{Parameters for the new MOS models developed by Michael Godfrey} {Physical Constants} {Temperature} 32: Physical T 298 {Boltzmann's constant} 32: Physical k 1.380658e-23 {Charge on an electron} 32: Physical q 1.60217733e-19 {permittivity of vacuum f/m} 32: Physical e_v 8.854187817e-12 {permittivity of Si f/m} 32: Physical e_s 1.035939974589e-010 {permittivity of SiO2 f/m} 32: Physical e_ox 3.453133248630e-011 {silicon-oxide interface charge} 32: Physical phi_ms -0.3 {parameters for N model} {MOSIS Process Name: See MOSIS file scn12-hp-specs.inf} 32: DevTechN Process SCN12 {photolithography scaling factor -- identical for P and N} {Value for 1.2um process: appropriate for HP SCN12} 32: DevTechN lambda 0.6e-6 {oxide thickness} 32: DevTechN Tox 200e-10 {potential at neutral edge of depletion region} 32: DevTechN psi 0.6 {bulk doping concentration} 32: DevTechN Na 3.1060e+16 {carrier mobility} 32: DevTechN mu0 686.6 {Ldrawn-Leff} 32: DevTechN deltaL 0.33e-6 {Wdrawn-Weff} 32: DevTechN deltaW 0.49e-6 {drain-dependence Na factor} 32: DevTechN del_NaS 0 {Early effect slope parameter} 32: DevTechN Early_s 0.16 {Early effect intercept parameter} 32: DevTechN L_0 0.1e-6 {Run Specific Parameters} {The specific fab run name} 32: RunSpecN Fabrun N52V {fixed oxide charge} 32: RunSpecN Qss 0.00061 {Na multiplicative delta} 32: RunSpecN del_Na0 1 {mu multiplicative delta} 32: RunSpecN del_mu 1 {AC Parameters} {N+ active (source/drain area) Capacitance F/um^2 } {MOSIS CAPCITANCE TABLE Area (substrate) -- N+DIFF or SPICE CMOSN CJ } 32: DevTechN aCactive 262e-18 {Well-to-bulk Capacitance F/um^2 } {Since the n-channel transistor is in the substrate, this parameter } {is meaningless. We choose an insignificantly small value (not zero) to } {prevent numerical problems in the simulation engine } 32: DevTechN aCwell 1e-18 {Overlap capacitance between gate and source F/um } {SPICE CGDO or CGSO * 10-6} 32: DevTechN linCgs 3.9687e-16 {Gate capacitance -- used for AC parasitics only F/um^2} {The nonlinear C(V) function is upper-bounded by Cox, } {and close to CGBO in subthreshold, which we use below. } {Replace with COX for conservative delay estimates for digital designs. } 32: DevTechN aCgw 3.8241e-16 {Parameters for P model} {oxide thickness} 32: DevTechP Tox 200e-10 {potential at neutral edge of depletion region} 32: DevTechP psi 0.6 {bulk doping concentration} 32: DevTechP Na 2.692e16 {carrier mobility} 32: DevTechP mu0 205.0 {Wdrawn-Weff} 32: DevTechP deltaW 0.04e-6 {Ldrawn-Leff} 32: DevTechP deltaL 0.41e-6 {drain-dependence Na factor} 32: DevTechP del_NaS 0 {Early effect slope parameter} 32: DevTechP Early_s 0.16 {Early effect intercept parameter} 32: DevTechP L_0 0.1e-6 {Run Specific Parameters} {fixed oxide charge} 32: RunSpecP Qss 0.000126 {oxide thickness} 32: RunSpecP del_Na0 1 {oxide thickness} 32: RunSpecP del_mu 1 {AC Parameters} {P+ active (source/drain area) Capacitance F/um^2} {MOSIS CAPCITANCE TABLE Area (substrate) -- P+DIFF or SPICE CMOSP CJ } 32: DevTechP aCactive 470e-18 {Well-to-bulk Capacitance F/um^2} {Since the p-channel transistor is in the well, this parameter has } {meaning. This parameter is not specified by MOSIS, nor is it in the HP } {specs, so we have to make a guess. } {Here, we use half the P+DIFF capacitance as a (very loose) upper bound } 32: DevTechP aCwell 272e-18 {Overlap capacitance between gate and source F/um } {SPICE CGDO or CGSO * 10-6} 32: DevTechP linCgs 4.7888e-17 {Gate capacitance -- used for AC parasitics only F/um^2} {The nonlinear C(V) function is upper-bounded by Cox, } {and close to CGBO in subthreshold, which we use below. } {This gives conservative delay estimates, for digital purposes. } 32: DevTechP aCgw 3.5683e-16 {Individual Transistor Models} {Gate width of transistor, lambda} 32: Nfet7F Wdrawn 6 {Gate length of transistor, lambda} 32: Nfet7F Ldrawn 4 {Area of source region, m^2} 32: Nfet7F SArea 36e-6 {Area of drain region, m^2} 32: Nfet7F DArea 36e-6 {Area of well region, m^2} 32: Nfet7F WArea 100e-6 {offset in Na density, multiplicative unitless} 32: Nfet7F NaOffset 1.0 {offset in mobility, multiplicative unitless} 32: Nfet7F MuOffset 1.0 {offset in Qss, additive (C)} 32: Nfet7F QssOffset 0.0 {Gate width of transistor, lambda} 32: Nfet7T Wdrawn 6 {Gate length of transistor, lambda} 32: Nfet7T Ldrawn 4 {Area of source region, m^2} 32: Nfet7T SArea 36e-6 {Area of drain region, m^2} 32: Nfet7T DArea 36e-6 {Area of well region, m^2} 32: Nfet7T WArea 100e-6 {offset in Na density, multiplicative unitless} 32: Nfet7T NaOffset 1.0 {offset in Mu0 mobility, multiplicative unitless} 32: Nfet7T MuOffset 1.0 {offset in Qss, additive (C)} 32: Nfet7T QssOffset 0.0 {Gate width of transistor, lambda} 32: Pfet7F Wdrawn 6 {Gate length of transistor, lambda} 32: Pfet7F Ldrawn 4 {Area of source region, m^2} 32: Pfet7F SArea 36e-6 {Area of drain region, m^2} 32: Pfet7F DArea 36e-6 {Area of well region, m^2} 32: Pfet7F WArea 100e-6 {offset in Na density, multiplicative unitless} 32: Pfet7F NaOffset 1.0 {offset in mobility, multiplicative unitless} 32: Pfet7F MuOffset 1.0 {offset in Qss, additive (C)} 32: Pfet7F QssOffset 0.0 {Gate width of transistor, lambda} 32: Pfet7T Wdrawn 6 {Gate length of transistor, lambda} 32: Pfet7T Ldrawn 4 {Area of source region, m^2} 32: Pfet7T SArea 36e-6 {Area of drain region, m^2} 32: Pfet7T DArea 36e-6 {Area of well region, m^2} 32: Pfet7T WArea 100e-6 {offset in Na density, multiplicative unitless} 32: Pfet7T NaOffset 1.0 {offset in mobility, multiplicative unitless} 32: Pfet7T MuOffset 1.0 {offset in Qss, additive (C)} 32: Pfet7T QssOffset 0.0