621 lckappas=0.0 m*V Length dependence of CKAPPAS. 622 wckappas=0.0 m*V Width dependence of CKAPPAS. 623 pckappas=0.0 m^2*V Area dependence of CKAPPAS. 624 ckappad=0.6 V Coefficient of bias-dependent overlap capacitance for the source side. 625 lckappad=0.0 m*V Length dependence of CKAPPAD. 626 wckappad=0.0 m*V Width dependence of CKAPPAD. 627 pckappad=0.0 m^2*V Area dependence of CKAPPAD. 628 dmcg=0.0 m Distance of mid-contact to gate edge. 629 dmci=0.0 m Distance of mid-contact to isolation. 630 dmdg=0.0 m Distance of mid-diffusion to gate edge. 631 dmcgt=0.0 m Distance of mid-contact to gate edge in test. 632 xgl=0.0 m Variation in Ldrawn. 633 rshg=0.1 Ohm Gate sheet resistance. 634 cjs=5.0e-4 F/m^2 Unit area source-side junction capacitance at zero bias. 635 cjd=5.0e-4 F/m^2 Unit area drain-side junction capacitance at zero bias. 636 cjsws=5.0e-10 F/m Unit length source-side side-wall junction capacitance at zero bias. 637 cjswd=5.0e-10 F/m Unit length drain-side side-wall junction capacitance at zero bias. 638 cjswgs=0.0 F/m Unit length source-side gate side-wall junction capacitance at zero bias. 639 cjswgd=0.0 F/m Unit length drain-side gate side-wall junction capacitance at zero bias. 640 pbs=1.0 V Source-side bulk junction built-in potential. 641 pbd=1.0 V Drain-side bulk junction built-in potential. 642 pbsws=1.0 V Built-in potential for Source-side side-wall junction capacitance. 643 pbswd=1.0 V Built-in potential for Drain-side side-wall junction capacitance. 644 pbswgs=1.0 V Built-in potential for Source-side gate side-wall junction capacitance. 645 pbswgd=1.0 V Built-in potential for Drain-side gate side-wall junction capacitance. 646 mjs=0.5 Source bottom junction capacitance grading coefficient. 647 mjd=0.5 Drain bottom junction capacitance grading coefficient. 648 mjsws=0.33 Source side-wall junction capacitance grading coefficient. 649 mjswd=0.33 Drain side-wall junction capacitance grading coefficient. 650 mjswgs=0.33 Source-side gate side-wall junction capacitance grading coefficient. 651 mjswgd=0.33 Drain-side gate side-wall junction capacitance grading coefficient. 652 jss=1.0e-4 A/m^2 Bottom source junction reverse saturation current density. 653 jsd=1.0e-4 A/m^2 Bottom drain junction reverse saturation current density. 654 jsws=0.0 A/m Unit length reverse saturation current for side-wall source junction. 655 jswd=0.0 A/m Unit length reverse saturation current for side-wall drain junction. 656 jswgs=0.0 A/m Unit length reverse saturation current for gate-edge side-wall source junction. 657 jswgd=0.0 A/m Unit length reverse saturation current for gate-edge side-wall drain junction. 658 njs=1.0 Source junction emission coefficient. 659 njd=1.0 Drain junction emission coefficient. 660 ijthsfwd=0.1 A Forward source diode breakdown limiting current. 661 ijthdfwd=0.1 A Forward drain diode breakdown limiting current. 662 ijthsrev=0.1 A Reverse source diode breakdown limiting current. 663 ijthdrev=0.1 A Reverse drain diode breakdown limiting current. 664 bvs=10.0 V Source diode breakdown voltage. 665 bvd=10.0 V Drain diode breakdown voltage. 666 xjbvs=1.0 Fitting parameter for source diode breakdown current. 667 xjbvd=1.0 Fitting parameter for drain diode breakdown current. 668 jtss=0.0 A/m Bottom source junction trap-assisted saturation current density. 669 jtsd=0.0 A/m Bottom drain junction trap-assisted saturation current density. 670 jtssws=0.0 A/m^2 Unit length trap-assisted saturation current for side-wall source junction. 671 jtsswd=0.0 A/m^2 Unit length trap-assisted saturation current for side-wall drain junction. 672 jtsswgs=0.0 A/m Unit length trap-assisted saturation current for gate-edge side-wall source junction. 673 jtsswgd=0.0 A/m Unit length trap-assisted saturation current for gate-edge side-wall drain junction. 674 jtweff=0.0 m Trap assisted tunneling current width dependence. 675 njts=20.0 Non-ideality factor for jtss. 676 njtsd=20.0 Non-ideality factor for jtsd. 677 njtssw=20.0 Non-ideality factor for jtssws. 678 njtsswd=20.0 Non-ideality factor for jtsswd. 679 njtsswg=20.0 Non-ideality factor for jtsswgs. 680 njtsswgd=20.0 Non-ideality factor for jtsswgd. 681 vtss=10.0 V Bottom source junction trap-assisted current voltage dependent parameter. 682 vtsd=10.0 V Bottom drain junction trap-assisted current voltage dependent parameter. 683 vtssws=10.0 V Unit length trap-assisted current voltage dependent parameter for side-wall source junction. 684 vtsswd=10.0 V Unit length trap-assisted current voltage dependent parameter for side-wall drain junction. 685 vtsswgs=10.0 V Unit length trap-assisted current voltage dependent parameter for gate-edge side-wall source junction. 686 vtsswgd=10.0 V Unit length trap-assisted current voltage dependent parameter for gate-edge side-wall drain junction. 687 xrcrg1=12.0 1st fitting parameter for the bias-dependent Rg. 688 xrcrg2=1.0 2nd fitting parameter for the bias-dependent Rg. 689 gbmin=1.0e-12 1/Ohm Minimum body conductance. 690 rbps0=50.0 Ohm Scaling pre-factor for RBPS. 691 rbpsl=0.0 Length scaling parameter for RBPS. 692 rbpsw=0.0 Width scaling parameter for RBPS. 693 rbpsnf=0.0 Number of fingers scaling parameter for RBPS. 694 rbpd0=50.0 Ohm Scaling pre-factor for RBPD. 695 rbpdl=0.0 Length scaling parameter for rbpd. 696 rbpdw=0.0 Width scaling parameter for RBPD. 697 rbpdnf=0.0 Number of fingers scaling parameter for RBPD. 698 rbpbx0=100.0 Ohm Scaling pre-factor for RBPBX. 699 rbpbxl=0.0 Length scaling parameter for RBPBX. 700 rbpbxw=0.0 Width scaling parameter for RBPBX. 701 rbpbxnf=0.0 Number of fingers scaling parameter for RBPBX. 702 rbpby0=100.0 Ohm Scaling pre-factor for RBPBY. 703 rbpbyl=0.0 Length scaling parameter for RBPBY. 704 rbpbyw=0.0 Width scaling parameter for RBPBY. 705 rbpbynf=0.0 Number of fingers scaling parameter for RBPBY. 706 rbsbx0=100.0 Ohm Scaling pre-factor for RBSBX. 707 rbsby0=100.0 Ohm Scaling pre-factor for RBSBY. 708 rbdbx0=100.0 Ohm Scaling pre-factor for RBDBX. 709 rbdby0=100.0 Ohm Scaling pre-factor for RBDBY. 710 rbsdbxl=0.0 Length scaling parameter for RBSBX and RBDBX. 711 rbsdbxw=0.0 Width scaling parameter for RBSBX and RBDBX. 712 rbsdbxnf=0.0 Number of fingers scaling parameter for RBSBX and RBDBX. 713 rbsdbyl=0.0 Length scaling parameter for RBSBY and RBDBY. 714 rbsdbyw=0.0 Width scaling parameter for RBSBY and RBDBY. 715 rbsdbynf=0.0 Number of fingers scaling parameter for RBSBY and RBDBY. 716 ef=1.0 Flicker noise frequency exponent. 717 em=4.1e7 V/m Saturation field. 718 noia=6.250e40 s^(1-EF)/(eV)^1/m^3 Flicker noise parameter A. 719 noib=3.125e25 s^(1-EF)/(eV)^1/m Flicker noise parameter B. 720 noic=8.750e8 s^(1-EF)*m/(eV)^1 Flicker noise parameter C. 721 lintnoi=0.0 m Length reduction parameter offset. 722 ntnoi=1.0 Noise factor for short-channel devices for TNOIMOD=0 only. 723 rnoia=0.577 Noise parameter for TNOIMOD = 1. 724 rnoib=0.5164 Noise parameter for TNOIMOD = 1. 725 rnoic=0.395 Noise parameter for TNOIMOD = 1. 726 tnoia=0.0 Noise parameter for TNOIMOD = 1. the default value has been changed to 1.5 since v107.0.. 727 tnoib=0.0 Noise parameter for TNOIMOD = 1. the default value has been changed to 3.5 since v107.0.. 728 tnoic=0.0 Noise correlation coefficient for TNOIMOD = 1. 729 binunit=1 Unit of L and W for Binning. 1: micro-meter, 0: default. 730 dlbin=0.0 Length reduction parameter for binning. 731 dwbin=0.0 Width reduction parameter for binning. 732 tnom=27.0 C Temperature at which the model was extracted. 733 tbgasub=4.73e-4 eV/K Bandgap temperature coefficient. 734 tbgbsub=636.0 K Bandgap temperature coefficient. 735 tnfactor=0.0 Temperature exponent for nfactor. 736 ute=(-1.5) Mobility temperature exponent. 737 lute=0.0 m Length dependence of UTE. 738 wute=0.0 m Width dependence of UTE. 739 pute=0.0 m^2 Area dependence of UTE. 740 utel=0.0 m Length scaling parameter for UTE. 741 ua1=1.0e-3 m/V Temperature coefficient for UA. 742 lua1=0.0 m^2/V Length dependence of UA1. 743 wua1=0.0 m^2/V Width dependence of UA1. 744 pua1=0.0 m^3/V Area dependence of UA1. 745 ua1l=0.0 m Length scaling parameter for UA1. 746 uc1=0.056e-9 1/K Temperature coefficient for UC. 747 luc1=0.0 m/K Length dependence of UC1. 748 wuc1=0.0 m/K Width dependence of UC1. 749 puc1=0.0 m^2/K Area dependence of UC1. 750 ud1=0.0 1/m^2 Temperature coefficient for ud. 751 lud1=0.0 1/m Length dependence of UD1. 752 wud1=0.0 1/m Width dependence of UD1. 753 pud1=0.0 Area dependence of UD1. 754 ud1l=0.0 m Length scaling parameter for UD1. 755 ucste=(-4.775e-3) Temperature coefficient for UCS. 756 lucste=0.0 m Length dependence of UCSTE. 757 wucste=0.0 m Width dependence of UCSTE. 758 pucste=0.0 m^2 Area dependence of UCSTE. 759 teta0=0.0 Temperature coefficient for eta0. 760 prt=0.0 Ohm*m Temperature coefficient for resistance. 761 lprt=0.0 m Length dependence of PRT. 762 wprt=0.0 m Width dependence of PRT. 763 pprt=0.0 m^2 Area dependence of PRT. 764 at=(-1.56e-3) m/s Temperature coefficient for saturation velocity. 765 lat=0.0 m^2/s Length dependence of AT. 766 wat=0.0 m^2/s Width dependence of AT. 767 pat=0.0 m^3/s Area dependence of AT. 768 atl=0.0 m Length Scaling parameter for AT. 769 tdelta=0.0 1/K Temperature coefficient for DELTA. 770 ptwgt=0.0 1/K Temperature coefficient for PTWG. 771 lptwgt=0.0 m/K Length dependence of PTWGT. 