SmartSpice Version 1.5.6.R Analog Circuit Simulator (C) 1987 - 1998 SILVACO International All Rights Reserved (408) 567-1000 Running on host : localhost.localdomain Interpreter license available Optimizer license available Verilog interface license available Loading /home/ryu/src/autochar/autochar-1.5.1/tech/tsmc35/include/ttlh.sp Loading /home/ryu/src/autochar/autochar-1.5.1/tech/tsmc35/lib/models.sp Loading ./nand2_2x.sp Loading /home/ryu/src/autochar/autochar-1.5.1/tech/tsmc35/lib/autochar.sp Loading /home/ryu/src/autochar/autochar-1.5.1/tech/tsmc35/lib/define.sp Loading /home/ryu/src/autochar/autochar-1.5.1/tech/tsmc35/lib/define.sp Loading /home/ryu/src/autochar/autochar-1.5.1/tech/tsmc35/lib/define.sp Loading /home/ryu/src/autochar/autochar-1.5.1/tech/tsmc35/lib/define.sp Circuit: * $Id$ Date: Wed Feb 10 23:29:54 1999 * $Id$ * DO NOT EDIT. This file generated automagically. * Created: Wed Feb 10 23:29:54 1999 * User: ryu * Char: Input Capacitance Characterization * Input: "in1" *--- SETUP --------------------------------------------------- .include '/home/ryu/src/autochar/autochar-1.5.1/tech/tsmc35/include/ttlh.sp' * $Id: ttlh,v 1.4 1999/01/19 08:15:10 ryu Exp ryu $ * Copyright (C) 1999 Robert K. Yu * email: robert@yu.org * This file is part of Autochar. * Autochar is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2, or (at your option) * any later version. * Autochar is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * You should have received a copy of the GNU General Public License * along with Autochar; see the file COPYING. If not, write to the * Free Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. * Sample hspice include file to read * in hspice models, library, and conditions. * ttlh := * t ypical N * t ypical P * l ow Vdd * h igh temperature .lib /home/ryu/src/autochar/autochar-1.5.1/tech/tsmc35/lib/define.sp defaults .param + trise = 200ps + tfall = 200ps + period = 6ns + pwidth = 3ns .options + scale = 1.0e-6 * end of: .lib /home/ryu/src/autochar/autochar-1.5.1/tech/tsmc35/lib/define.sp defaults .lib /home/ryu/src/autochar/autochar-1.5.1/tech/tsmc35/lib/define.sp low_voltage .param + vhigh = '3.3*0.9' + vlow = 0 + vmidpoint = '(vhigh+vlow)/2' * end of: .lib /home/ryu/src/autochar/autochar-1.5.1/tech/tsmc35/lib/define.sp low_voltage .lib /home/ryu/src/autochar/autochar-1.5.1/tech/tsmc35/lib/define.sp high_temp .temp 100 * end of: .lib /home/ryu/src/autochar/autochar-1.5.1/tech/tsmc35/lib/define.sp high_temp .lib /home/ryu/src/autochar/autochar-1.5.1/tech/tsmc35/lib/define.sp supplies VDD VDD 0 dc vhigh .global VDD * end of: .lib /home/ryu/src/autochar/autochar-1.5.1/tech/tsmc35/lib/define.sp