Modified the UGetCursor() routine to return a valid response if the

[xcircuit.git] / spiceparser / test.lib

** and2m05p.lpe extracted by xCalibre v9.1_1.1 **

** Version: $LSILogic: and2m05p.iclib2,v 9.0.1.6 2002/07/18 14:38:53 rchiang Exp $

.SUBCKT AND2M05P Z A B VDD VSS 

* devices:
m0 8 11 7 VDD pm_hp l=0.118744u w=0.926776u ad=0.156347p as=0.697362p
+ pd=0.348111u ps=3.88u
m1 9 12 8 VDD pm_hp l=0.118237u w=0.910208u ad=0.35608p as=0.153552p pd=1.43203u
+ ps=0.341888u
m2 10 13 9 VDD pm_hp l=0.117864u w=1.02521u ad=0.331912p as=0.401069p pd=1.685u
+ ps=1.61296u
m3 3 11 2 VSS nm_hp l=0.115u w=0.595u ad=0.0820299p as=0.23205p pd=0.275106u
+ ps=1.375u
m4 4 12 3 VSS nm_hp l=0.119905u w=0.605355u ad=0.292388p as=0.0834575p
+ pd=1.40001u ps=0.279894u
m5 5 13 4 VSS nm_hp l=0.120619u w=0.670208u ad=0.223637p as=0.323712p pd=1.33u
+ ps=1.54999u

* resistors:
r6 37 2 40 $[mnc]
r7 VSS 4 40 $[mnc]
r8 VSS 4 40 $[mnc]
r9 Z 5 40 $[mnc]
r10 VDD 7 40 $[mpc]
r11 VDD 7 40 $[mpc]
r12 37 8 40 $[mpc]
r13 VDD 9 40 $[mpc]
r14 VDD 9 40 $[mpc]
r15 Z 10 40 $[mpc]
r16 A 11 14 $[mpolyc]
r17 B 12 14 $[mpolyc]
r18 37 13 14 $[mpolyc]

* lumped capacitances:
cp1 VDD VSS 0.351161f
cp2 2 VSS 0.0283066f
cp3 4 VSS 0.0523448f
cp4 5 VSS 0.0320563f
cp5 7 VSS 0.0721056f
cp6 8 VSS 0.0290149f
cp7 9 VSS 0.0753449f
cp8 10 VSS 0.0239399f
cp9 11 VSS 0.376099f
cp10 12 VSS 0.458626f
cp11 13 VSS 0.339844f
cp12 37 VSS 0.428433f
cp13 A VSS 0.144954f
cp14 B VSS 0.118711f
cp15 Z VSS 0.196733f

.ENDS


** and2m10p.lpe extracted by xCalibre v9.1_1.1 **

** Version: $LSILogic: and2m10p.iclib2,v 9.0.1.5 2002/06/20 18:41:49 kensz Exp $

.SUBCKT AND2M10P Z A B VDD VSS 

* devices:
m0 21 37 20 VDD pm_hp l=0.116519u w=1.95228u ad=0.332862p as=0.701075p pd=0.385u
+ ps=2.615u
m1 22 37 21 VDD pm_hp l=0.116519u w=1.95228u ad=0.399462p as=0.332862p pd=0.385u
+ ps=0.385u
m2 23 37 22 VDD pm_hp l=0.116519u w=1.95228u ad=0.332862p as=0.399462p pd=0.385u
+ ps=0.385u
m3 24 37 23 VDD pm_hp l=0.116519u w=1.95228u ad=0.399462p as=0.332862p pd=0.385u
+ ps=0.385u
m4 25 37 24 VDD pm_hp l=0.116519u w=1.95228u ad=0.332862p as=0.399462p pd=0.385u
+ ps=0.385u
m5 26 37 25 VDD pm_hp l=0.116519u w=1.95228u ad=0.399462p as=0.332862p pd=0.385u
+ ps=0.385u
m6 27 37 26 VDD pm_hp l=0.116519u w=1.95228u ad=0.332862p as=0.399462p pd=0.385u
+ ps=0.385u
m7 28 37 27 VDD pm_hp l=0.116519u w=1.95228u ad=0.399462p as=0.332862p pd=0.385u
+ ps=0.385u
m8 29 37 28 VDD pm_hp l=0.116519u w=1.95228u ad=0.332862p as=0.399462p pd=0.385u
+ ps=0.385u
m9 30 37 29 VDD pm_hp l=0.116519u w=1.95228u ad=0.399462p as=0.332862p pd=0.385u
+ ps=0.385u
m10 31 38 30 VDD pm_hp l=0.116519u w=1.95228u ad=0.332862p as=0.399462p
+ pd=0.385u ps=0.385u
m11 32 39 31 VDD pm_hp l=0.116519u w=1.95228u ad=0.399462p as=0.332862p
+ pd=0.385u ps=0.385u
m12 33 39 32 VDD pm_hp l=0.116519u w=1.95228u ad=0.332862p as=0.399462p
+ pd=0.385u ps=0.385u
m13 34 40 33 VDD pm_hp l=0.116519u w=1.95228u ad=0.399462p as=0.332862p
+ pd=0.385u ps=0.385u
m14 35 40 34 VDD pm_hp l=0.116519u w=1.95228u ad=0.428612p as=0.399462p
+ pd=0.485u ps=0.385u
m15 36 41 35 VDD pm_hp l=0.116519u w=1.95228u ad=0.6915p as=0.428612p pd=2.605u
+ ps=0.485u
m16 3 37 2 VSS nm_hp l=0.117852u w=1.29021u ad=0.215075p as=0.454812p pd=0.38u
+ ps=1.95u
m17 4 37 3 VSS nm_hp l=0.117852u w=1.29021u ad=0.247737p as=0.215075p pd=0.365u
+ ps=0.38u
m18 5 37 4 VSS nm_hp l=0.117852u w=1.29021u ad=0.215075p as=0.247737p pd=0.38u
+ ps=0.365u
m19 6 37 5 VSS nm_hp l=0.117852u w=1.29021u ad=0.25715p as=0.215075p pd=0.38u
+ ps=0.38u
m20 7 37 6 VSS nm_hp l=0.117852u w=1.29021u ad=0.216727p as=0.25715p
+ pd=0.384383u ps=0.38u
m21 8 37 7 VSS nm_hp l=0.117943u w=1.29435u ad=0.261568p as=0.217423p
+ pd=0.385617u ps=0.385617u
m22 9 37 8 VSS nm_hp l=0.117852u w=1.29021u ad=0.216727p as=0.260731p
+ pd=0.384383u ps=0.384383u
m23 10 37 9 VSS nm_hp l=0.117943u w=1.29435u ad=0.261568p as=0.217423p
+ pd=0.385617u ps=0.385617u
m24 11 37 10 VSS nm_hp l=0.117852u w=1.29021u ad=0.222814p as=0.260731p
+ pd=0.345562u ps=0.384383u
m25 12 37 11 VSS nm_hp l=0.118569u w=1.32334u ad=0.348887p as=0.228536p
+ pd=0.832275u ps=0.354437u
m26 13 38 12 VSS nm_hp l=0.117829u w=1.30021u ad=0.2613p as=0.342787p pd=0.44u
+ ps=0.817724u
m27 14 39 13 VSS nm_hp l=0.117829u w=1.30021u ad=0.252675p as=0.2613p pd=0.38u
+ ps=0.44u
m28 15 39 14 VSS nm_hp l=0.117829u w=1.30021u ad=0.238725p as=0.252675p
+ pd=0.365u ps=0.38u
m29 16 40 15 VSS nm_hp l=0.117829u w=1.30021u ad=0.299337p as=0.238725p pd=0.78u
+ ps=0.365u
m30 17 40 16 VSS nm_hp l=0.117829u w=1.30021u ad=0.235325p as=0.299337p
+ pd=0.365u ps=0.78u
m31 18 41 17 VSS nm_hp l=0.117829u w=1.30021u ad=0.458712p as=0.235325p pd=1.96u
+ ps=0.365u