772 wptwgt=0.0 m/K Width dependence of PTWGT. 773 pptwgt=0.0 m^2/K Area dependence of PTWGT. 774 ptwgtl=0.0 m Length scaling parameter for ptwgt. 775 kt1=(-0.11) V Temperature coefficient for vth. 776 kt1exp=1.0 Temperature coefficient for Vth. 777 kt1l=0.0 V*m Temperature coefficient for vth. 778 lkt1=0.0 V*m Length dependence of KT1. 779 wkt1=0.0 V*m Width dependence of KT1. 780 pkt1=0.0 V*m^2 Area dependence of KT1. 781 kt2=0.022 Temperature coefficient for Vth. 782 lkt2=0.0 m Length dependence of KT2. 783 wkt2=0.0 m Width dependence of KT2. 784 pkt2=0.0 m^2 Area dependence of KT2. 785 iit=0.0 Temperature coefficient for BETA0. 786 liit=0.0 m Length dependence of IIT. 787 wiit=0.0 m Width dependence of IIT. 788 piit=0.0 m^2 Area dependence of IIT. 789 igt=2.5 Gate current temperature dependence. 790 ligt=0.0 m Length dependence of IGT. 791 wigt=0.0 m Width dependence of IGT. 792 pigt=0.0 m^2 Area dependence of IGT. 793 tgidl=0.0 1/K Temperature coefficient for GIDL/GISL. 794 ltgidl=0.0 m/K Length dependence of TGIDL. 795 wtgidl=0.0 m/K Width dependence of TGIDL. 796 ptgidl=0.0 m^2/K Area dependence of TGIDL. 797 tcj=0.0 1/K Temperature coefficient for cjs/cjd. 798 tcjsw=0.0 1/K Temperature coefficient for cjsws/cjswd. 799 tcjswg=0.0 1/K Temperature coefficient for cjswgs/cjswgd. 800 tpb=0.0 V/K Temperature coefficient for pbs/pbd. 801 tpbsw=0.0 V/K Temperature coefficient for pbsws/pbswd. 802 tpbswg=0.0 V/K Temperature coefficient for pbswgs/pbswgd. 803 xtis=3.0 Source junction current temperature exponent. 804 xtid=3.0 Drain junction current temperature exponent. 805 xtss=0.02 Power dependence of JTSS on temperature. 806 xtsd=0.02 Power dependence of JTSD on temperature. 807 xtssws=0.02 Power dependence of JTSSWS on temperature. 808 xtsswd=0.02 Power dependence of JTSSWD on temperature. 809 xtsswgs=0.02 Power dependence of JTSSWGS on temperature. 810 xtsswgd=0.02 Power dependence of JTSSWGD on temperature. 811 tnjts=0.0 Temperature coefficient for njts. 812 tnjtsd=0.0 Temperature coefficient for njtsd. 813 tnjtssw=0.0 Temperature coefficient for njtssw. 814 tnjtsswd=0.0 Temperature coefficient for njtsswd. 815 tnjtsswg=0.0 Temperature coefficient for njtsswg. 816 tnjtsswgd=0.0 Temperature coefficient for njtsswgd. 817 rth0=0.0 m*K/W Thermal resistance. 818 cth0=1.0e-5 s*W/(m*K) Thermal capacitance. 819 wth0=0.0 m Width dependence coefficient for Rth and Cth. 820 saref=1.0e-6 m Reference distance between OD edge from Poly from one side. 821 sbref=1.0e-6 m Reference distance between OD edge from Poly from other side. 822 wlod=0.0 m Width parameter for stress effect. 823 ku0=0.0 m Mobility degradation/enhancement parameter for stress effect. 824 kvsat=0.0 m Saturation velocity degradation/enhancement parameter for stress effect. 825 tku0=0.0 Temperature coefficient for ku0. 826 lku0=0.0 m^LLODKU0 Length dependence of KU0. 827 wku0=0.0 m^WLODKU0 Width dependence of KU0. 828 pku0=0.0 m^(LLODKU0+WLODKU0) Cross-term dependence of KU0. 829 llodku0=0.0 Length parameter for U0 stress effect. 830 wlodku0=0.0 Width parameter for U0 stress effect. 831 kvth0=0.0 V*m Threshold shift parameter for stress effect. 832 lkvth0=0.0 m^LLODKU0 Length dependence of KVTH0. 833 wkvth0=0.0 m^WLODKU0 Width dependence of KVTH0. 834 pkvth0=0.0 m^(LLODKU0+WLODKU0) Cross-term dependence of KVTH0. 835 llodvth=0.0 Length parameter for vth stress effect. 836 wlodvth=0.0 Width parameter for vth stress effect. 837 stk2=0.0 m K2 shift factor related to vth change. 838 lodk2=0.0 K2 shift modification factor for stress effect. 839 steta0=0.0 m ETA0 shift related to vth0 change. 840 lodeta0=0.0 ETA0 modification foator for stress effect. 841 web=0.0 Coefficient for SCB (> 0). 842 wec=0.0 Coefficient for SCC (> 0). 843 kvth0we=0.0 V Threshold shift factor for well proximity effect. 844 lkvth0we=0.0 m Length dependence of KVTH0WE. 845 wkvth0we=0.0 m Width dependence of KVTH0WE. 846 pkvth0we=0.0 m^2 Area dependence of KVTH0WE. 847 k2we=0.0 K2 shift factor for well proximity effect. 848 lk2we=0.0 m Length dependence of K2WE. 849 wk2we=0.0 m Width dependence of K2WE. 850 pk2we=0.0 m^2 Area dependence of K2WE. 851 ku0we=0.0 Mobility degradation factor for well proximity effect. 852 lku0we=0.0 m Length dependence of KU0WE. 853 wku0we=0.0 m Width dependence of KU0WE. 854 pku0we=0.0 m^2 Area dependence of KU0WE. 855 scref=1.0e-6 m Reference distance to calculate SCA,SCB and SCC (< 0). 856 edgefet=1 0: Edge FET Model OFF, 1: Edge FET Model ON. 857 wedge=10.0e-9 m Edge FET width. 858 dgammaedge=0.0 Different in body-bias coefficient between Edge-FET and Main-FET. 859 dgammaedgel=0.0 L dependence parameter for DGAMMA. 860 dgammaedgelexp=1.0 Exponent of L dependence parameter for DGAMMA. 861 dvtedge=0.0 Vth shift for Edge FET. 862 nfactoredge=0.0 NFACTOR for Edge FET. 863 citedge=0.0 F/m^2 CIT for Edge FET. 864 cdscdedge=1e-9 F/m^2/V CDSCD for Edge FET. 865 cdscbedge=0.0 F/m^2/V CDSCB for Edge FET. 866 eta0edge=0.08 DIBL parameter for edge FET. 867 etabedge=(-0.07) 1/V ETAB for edge FET. 868 kt1edge=(-0.11) V Temperature dependence parameter of threshold voltage for edge FET. 869 kt1ledge=0.0 V*m Temperature dependence parameter of threshold voltage for edge FET. 870 kt2edge=0.022 Temperature dependence parameter of threshold voltage for edge FET. 871 kt1expedge=1.0 Temperature dependence parameter of threshold voltage for edge device. 872 tnfactoredge=0.0 Temperature dependence parameter of subthreshold slope factor for edge. 873 teta0edge=0.0 Temperature dependence parameter of DIBL parameter for edge FET. 874 dvt0edge=2.2 First coefficient of SCE effect on Vth for Edge FET. 875 dvt1edge=0.53 Second coefficient of SCE effect on Vth for Edge FET. 876 dvt2edge=0.0 1/V Body-bias coefficient for SCE effect for Edge FET. 877 noisemethod= option noisemethod 1:Verilog-A method; 0:Simkit method. 878 geomod=0 Geometry-dependent parasitics model. 879 rgeomod=0 Geometry-dependent source/drain resistance. 0: RSH-based, 1: Holistic. 880 rgatemod=0 Gate resistance model selector. 881 rbodymod=0 Distributed body R model. 882 l=1.0e-5 m Default channel length. 883 w=1.0e-5 m Default total width including fingers. 884 nf=1 Number of fingers. It serves as the default value of instance nf. 885 dtemp=0.0 C Offset of device temperature. 886 delvto=0.0 Zero bias threshold voltage variation. 887 ids0mult=1.0 Variability in drain current for miscellaneous reasons. 888 lmin=0.0 m Minimum channel length for which the model is valid. 889 lmax=1.0 m Maximum channel length for which the model is valid. 890 wmin=0.0 m Minimum channel width for which the model is valid. 891 wmax=1.0 m Maximum channel width for which the model is valid. 892 vds_max=infinity V Maximum allowed voltage across source and drain. 893 vgd_max=infinity V Maximum allowed voltage across drain and gate. 894 vgs_max=infinity V Maximum allowed voltage across source/bulk and gate. 895 vbd_max=infinity V Maximum allowed voltage across drain/source and bulk. 896 vbs_max=vbd_max V Maximum allowed voltage across source and bulk. 897 vgb_max=infinity V Maximum allowed voltage across gate and bulk. 898 vgdr_max=vgd_max V Maximum allowed reverse voltage across gate and drain. 899 vgsr_max=vgs_max V Maximum allowed reverse voltage across gate and source. 900 vgbr_max=vgb_max V Maximum allowed reverse voltage across gate and bulk. 901 vbsr_max=vbs_max V Maximum allowed reverse voltage across bulk and source. 902 vbdr_max=vbd_max V Maximum allowed reverse voltage across bulk and drain. 903 vfbsdoff=0.0 S/D flatband voltage offset. 904 rbpb=50.0 Ohm Resistance between bNodePrime and bNode. 905 rbdb=50.0 Ohm Resistance between bNode and dbNode. 906 rbsb=50.0 Ohm Resistance between bNode and sbNode. 907 rbps=50.0 Ohm Resistance between bNodePrime and sbNode. 908 rbpd=50.0 Ohm Resistance between bNodePrime and bNode. 909 ngcon=1 Number of gate contacts. 910 mvtwl=0.0 V*m Threshold mismatch area dependence. 911 mvtwl2=0.0 V*m^1.5 Threshold mismatch area square dependence. 912 mvt0=0.0 V Threshold mismatch intercept. 913 mbewl=0.0 m Beta mismatch area dependence. 914 mbe0=0.0 Beta mismatch intercept. 915 mismatchmod=0 Select mismatch mode. The available modes are 0, 1, 2 and 3. 916 mismatchdist=0.0 Mismatch Distance. 917 igclamp=1 Model flag for Ig clamping. 918 gkinkmod=1 Model flag. 919 vdsxmod=1 Model flag. 920 avdsx=20 Smoothing parameter in Vdsx in Vbsx. 921 rnoik=0.0 Exponential coeff. for enhanced correlated thermal noise. 922 tnoik=1.0 Exponential coeff. for enhanced correlated thermal noise. 923 retacvd=0.0 The impact of Vds on vgfbCV. 924 lretacvd=0.0 Length dependence of RETACVD. 925 wretacvd=0.0 Width dependence of RETACVD. 926 pretacvd=0.0 Area dependence of RETACVD. 927 retacvd1=0.0 Temperature coefficient for RETACVD. 928 lretacvd1=0.0 Length dependence of RETACVD1. 929 wretacvd1=0.0 Width dependence of RETACVD1. 930 pretacvd1=0.0 Area dependence of RETACVD1. 931 k0=0.0 Non-saturation effect parameter for strong inversion region. 932 lk0=0.0 m Length dependence of K0. 933 wk0=0.0 m Width dependence of K0. 934 pk0=0.0 m^2 Area dependence of K0. 935 k01=0.0 1/K Temperature coefficient for K0. 936 lk01=0.0 m/K Length dependence of K01. 937 wk01=0.0 m/K Width dependence of K01. 938 pk01=0.0 m^2/K Area dependence of K01. 