supplies .include /home/ryu/src/autochar/autochar-1.5.1/tech/tsmc35/lib/models.sp * N88Y SPICE BSIM3 VERSION 3.1 (HSPICE Level 49) PARAMETERS * DATE: Oct 30/98 * LOT: n88y WAF: 11 * Temperature_parameters=Default .MODEL NCH NMOS ( LEVEL = 49 +VERSION = 3.1 TNOM = 27 TOX = 7.6E-9 +XJ = 1.5E-7 NCH = 1.7E17 VTH0 = 0.4964448 +K1 = 0.5307769 K2 = 0.0199705 K3 = 0.2963637 +K3B = 0.2012165 W0 = 2.836319E-6 NLX = 2.894802E-7 +DVT0W = 0 DVT1W = 5.3E6 DVT2W = -0.032 +DVT0 = 0.112017 DVT1 = 0.2453972 DVT2 = -0.171915 +U0 = 444.9381976 UA = 2.921284E-10 UB = 1.773281E-18 +UC = 7.067896E-11 VSAT = 1.130785E5 A0 = 1.1356246 +AGS = 0.2810374 B0 = 2.844393E-7 B1 = 5E-6 +KETA = -7.8181E-3 A1 = 0 A2 = 1 +RDSW = 925.2701982 PRWG = -1E-3 PRWB = -1E-3 +WR = 1 WINT = 7.186965E-8 LINT = 1.735515E-9 +XL = 0 XW = 0 DWG = -1.712973E-8 +DWB = 5.851691E-9 VOFF = -0.132935 NFACTOR = 0.5710974 +CIT = 0 CDSC = 8.607229E-4 CDSCD = 0 +CDSCB = 0 ETA0 = 2.128321E-3 ETAB = 0 +DSUB = 0.0257957 PCLM = 0.6766314 PDIBLC1 = 1 +PDIBLC2 = 1.787424E-3 PDIBLCB = 0 DROUT = 0.7873539 +PSCBE1 = 6.973485E9 PSCBE2 = 1.46235E-7 PVAG = 0.05 +DELTA = 0.01 MOBMOD = 1 PRT = 0 +UTE = -1.5 KT1 = -0.11 KT1L = 0 +KT2 = 0.022 UA1 = 4.31E-9 UB1 = -7.61E-18 +UC1 = -5.6E-11 AT = 3.3E4 WL = 0 +WLN = 1 WW = 0 WWN = 1 +WWL = 0 LL = 0 LLN = 1 +LW = 0 LWN = 1 LWL = 0 +CAPMOD = 2 CGDO = 1.96E-10 CGSO = 1.96E-10 +CGBO = 0 CJ = 9.276962E-4 PB = 0.8157962 +MJ = 0.3557696 CJSW = 3.181055E-10 PBSW = 0.6869149 +MJSW = 0.1 PVTH0 = -0.0252481 PRDSW = -96.4502805 +PK2 = -4.805372E-3 WKETA = -7.643187E-4 LKETA = -0.0129496 ) * .MODEL PCH PMOS ( LEVEL = 49 +VERSION = 3.1 TNOM = 27 TOX = 7.6E-9 +XJ = 1.5E-7 NCH = 1.7E17 VTH0 = -0.6636594 +K1 = 0.4564781 K2 = -0.019447 K3 = 39.382919 +K3B = -2.8930965 W0 = 2.655585E-6 NLX = 1.51028E-7 +DVT0W = 0 DVT1W = 5.3E6 DVT2W = -0.032 +DVT0 = 1.1744581 DVT1 = 0.7631128 DVT2 = -0.1035171 +U0 = 151.3305606 UA = 2.061211E-10 UB = 1.823477E-18 +UC = -8.97321E-12 VSAT = 9.915604E4 A0 = 1.1210053 +AGS = 0.3961954 B0 = 6.493139E-7 B1 = 4.273215E-6 +KETA = -9.27E-3 A1 = 0 A2 = 1 +RDSW = 2.30725E3 PRWG = -1E-3 PRWB = 0 +WR = 1 WINT = 5.962233E-8 LINT = 4.30928E-9 +XL = 0 XW = 0 DWG = -1.596201E-8 +DWB = 1.378919E-8 VOFF = -0.15 NFACTOR = 2 +CIT = 0 CDSC = 6.593084E-4 CDSCD = 0 +CDSCB = 0 ETA0 = 0.0286461 ETAB = 0 +DSUB = 0.2436027 PCLM = 4.3597508 PDIBLC1 = 7.447024E-4 +PDIBLC2 = 4.256073E-3 PDIBLCB = 0 DROUT = 0.0120292 +PSCBE1 = 1.347622E10 PSCBE2 = 5E-9 PVAG = 3.669793 +DELTA = 0.01 MOBMOD = 1 PRT = 0 +UTE = -1.5 KT1 = -0.11 KT1L = 0 +KT2 = 0.022 UA1 = 4.31E-9 UB1 = -7.61E-18 +UC1 = -5.6E-11 AT = 3.3E4 WL = 0 +WLN = 1 WW = 0 WWN = 1 +WWL = 0 LL = 0 LLN = 1 +LW = 0 LWN = 1 LWL = 0 +CAPMOD = 2 CGDO = 2.307E-10 CGSO = 2.307E-10 +CGBO = 0 CJ = 1.420282E-3 PB = 0.99 +MJ = 0.5490877 CJSW = 4.773605E-10 PBSW = 0.99 +MJSW = 0.1997417 PVTH0 = 6.58707E-3 PRDSW = -93.5582228 +PK2 = 1.011593E-3 WKETA = -0.0101398 LKETA = 6.027967E-3 ) * * end of: .include /home/ryu/src/autochar/autochar-1.5.1/tech/tsmc35/lib/models.sp * end of: .include '/home/ryu/src/autochar/autochar-1.5.1/tech/tsmc35/include/ttlh.sp' .include 'nand2_2x.sp' .subckt nand2_2x in0 in1 out * Begin port declarations * port input IN0 * port input IN1 * port output OUT * End port declarations mn0 out in0 n0 gnd nch w=10 l=0.35 mn1 n0 in1 gnd gnd nch w=10 l=0.35 mp2 out in0 vdd vdd pch w=10 l=0.35 mp3 out in1 vdd vdd pch w=10 l=0.35 c1 in0 gnd 10e-15 c2 in1 gnd 10e-15 c3 out gnd 20e-15 .ENDS * end of: .include 'nand2_2x.sp' .include /home/ryu/src/autochar/autochar-1.5.1/tech/tsmc35/lib/autochar.sp * $Id: autochar.sp,v 1.1 1999/01/19 09:04:21 ryu Exp $ * Copyright (C) 1999 Robert K. Yu * email: robert@yu.org * This file is part of Autochar. * Autochar is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2, or (at your option) * any later version. * Autochar is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * You should have received a copy of the GNU General Public License * along with Autochar; see the file COPYING. If not, write to the * Free Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. * Simple Inverter .subckt inverter in out + nl=0.6 + nw=5.0 + pl=0.6 + pw=10.0 mn0 out in 0 0 nch l=nl w=nw mp1 out in vdd vdd pch l=pl w=pw .ends * Simple Buffer .subckt buffer in out + nl=0.6 + nw=5.0 + pl=0.6 + pw=10.0 + taper=3 mn0 in1 in 0 0 nch l=nl w=nw mp1 in1 in vdd vdd pch l=pl w=pw mn2 out in1 0 0 nch l=nl w='taper*nw' mp3 out in1 vdd vdd pch l=pl w='taper*pw' .ends * Simple Buffer with Infinite drive .subckt ebuffer in out + nl=0.6 + nw=5.0 + pl=0.6 + pw=10.0 + taper=3 mn0 in1 in 0 0 nch l=nl w=nw mp1 in1 in vdd vdd pch l=pl w=pw mn2 in2 in1 0 0 nch l=nl w='taper*nw' mp3 in2 in1 vdd vdd pch l=pl w='taper*pw' * FO=3 Load xload1 in2 NC1 buffer M=3 * infinite drive ebuf out 0 in2 0 +1 .ends * Resistive "Buffer" .subckt resbuffer in out + R=1K rbuf in out R .ends * Short "buffer" .subckt shortbuf in out vshort in out 0 .ends * Infinite drive buffer with slew rate parameter using RC * Input must be an ideal pulse. * to control the edge. .subckt slewbuffer in out + rslew=1k + slew=slewrate $ default from global param slewrate + start=slew_start $ default from global param slew_start + end=slew_end $ default from global param slew_end .param