* resistors:
r32 VSS 2 40 $[mnc]
r33 VSS 2 40 $[mnc]
r34 Z 3 40 $[mnc]
r35 VSS 4 40 $[mnc]
r36 VSS 4 40 $[mnc]
r37 Z 5 40 $[mnc]
r38 VSS 6 40 $[mnc]
r39 VSS 6 40 $[mnc]
r40 Z 7 40 $[mnc]
r41 VSS 8 40 $[mnc]
r42 VSS 8 40 $[mnc]
r43 Z 9 40 $[mnc]
r44 VSS 10 40 $[mnc]
r45 VSS 10 40 $[mnc]
r46 Z 11 40 $[mnc]
r47 VSS 12 40 $[mnc]
r48 VSS 12 40 $[mnc]
r49 141 13 40 $[mnc]
r50 139 14 40 $[mnc]
r51 141 15 40 $[mnc]
r52 VSS 16 40 $[mnc]
r53 141 17 40 $[mnc]
r54 139 18 40 $[mnc]
r55 VDD 20 40 $[mpc]
r56 VDD 20 40 $[mpc]
r57 Z 21 40 $[mpc]
r58 VDD 22 40 $[mpc]
r59 VDD 22 40 $[mpc]
r60 Z 23 40 $[mpc]
r61 VDD 24 40 $[mpc]
r62 VDD 24 40 $[mpc]
r63 Z 25 40 $[mpc]
r64 VDD 26 40 $[mpc]
r65 VDD 26 40 $[mpc]
r66 Z 27 40 $[mpc]
r67 VDD 28 40 $[mpc]
r68 VDD 28 40 $[mpc]
r69 Z 29 40 $[mpc]
r70 VDD 30 40 $[mpc]
r71 VDD 30 40 $[mpc]
r72 139 31 40 $[mpc]
r73 VDD 32 40 $[mpc]
r74 VDD 32 40 $[mpc]
r75 139 33 40 $[mpc]
r76 VDD 34 40 $[mpc]
r77 VDD 34 40 $[mpc]
r78 139 35 40 $[mpc]
r79 VDD 36 40 $[mpc]
r80 VDD 36 40 $[mpc]
r81 139 37 14 $[mpolyc]
r82 B 38 14 $[mpolyc]
r83 A 39 14 $[mpolyc]
r84 B 40 14 $[mpolyc]
r85 A 41 14 $[mpolyc]

* lumped capacitances:
cp1 VDD VSS 1.77416f
cp2 2 VSS 0.0669776f
cp3 3 VSS 0.0367983f
cp4 4 VSS 0.0685088f
cp5 5 VSS 0.0372035f
cp6 6 VSS 0.0698596f
cp7 7 VSS 0.0380034f
cp8 8 VSS 0.070147f
cp9 9 VSS 0.037995f
cp10 10 VSS 0.072258f
cp11 11 VSS 0.0301182f
cp12 12 VSS 0.101874f
cp13 13 VSS 0.0581621f
cp14 14 VSS 0.0391833f
cp15 15 VSS 0.0401044f
cp16 16 VSS 0.0518607f
cp17 17 VSS 0.0549393f
cp18 18 VSS 0.0303713f
cp19 20 VSS 0.0670358f
cp20 21 VSS 0.0390511f
cp21 22 VSS 0.0753915f
cp22 23 VSS 0.0398222f
cp23 24 VSS 0.0756207f
cp24 25 VSS 0.0611674f
cp25 26 VSS 0.0756207f
cp26 27 VSS 0.0398222f
cp27 28 VSS 0.0756207f
cp28 29 VSS 0.0312145f
cp29 30 VSS 0.0876255f
cp30 31 VSS 0.0363787f
cp31 32 VSS 0.0727265f
cp32 33 VSS 0.0318193f
cp33 34 VSS 0.0711524f
cp34 35 VSS 0.0436748f
cp35 36 VSS 0.0714809f
cp36 37 VSS 2.18688f
cp37 38 VSS 0.58226f
cp38 39 VSS 0.844982f
cp39 40 VSS 0.840807f
cp40 41 VSS 0.41454f
cp41 Z VSS 1.11933f
cp42 139 VSS 1.22948f
cp43 B VSS 0.425553f
cp44 141 VSS 0.400358f
cp45 A VSS 0.382799f