939 m0=1.0 offset of non-saturation effect parameter for strong inversion region. 940 lm0=0.0 m Length dependence of M0. 941 wm0=0.0 m Width dependence of M0. 942 pm0=0.0 m^2 Area dependence of M0. 943 m01=0.0 1/K Temperature coefficient for M0. 944 lm01=0.0 m/K Length dependence of M01. 945 wm01=0.0 m/K Width dependence of M01. 946 pm01=0.0 m^2/K Area dependence of M01. 947 b0=0.0 Non-saturation effect parameter for strong inversion region. 948 lb0=0.0 Length dependence of B0. 949 wb0=0.0 Width dependence of B0. 950 pb0=0.0 Area dependence of B0. 951 b01=0.0 Temperature coefficient for B0. 952 lb01=0.0 Length dependence of B01. 953 wb01=0.0 Width dependence of B01. 954 pb01=0.0 Area dependence of B01. 955 b1=0.0 Non-saturation effect parameter for strong inversion region. 956 lb1=0.0 Length dependence of B1. 957 wb1=0.0 Width dependence of B1. 958 pb1=0.0 Area dependence of B1. 959 b11=0.0 Temperature coefficient for B1. 960 lb11=0.0 Length dependence of B11. 961 wb11=0.0 Width dependence of B11. 962 pb11=0.0 Area dependence of B11. 963 b2=1.0 Non-saturation effect parameter for strong inversion region. 964 lb2=0.0 Length dependence of B2. 965 wb2=0.0 Width dependence of B2. 966 pb2=0.0 Area dependence of B2. 967 b21=0.0 Temperature coefficient for B2. 968 lb21=0.0 Length dependence of B21. 969 wb21=0.0 Width dependence of B21. 970 pb21=0.0 Area dependence of B21. 971 ssl0=4.0e2 A/m Temperature-and doping-independent parameter for sub-surface leakage drain current. 972 ssl1=3.36e8 1/m Temperature-and doping-independent parameter for gate length for sub-surface leakage drain current. 973 ssl2=0.185 Fitting parameter for sub-surface leakage drain current: barrier height. 974 ssl3=0.3 V Fitting parameter for sub-surface leakage drain current: gate voltage effect. 975 ssl4=1.4 1/V Fitting parameter for sub-surface leakage drain current: gate voltage effect. 976 ssl5=0 1/V Fitting parameter for sub-surface leakage drain current: gate voltage effect. 977 sslexp1=0.490 Fitting exponent for SSL doping effect. 978 sslexp2=1.42 Fitting exponent for SSL temperature. 979 lnfactoredge=lnfactor m Length dependence of NFACTOREDGE. 980 wnfactoredge=wnfactor m Width dependence of NFACTOREDGE. 981 pnfactoredge=pnfactor m^2 Area dependence of NFACTOREDGE. 982 lcitedge=lcit F/m Length dependence of CITEDGE. 983 wcitedge=wcit F/m Width dependence of CITEDGE. 984 pcitedge=pcit F Area dependence of CITEDGE. 985 lcdscdedge=lcdscd F/m/V Length dependence of CDSCDEDGE. 986 wcdscdedge=wcdscd F/m/V Width dependence of CDSCDEDGE. 987 pcdscdedge=pcdscd F/V Area dependence of CDSCDEDGE. 988 lcdscbedge=lcdscb F/m/V Length dependence of CDSCBEDGE. 989 wcdscbedge=wcdscb F/m/V Width dependence of CDSCBEDGE. 990 pcdscbedge=pcdscb F/V Area dependence of CDSCBEDGE. 991 leta0edge=leta0 m Length dependence of ETA0EDGE. 992 weta0edge=weta0 m Width dependence of ETA0EDGE. 993 peta0edge=peta0 m^2 Area dependence of ETA0EDGE. 994 letabedge=letab m/V Length dependence of ETABEDGE. 995 wetabedge=wetab m/V Width dependence of ETABEDGE. 996 petabedge=petab m^2/V Area dependence of ETABEDGE. 997 lkt1edge=lkt1 V*m Length dependence of KT1EDGE. 998 wkt1edge=wkt1 V*m Width dependence of KT1EDGE. 999 pkt1edge=pkt1 V*m^2 Area dependence of KT1EDGE. 1000 lkt1ledge=0.0 V*m^2 Length dependence of KT1LEDGE. 1001 wkt1ledge=0.0 V*m^2 Width dependence of KT1LEDGE. 1002 pkt1ledge=0.0 V*m^3 Area dependence of KT1LEDGE. 1003 lkt2edge=lkt2 m Length dependence of KT2EDGE. 1004 wkt2edge=wkt2 m Width dependence of KT2EDGE. 1005 pkt2edge=pkt2 m^2 Area dependence of KT2EDGE. 1006 lkt1expedge=0.0 m Length dependence of KT1EXPEDGE. 1007 wkt1expedge=0.0 m Width dependence of KT1EXPEDGE. 1008 pkt1expedge=0.0 m^2 Area dependence of KT1EXPEDGE. 1009 ltnfactoredge=0.0 m Length dependence of TNFACTOREDGE. 1010 wtnfactoredge=0.0 m Width dependence of TNFACTOREDGE. 1011 ptnfactoredge=0.0 m^2 Area dependence of TNFACTOREDGE. 1012 lteta0edge=0.0 m Length dependence of TETA0EDGE. 1013 wteta0edge=0.0 m Width dependence of TETA0EDGE. 1014 pteta0edge=0.0 m^2 Area dependence of TETA0EDGE. 1015 k2edge=k2 V Vth shift due to Vertical Non-uniform doping. 1016 lk2edge=lk2 m Length dependence of K2EDGE. 1017 wk2edge=wk2 m Width dependence of K2EDGE. 1018 pk2edge=pk2 m^2 Area dependence of K2EDGE. 1019 kvth0edge=kvth0 V*m Threshold Shift parameter for stress effect. 1020 lkvth0edge=lkvth0 m^LLODKU0 Length dependence of KVTH0EDGE. 1021 wkvth0edge=wkvth0 m^WLODKU0 Width dependence of KVTH0EDGE. 1022 pkvth0edge=pkvth0 m^(LLODKU0+WLODKU0) Area dependence of KVTH0EDGE. 1023 stk2edge=0.0 m K2 shift factor related to Vth change. 1024 lstk2edge=0.0 m^2 Length dependence of STK2EDGE. 1025 wstk2edge=0.0 m^2 Width dependence of STK2EDGE. 1026 pstk2edge=0.0 m^3 Area dependence of STK2EDGE. 1027 steta0edge=steta0 m ETA0 shift related to Vth0 change. 1028 lsteta0edge=0.0 m^2 Length dependence of STETA0EDGE. 1029 wsteta0edge=0.0 m^2 Width dependence of STETA0EDGE. 1030 psteta0edge=0.0 m^3 Area dependence of STETA0EDGE. 1031 nedge=1 Flicker noise parameter for edge fet transitor. 1032 noia1_edge=0.0 Flicker noise fitting parameter in strong inversionfor edge fet transitor. 1033 noiax_edge=1.0 Flicker noise fitting parameter in strong inversionfor edge fet transitor. 1034 lp=1.0e-5 m Length scaling parameter for thermal noise. 1035 lh=(30*1.0e-9) m Length of Halo transistor. 1036 noia2=noia s^(1-EF)/(eV)^1/m^3 Flicker noise parameter A for Halo. 1037 hndep=ndep 1/m^3 Halo doping concentration for I-V. 1038 fnoimod=0 Flicker noise model selector. 1039 tnoik2=0.1 1/m Empirical parameter for sensitivity of RNOIK. 1040 ags=0.00 vgs dependence. 1041 lags=0.00 vgs dependence. 1042 wags=0.00 vgs dependence. 1043 pags=0.00 vgs dependence. 1044 a0=0.00 1045 la0=0.00 1046 wa0=0.00 1047 pa0=0.00 1048 keta=0.00 1049 lketa=0.00 1050 wketa=0.00 1051 pketa=0.00 1052 agscv=0.00 vgs dependence. 1053 lagscv=0.00 vgs dependence. 1054 wagscv=0.00 vgs dependence. 1055 pagscv=0.00 vgs dependence. 1056 a0cv=0.00 1057 la0cv=0.00 1058 wa0cv=0.00 1059 pa0cv=0.00 1060 ketacv=0.00 1061 lketacv=0.00 1062 wketacv=0.00 1063 pketacv=0.00 1064 deltacv=0.125 Smoothing function factor for VdsatCV. 1065 ldeltacv=0.0 m Length dependence of DELTACV. 1066 wdeltacv=0.0 m Width dependence of DELTACV. 1067 pdeltacv=0.0 m^2 Area dependence of DELTACV. 1068 deltalcv=0.0 m^DELTALEXPCV Length dependence coefficient of DELTACV. 1069 deltalexpcv=1.0 Length dependence exponent coefficient of DELTACV. 1070 tdeltacv=0.0 1/K Temperature coefficient for DELTACV. 1071 atcv=(-1.56e-3) m/s Temperature coefficient for CV saturation velocity. 1072 latcv=0.0 m^2/s Length dependence of ATCV. 1073 watcv=0.0 m^2/s Width dependence of ATCV. 1074 patcv=0.0 m^3/s Area dependence of ATCV. 1075 atlcv=0.0 m Length Scaling parameter for ATCV. 1076 submod=0 0: The equations using B0, B1 and B2 are OFF, other: The equations using B0, B1 and B2 are ON. 1077 psatbmod=0 0: clamping for PSATB OFF, other: clamping for PSATB ON. 1078 cvsatmod=0 0: Tunability for Cgg@vds!=0 OFF, other: Tunability for Cgg@vds!=0 ON. 1079 voffmod=0 0: Tuning flexibility for GmOvId OFF, other: enhancement ON. 1080 tempmod=0 0: Temperature dependence on EU OFF, other: enhancement ON. 1081 flkmod=0 0: Flicker noise enhancement OFF, other: enhancement ON. 1082 flkmnudmod=0 0: Flicker noise enhancement due to MNUD1 and MNUD OFF, other: enhancement ON. 1083 flkedgemod=0 0: Flicker noise enhancement due to EDGEFET OFF, other: enhancement due to EDGEFET ON. 1084 tnoimnudmod=0 0: Thermal noise enhancement due to MNUD and MNUD1 OFF, other: enhancement due to MNUD and MNUD1 ON. 1085 vfbaccmod=0 0: VFB for CV acc OFF, other: VFB for CV acc ON. 1086 abulkmod=0 0: Abulk effect OFF, other: Abulk effect ON. 1087 phibcvmod=0 0: phib in CVMOD=1 is changed, other: phib with NDEPCV is used only in CVMOD=1. 1088 warnmod=0 0: Keep original warning message, other: change the specific warning message. 1089 cvaccmod=0 CV accumulation tuning, 0: Turn off 1: Turn on. 1090 subleakmod=0 correction of the sub-surface leakage, 0: Turn off 1: Turn on. 1091 abulk=1.0 For flexibility of tuning Cgg in strong inversion. 1092 c0=0.0 V Lateral NUD1 voltage parameter. 1093 lc0=0.0 V Length dependence of C0. 1094 wc0=0.0 V Width dependence of C0. 1095 pc0=0.0 V Area dependence of C0. 1096 c01=0.0 V/K Temperature dependence of C0. 1097 lc01=0.0 V/K Length dependence of C01. 1098 wc01=0.0 V/K Width dependence of C01. 1099 pc01=0.0 V/K Area dependence of C01. 1100 c0si=1.0 Correction factor for strong inversion used in Mnud1. 1101 lc0si=0.0 V Length dependence of C0SI. 1102 wc0si=0.0 V Width dependence of C0SI. 1103 pc0si=0.0 V Area dependence of C0SI. 1104 c0si1=0.0 /K Temperature dependence of C0SI. 1105 lc0si1=0.0 V Length dependence of C0SI1. 1106 wc0si1=0.0 V Width dependence of C0SI1. 1107 pc0si1=0.0 V Area dependence of C0SI1. 1108 c0sisat=0.0 Correction factor for saturation used in Mnud1. 1109 lc0sisat=0.0 V Length dependence of C0SISAT. 1110 wc0sisat=0.0 V Width dependence of C0SISAT. 1111 pc0sisat=0.0 V Area dependence of C0SISAT. 1112 c0sisat1=0.0 Temperature dependence of C0SISAT. 1113 lc0sisat1=0.0 V Length dependence of C0SISAT1. 1114 wc0sisat1=0.0 V Width dependence of C0SISAT1. 1115 pc0sisat1=0.0 V Area dependence of C0SISAT1. 