cslew='abs(slew/(rslew*(log(start)-log(end))))' rbuf in out1 rslew cbuf out1 0 cslew * infinite drive ebuf out 0 out1 0 +1 .ends * end of: .include /home/ryu/src/autochar/autochar-1.5.1/tech/tsmc35/lib/autochar.sp .param ceq = '10fF' *--- INPUTS -------------------------------------------------- vin0 in0 0 pulse ( + '0' + 'vhigh' + '1ns' + 'trise' + 'tfall' + 'pwidth' + 'period') vin1 in1 0 pulse ( + '0' + 'vhigh' + '1ns' + 'trise' + 'tfall' + 'pwidth' + 'period') *--- TEST CIRCUIT -------------------------------------------- xbuf0 in0 input0 buffer xbuf1 in1 input1 buffer xdut0 + gnd $ in0:i + input0 $ in1:i + out_0 $ out:o + nand2_2x *--- LOADS --------------------------------------------------- ceff input1 0 ceq *--- MEASURE ------------------------------------------------- .option autostop .measure tran dut_r delay v(in0) val='vhigh/2' rise=1 + targ=v(input0) val='vhigh/2' rise=1 .measure tran dut_f delay v(in0) val='vhigh/2' fall=1 + targ=v(input0) val='vhigh/2' fall=1 .measure tran dut_delay param='(dut_r + dut_f)/2.0' .measure tran cap_r delay v(in1) val='vhigh/2' rise=1 + targ=v(input1) val='vhigh/2' rise=1 .measure tran cap_f delay v(in1) val='vhigh/2' fall=1 + targ=v(input1) val='vhigh/2' fall=1 .measure tran cap_delay param='(cap_r + cap_f)/2.0' .measure tran opterror param='abs(dut_delay - cap_delay)' *--- TRANSIENT ----------------------------------------------- .trans 5ps '2*period' .modif proff prtbl + optimize ceq=opt('1fF' '1pF' '10fF') + targets opterror=1e-15 + options avg=0.001 .end Subcircuit List index subcircuit name multiplier definition 1 xbuf0 1.00 buffer 2 xbuf1 1.00 buffer 3 xdut0 1.00 nand2_2x MODEL PARAMETERS INFORMATION TEMP = 1.0000e+02 MODEL PARAMETERS OF 'BSIM3v3' MODELS -------------------------------------------------------------------------------- Model Name: pch level = 4.9000e+01 kf = 0.0000e+00 af = 1.0000e+00 ef = 1.0000e+00 em = 4.1000e+07 noic = 1.4000e-12 noib = 2.4000e+03 noia = 9.9000e+18 tcv = 0.0000e+00 V/K templevc = 0.0000e+00 templev = 0.0000e+00 eg = 1.1600e+00 eV xti = 3.0000e+00 gap1 = 7.0200e-04 eV/K gap2 = 1.1080e+03 K tmjsw1 = 0.0000e+00 1/K**2 tmjsw2 = 0.0000e+00 1/K tvjsw = 0.0000e+00 1/K tcjsw = 0.0000e+00 1/K tvj = 0.0000e+00 1/K tcj = 0.0000e+00 1/K trd1 = 0.0000e+00 1/K trd2 = 0.0000e+00 1/K**2 trs1 = 0.0000e+00 1/K trs2 = 0.0000e+00 1/K**2 tmj1 = 0.0000e+00 1/K tmj2 = 0.0000e+00 1/K**2 jcap = 1.0000e+00 cbd = 0.0000e+00 F cbs = 0.0000e+00 F cjgate = 4.7736e-10 F/m fc = 5.0000e-01 is = 1.0000e-14 A jsw = 0.0000e+00 A/m n = 1.0000e+00 nds = 1.0000e+00 vnds = -1.0000e+00 V pbswg = 9.9000e-01 V mjswg = 1.9974e-01 cjswg = 4.7736e-10 F/m cjsw = 4.7736e-10 F/m cj = 1.4203e-03 F/m2 mjsw = 1.9974e-01 vjsw = 9.9000e-01 V mj = 5.4909e-01 vj = 9.9000e-01 V js = 0.0000e+00 A/m2 rdc = 0.0000e+00 Ohm rsc = 0.0000e+00 Ohm rd = 0.0000e+00 Ohm rs = 0.0000e+00 Ohm rsh = 0.0000e+00 hdif = 0.0000e+00 m ldif = 0.0000e+00 m acm = 0.0000e+00 geo = 0.0000e+00 meto = 0.0000e+00 m ld = 0.0000e+00 m wd = 0.0000e+00 m xl = 0.0000e+00 m xw = 0.0000e+00 m scalm = 1.0000e+00 lmlt = 1.0000e+00 wmlt = 1.0000e+00 tempmod = 1.0000e+00 smooth = 1.0000e+00 abulklim = 1.0000e-02 lamblim = 3.0000e-02 uefflim = 5.0000e-01 nlim = 1.0000e-02 alpha = 0.0000e+00 1/V walpha = 0.0000e+00 um/V palpha = 0.0000e+00 um**2/V lalpha = 0.0000e+00 um/V vcr = 0.0000e+00 V wvcr = 0.0000e+00 um*V pvcr = 0.0000e+00 um**2*V lvcr = 0.0000e+00 um*V alpha1 = 0.0000e+00 iirat = 0.0000e+00 beta0 = 3.0000e+01 alpha0 = 0.0000e+00 dlc = 4.3093e-09 dwc = 5.9622e-08 cle = 6.0000e-01 clc = 1.0000e-07 cf = 8.7541e-11 ckappa = 6.0000e-01 cgdl = 0.0000e+00 cgsl = 0.0000e+00 b1 = 4.2732e-06 b0 = 6.4931e-07 wmax = 1.0000e+00 wmin = 0.0000e+00 wwl = 0.0000e+00 wwn = 1.0000e+00 ww = 0.0000e+00 wln = 1.0000e+00 wl = 0.0000e+00 dwb = 1.3789e-08 dwg = -1.5962e-08 wint = 5.9622e-08 wr = 1.0000e+00 lmax = 1.0000e+00 lmin = 0.0000e+00 lwl = 0.0000e+00 lwn = 1.0000e+00 lw = 0.0000e+00 lln = 1.0000e+00 ll = 0.0000e+00 lint = 4.3093e-09 vfbcv = -1.0000e+00 pvag = 3.6698e+00 pscbe2 = 5.0000e-09 pscbe1 = 1.3476e+10 pdiblcb = 0.0000e+00 pdiblc2 = 4.2561e-03 pdiblc1 = 7.4470e-04 pclm = 4.3598e+00 etab = 0.0000e+00 eta0 = 2.8646e-02 prt = 0.0000e+00 prwb = 0.0000e+00 prwg = -1.0000e-03 rdsw = 2.3072e+03 rsh = 0.0000e+00 delta5 = 5.0000e-01 delta4 = 2.0000e-02 delta = 1.0000e-02 elm = 5.0000e+00 xpart = 0.0000e+00 cgbo = 0.0000e+00 cgdo = 2.3070e-10 cgso = 2.3070e-10 tnom = 2.7000e+01 voff = -1.5000e-01 ute = -1.5000e+00 u0 = 1.5133e+02 uc1 = -5.6000e-11 uc = -8.9732e-12 ub1 = -7.6100e-18 ub = 1.8235e-18 ua1 = 4.3100e-09 ua = 2.0612e-10 delvto = 0.0000e+00 vth0 = -6.6366e-01 dsub = 2.4360e-01 drout = 1.2029e-02 dvt2w = -3.2000e-02 dvt1w = 5.3000e+06 dvt0w = 0.0000e+00 dvt2 = -1.0352e-01 dvt1 = 7.6311e-01 dvt0 = 1.1745e+00 nlx = 1.5103e-07 w0 = 2.6556e-06 k3b = -2.8931e+00 k3 = 3.9383e+01 k2 = -1.9447e-02 kt2 = 2.2000e-02 kt1l = 0.0000e+00 kt1 = -1.1000e-01 k1 = 4.5648e-01 xt = 1.5500e-07 vbm = -3.0000e+00 vbx = 0.0000e+00 gamma2 = 0.0000e+00 gamma1 = 0.0000e+00 ngate = 0.0000e+00 nch = 1.7000e+17 nsub = 6.0000e+16 keta = -9.2700e-03 a2 = 1.0000e+00 a1 = 0.0000e+00 ags = 3.9620e-01 a0 = 1.1210e+00 at = 3.3000e+04 vsat = 9.9156e+04 xj = 1.5000e-07 nfactor = 2.0000e+00 cit = 0.0000e+00 cdscd = 0.0000e+00 cdscb = 0.0000e+00 