.ENDS


** and2m12p.lpe extracted by xCalibre v9.1_1.1 **

** Version: $LSILogic: and2m12p.iclib2,v 9.0.1.5 2002/06/25 06:56:51 tvarga Exp $

.SUBCKT AND2M12P Z A B VDD VSS 

* devices:
m0 23 41 22 VDD pm_hp l=0.116656u w=1.75521u ad=0.284512p as=0.635312p pd=0.38u
+ ps=2.415u
m1 24 41 23 VDD pm_hp l=0.116656u w=1.75521u ad=0.351512p as=0.284512p pd=0.365u
+ ps=0.38u
m2 25 41 24 VDD pm_hp l=0.116656u w=1.75521u ad=0.284512p as=0.351512p pd=0.38u
+ ps=0.365u
m3 26 41 25 VDD pm_hp l=0.116656u w=1.75521u ad=0.351512p as=0.284512p pd=0.365u
+ ps=0.38u
m4 27 41 26 VDD pm_hp l=0.116656u w=1.75521u ad=0.284512p as=0.351512p pd=0.38u
+ ps=0.365u
m5 28 41 27 VDD pm_hp l=0.116656u w=1.75521u ad=0.351512p as=0.284512p pd=0.365u
+ ps=0.38u
m6 29 41 28 VDD pm_hp l=0.116656u w=1.75521u ad=0.284512p as=0.351512p pd=0.38u
+ ps=0.365u
m7 30 41 29 VDD pm_hp l=0.116656u w=1.75521u ad=0.351512p as=0.284512p pd=0.365u
+ ps=0.38u
m8 31 41 30 VDD pm_hp l=0.116656u w=1.75521u ad=0.284512p as=0.351512p pd=0.38u
+ ps=0.365u
m9 32 41 31 VDD pm_hp l=0.116656u w=1.75521u ad=0.351512p as=0.284512p pd=0.365u
+ ps=0.38u
m10 33 41 32 VDD pm_hp l=0.116656u w=1.75521u ad=0.284512p as=0.351512p pd=0.38u
+ ps=0.365u
m11 34 41 33 VDD pm_hp l=0.116656u w=1.75521u ad=0.428912p as=0.284512p
+ pd=0.455u ps=0.38u
m12 35 42 34 VDD pm_hp l=0.116656u w=1.75521u ad=0.284512p as=0.428912p pd=0.38u
+ ps=0.455u
m13 36 43 35 VDD pm_hp l=0.116656u w=1.75521u ad=0.364412p as=0.284512p pd=0.38u
+ ps=0.38u
m14 37 43 36 VDD pm_hp l=0.116656u w=1.75521u ad=0.284512p as=0.364412p pd=0.38u
+ ps=0.38u
m15 38 44 37 VDD pm_hp l=0.116656u w=1.75521u ad=0.364412p as=0.284512p pd=0.38u
+ ps=0.38u
m16 39 44 38 VDD pm_hp l=0.116656u w=1.75521u ad=0.288812p as=0.364412p
+ pd=0.385u ps=0.38u
m17 40 45 39 VDD pm_hp l=0.116656u w=1.75521u ad=0.635312p as=0.288812p
+ pd=2.415u ps=0.385u
m18 3 41 2 VSS nm_hp l=0.118152u w=1.17021u ad=0.197375p as=0.408012p pd=0.38u
+ ps=1.83u
m19 4 41 3 VSS nm_hp l=0.118152u w=1.17021u ad=0.220737p as=0.197375p pd=0.365u
+ ps=0.38u
m20 5 41 4 VSS nm_hp l=0.118152u w=1.17021u ad=0.197375p as=0.220737p pd=0.38u
+ ps=0.365u
m21 6 41 5 VSS nm_hp l=0.118152u w=1.17021u ad=0.220737p as=0.197375p pd=0.365u
+ ps=0.38u
m22 7 41 6 VSS nm_hp l=0.118152u w=1.17021u ad=0.197375p as=0.220737p pd=0.38u
+ ps=0.365u
m23 8 41 7 VSS nm_hp l=0.118152u w=1.17021u ad=0.220737p as=0.197375p pd=0.365u
+ ps=0.38u
m24 9 41 8 VSS nm_hp l=0.118152u w=1.17021u ad=0.197375p as=0.220737p pd=0.38u
+ ps=0.365u
m25 10 41 9 VSS nm_hp l=0.118152u w=1.17021u ad=0.220737p as=0.197375p pd=0.365u
+ ps=0.38u
m26 11 41 10 VSS nm_hp l=0.118152u w=1.17021u ad=0.197375p as=0.220737p pd=0.38u
+ ps=0.365u
m27 12 41 11 VSS nm_hp l=0.118152u w=1.17021u ad=0.220737p as=0.197375p
+ pd=0.365u ps=0.38u
m28 13 41 12 VSS nm_hp l=0.118152u w=1.17021u ad=0.211387p as=0.220737p
+ pd=0.365u ps=0.365u
m29 14 41 13 VSS nm_hp l=0.118152u w=1.17021u ad=0.320337p as=0.211387p pd=0.91u
+ ps=0.365u
m30 15 42 14 VSS nm_hp l=0.118152u w=1.17021u ad=0.2048p as=0.320337p pd=0.365u
+ ps=0.91u
m31 16 43 15 VSS nm_hp l=0.118152u w=1.17021u ad=0.2048p as=0.2048p pd=0.365u
+ ps=0.365u
m32 17 43 16 VSS nm_hp l=0.118152u w=1.17021u ad=0.217275p as=0.2048p pd=0.375u
+ ps=0.365u
m33 18 44 17 VSS nm_hp l=0.118152u w=1.17021u ad=0.320125p as=0.217275p pd=0.91u
+ ps=0.375u
m34 19 44 18 VSS nm_hp l=0.118152u w=1.17021u ad=0.197375p as=0.320125p pd=0.38u
+ ps=0.91u
m35 20 45 19 VSS nm_hp l=0.118152u w=1.17021u ad=0.408012p as=0.197375p pd=1.83u
+ ps=0.38u