1116 hvmod=0 High Voltage series resistance model, 0: Turn Off 1: Turn On. 1117 hvcap=0 High Voltage capacitance model. 0: Turn Off 1: Turn On. 1118 hvcaps=0 High Voltage capacitance model at source side. 0: Turn Off 1: Turn On. 1119 iimod=0 Flag for impact ionization in the drift region 0: Turn-Off, 1: Turn On. 1120 ndriftd=5.0e16 per m^2 Charge density in the drift region. 1121 vdrift=1.0e5 m/sec Saturation velocity in the drift region. 1122 mdrift=1.0 Non-linear resistance parameter. 1123 ndrifts=5.0e16 per m^2 Charge density in the source side drift region. 1124 rdlcw=100.0 Ohm*m^WR 'R'esistance of the 'D'rain side drift region at 'L'ow 'C'urrent. 1125 rslcw=0 Ohm*m^WR 'R'esistance of the 'S'ource side drift region at 'L'ow 'C'urrent. 1126 pdrwb=0 Body bias dependence of the drift region resistance. 1127 vfbdrift=(-1) V Flat-band voltage of the drift region. 1128 vfbov=(-1) V Flat-band voltage of the overlap region. 1129 lover=(500*1.0e-9) m Overlap region length. 1130 loveracc=(500*1.0e-9) m Drift region length. 1131 ndr=1e24 m^3 Drift region doping. 1132 slhv=0 Parameter and Flag for controlling slope of accumulation region capacitance. 0: Turn-Off, 1: Turn On. 1133 slhv1=1.0 Parameter for slope of the accumulation capacitance. 1134 alphadr=0.0 First parameter of Iii in the drift region. 1135 betadr=0.0 Second parameter of Iii in the drift region. 1136 prthv=0.0 Temperature coefficient for drift resistance. 1137 athv=0 m/s Temperature coefficient for drift region saturation velocity. 1138 hvfactor=1e-3 1139 drii1=1.0 Parameter for carrier concentration for Impact Ionization in the the drift. 1140 drii2=5 V Saturation voltage ~ Esat * L. 1141 deltaii=0.5 V Smoothing parameter. 1142 eu1=0.0 Temperature coefficient for EU. 1143 leu1=0.0 Length dependence of EU1. 1144 weu1=0.0 Width dependence of EU1. 1145 peu1=0.0 Area dependence of EU1. 1146 qrnois=1.0 Correction factor for flicker noise due to qs. 1147 lqrnois=0.0 Length dependence of QRNOIS. 1148 wqrnois=0.0 Width dependence of QRNOIS. 1149 pqrnois=0.0 Area dependence of QRNOIS. 1150 qrnoid=1.0 Correction factor for flicker noise due to qdeff. 1151 lqrnoid=0.0 Length dependence of QRNOID. 1152 wqrnoid=0.0 Width dependence of QRNOID. 1153 pqrnoid=0.0 Area dependence of QRNOID. 1154 noia1=0.0 s^(1-EF)/(eV)^1/m^3 Flicker noise parameter A. 1155 noiax=1.0e-5 Correction factor for flicker noise. 1156 delvfbacc=0.0 VFB shift at accumulation region. 1157 dlcacc=0.0 m Delta L for CV acc. 1158 llcacc=0.0 m^(1+LLN) Length reduction parameter. 1159 lwcacc=0.0 m^(1+LWN) Length reduction parameter. 1160 lwlcacc=0.0 m^(1+LWN+LLN) Length reduction parameter. 1161 dwcacc=0.0 m Delta W for CV acc. 1162 wlcacc=0.0 m^(1+WLN) Width reduction parameter. 1163 wwcacc=0.0 m^(1+WWN) Width reduction parameter. 1164 wwlcacc=0.0 m^(1+WWN+WLN) Width reduction parameter. 1165 naedge=1.0 Flicker noise parameter A ratio for EDGEFET. 1166 nbedge=1.0 Flicker noise parameter B ratio for EDGEFET. 1167 ncedge=1.0 Flicker noise parameter C ratio for EDGEFET. 1168 sslmod=0 Sub-Surface Leakage Drain Current,0: Turn off 1: Turn on. 1169 ndepedge=1e24 1/m^2 EDGEFET NDEP. 1170 lndepedge=0.0 1/m^2 Length dependence of EDGEFET NDEP. 1171 wndepedge=0.0 1/m^2 Width dependence of EDGEFET NDEP. 1172 pndepedge=0.0 1/m Area dependence of EDGEFET NDEP . 1173 fnoik=0.0 a offset for flicker. 1174 kfrs=0.0 a factor for Rs. 1175 kfrd=0.0 a factor for Rd. 1176 kfds=0.0 a factor for drain-source terminals. 1177 afrs=2.0 a factor of ids for Rs. 1178 afrd=2.0 a factor of ids for Rd. 1179 afds=2.0 a factor of ids between drain and source terminals. 1180 efrs=1.0 an index for Rs. 1181 efrd=1.0 an index for Rd. 1182 efds=1.0 an index between drain and source terminals. ================= Output Parameters ================= 1 tempeff (C) Effective temperature for a single device. 2 meff Effective multiplicity factor (m-factor). ========================== Operating Point Parameters ========================== 1 qbi (Coul) Intrinsic bulk charge. 2 qsi (Coul) Intrinsic source charge. 3 qdi (Coul) Intrinsic drain charge. 4 qgi (Coul) Intrinsic gate charge. 5 cggi (F) Intrinsic gate capacitance. 6 cgbi (F) Intrinsic gate-to-body capacitance. 7 cgsi (F) Intrinsic gate-to-source capacitance. 8 cgdi (F) Intrinsic gate-to-drain capacitance. 9 csgi (F) Intrinsic source-to-gate capacitance. 10 csbi (F) Intrinsic source-to-body capacitance. 11 cssi (F) Intrinsic source capacitance. 12 csdi (F) Intrinsic source-to-drain capacitance. 13 cdgi (F) Intrinsic drain-to-gate capacitance. 14 cdbi (F) Intrinsic drain-to-body capacitance. 15 cdsi (F) Intrinsic drain-to-source capacitance. 16 cddi (F) Intrinsic drain capacitance. 17 cbgi (F) Intrinsic body-to-gate capacitance. 18 cbbi (F) Intrinsic body capacitance. 19 cbsi (F) Intrinsic body-to-source capacitance. 20 cbdi (F) Intrinsic body-to-drain capacitance. 21 qb (Coul) Body charge. 22 qs (Coul) Source charge. 23 qd (Coul) Drain charge. 24 qg (Coul) Gate charge. 25 cgg (F) Total gate capacitance. 26 cgb (F) Total gate-to-body capacitance. 27 cgs (F) Total gate-to-source capacitance. 28 cgd (F) Total gate-to-drain capacitance. 29 csg (F) Total source-to-gate capacitance. 30 csb (F) Total source-to-body capacitance. 31 css (F) Total source capacitance. 32 csd (F) Total source-to-drain capacitance. 33 cdg (F) Total drain-to-gate capacitance. 34 cdb (F) Total drain-to-body capacitance. 35 cds (F) Total drain-to-source capacitance. 36 cdd (F) Total drain capacitance. 37 cbg (F) Total body-to-gate capacitance. 38 cbb (F) Total body capacitance. 39 cbs (F) Total body-to-source capacitance. 40 cbd (F) Total body-to-drain capacitance. 41 iii (A) Alias of isub. 42 isub (A) Impact ionization current. 43 igidl (A) Gate-induced drain leakage current. 44 igisl (A) Gate-induced source leakage current. 45 igs (A) Gate-to-source tunneling current. 46 igd (A) Gate-to-drain tunneling current. 47 igcs (A) Gate-to-channel (source side) tunneling current. 48 igcd (A) Gate-to-channel (drain side) tunneling current. 49 igb (A) Gate-to-bulk tunneling current. 50 cgsext (F) Gate-source overlap capacitance. 51 cgdext (F) Gate-drain overlap capacitance. 52 cgbov (F) Gate-bulk overlap capacitance. 53 cjst (F) Alias of capbs. 54 capbs (F) Source-bulk junction capacitance. 55 cjdt (F) Alias of capbd. 56 capbd (F) Drain-bulk junction capacitance. 57 weff (m) Effective channel width. 58 leff (m) Effective channel length. 59 weffcv (m) Effective channel width for CV. 60 leffcv (m) Effective channel length for CV. 61 ids (A) Drain-source current. 62 ideff (A) Effective drain current. 63 id (A) Total resistive drain current. 64 iseff (A) Effective source current. 65 igeff (A) Effective gate current. 66 ijsb (A) Alias of ibs. 67 ibs (A) Source-bulk junction current. 68 ijdb (A) Alias of ibd. 69 ibd (A) Drain-bulk junction current. 70 vds (V) Drain-to-source voltage. 71 vgs (V) Gate-to-source voltage. 72 vsb (V) Voltage between source and bulk (vs-vb). 73 vbs (V) Body-to-source voltage. 74 vdst (V) External drain-source voltage. 75 vgst (V) External gate-source voltage. 76 vsbt (V) External source-bulk voltage. 77 vdssat (V ) Alias of vdsat. 78 vdsat (V ) Drain-source saturation voltage. 79 gm (S) Common-source transconductance. 80 gmbs (S) Body-transconductance. 81 gds (S) Common-source output conductance. 82 pwr (W) Power at op point. 83 tk (K) Temperature in kelvin. 84 vth (V) Threshold Voltage. 85 lv9 (V) Alias of Threshold Voltage. 86 lx142 (V) NULL. 87 t_total_k (K) Total device temperature in K. 88 t_total_c (deg-C) Total device temperature in C. 89 t_delta_sh (K) Device temperature rise due to the selfheating. 90 idriftsatd (A) 91 region=triode Estimated operating region. Spectre outputs number (0-4) in a rawfile. Possible values are off, triode, sat, subth and breakdown. 92 ft (Hz) Unity current gain frequency at actual bias. 93 fug (Hz) Unity current gain frequency at actual bias. 94 gmoverid (1/V) Gm/Ids. 95 self_gain Transistor self gain. 96 vearly (V) Equivalent early voltage. 97 ron (Ohm) On-resistance. =============== Parameter Index =============== a0 .................. M-1044 lln ................... M-37 rbpdnf ............... M-697 a0cv ................ M-1056 llodku0 .............. M-829 rbpdw ................ M-696 a1 ................... M-419 llodvth .............. M-835 rbps .................. I-22 a11 .................. M-423 llong ................. M-27 rbps ................. M-907 a2 ................... M-427 lm0 .................. M-940 rbps0 ................ M-690 a21 .................. M-431 lm01 ................. M-944 rbpsl ................ M-691 abulk ............... M-1091 lmax ................. M-889 rbpsnf ............... M-693 abulkmod ............ M-1086 lmin ................. M-888 rbpsw ................ M-692 ad .................... I-10 lmlt .................. M-28 rbsb .................. I-21 ados ................. M-176 lndep ................. M-65 rbsb ................. M-906 afds ................ M-1179 lndepcv ............... M-77 rbsbx0 ............... M-706 afrd ................ M-1178 lndepedge ........... M-1170 rbsby0 ............... M-707 afrs ................ M-1177 lnfactor ............. M-191 rbsdbxl .............. M-710 agidl ................ M-568 lnfactoredge ......... M-979 rbsdbxnf ............. M-712 agidll ............... M-569 lngate ................ M-81 rbsdbxw .............. M-711 agidlw ............... M-570 lnigbacc ............. M-526 rbsdbyl .............. M-713 agisl ................ M-586 lnigbinv ............. M-514 rbsdbynf ............. M-715 agisll ............... M-587 lnsd ................. M-110 rbsdbyw .............. M-714 agislw ............... M-588 lntox ................ M-565 rdlcw ............... M-1124 ags ................. M-1040 lodeta0 .............. M-840 rdsmod ................ M-16 agscv ............... M-1052 lodk2 ................ M-838 rdsw ................. M-386 aigbacc .............. M-471 lover ............... M-1129 rdswl ................ M-387 aigbinv .............. M-475 loveracc ............ M-1130 rdswlexp ............. M-388 aigc ................. M-480 lp .................. M-1034 rdswmin .............. M-382 aigcl ................ M-495 lp1 .................. M-242 rdw .................. M-376 aigcw ................ M-496 lp2 .................. M-244 rdwl ................. M-380 aigd ................. M-486 lpclm ................ M-316 rdwlexp .............. M-381 aigdl ................ M-499 lpclmcv .............. M-327 rdwmin ............... M-372 aigdw ................ M-500 lpclmr ............... M-320 region ................ I-35 aigs ................. M-483 lpdiblc .............. M-438 region ............... OP-91 aigsl ................ M-497 lpdiblcb ............. M-448 retacvd .............. M-923 aigsw ................ M-498 lpdiblcr ............. M-444 retacvd1 ............. M-927 alpha0 ............... M-461 lpdits ............... M-339 rgatemod ............... I-4 alpha0l .............. M-462 lpditsd .............. M-344 rgatemod ............. M-880 alpha0lexp ........... M-463 lphin ................ M-139 rgeomod ................ I-3 alphadr ............. M-1134 lpoxedge ............. M-556 rgeomod .............. M-879 as ..................... I-9 lprt ................. M-761 rnoia ................ M-723 asymmod ............... M-18 lprwb ................ M-353 rnoib ................ M-724 at ................... M-764 lprwg ................ M-349 rnoic ................ M-725 atcv ................ M-1071 lpsat ................ M-393 rnoik ................ M-921 athv ................ M-1137 lpsatb ............... M-399 ron .................. OP-97 atl .................. M-768 lpsatr ............... M-403 rsh .................. M-347 atlcv ............... M-1075 lpscbe1 .............. M-331 rshg ................. M-633 avdsx ................ M-920 lpscbe2 .............. M-335 rslcw ............... M-1125 b0 ................... M-947 lptwg ................ M-408 rsw .................. M-366 b01 .................. M-951 lptwgr ............... M-414 rswl ................. M-370 b1 ................... M-955 lptwgt ............... M-771 rswlexp .............. M-371 b11 .................. M-959 lpvag ................ M-452 rswmin ............... M-362 b2 ................... M-963 lqrnoid ............. M-1151 rth0 ................. M-817 b21 .................. M-967 lqrnois ............. M-1147 sa .................... I-26 bdos ................. M-177 lrdsw ................ M-389 saref ................ M-820 beta0 ................ M-467 lrdswmin ............. M-383 sb .................... I-27 betadr .............. M-1135 lrdw ................. M-377 sbref ................ M-821 bg0sub ................ M-86 lrdwmin .............. M-373 sc .................... I-32 bgidl ................ M-574 lretacvd ............. M-924 sca ................... I-29 bgisl ................ M-592 lretacvd1 ............ M-928 scb ................... I-30 bigbacc .............. M-472 lrsw ................. M-367 scc ................... I-31 bigbinv .............. M-476 lrswmin .............. M-363 scref ................ M-855 bigc ................. M-481 lsteta0edge ......... M-1028 sd .................... I-28 bigd ................. M-487 lstk2edge ........... M-1024 self_gain ............ OP-95 bigs ................. M-484 lteta0edge .......... M-1012 shmod ................. M-23 binunit .............. M-729 ltgidl ............... M-794 slhv ................ M-1132 bvd .................. M-665 ltnfactoredge ....... M-1009 slhv1 ............... M-1133 bvs .................. M-664 lu0 .................. M-249 ssl0 ................. M-971 c0 .................. M-1092 lu0r ................. M-253 ssl1 ................. M-972 c01 ................. M-1096 lua .................. M-264 ssl2 ................. M-973 c0si ................ M-1100 lua1 ................. M-742 ssl3 ................. M-974 c0si1 ............... M-1104 luar ................. M-268 ssl4 ................. M-975 c0sisat ............. M-1108 luc .................. M-306 ssl5 ................. M-976 c0sisat1 ............ M-1112 luc1 ................. M-747 sslexp1 .............. M-977 capbd ................ OP-56 lucr ................. M-310 sslexp2 .............. M-978 capbs ................ OP-54 lucs ................. M-292 sslmod ................ I-34 cbb .................. OP-38 lucsr ................ M-296 sslmod .............. M-1168 cbbi ................. OP-18 lucste ............... M-756 steta0 ............... M-839 cbd .................. OP-40 lud .................. M-284 steta0edge .......... M-1027 cbdi ................. OP-20 lud1 ................. M-751 stk2 ................. M-837 cbg .................. OP-37 ludr ................. M-288 stk2edge ............ M-1023 cbgi ................. OP-17 lute ................. M-737 subleakmod .......... M-1090 cbs .................. OP-39 lv9 .................. OP-85 submod .............. M-1076 cbsi ................. OP-19 lvfb .................. M-94 t_delta_sh ........... OP-89 cdb .................. OP-34 lvfbcv ................ M-98 t_total_c ............ OP-88 cdbi ................. OP-14 lvsat ................ M-212 t_total_k ............ OP-87 cdd .................. OP-36 lvsatcv .............. M-232 tbgasub .............. M-733 cddi ................. OP-16 lvsatr ............... M-222 tbgbsub .............. M-734 cdg .................. OP-33 lw .................... M-35 tcj .................. M-797 cdgi ................. OP-13 lwc ................... M-47 tcjsw ................ M-798 cds .................. OP-35 lwcacc .............. M-1159 tcjswg ............... M-799 cdscb ................ M-205 lwl ................... M-36 tdelta ............... M-769 cdscbedge ............ M-865 lwlc .................. M-48 tdeltacv ............ M-1070 cdscbl ............... M-206 lwlcacc ............. M-1160 tempeff ................ O-1 cdscblexp ............ M-207 lwn ................... M-38 tempmod ............. M-1080 cdscd ................ M-194 lwr .................. M-359 teta0 ................ M-759 cdscdedge ............ M-864 lx142 ................ OP-86 teta0edge ............ M-873 cdscdl ............... M-195 lxj ................... M-90 tgidl ................ M-793 cdscdlexp ............ M-196 m ...................... I-1 tk ................... OP-83 cdscdlr .............. M-201 m0 ................... M-939 tku0 ................. M-825 cdscdr ............... M-200 m01 .................. M-943 tmemod ................ M-25 cdsi ................. OP-15 mbe0 ................. M-914 tnfactor ............. M-735 cf ................... M-604 mbewl ................ M-913 tnfactoredge ......... M-872 cfrcoeff ............. M-608 mdrift .............. M-1122 tnjts ................ M-811 cgb .................. OP-26 meff ................... O-2 tnjtsd ............... M-812 cgbi .................. OP-6 minr .................. M-13 tnjtssw .............. M-813 cgbo ................. M-611 minz .................. I-16 tnjtsswd ............. M-814 cgbov ................ OP-52 mismatchdist ......... M-916 tnjtsswg ............. M-815 cgd .................. OP-28 mismatchmod .......... M-915 tnjtsswgd ............ M-816 cgdext ............... OP-51 mjd .................. M-647 tnoia ................ M-726 cgdi .................. OP-8 mjs .................. M-646 tnoib ................ M-727 cgdl ................. M-616 mjswd ................ M-649 tnoic ................ M-728 cgdo ................. M-610 mjswgd ............... M-651 tnoik ................ M-922 cgg .................. OP-25 mjswgs ............... M-650 tnoik2 .............. M-1039 cggi .................. OP-5 mjsws ................ M-648 tnoimnudmod ......... M-1084 cgidl ................ M-578 mobscale .............. M-24 tnoimod ............... M-22 cgisl ................ M-596 mulu0 ................. I-39 tnom ................. M-732 cgs .................. OP-27 mulu0 ................ M-245 toxe .................. M-53 cgsext ............... OP-50 muluo ................. I-40 toxp .................. M-54 cgsi .................. OP-7 mvt0 ................. M-912 toxref ............... M-493 cgsl ................. M-612 mvtwl ................ M-910 tpb .................. M-800 cgso ................. M-609 mvtwl2 ............... M-911 tpbsw ................ M-801 cigbacc .............. M-473 naedge .............. M-1165 tpbswg ............... M-802 cigbinv .............. M-477 nbedge .............. M-1166 trise ................. I-25 cigc ................. M-482 ncedge .............. M-1167 type ................... M-1 cigd ................. M-488 ndep .................. M-56 u0 ................... M-246 cigs ................. M-485 ndepcv ................ M-68 u0l .................. M-247 cit .................. M-180 ndepcvl1 .............. M-69 u0lexp ............... M-248 citedge .............. M-863 ndepcvl2 .............. M-71 u0r .................. M-252 cjd .................. M-635 ndepcvlexp1 ........... M-70 ua ................... M-257 cjdt ................. OP-55 ndepcvlexp2 ........... M-72 ua1 .................. M-741 cjs .................. M-634 ndepcvw ............... M-73 ua1l ................. M-745 cjst ................. OP-53 ndepcvwexp ............ M-74 ual .................. M-258 cjswd ................ M-637 ndepcvwl .............. M-75 ualexp ............... M-259 cjswgd ............... M-639 ndepcvwlexp ........... M-76 uar .................. M-267 cjswgs ............... M-638 ndepedge ............ M-1169 uaw .................. M-260 cjsws ................ M-636 ndepl1 ................ M-57 uawexp ............... M-261 ckappad .............. M-624 ndepl2 ................ M-59 uawl ................. M-262 ckappas .............. M-620 ndeplexp1 ............. M-58 uawlexp .............. M-263 compatible ............. M-3 ndeplexp2 ............. M-60 uc ................... M-299 covmod ................ M-15 ndepw ................. M-61 uc1 .................. M-746 csb .................. OP-30 ndepwexp .............. M-62 ucl .................. M-300 csbi ................. OP-10 ndepwl ................ M-63 uclexp ............... M-301 csd .................. OP-32 ndepwlexp ............. M-64 ucr .................. M-309 csdi ................. OP-12 ndr ................. M-1131 ucs .................. M-291 csg .................. OP-29 ndriftd ............. M-1120 ucsr ................. M-295 csgi .................. OP-9 ndrifts ............. M-1123 ucste ................ M-755 css .................. OP-31 nedge ............... M-1031 ucw .................. M-302 cssi ................. OP-11 nf ..................... I-8 ucwexp ............... M-303 cth0 ................. M-818 nf ................... M-884 ucwl ................. M-304 cvaccmod ............ M-1089 nfactor .............. M-184 ucwlexp .............. M-305 cvmod ................. M-14 nfactoredge .......... M-862 ud ................... M-281 cvsatmod ............ M-1078 nfactorl ............. M-185 ud1 .................. M-750 delta ................ M-225 nfactorlexp .......... M-186 ud1l ................. M-754 deltacv ............. M-1064 nfactorw ............. M-187 udl .................. M-282 deltaii ............. M-1141 nfactorwexp .......... M-188 udlexp ............... M-283 deltal ............... M-229 nfactorwl ............ M-189 udr .................. M-287 deltalcv ............ M-1068 nfactorwlexp ......... M-190 up1 .................. M-241 deltalexp ............ M-230 ngate ................. M-80 up2 .................. M-243 deltalexpcv ......... M-1069 ngcon ................. I-18 ute .................. M-736 delvfbacc ........... M-1156 ngcon ................ M-909 utel ................. M-740 delvt0 ................ I-37 ni0sub ................ M-85 vbd_max .............. M-895 delvt0 ............... M-113 nigbacc .............. M-474 vbdr_max ............. M-902 delvto ................ I-38 nigbinv .............. M-479 vbs .................. OP-73 delvto ............... M-886 njd .................. M-659 vbs_max .............. M-896 dgammaedge ........... M-858 njs .................. M-658 vbsr_max ............. M-901 dgammaedgel .......... M-859 njts ................. M-675 vdrift .............. M-1121 dgammaedgelexp ....... M-860 njtsd ................ M-676 vds .................. OP-70 dlbin ................ M-730 njtssw ............... M-677 vds_max .............. M-892 dlc ................... M-45 njtsswd .............. M-678 vdsat ................ OP-78 dlcacc .............. M-1157 njtsswg .............. M-679 vdsat_c ............... M-10 dlcig ................ M-489 njtsswgd ............. M-680 vdsat_vadj ............ M-12 dlcigd ............... M-490 noia ................. M-718 vdsat_vdl ............. M-11 dmcg ................. M-628 noia1 ............... M-1154 vdsatmod ............... M-9 dmcgt ................ M-631 noia1_edge .......... M-1032 vdssat ............... OP-77 dmci ................. M-629 noia2 ............... M-1036 vdst ................. OP-74 dmdg ................. M-630 noiax ............... M-1155 vdsxmod .............. M-919 drii1 ............... M-1139 noiax_edge .......... M-1033 vearly ............... OP-96 drii2 ............... M-1140 noib ................. M-719 version ................ M-2 dsub ................. M-150 noic ................. M-720 vfb ................... M-93 dtemp ................. I-24 noisemethod .......... M-877 vfbaccmod ........... M-1085 dtemp ................ M-885 nrd ................... I-15 vfbcv ................. M-97 dtox .................. M-55 nrs ................... I-14 vfbcvl ............... M-101 dvt0edge ............. M-874 nsd .................. M-109 vfbcvlexp ............ M-102 dvt1edge ............. M-875 ntnoi ................ M-722 vfbcvw ............... M-103 dvt2edge ............. M-876 ntox ................. M-492 vfbcvwexp ............ M-104 dvtedge .............. M-861 pa0 ................. M-1047 vfbcvwl .............. M-105 dvtp0 ................ M-114 pa0cv ............... M-1059 vfbcvwlexp ........... M-106 dvtp1 ................ M-118 pa1 .................. M-422 vfbdrift ............ M-1127 dvtp2 ................ M-122 pa11 ................. M-426 vfbov ............... M-1128 dvtp3 ................ M-126 pa2 .................. M-430 vfbsdoff .............. I-13 dvtp4 ................ M-130 pa21 ................. M-434 vfbsdoff ............. M-903 dvtp5 ................ M-134 pagidl ............... M-573 vgb_max .............. M-897 dwbin ................ M-731 pagisl ............... M-591 vgbr_max ............. M-900 dwc ................... M-49 pags ................ M-1043 vgd_max .............. M-893 dwcacc .............. M-1161 pagscv .............. M-1055 vgdr_max ............. M-898 dwj .................. M-108 paigbacc ............. M-519 vgs .................. OP-71 easub ................. M-84 paigbinv ............. M-504 vgs_max .............. M-894 edgefet ............... I-41 paigc ................ M-531 vgsr_max ............. M-899 edgefet .............. M-856 paigd ................ M-549 vgst ................. OP-75 ef ................... M-716 paigs ................ M-540 voffmod ............. M-1079 efds ................ M-1182 palpha0 .............. M-466 vsat ................. M-211 efrd ................ M-1181 pat .................. M-767 vsatcv ............... M-231 efrs ................ M-1180 patcv ............... M-1074 vsatcvl .............. M-235 egidl ................ M-582 pb0 .................. M-950 vsatcvlexp ........... M-236 egisl ................ M-600 pb01 ................. M-954 vsatcvw .............. M-237 eigbinv .............. M-478 pb1 .................. M-958 vsatcvwexp ........... M-238 em ................... M-717 pb11 ................. M-962 vsatcvwl ............. M-239 epsrox ................ M-88 pb2 .................. M-966 vsatcvwlexp .......... M-240 epsrsub ............... M-87 pb21 ................. M-970 vsatl ................ M-215 eta0 ................. M-142 pbd .................. M-641 vsatlexp ............. M-216 eta0edge ............. M-866 pbeta0 ............... M-470 vsatr ................ M-221 eta0r ................ M-146 pbgidl ............... M-577 vsatw ................ M-217 etab ................. M-151 pbgisl ............... M-595 vsatwexp ............. M-218 etabedge ............. M-867 pbigbacc ............. M-522 vsatwl ............... M-219 etabexp .............. M-152 pbigbinv ............. M-507 vsatwlexp ............ M-220 etamob ............... M-256 pbigc ................ M-534 vsb .................. OP-72 etaqm ................ M-179 pbigd ................ M-552 vsbt ................. OP-76 eu ................... M-271 pbigs ................ M-543 vth .................. OP-84 eu1 ................. M-1142 pbs .................. M-640 vthmod ................. M-4 eul .................. M-275 pbswd ................ M-643 vtsd ................. M-682 eulexp ............... M-276 pbswgd ............... M-645 vtss ................. M-681 euw .................. M-277 pbswgs ............... M-644 vtsswd ............... M-684 euwexp ............... M-278 pbsws ................ M-642 vtsswgd .............. M-686 euwl ................. M-279 pc0 ................. M-1095 vtsswgs .............. M-685 euwlexp .............. M-280 pc01 ................ M-1099 vtssws ............... M-683 flkedgemod .......... M-1083 pc0si ............... M-1103 w ...................... I-7 flkmnudmod .......... M-1082 pc0si1 .............. M-1107 w .................... M-883 flkmod .............. M-1081 pc0sisat ............ M-1111 wa0 ................. M-1046 fnoik ............... M-1173 pc0sisat1 ........... M-1115 wa0cv ............... M-1058 fnoimod ............. M-1038 pcdscb ............... M-210 wa1 .................. M-421 fprout ............... M-455 pcdscbedge ........... M-990 wa11 ................. M-425 fproutl .............. M-456 pcdscd ............... M-199 wa2 .................. M-429 fproutlexp ........... M-457 pcdscdedge ........... M-987 wa21 ................. M-433 ft ................... OP-92 pcdscdr .............. M-204 wagidl ............... M-572 fug .................. OP-93 pcf .................. M-607 wagisl ............... M-590 gbmin ................ M-689 pcgdl ................ M-619 wags ................ M-1042 gds .................. OP-81 pcgidl ............... M-581 wagscv .............. M-1054 geomod ................. I-2 pcgisl ............... M-599 waigbacc ............. M-518 geomod ............... M-878 pcgsl ................ M-615 waigbinv ............. M-503 gidlmod ............... M-19 pcigbacc ............. M-525 waigc ................ M-530 gkinkmod ............. M-918 pcigbinv ............. M-510 waigd ................ M-548 gm ................... OP-79 pcigc ................ M-537 waigs ................ M-539 gmbs ................. OP-80 pcigd ................ M-555 walpha0 .............. M-465 gmoverid ............. OP-94 pcigs ................ M-546 warnmod ............. M-1088 hndep ............... M-1037 pcit ................. M-183 wat .................. M-766 hvcap ............... M-1117 pcitedge ............. M-984 watcv ............... M-1073 hvcaps .............. M-1118 pckappad ............. M-627 wb0 .................. M-949 hvfactor ............ M-1138 pckappas ............. M-623 wb01 ................. M-953 hvmod ............... M-1116 pclm ................. M-313 wb1 .................. M-957 ibd .................. OP-69 pclmcv ............... M-324 wb11 ................. M-961 ibs .................. OP-67 pclmcvl .............. M-325 wb2 .................. M-965 id ................... OP-63 pclmcvlexp ........... M-326 wb21 ................. M-969 ideff ................ OP-62 pclmg ................ M-323 wbeta0 ............... M-469 idriftsatd ........... OP-90 pclml ................ M-314 wbgidl ............... M-576 ids .................. OP-61 pclmlexp ............. M-315 wbgisl ............... M-594 ids0mult .............. I-36 pclmr ................ M-319 wbigbacc ............. M-521 ids0mult ............. M-887 pd .................... I-12 wbigbinv ............. M-506 igb .................. OP-49 pdelta ............... M-228 wbigc ................ M-533 igbmod ................ M-21 pdeltacv ............ M-1067 wbigd ................ M-551 igcd ................. OP-48 pdiblc ............... M-435 wbigs ................ M-542 igclamp .............. M-917 pdiblcb .............. M-447 wc0 ................. M-1094 igcmod ................ M-20 pdiblcl .............. M-436 wc01 ................ M-1098 igcs ................. OP-47 pdiblclexp ........... M-437 wc0si ............... M-1102 igd .................. OP-46 pdiblclexpr .......... M-443 wc0si1 .............. M-1106 igeff ................ OP-65 pdiblclr ............. M-442 wc0sisat ............ M-1110 igidl ................ OP-43 pdiblcr .............. M-441 wc0sisat1 ........... M-1114 igisl ................ OP-44 pdits ................ M-338 wcdscb ............... M-209 igs .................. OP-45 pditsd ............... M-343 wcdscbedge ........... M-989 igt .................. M-789 pditsl ............... M-342 wcdscd ............... M-198 iii .................. OP-41 pdlcig ............... M-561 wcdscdedge ........... M-986 iimod ............... M-1119 pdlcigd .............. M-564 wcdscdr .............. M-203 iit .................. M-785 pdrwb ............... M-1126 wcf .................. M-606 ijdb ................. OP-68 pdvtp0 ............... M-117 wcgdl ................ M-618 ijsb ................. OP-66 pdvtp1 ............... M-121 wcgidl ............... M-580 ijthdfwd ............. M-661 pdvtp2 ............... M-125 wcgisl ............... M-598 ijthdrev ............. M-663 pdvtp3 ............... M-129 wcgsl ................ M-614 ijthsfwd ............. M-660 pdvtp4 ............... M-133 wcigbacc ............. M-524 ijthsrev ............. M-662 pdvtp5 ............... M-137 wcigbinv ............. M-509 iseff ................ OP-64 pegidl ............... M-585 wcigc ................ M-536 isnoisy ............... I-33 pegisl ............... M-603 wcigd ................ M-554 isub ................. OP-42 peigbinv ............. M-513 wcigs ................ M-545 ivth ................... M-5 permod ............... M-107 wcit ................. M-182 ivth_vdsmin ............ M-8 peta0 ................ M-145 wcitedge ............. M-983 ivthl .................. M-7 peta0edge ............ M-993 wckappad ............. M-626 ivthw .................. M-6 peta0r ............... M-149 wckappas ............. M-622 jsd .................. M-653 petab ................ M-155 wdelta ............... M-227 jss .................. M-652 petabedge ............ M-996 wdeltacv ............ M-1066 jswd ................. M-655 peu .................. M-274 wdlcig ............... M-560 jswgd ................ M-657 peu1 ................ M-1145 wdlcigd .............. M-563 jswgs ................ M-656 pfprout .............. M-460 wdvtp0 ............... M-116 jsws ................. M-654 phibcvmod ........... M-1087 wdvtp1 ............... M-120 jtsd ................. M-669 phin ................. M-138 wdvtp2 ............... M-124 jtss ................. M-668 pigcd ................ M-494 wdvtp3 ............... M-128 jtsswd ............... M-671 pigcdl ............... M-501 wdvtp4 ............... M-132 jtsswgd .............. M-673 pigt ................. M-792 wdvtp5 ............... M-136 jtsswgs .............. M-672 piit ................. M-788 web .................. M-841 jtssws ............... M-670 pk0 .................. M-934 wec .................. M-842 jtweff ............... M-674 pk01 ................. M-938 wedge ................ M-857 k0 ................... M-931 pk1 .................. M-165 weff ................. OP-57 k01 .................. M-935 pk2 .................. M-175 weffcv ............... OP-59 k1 ................... M-156 pk2edge ............. M-1018 wegidl ............... M-584 k1l .................. M-157 pk2we ................ M-850 wegisl ............... M-602 k1lexp ............... M-158 pketa ............... M-1051 weigbinv ............. M-512 k1w .................. M-159 pketacv ............. M-1063 weta0 ................ M-144 k1wexp ............... M-160 pkt1 ................. M-780 weta0edge ............ M-992 k1wl ................. M-161 pkt1edge ............. M-999 weta0r ............... M-148 k1wlexp .............. M-162 pkt1expedge ......... M-1008 wetab ................ M-154 k2 ................... M-166 pkt1ledge ........... M-1002 wetabedge ............ M-995 k2edge .............. M-1015 pkt2 ................. M-784 weu .................. M-273 k2l .................. M-167 pkt2edge ............ M-1005 weu1 ................ M-1144 k2lexp ............... M-168 pku0 ................. M-828 wfprout .............. M-459 k2w .................. M-169 pku0we ............... M-854 wigt ................. M-791 k2we ................. M-847 pkvth0 ............... M-834 wiit ................. M-787 k2wexp ............... M-170 pkvth0edge .......... M-1022 wint .................. M-39 k2wl ................. M-171 pkvth0we ............. M-846 wk0 .................. M-933 k2wlexp .............. M-172 pm0 .................. M-942 wk01 ................. M-937 keta ................ M-1048 pm01 ................. M-946 wk1 .................. M-164 ketacv .............. M-1060 pndep ................. M-67 wk2 .................. M-174 kfds ................ M-1176 pndepcv ............... M-79 wk2edge ............. M-1017 kfrd ................ M-1175 pndepedge ........... M-1172 wk2we ................ M-849 kfrs ................ M-1174 pnfactor ............. M-193 wketa ............... M-1050 kt1 .................. M-775 pnfactoredge ......... M-981 wketacv ............. M-1062 kt1edge .............. M-868 pngate ................ M-83 wkt1 ................. M-779 kt1exp ............... M-776 pnigbacc ............. M-528 wkt1edge ............. M-998 kt1expedge ........... M-871 pnigbinv ............. M-516 wkt1expedge ......... M-1007 kt1l ................. M-777 pnsd ................. M-112 wkt1ledge ........... M-1001 kt1ledge ............. M-869 pntox ................ M-567 wkt2 ................. M-783 kt2 .................. M-781 poxedge .............. M-491 wkt2edge ............ M-1004 kt2edge .............. M-870 ppclm ................ M-318 wku0 ................. M-827 ku0 .................. M-823 ppclmcv .............. M-329 wku0we ............... M-853 ku0we ................ M-851 ppclmr ............... M-322 wkvth0 ............... M-833 kvsat ................ M-824 ppdiblc .............. M-440 wkvth0edge .......... M-1021 kvth0 ................ M-831 ppdiblcb ............. M-450 wkvth0we ............. M-845 kvth0edge ........... M-1019 ppdiblcr ............. M-446 wl .................... M-40 kvth0we .............. M-843 ppdits ............... M-341 wlc ................... M-50 l ...................... I-6 ppditsd .............. M-346 wlcacc .............. M-1162 l .................... M-882 pphin ................ M-141 wln ................... M-43 la0 ................. M-1045 ppoxedge ............. M-558 wlod ................. M-822 la0cv ............... M-1057 pprt ................. M-763 wlodku0 .............. M-830 la1 .................. M-420 pprwb ................ M-355 wlodvth .............. M-836 la11 ................. M-424 pprwg ................ M-351 wm0 .................. M-941 la2 .................. M-428 ppsat ................ M-395 wm01 ................. M-945 la21 ................. M-432 ppsatb ............... M-401 wmax ................. M-891 lagidl ............... M-571 ppsatr ............... M-405 wmin ................. M-890 lagisl ............... M-589 ppscbe1 .............. M-333 wmlt .................. M-29 lags ................ M-1041 ppscbe2 .............. M-337 wndep ................. M-66 lagscv .............. M-1053 pptwg ................ M-410 wndepcv ............... M-78 laigbacc ............. M-517 pptwgr ............... M-416 wndepedge ........... M-1171 laigbinv ............. M-502 pptwgt ............... M-773 wnfactor ............. M-192 laigc ................ M-529 ppvag ................ M-454 wnfactoredge ......... M-980 laigd ................ M-547 pqrnoid ............. M-1153 wngate ................ M-82 laigs ................ M-538 pqrnois ............. M-1149 wnigbacc ............. M-527 lalpha0 .............. M-464 prdsw ................ M-391 wnigbinv ............. M-515 lat .................. M-765 prdswmin ............. M-385 wnsd ................. M-111 latcv ............... M-1072 prdw ................. M-379 wntox ................ M-566 lb0 .................. M-948 prdwmin .............. M-375 wpclm ................ M-317 lb01 ................. M-952 pretacvd ............. M-926 wpclmcv .............. M-328 lb1 .................. M-956 pretacvd1 ............ M-930 wpclmr ............... M-321 lb11 ................. M-960 prsw ................. M-369 wpdiblc .............. M-439 lb2 .................. M-964 prswmin .............. M-365 wpdiblcb ............. M-449 lb21 ................. M-968 prt .................. M-760 wpdiblcr ............. M-445 lbeta0 ............... M-468 prthv ............... M-1136 wpdits ............... M-340 lbgidl ............... M-575 prwb ................. M-352 wpditsd .............. M-345 lbgisl ............... M-593 prwbl ................ M-356 wpemod ................ M-17 lbigbacc ............. M-520 prwblexp ............. M-357 wphin ................ M-140 lbigbinv ............. M-505 prwg ................. M-348 wpoxedge ............. M-557 lbigc ................ M-532 ps .................... I-11 wprt ................. M-762 lbigd ................ M-550 psat ................. M-392 wprwb ................ M-354 lbigs ................ M-541 psatb ................ M-398 wprwg ................ M-350 lc0 ................. M-1093 psatbmod ............ M-1077 wpsat ................ M-394 lc01 ................ M-1097 psatl ................ M-396 wpsatb ............... M-400 lc0si ............... M-1101 psatlexp ............. M-397 wpsatr ............... M-404 lc0si1 .............. M-1105 psatr ................ M-402 wpscbe1 .............. M-332 lc0sisat ............ M-1109 psatx ................ M-406 wpscbe2 .............. M-336 lc0sisat1 ........... M-1113 pscbe1 ............... M-330 wptwg ................ M-409 lcdscb ............... M-208 pscbe2 ............... M-334 wptwgr ............... M-415 lcdscbedge ........... M-988 psteta0edge ......... M-1030 wptwgt ............... M-772 lcdscd ............... M-197 pstk2edge ........... M-1026 wpvag ................ M-453 lcdscdedge ........... M-985 pteta0edge .......... M-1014 wqrnoid ............. M-1152 lcdscdr .............. M-202 ptgidl ............... M-796 wqrnois ............. M-1148 lcf .................. M-605 ptnfactoredge ....... M-1011 wr ................... M-358 lcgdl ................ M-617 ptwg ................. M-407 wrdsw ................ M-390 lcgidl ............... M-579 ptwgl ................ M-411 wrdswmin ............. M-384 lcgisl ............... M-597 ptwglexp ............. M-412 wrdw ................. M-378 lcgsl ................ M-613 ptwglexpr ............ M-418 wrdwmin .............. M-374 lcigbacc ............. M-523 ptwglr ............... M-417 wretacvd ............. M-925 lcigbinv ............. M-508 ptwgr ................ M-413 wretacvd1 ............ M-929 lcigc ................ M-535 ptwgt ................ M-770 wrsw ................. M-368 lcigd ................ M-553 ptwgtl ............... M-774 wrswmin .............. M-364 lcigs ................ M-544 pu0 .................. M-251 wsteta0edge ......... M-1029 lcit ................. M-181 pu0r ................. M-255 wstk2edge ........... M-1025 lcitedge ............. M-982 pua .................. M-266 wteta0edge .......... M-1013 lckappad ............. M-625 pua1 ................. M-744 wtgidl ............... M-795 lckappas ............. M-621 puar ................. M-270 wth0 ................. M-819 ldelta ............... M-226 puc .................. M-308 wtnfactoredge ....... M-1010 ldeltacv ............ M-1065 puc1 ................. M-749 wu0 .................. M-250 ldlcig ............... M-559 pucr ................. M-312 wu0r ................. M-254 ldlcigd .............. M-562 pucs ................. M-294 wua .................. M-265 ldvtp0 ............... M-115 pucsr ................ M-298 wua1 ................. M-743 ldvtp1 ............... M-119 pucste ............... M-758 wuar ................. M-269 ldvtp2 ............... M-123 pud .................. M-286 wuc .................. M-307 ldvtp3 ............... M-127 pud1 ................. M-753 wuc1 ................. M-748 ldvtp4 ............... M-131 pudr ................. M-290 wucr ................. M-311 ldvtp5 ............... M-135 pute ................. M-739 wucs ................. M-293 leff ................. OP-58 pvag ................. M-451 wucsr ................ M-297 leffcv ............... OP-60 pvfb .................. M-96 wucste ............... M-757 legidl ............... M-583 pvfbcv ............... M-100 wud .................. M-285 legisl ............... M-601 pvsat ................ M-214 wud1 ................. M-752 leigbinv ............. M-511 pvsatcv .............. M-234 wudr ................. M-289 leta0 ................ M-143 pvsatr ............... M-224 wute ................. M-738 leta0edge ............ M-991 pwr .................. M-361 wvfb .................. M-95 leta0r ............... M-147 pwr .................. OP-82 wvfbcv ................ M-99 letab ................ M-153 pxj ................... M-92 wvsat ................ M-213 letabedge ............ M-994 qb ................... OP-21 wvsatcv .............. M-233 leu .................. M-272 qbi ................... OP-1 wvsatr ............... M-223 leu1 ................ M-1143 qd ................... OP-23 ww .................... M-41 lfprout .............. M-458 qdi ................... OP-3 wwc ................... M-51 lh .................. M-1035 qg ................... OP-24 wwcacc .............. M-1163 ligt ................. M-790 qgi ................... OP-4 wwide ................. M-31 liit ................. M-786 qm0 .................. M-178 wwl ................... M-42 lint .................. M-33 qrnoid .............. M-1150 wwlc .................. M-52 lintnoi .............. M-721 qrnois .............. M-1146 wwlcacc ............. M-1164 lk0 .................. M-932 qs ................... OP-22 wwn ................... M-44 lk01 ................. M-936 qsi ................... OP-2 wwr .................. M-360 lk1 .................. M-163 rbdb .................. I-20 wxj ................... M-91 lk2 .................. M-173 rbdb ................. M-905 xgl .................. M-632 lk2edge ............. M-1016 rbdbx0 ............... M-708 xgw ................... I-17 lk2we ................ M-848 rbdby0 ............... M-709 xgw ................... M-26 lketa ............... M-1049 rbodymod ............... I-5 xj .................... M-89 lketacv ............. M-1061 rbodymod ............. M-881 xjbvd ................ M-667 lkt1 ................. M-778 rbpb .................. I-19 xjbvs ................ M-666 lkt1edge ............. M-997 rbpb ................. M-904 xl .................... M-30 lkt1expedge ......... M-1006 rbpbx0 ............... M-698 xrcrg1 ............... M-687 lkt1ledge ........... M-1000 rbpbxl ............... M-699 xrcrg2 ............... M-688 lkt2 ................. M-782 rbpbxnf .............. M-701 xtid ................. M-804 lkt2edge ............ M-1003 rbpbxw ............... M-700 xtis ................. M-803 lku0 ................. M-826 rbpby0 ............... M-702 xtsd ................. M-806 lku0we ............... M-852 rbpbyl ............... M-703 xtss ................. M-805 lkvth0 ............... M-832 rbpbynf .............. M-705 xtsswd ............... M-808 lkvth0edge .......... M-1020 rbpbyw ............... M-704 xtsswgd .............. M-810 lkvth0we ............. M-844 rbpd .................. I-23 xtsswgs .............. M-809 ll .................... M-34 rbpd ................. M-908 xtssws ............... M-807 llc ................... M-46 rbpd0 ................ M-694 xw .................... M-32 llcacc .............. M-1158 rbpdl ................ M-695