cdsc = 6.5931e-04 ijth = 1.0000e-01 wwlc = 0.0000e+00 wwc = 0.0000e+00 wlc = 0.0000e+00 lwlc = 0.0000e+00 lwc = 0.0000e+00 llc = 0.0000e+00 voffcv = 0.0000e+00 noff = 1.0000e+00 moin = 1.5000e+01 acde = 1.0000e+00 tcjswg = 0.0000e+00 tpbswg = 0.0000e+00 vfb = -1.0000e+00 toxm = 7.6000e-09 cox = 4.5436e-03 F/m**2 tox = 7.6000e-09 binunit = 1.0000e+00 nlev = 0.0000e+00 noimod = 1.0000e+00 mobmod = 1.0000e+00 nqsmod = 0.0000e+00 bulk = 1 paramchk = 0.0000e+00 version = 3.1000e+00 intcap = 0.0000e+00 capmod = 2.0000e+00 Model Name: nch level = 4.9000e+01 kf = 0.0000e+00 af = 1.0000e+00 ef = 1.0000e+00 em = 4.1000e+07 noic = -1.4000e-12 noib = 5.0000e+04 noia = 1.0000e+20 tcv = 0.0000e+00 V/K templevc = 0.0000e+00 templev = 0.0000e+00 eg = 1.1600e+00 eV xti = 3.0000e+00 gap1 = 7.0200e-04 eV/K gap2 = 1.1080e+03 K tmjsw1 = 0.0000e+00 1/K**2 tmjsw2 = 0.0000e+00 1/K tvjsw = 0.0000e+00 1/K tcjsw = 0.0000e+00 1/K tvj = 0.0000e+00 1/K tcj = 0.0000e+00 1/K trd1 = 0.0000e+00 1/K trd2 = 0.0000e+00 1/K**2 trs1 = 0.0000e+00 1/K trs2 = 0.0000e+00 1/K**2 tmj1 = 0.0000e+00 1/K tmj2 = 0.0000e+00 1/K**2 jcap = 1.0000e+00 cbd = 0.0000e+00 F cbs = 0.0000e+00 F cjgate = 3.1811e-10 F/m fc = 5.0000e-01 is = 1.0000e-14 A jsw = 0.0000e+00 A/m n = 1.0000e+00 nds = 1.0000e+00 vnds = -1.0000e+00 V pbswg = 6.8691e-01 V mjswg = 1.0000e-01 cjswg = 3.1811e-10 F/m cjsw = 3.1811e-10 F/m cj = 9.2770e-04 F/m2 mjsw = 1.0000e-01 vjsw = 6.8691e-01 V mj = 3.5577e-01 vj = 8.1580e-01 V js = 0.0000e+00 A/m2 rdc = 0.0000e+00 Ohm rsc = 0.0000e+00 Ohm rd = 0.0000e+00 Ohm rs = 0.0000e+00 Ohm rsh = 0.0000e+00 hdif = 0.0000e+00 m ldif = 0.0000e+00 m acm = 0.0000e+00 geo = 0.0000e+00 meto = 0.0000e+00 m ld = 0.0000e+00 m wd = 0.0000e+00 m xl = 0.0000e+00 m xw = 0.0000e+00 m scalm = 1.0000e+00 lmlt = 1.0000e+00 wmlt = 1.0000e+00 tempmod = 1.0000e+00 smooth = 1.0000e+00 abulklim = 1.0000e-02 lamblim = 3.0000e-02 uefflim = 5.0000e-01 nlim = 1.0000e-02 alpha = 0.0000e+00 1/V walpha = 0.0000e+00 um/V palpha = 0.0000e+00 um**2/V lalpha = 0.0000e+00 um/V vcr = 0.0000e+00 V wvcr = 0.0000e+00 um*V pvcr = 0.0000e+00 um**2*V lvcr = 0.0000e+00 um*V alpha1 = 0.0000e+00 iirat = 0.0000e+00 beta0 = 3.0000e+01 alpha0 = 0.0000e+00 dlc = 1.7355e-09 dwc = 7.1870e-08 cle = 6.0000e-01 clc = 1.0000e-07 cf = 8.7541e-11 ckappa = 6.0000e-01 cgdl = 0.0000e+00 cgsl = 0.0000e+00 b1 = 5.0000e-06 b0 = 2.8444e-07 wmax = 1.0000e+00 wmin = 0.0000e+00 wwl = 0.0000e+00 wwn = 1.0000e+00 ww = 0.0000e+00 wln = 1.0000e+00 wl = 0.0000e+00 dwb = 5.8517e-09 dwg = -1.7130e-08 wint = 7.1870e-08 wr = 1.0000e+00 lmax = 1.0000e+00 lmin = 0.0000e+00 lwl = 0.0000e+00 lwn = 1.0000e+00 lw = 