* resistors:
r36 VSS 2 40 $[mnc]
r37 VSS 2 40 $[mnc]
r38 Z 3 40 $[mnc]
r39 VSS 4 40 $[mnc]
r40 VSS 4 40 $[mnc]
r41 Z 5 40 $[mnc]
r42 VSS 6 40 $[mnc]
r43 VSS 6 40 $[mnc]
r44 Z 7 40 $[mnc]
r45 VSS 8 40 $[mnc]
r46 VSS 8 40 $[mnc]
r47 Z 9 40 $[mnc]
r48 VSS 10 40 $[mnc]
r49 VSS 10 40 $[mnc]
r50 Z 11 40 $[mnc]
r51 VSS 12 40 $[mnc]
r52 VSS 12 40 $[mnc]
r53 Z 13 40 $[mnc]
r54 VSS 14 40 $[mnc]
r55 VSS 14 40 $[mnc]
r56 155 15 40 $[mnc]
r57 153 16 40 $[mnc]
r58 155 17 40 $[mnc]
r59 VSS 18 40 $[mnc]
r60 155 19 40 $[mnc]
r61 153 20 40 $[mnc]
r62 VDD 22 40 $[mpc]
r63 VDD 22 40 $[mpc]
r64 Z 23 40 $[mpc]
r65 VDD 24 40 $[mpc]
r66 VDD 24 40 $[mpc]
r67 Z 25 40 $[mpc]
r68 VDD 26 40 $[mpc]
r69 VDD 26 40 $[mpc]
r70 Z 27 40 $[mpc]
r71 VDD 28 40 $[mpc]
r72 VDD 28 40 $[mpc]
r73 Z 29 40 $[mpc]
r74 VDD 30 40 $[mpc]
r75 VDD 30 40 $[mpc]
r76 Z 31 40 $[mpc]
r77 VDD 32 40 $[mpc]
r78 VDD 32 40 $[mpc]
r79 Z 33 40 $[mpc]
r80 VDD 34 40 $[mpc]
r81 VDD 34 40 $[mpc]
r82 153 35 40 $[mpc]
r83 VDD 36 40 $[mpc]
r84 VDD 36 40 $[mpc]
r85 153 37 40 $[mpc]
r86 VDD 38 40 $[mpc]
r87 VDD 38 40 $[mpc]
r88 153 39 40 $[mpc]
r89 VDD 40 40 $[mpc]
r90 VDD 40 40 $[mpc]
r91 153 41 14 $[mpolyc]
r92 B 42 14 $[mpolyc]
r93 A 43 14 $[mpolyc]
r94 B 44 14 $[mpolyc]
r95 A 45 14 $[mpolyc]

* lumped capacitances:
cp1 VDD VSS 1.94455f
cp2 2 VSS 0.0669294f
cp3 3 VSS 0.0367983f
cp4 4 VSS 0.0664982f
cp5 5 VSS 0.0372005f
cp6 6 VSS 0.0664982f
cp7 7 VSS 0.0371777f
cp8 8 VSS 0.0664982f
cp9 9 VSS 0.0363705f
cp10 10 VSS 0.0664982f
cp11 11 VSS 0.0372005f
cp12 12 VSS 0.0697293f
cp13 13 VSS 0.0296194f
cp14 14 VSS 0.108156f
cp15 15 VSS 0.0628747f
cp16 16 VSS 0.0395401f
cp17 17 VSS 0.0415426f
cp18 18 VSS 0.0591968f
cp19 19 VSS 0.0474836f
cp20 20 VSS 0.0309044f
cp21 22 VSS 0.0669294f
cp22 23 VSS 0.0382232f
cp23 24 VSS 0.0738112f
cp24 25 VSS 0.0389894f
cp25 26 VSS 0.0738112f
cp26 27 VSS 0.0389666f
cp27 28 VSS 0.0738112f
cp28 29 VSS 0.0401976f
cp29 30 VSS 0.0738112f
cp30 31 VSS 0.0389894f
cp31 32 VSS 0.0746449f
cp32 33 VSS 0.0316214f
cp33 34 VSS 0.0864697f
cp34 35 VSS 0.0355994f
cp35 36 VSS 0.0704575f
cp36 37 VSS 0.030572f
cp37 38 VSS 0.0694666f
cp38 39 VSS 0.0303905f
cp39 40 VSS 0.0701144f
cp40 41 VSS 2.59583f
cp41 42 VSS 0.598906f
cp42 43 VSS 0.853775f
cp43 44 VSS 0.850337f
cp44 45 VSS 0.454421f
cp45 Z VSS 1.32967f
cp46 153 VSS 1.18339f
cp47 B VSS 0.328543f
cp48 155 VSS 0.361829f
cp49 A VSS 0.338686f

