cla_4
.MODEL n NMOS LEVEL=2 LD=0.240703U TOX=407.000000E-10
+ NSUB=3.133604E+15 VTO=0.711043 KP=4.879000E-05 GAMMA=0.3801
+ PHI=0.6 UO=575.027 UEXP=0.129885 UCRIT=24726.9
+ DELTA=0.82016 VMAX=63588.7 XJ=0.250000U LAMBDA=2.474695E-02
+ NFS=6.455307E+12 NEFF=1 NSS=1.000000E+10 TPG=1.000000
+ RSH=29.040000 CGDO=3.063325E-10 CGSO=3.063325E-10 CGBO=5.135289E-10
+ CJ=1.130300E-04 MJ=0.699680 CJSW=5.235300E-10 MJSW=0.263078 PB=0.800000
* Weff = Wdrawn - Delta_W
* The suggested Delta_W is -0.60 um
.MODEL p PMOS LEVEL=2 LD=0.250000U TOX=407.000000E-10
+ NSUB=6.222000E+15 VTO=-0.80612 KP=2.113000E-05 GAMMA=0.5357
+ PHI=0.6 UO=249.519 UEXP=0.226251 UCRIT=18368.3
+ DELTA=1.75689 VMAX=40684.7 XJ=0.250000U LAMBDA=5.307119E-02
+ NFS=3.574015E+11 NEFF=1.001 NSS=1.000000E+10 TPG=-1.000000
+ RSH=87.160000 CGDO=3.181644E-10 CGSO=3.181644E-10 CGBO=6.682147E-10
+ CJ=2.493100E-04 MJ=0.551790 CJSW=2.815500E-10 MJSW=0.311229 PB=0.800000
* Weff = Wdrawn - Delta_W
* The suggested Delta_W is 0.04 um

* Nodes 4-5 correspond to s3 (see drain at 203,24)
* Nodes 6-7 correspond to xor_2.2_4/nor_2_1/6_92_38# (see drain at 197,24)
* Nodes 8-9 correspond to xor_2.2_4/inv_0/z (see gate at 203,14)
* Nodes 10-11 correspond to xor_2.2_4/inv_0/a (see gate at 167,14)
* Nodes 12-13 correspond to xor_2.2_4/nand_2_0/6_14_20# (see drain at 149,14)
* Nodes 14-15 correspond to c2 (see gate at 149,14)
* Nodes 16-17 correspond to nand_4_3/6_46_20# (see drain at 151,126)
* Nodes 18-19 correspond to nand_4_3/6_30_20# (see drain at 145,126)
* Nodes 20-21 correspond to nand_4_3/6_14_20# (see drain at 139,126)
* Nodes 22-23 correspond to nand_4_3/a (see gate at 139,126)
* Nodes 24-25 correspond to nand_4_0/6_14_20# (see drain at 70,70)
* Nodes 26-27 correspond to nand_4_0/6_30_20# (see drain at 76,70)
* Nodes 28-29 correspond to nand_4_0/6_46_20# (see drain at 82,70)
* Nodes 30-31 correspond to P1 (see gate at 111,182)
* Nodes 32-33 correspond to xor_2.2_0[2]/nor_2_1/6_92_38# (see drain at 52,136)
* Nodes 34-35 correspond to G1 (see gate at 58,126)
* Nodes 36-37 correspond to -G1 (see gate at 22,126)
* Nodes 38-39 correspond to xor_2.2_0[2]/nand_2_0/6_14_20# (see drain at 4,126)
* Nodes 40-41 correspond to a1 (see gate at 4,126)

C1 27 0 0.022pf
C2 37 0 0.165pf
C3 15 0 0.232pf
C4 9 0 0.081pf
C5 23 0 0.143pf
C6 19 0 0.022pf
C7 35 0 0.215pf
C8 25 0 0.022pf
C9 7 0 0.045pf
C10 13 0 0.022pf
C11 11 0 0.080pf
C12 29 0 0.022pf
C13 5 0 0.067pf
C14 21 0 0.022pf
C15 39 0 0.022pf
C16 33 0 0.045pf
C17 31 0 0.466pf
C18 17 0 0.022pf
M1 7 0 1 1 p l=3.0u w=12.0u
M2 5 9 7 1 p l=3.0u w=12.0u
M3 0 9 5 0 n l=3.0u w=6.0u
M4 9 11 0 0 n l=3.0u w=6.0u
M5 9 11 1 1 p l=3.0u w=12.0u
M6 11 15 1 1 p l=3.0u w=12.0u
M7 13 15 0 0 n l=3.0u w=6.0u
M8 11 1 13 0 n l=3.0u w=6.0u
M9 15 1 17 0 n l=3.0u w=6.0u
M10 17 1 19 0 n l=3.0u w=6.0u
M11 19 1 21 0 n l=3.0u w=6.0u
M12 21 23 0 0 n l=3.0u w=6.0u
M13 15 23 1 1 p l=3.0u w=12.0u
M14 23 31 1 1 p l=3.0u w=12.0u
M15 25 1 0 0 n l=3.0u w=6.0u
M16 27 1 25 0 n l=3.0u w=6.0u
M17 29 31 27 0 n l=3.0u w=6.0u
M18 23 1 29 0 n l=3.0u w=6.0u
M19 0 35 31 0 n l=3.0u w=6.0u
M20 33 0 1 1 p l=3.0u w=12.0u
M21 31 35 33 1 p l=3.0u w=12.0u
M22 35 37 1 1 p l=3.0u w=12.0u
M23 35 37 0 0 n l=3.0u w=6.0u
M24 37 1 39 0 n l=3.0u w=6.0u
M25 39 41 0 0 n l=3.0u w=6.0u
M26 37 41 1 1 p l=3.0u w=12.0u

* Initial conditions:
.ic v(27)=0.000000
.ic v(37)=5.000000
.ic v(15)=5.000000
.ic v(9)=5.000000
.ic v(23)=0.000000
.ic v(19)=5.000000
.ic v(35)=0.000000
.ic v(25)=0.000000
.ic v(7)=5.000000
.ic v(13)=0.000000
.ic v(11)=0.000000
.ic v(29)=0.000000
.ic v(5)=0.000000
.ic v(21)=5.000000
.ic v(39)=5.000000
.ic v(33)=5.000000
.ic v(31)=5.000000
.ic v(17)=5.000000

vdd 1 0 5.0
vin 41 0 pulse(0 5 0ns 0ns 0ns)
.tran 0.50ns 100ns
.plot tran V(5) (0,5)
.end