0.0000e+00 lln = 1.0000e+00 ll = 0.0000e+00 lint = 1.7355e-09 vfbcv = -1.0000e+00 pvag = 5.0000e-02 pscbe2 = 1.4623e-07 pscbe1 = 6.9735e+09 pdiblcb = 0.0000e+00 pdiblc2 = 1.7874e-03 pdiblc1 = 1.0000e+00 pclm = 6.7663e-01 etab = 0.0000e+00 eta0 = 2.1283e-03 prt = 0.0000e+00 prwb = -1.0000e-03 prwg = -1.0000e-03 rdsw = 9.2527e+02 rsh = 0.0000e+00 delta5 = 5.0000e-01 delta4 = 2.0000e-02 delta = 1.0000e-02 elm = 5.0000e+00 xpart = 0.0000e+00 cgbo = 0.0000e+00 cgdo = 1.9600e-10 cgso = 1.9600e-10 tnom = 2.7000e+01 voff = -1.3293e-01 ute = -1.5000e+00 u0 = 4.4494e+02 uc1 = -5.6000e-11 uc = 7.0679e-11 ub1 = -7.6100e-18 ub = 1.7733e-18 ua1 = 4.3100e-09 ua = 2.9213e-10 delvto = 0.0000e+00 vth0 = 4.9644e-01 dsub = 2.5796e-02 drout = 7.8735e-01 dvt2w = -3.2000e-02 dvt1w = 5.3000e+06 dvt0w = 0.0000e+00 dvt2 = -1.7191e-01 dvt1 = 2.4540e-01 dvt0 = 1.1202e-01 nlx = 2.8948e-07 w0 = 2.8363e-06 k3b = 2.0122e-01 k3 = 2.9636e-01 k2 = 1.9970e-02 kt2 = 2.2000e-02 kt1l = 0.0000e+00 kt1 = -1.1000e-01 k1 = 5.3078e-01 xt = 1.5500e-07 vbm = -3.0000e+00 vbx = 0.0000e+00 gamma2 = 0.0000e+00 gamma1 = 0.0000e+00 ngate = 0.0000e+00 nch = 1.7000e+17 nsub = 6.0000e+16 keta = -7.8181e-03 a2 = 1.0000e+00 a1 = 0.0000e+00 ags = 2.8104e-01 a0 = 1.1356e+00 at = 3.3000e+04 vsat = 1.1308e+05 xj = 1.5000e-07 nfactor = 5.7110e-01 cit = 0.0000e+00 cdscd = 0.0000e+00 cdscb = 0.0000e+00 cdsc = 8.6072e-04 ijth = 1.0000e-01 wwlc = 0.0000e+00 wwc = 0.0000e+00 wlc = 0.0000e+00 lwlc = 0.0000e+00 lwc = 0.0000e+00 llc = 0.0000e+00 voffcv = 0.0000e+00 noff = 1.0000e+00 moin = 1.5000e+01 acde = 1.0000e+00 tcjswg = 0.0000e+00 tpbswg = 0.0000e+00 vfb = -1.0000e+00 toxm = 7.6000e-09 cox = 4.5436e-03 F/m**2 tox = 7.6000e-09 binunit = 1.0000e+00 nlev = 0.0000e+00 noimod = 1.0000e+00 mobmod = 1.0000e+00 nqsmod = 0.0000e+00 bulk = 0 paramchk = 0.0000e+00 version = 3.1000e+00 intcap = 0.0000e+00 capmod = 2.0000e+00 MODEL PARAMETERS OF 'Capacitor' MODELS -------------------------------------------------------------------------------- Model Name: __cdefault scale = 1.0000e+00 tnom = 2.7000e+01 narrow = 0.0000e+00 w = 0.0000e+00 m cmlt = 1.0000e+00 thick = 0.0000e+00 m shrink = 1.0000e+00 l = 0.0000e+00 m di = 0.0000e+00 del = 0.0000e+00 m cox = 0.0000e+00 F/m/m cap = 0.0000e+00 c = given defw = 1.0000e-05 capsw = 0.0000e+00 cj = 0.0000e+00 vc2 = 0.0000e+00 vc1 = 0.0000e+00 tc2 = 0.0000e+00 tc1 = 0.0000e+00 RESULTS OF OPTIMIZATION PARAMETERS name final value init. value -------------------- ------------ ------------ ceq = 4.72296e-14 1.00000e-14 TARGETS name final value init. value -------------------- ------------ ------------ opterror = 1.38138e-15 3.92627e-11 