.ENDS


** and2m1p.lpe extracted by xCalibre v9.1_1.1 **

** Version: $LSILogic: and2m1p.iclib2,v 9.0.1.5 2002/06/20 18:50:42 kensz Exp $

.SUBCKT AND2M1P Z A B VDD VSS 

* devices:
m0 8 11 7 VDD pm_hp l=0.117448u w=1.19521u ad=0.201062p as=0.417762p pd=0.38u
+ ps=1.855u
m1 9 12 8 VDD pm_hp l=0.117448u w=1.19521u ad=0.301859p as=0.201062p
+ pd=0.573131u ps=0.38u
m2 10 13 9 VDD pm_hp l=0.116666u w=1.74521u ad=0.551512p as=0.440766p pd=2.405u
+ ps=0.836869u
m3 3 11 2 VSS nm_hp l=0.119762u w=0.785208u ad=0.135287p as=0.258712p pd=0.35u
+ ps=1.445u
m4 4 12 3 VSS nm_hp l=0.119762u w=0.785208u ad=0.261162p as=0.135287p
+ pd=0.914864u ps=0.35u
m5 5 13 4 VSS nm_hp l=0.118209u w=1.15021u ad=0.370037p as=0.382562p pd=1.81u
+ ps=1.34013u

* resistors:
r6 38 2 40 $[mnc]
r7 VSS 4 40 $[mnc]
r8 VSS 4 40 $[mnc]
r9 Z 5 40 $[mnc]
r10 VDD 7 40 $[mpc]
r11 VDD 7 40 $[mpc]
r12 38 8 40 $[mpc]
r13 VDD 9 40 $[mpc]
r14 VDD 9 40 $[mpc]
r15 Z 10 40 $[mpc]
r16 A 11 14 $[mpolyc]
r17 B 12 14 $[mpolyc]
r18 38 13 14 $[mpolyc]

* lumped capacitances:
cp1 VDD VSS 0.479219f
cp2 2 VSS 0.0339761f
cp3 3 VSS 0.0206746f
cp4 4 VSS 0.0805333f
cp5 5 VSS 0.0360938f
cp6 7 VSS 0.0837751f
cp7 8 VSS 0.0355503f
cp8 9 VSS 0.0889938f
cp9 10 VSS 0.0343166f
cp10 11 VSS 0.40561f
cp11 12 VSS 0.485111f
cp12 13 VSS 0.409236f
cp13 A VSS 0.0990763f
cp14 38 VSS 0.491529f
cp15 B VSS 0.11438f
cp16 Z VSS 0.227802f

.ENDS


** and2m2p.lpe extracted by xCalibre v9.1_1.1 **

** Version: $LSILogic: and2m2p.iclib2,v 9.0.1.5 2002/06/20 18:49:41 kensz Exp $

.SUBCKT AND2M2P Z A B VDD VSS 

* devices:
m0 9 13 8 VDD pm_hp l=0.116666u w=1.74521u ad=0.293987p as=0.632262p
+ pd=0.335311u ps=2.405u
m1 10 13 9 VDD pm_hp l=0.117041u w=1.76799u ad=0.348317p as=0.297825p
+ pd=0.716275u ps=0.339688u
m2 11 14 10 VDD pm_hp l=0.116734u w=1.74935u ad=0.303886p as=0.344645p
+ pd=0.357712u ps=0.708724u
m3 12 15 11 VDD pm_hp l=0.1167u w=1.74728u ad=0.63p as=0.303526p pd=2.4u
+ ps=0.357288u
m4 3 13 2 VSS nm_hp l=0.117764u w=1.33021u ad=0.220975p as=0.470412p pd=0.38u
+ ps=1.99u
m5 4 13 3 VSS nm_hp l=0.117764u w=1.33021u ad=0.355725p as=0.220975p pd=0.755u
+ ps=0.38u
m6 5 14 4 VSS nm_hp l=0.117764u w=1.33021u ad=0.1821p as=0.355725p pd=0.275u
+ ps=0.755u
m7 6 15 5 VSS nm_hp l=0.117764u w=1.33021u ad=0.424937p as=0.1821p pd=1.99u
+ ps=0.275u

* resistors:
r8 VSS 2 40 $[mnc]
r9 VSS 2 40 $[mnc]
r10 Z 3 40 $[mnc]
r11 VSS 4 40 $[mnc]
r12 VSS 4 40 $[mnc]
r13 46 6 40 $[mnc]
r14 VDD 8 40 $[mpc]
r15 VDD 8 40 $[mpc]
r16 Z 9 40 $[mpc]
r17 VDD 10 40 $[mpc]
r18 VDD 10 40 $[mpc]
r19 46 11 40 $[mpc]
r20 VDD 12 40 $[mpc]
r21 VDD 12 40 $[mpc]
r22 46 13 14 $[mpolyc]
r23 B 14 14 $[mpolyc]
r24 A 15 14 $[mpolyc]

* lumped capacitances:
cp1 VDD VSS 0.558962f
cp2 2 VSS 0.0939312f
cp3 3 VSS 0.0338934f
cp4 4 VSS 0.0466969f
cp5 6 VSS 0.0283539f
cp6 8 VSS 0.0953829f
cp7 9 VSS 0.0318202f
cp8 10 VSS 0.0627591f
cp9 11 VSS 0.033193f
cp10 12 VSS 0.0929633f
cp11 13 VSS 0.651235f
cp12 14 VSS 0.677715f
cp13 15 VSS 0.508204f
cp14 Z VSS 0.290201f
cp15 46 VSS 0.414581f
cp16 B VSS 0.134029f
cp17 A VSS 0.153095f