OPTIMIZATION STATISTICS Number of iterations = 15 Number of func evals = 19 Number of Jac evals = 3 Residual sum of squares = 3.298e-02 Norm of the gradient = 2.803e+03 Marquard parameter = 4.096e+02 RMS relative error = 3.814e-01 Average relative error = 3.814e-01 Maximum relative error = 3.814e-01 Termination code = 10 : NUM_ITER criterion TABLE OF RESULTS FOR SET #1 PARAMETERS and MEASUREMENTS ceq dut_r dut_f dut_delay cap_r ------------ ------------ ------------ ------------ ------------ 1 1.0000e-14 3.3333e-10 3.9528e-10 3.6431e-10 2.9417e-10 2 1.0316e-14 3.3333e-10 3.9528e-10 3.6431e-10 2.9459e-10 3 3.9895e-14 3.3333e-10 3.9528e-10 3.6430e-10 3.2627e-10 4 4.6121e-14 3.3333e-10 3.9528e-10 3.6430e-10 3.3196e-10 5 4.6152e-14 3.3333e-10 3.9528e-10 3.6430e-10 3.3199e-10 6 4.7211e-14 3.3333e-10 3.9528e-10 3.6430e-10 3.3295e-10 7 4.7230e-14 3.3333e-10 3.9528e-10 3.6430e-10 3.3296e-10 8 4.7249e-14 3.3333e-10 3.9528e-10 3.6430e-10 3.3298e-10 9 4.7230e-14 3.3333e-10 3.9528e-10 3.6430e-10 3.3296e-10 10 4.7230e-14 3.3333e-10 3.9528e-10 3.6430e-10 3.3296e-10 11 4.7230e-14 3.3333e-10 3.9528e-10 3.6430e-10 3.3296e-10 12 4.7230e-14 3.3333e-10 3.9528e-10 3.6430e-10 3.3296e-10 13 4.7230e-14 3.3333e-10 3.9528e-10 3.6430e-10 3.3296e-10 14 4.7230e-14 3.3333e-10 3.9528e-10 3.6430e-10 3.3296e-10 15 4.7230e-14 3.3333e-10 3.9528e-10 3.6430e-10 3.3296e-10 16 4.7230e-14 3.3333e-10 3.9528e-10 3.6430e-10 3.3296e-10 17 4.7230e-14 3.3333e-10 3.9528e-10 3.6430e-10 3.3296e-10 18 4.7230e-14 3.3333e-10 3.9528e-10 3.6430e-10 3.3296e-10 19 4.7230e-14 3.3333e-10 3.9528e-10 3.6430e-10 3.3296e-10 cap_f cap_delay opterror ------------ ------------ ------------ 1 3.5591e-10 3.2504e-10 3.9263e-11 2 3.5632e-10 3.2546e-10 3.8847e-11 3 3.8880e-10 3.5754e-10 6.7679e-12 4 3.9464e-10 3.6330e-10 1.0028e-12 5 3.9467e-10 3.6333e-10 9.7374e-13 6 3.9563e-10 3.6429e-10 1.8457e-14 7 3.9564e-10 3.6430e-10 1.1816e-15 8 3.9566e-10 3.6432e-10 1.6093e-14 9 3.9564e-10 3.6430e-10 1.3920e-15 10 3.9564e-10 3.6430e-10 1.3920e-15 11 3.9564e-10 3.6430e-10 1.3920e-15 12 3.9564e-10 3.6430e-10 1.3920e-15 13 3.9564e-10 3.6430e-10 1.3920e-15 14 3.9564e-10 3.6430e-10 1.3920e-15 15 3.9564e-10 3.6430e-10 1.3919e-15 16 3.9564e-10 3.6430e-10 1.3918e-15 17 3.9564e-10 3.6430e-10 1.3913e-15 18 3.9564e-10 3.6430e-10 1.3892e-15 19 3.9564e-10 3.6430e-10 1.3814e-15 Total user time : 6.300 seconds. Total system time: 0.220 seconds. Current data size = 737280, Data limits: hard = 2147483647, soft = 2147483647 Circuit: * $Id$ File: nand2_2x.in1.ic_1.sp Date: Wed Feb 10 23:30:02 1999 SmartSpice started on Wed Feb 10 23:29:54 1999 SmartSpice finished on Wed Feb 10 23:30:02 1999