.ENDS


** and2m4p.lpe extracted by xCalibre v9.1_1.1 **

** Version: $LSILogic: and2m4p.iclib2,v 9.0.1.5 2002/06/20 18:47:18 kensz Exp $

.SUBCKT AND2M4P Z A B VDD VSS 

* devices:
m0 11 17 10 VDD pm_hp l=0.116557u w=1.86521u ad=0.310087p as=0.668862p pd=0.38u
+ ps=2.525u
m1 12 17 11 VDD pm_hp l=0.116557u w=1.86521u ad=0.380637p as=0.310087p pd=0.38u
+ ps=0.38u
m2 13 17 12 VDD pm_hp l=0.116557u w=1.86521u ad=0.310087p as=0.380637p pd=0.38u
+ ps=0.38u
m3 14 17 13 VDD pm_hp l=0.116557u w=1.86521u ad=0.380637p as=0.310087p pd=0.38u
+ ps=0.38u
m4 15 18 14 VDD pm_hp l=0.116557u w=1.86521u ad=0.310087p as=0.380637p pd=0.38u
+ ps=0.38u
m5 16 19 15 VDD pm_hp l=0.116557u w=1.86521u ad=0.668862p as=0.310087p pd=2.525u
+ ps=0.38u
m6 3 17 2 VSS nm_hp l=0.118017u w=1.24228u ad=0.209687p as=0.439075p pd=0.385u
+ ps=1.905u
m7 4 17 3 VSS nm_hp l=0.118017u w=1.24228u ad=0.249287p as=0.209687p pd=0.385u
+ ps=0.385u
m8 5 17 4 VSS nm_hp l=0.118017u w=1.24228u ad=0.209687p as=0.249287p pd=0.385u
+ ps=0.385u
m9 6 17 5 VSS nm_hp l=0.118017u w=1.24228u ad=0.34085p as=0.209687p pd=0.835u
+ ps=0.385u
m10 7 18 6 VSS nm_hp l=0.118017u w=1.24228u ad=0.169962p as=0.34085p pd=0.275u
+ ps=0.835u
m11 8 19 7 VSS nm_hp l=0.118017u w=1.24228u ad=0.53805p as=0.169962p pd=2.135u
+ ps=0.275u

* resistors:
r12 VSS 2 40 $[mnc]
r13 VSS 2 40 $[mnc]
r14 Z 3 40 $[mnc]
r15 VSS 4 40 $[mnc]
r16 VSS 4 40 $[mnc]
r17 Z 5 40 $[mnc]
r18 VSS 6 40 $[mnc]
r19 VSS 6 40 $[mnc]
r20 62 8 40 $[mnc]
r21 VDD 10 40 $[mpc]
r22 VDD 10 40 $[mpc]
r23 Z 11 40 $[mpc]
r24 VDD 12 40 $[mpc]
r25 VDD 12 40 $[mpc]
r26 Z 13 40 $[mpc]
r27 VDD 14 40 $[mpc]
r28 VDD 14 40 $[mpc]
r29 62 15 40 $[mpc]
r30 VDD 16 40 $[mpc]
r31 VDD 16 40 $[mpc]
r32 62 17 14 $[mpolyc]
r33 B 18 14 $[mpolyc]
r34 A 19 14 $[mpolyc]

* lumped capacitances:
cp1 VDD VSS 0.793447f
cp2 2 VSS 0.0670167f
cp3 3 VSS 0.0415182f
cp4 4 VSS 0.073124f
cp5 5 VSS 0.0317776f
cp6 6 VSS 0.0484275f
cp7 8 VSS 0.0307134f
cp8 10 VSS 0.0669584f
cp9 11 VSS 0.0525539f
cp10 12 VSS 0.0716035f
cp11 13 VSS 0.0303499f
cp12 14 VSS 0.0821127f
cp13 15 VSS 0.040096f
cp14 16 VSS 0.0592826f
cp15 17 VSS 1.0376f
cp16 18 VSS 0.636199f
cp17 19 VSS 0.498244f
cp18 Z VSS 0.480911f
cp19 62 VSS 0.573239f
cp20 B VSS 0.100422f
cp21 A VSS 0.122793f

.ENDS


** and2m8p.lpe extracted by xCalibre v9.1_1.1 **

** Version: $LSILogic: and2m8p.iclib2,v 9.0.1.5 2002/06/20 18:46:25 kensz Exp $

.SUBCKT AND2M8P Z A B VDD VSS 

* devices:
m0 17 29 16 VDD pm_hp l=0.116557u w=1.86521u ad=0.299887p as=0.679062p pd=0.38u
+ ps=2.525u
m1 18 29 17 VDD pm_hp l=0.116557u w=1.86521u ad=0.390837p as=0.299887p pd=0.38u
+ ps=0.38u
m2 19 29 18 VDD pm_hp l=0.116557u w=1.86521u ad=0.299887p as=0.390837p pd=0.38u
+ ps=0.38u
m3 20 29 19 VDD pm_hp l=0.116557u w=1.86521u ad=0.390837p as=0.299887p pd=0.38u
+ ps=0.38u
m4 21 29 20 VDD pm_hp l=0.116557u w=1.86521u ad=0.299887p as=0.390837p pd=0.38u
+ ps=0.38u
m5 22 29 21 VDD pm_hp l=0.116557u w=1.86521u ad=0.385737p as=0.299887p pd=0.38u
+ ps=0.38u
m6 23 29 22 VDD pm_hp l=0.116557u w=1.86521u ad=0.520537p as=0.385737p pd=0.61u
+ ps=0.38u
m7 24 29 23 VDD pm_hp l=0.116557u w=1.86521u ad=0.467704p as=0.520537p
+ pd=0.540951u ps=0.61u
m8 25 30 24 VDD pm_hp l=0.116656u w=1.75521u ad=0.293862p as=0.440121p pd=0.38u
+ ps=0.509049u
m9 26 31 25 VDD pm_hp l=0.116656u w=1.75521u ad=0.355062p as=0.293862p pd=0.38u
+ ps=0.38u
m10 27 31 26 VDD pm_hp l=0.116656u w=1.75521u ad=0.461562p as=0.355062p
+ pd=0.575u ps=0.38u
m11 28 32 27 VDD pm_hp l=0.116656u w=1.75521u ad=0.625962p as=0.461562p
+ pd=2.415u ps=0.575u
m12 3 29 2 VSS nm_hp l=0.118017u w=1.24228u ad=0.209687p as=0.439075p pd=0.385u
+ ps=1.905u
m13 4 29 3 VSS nm_hp l=0.118017u w=1.24228u ad=0.249287p as=0.209687p pd=0.385u
+ ps=0.385u
m14 5 29 4 VSS nm_hp l=0.118017u w=1.24228u ad=0.209687p as=0.249287p pd=0.385u
+ ps=0.385u
m15 6 29 5 VSS nm_hp l=0.118017u w=1.24228u ad=0.249287p as=0.209687p pd=0.385u
+ ps=0.385u
m16 7 29 6 VSS nm_hp l=0.118017u w=1.24228u ad=0.209687p as=0.249287p pd=0.385u
+ ps=0.385u
m17 8 29 7 VSS nm_hp l=0.118017u w=1.24228u ad=0.249287p as=0.209687p pd=0.385u
+ ps=0.385u
m18 9 29 8 VSS nm_hp l=0.118017u w=1.24228u ad=0.230775p as=0.249287p pd=0.42u
+ ps=0.385u
m19 10 29 9 VSS nm_hp l=0.118017u w=1.24228u ad=0.285607p as=0.230775p
+ pd=0.501661u ps=0.42u
m20 11 30 10 VSS nm_hp l=0.115u w=1.135u ad=0.264762p as=0.260943p pd=0.484978u
+ ps=0.458339u
m21 12 31 11 VSS nm_hp l=0.118152u w=1.17021u ad=0.253037p as=0.272975p pd=0.45u
+ ps=0.500022u
m22 13 31 12 VSS nm_hp l=0.118152u w=1.17021u ad=0.315223p as=0.253037p
+ pd=0.540633u ps=0.45u
m23 14 32 13 VSS nm_hp l=0.115u w=1.135u ad=0.44265p as=0.305739p pd=1.915u
+ ps=0.524367u

* resistors:
r24 VSS 2 40 $[mnc]
r25 VSS 2 40 $[mnc]
r26 Z 3 40 $[mnc]
r27 VSS 4 40 $[mnc]
r28 VSS 4 40 $[mnc]
r29 Z 5 40 $[mnc]
r30 VSS 6 40 $[mnc]
r31 VSS 6 40 $[mnc]
r32 Z 7 40 $[mnc]
r33 VSS 8 40 $[mnc]
r34 VSS 8 40 $[mnc]
r35 Z 9 40 $[mnc]
r36 VSS 10 40 $[mnc]
r37 VSS 10 40 $[mnc]
r38 113 11 40 $[mnc]
r39 111 12 40 $[mnc]
r40 113 13 40 $[mnc]
r41 VSS 14 40 $[mnc]
r42 VSS 14 40 $[mnc]
r43 VDD 16 40 $[mpc]
r44 VDD 16 40 $[mpc]
r45 Z 17 40 $[mpc]
r46 VDD 18 40 $[mpc]
r47 VDD 18 40 $[mpc]
r48 Z 19 40 $[mpc]
r49 VDD 20 40 $[mpc]
r50 VDD 20 40 $[mpc]
r51 Z 21 40 $[mpc]
r52 VDD 22 40 $[mpc]
r53 VDD 22 40 $[mpc]
r54 Z 23 40 $[mpc]
r55 VDD 24 40 $[mpc]
r56 VDD 24 40 $[mpc]
r57 111 25 40 $[mpc]
r58 VDD 26 40 $[mpc]
r59 VDD 26 40 $[mpc]
r60 111 27 40 $[mpc]
r61 VDD 28 40 $[mpc]
r62 VDD 28 40 $[mpc]
r63 111 29 14 $[mpolyc]
r64 B 30 14 $[mpolyc]
r65 A 31 14 $[mpolyc]
r66 B 32 14 $[mpolyc]

* lumped capacitances:
cp1 VDD VSS 1.41855f
cp2 2 VSS 0.0670167f
cp3 3 VSS 0.0339461f
cp4 4 VSS 0.0523969f
cp5 5 VSS 0.0284561f
cp6 6 VSS 0.052626f
cp7 7 VSS 0.0278551f
cp8 8 VSS 0.0529962f
cp9 9 VSS 0.0305014f
cp10 10 VSS 0.0833849f
cp11 11 VSS 0.0449052f
cp12 12 VSS 0.0466324f
cp13 13 VSS 0.0344949f
cp14 14 VSS 0.075112f
cp15 16 VSS 0.0669584f
cp16 17 VSS 0.0351186f
cp17 18 VSS 0.0546883f
cp18 19 VSS 0.0304703f
cp19 20 VSS 0.054862f
cp20 21 VSS 0.0300126f
cp21 22 VSS 0.0571222f
cp22 23 VSS 0.0398241f
cp23 24 VSS 0.0575249f
cp24 25 VSS 0.0468614f
cp25 26 VSS 0.0727373f
cp26 27 VSS 0.0511403f
cp27 28 VSS 0.0732119f
cp28 29 VSS 1.79882f
cp29 30 VSS 0.53576f
cp30 31 VSS 0.745306f
cp31 32 VSS 0.345019f
cp32 Z VSS 0.863828f
cp33 111 VSS 0.701749f
cp34 B VSS 0.352914f
cp35 113 VSS 0.237335f
cp36 A VSS 0.11993f

.ENDS


** and3m05p.lpe extracted by xCalibre v9.1_1.1 **

** Version: $LSILogic: and3m05p.iclib2,v 9.0.1.5 2002/07/18 14:39:04 rchiang Exp $

.SUBCKT AND3M05P Z A B C VDD VSS 

* devices:
m0 9 13 8 VDD pm_hp l=0.115u w=1.005u ad=0.226125p as=0.39195p pd=0.45u
+ ps=1.785u
m1 10 14 9 VDD pm_hp l=0.115u w=1.005u ad=0.226125p as=0.226125p pd=0.45u
+ ps=0.45u
m2 11 15 10 VDD pm_hp l=0.115u w=1.005u ad=0.226125p as=0.226125p pd=0.45u
+ ps=0.45u
m3 12 16 11 VDD pm_hp l=0.115u w=1.005u ad=0.396975p as=0.226125p pd=1.795u
+ ps=0.45u
m4 3 13 2 VSS nm_hp l=0.119677u w=0.647426u ad=0.1221p as=0.298675p pd=0.39u
+ ps=1.575u
m5 4 14 3 VSS nm_hp l=0.119677u w=0.647426u ad=0.118987p as=0.1221p pd=0.375u
+ ps=0.39u
m6 5 15 4 VSS nm_hp l=0.119677u w=0.647426u ad=0.341486p as=0.118987p
+ pd=1.54531u ps=0.375u
m7 6 16 5 VSS nm_hp l=0.120619u w=0.670208u ad=0.223637p as=0.353502p pd=1.33u
+ ps=1.59969u

* resistors:
r8 46 2 40 $[mnc]
r9 VSS 5 40 $[mnc]
r10 VSS 5 40 $[mnc]
r11 Z 6 40 $[mnc]
r12 46 8 40 $[mpc]
r13 VDD 9 40 $[mpc]
r14 VDD 9 40 $[mpc]
r15 46 10 40 $[mpc]
r16 VDD 11 40 $[mpc]
r17 VDD 11 40 $[mpc]
r18 Z 12 40 $[mpc]
r19 A 13 14 $[mpolyc]
r20 B 14 14 $[mpolyc]
r21 C 15 14 $[mpolyc]
r22 46 16 14 $[mpolyc]

* lumped capacitances:
cp1 VDD VSS 0.636591f
cp2 2 VSS 0.0290607f
cp3 5 VSS 0.0721881f
cp4 6 VSS 0.0391547f
cp5 8 VSS 0.0322457f
cp6 9 VSS 0.0807842f
cp7 10 VSS 0.0387073f
cp8 11 VSS 0.085382f
cp9 12 VSS 0.0314358f
cp10 13 VSS 0.371906f
cp11 14 VSS 0.467658f
cp12 15 VSS 0.415995f
cp13 16 VSS 0.36607f
cp14 46 VSS 0.53657f
cp15 A VSS 0.12523f
cp16 B VSS 0.13926f
cp17 C VSS 0.10389f
cp18 Z VSS 0.256418f

.ENDS


** and3m1p.lpe extracted by xCalibre v9.1_1.1 **

** Version: $LSILogic: and3m1p.iclib2,v 9.0.1.6 2002/07/18 14:39:06 rchiang Exp $

.SUBCKT AND3M1P Z A B C VDD VSS 

* devices:
m0 9 13 8 VDD pm_hp l=0.117238u w=1.30521u ad=0.242981p as=0.417312p
+ pd=0.348342u ps=1.965u
m1 10 14 9 VDD pm_hp l=0.11751u w=1.31763u ad=0.221833p as=0.245294p
+ pd=0.351658u ps=0.351658u
m2 11 15 10 VDD pm_hp l=0.117238u w=1.30521u ad=0.287866p as=0.219741p
+ pd=0.534848u ps=0.348342u
m3 12 16 11 VDD pm_hp l=0.116666u w=1.74521u ad=0.551512p as=0.384909p pd=2.405u
+ ps=0.715151u
m4 3 13 2 VSS nm_hp l=0.118449u w=0.850355u ad=0.129287p as=0.314662p pd=0.305u
+ ps=1.595u
m5 4 14 3 VSS nm_hp l=0.118449u w=0.850355u ad=0.104087p as=0.129287p pd=0.245u
+ ps=0.305u
m6 5 15 4 VSS nm_hp l=0.118449u w=0.850355u ad=0.301834p as=0.104087p
+ pd=0.961919u ps=0.245u
m7 6 16 5 VSS nm_hp l=0.118166u w=1.16521u ad=0.374612p as=0.413591p pd=1.825u
+ ps=1.31808u

* resistors:
r8 45 2 40 $[mnc]
r9 VSS 5 40 $[mnc]
r10 VSS 5 40 $[mnc]
r11 Z 6 40 $[mnc]
r12 45 8 40 $[mpc]
r13 VDD 9 40 $[mpc]
r14 VDD 9 40 $[mpc]
r15 45 10 40 $[mpc]
r16 VDD 11 40 $[mpc]
r17 VDD 11 40 $[mpc]
r18 Z 12 40 $[mpc]
r19 A 13 14 $[mpolyc]
r20 B 14 14 $[mpolyc]
r21 C 15 14 $[mpolyc]
r22 45 16 14 $[mpolyc]

* lumped capacitances:
cp1 VDD VSS 0.51545f
cp2 2 VSS 0.0287003f
cp3 3 VSS 0.0204619f
cp4 4 VSS 0.0144722f
cp5 5 VSS 0.0838524f
cp6 6 VSS 0.0265267f
cp7 8 VSS 0.0340576f
cp8 9 VSS 0.0785224f
cp9 10 VSS 0.0331284f
cp10 11 VSS 0.0841101f
cp11 12 VSS 0.0249463f
cp12 13 VSS 0.421279f
cp13 14 VSS 0.589448f
cp14 15 VSS 0.547472f
cp15 16 VSS 0.407897f
cp16 A VSS 0.124394f
cp17 45 VSS 0.686422f
cp18 B VSS 0.123534f
cp19 C VSS 0.144458f
cp20 Z VSS 0.210486f

.ENDS


** and3m2p.lpe extracted by xCalibre v9.1_1.1 **

** Version: $LSILogic: and3m2p.iclib2,v 9.0.1.5 2002/06/20 18:48:37 kensz Exp $

.SUBCKT AND3M2P Z A B C VDD VSS 

* devices:
m0 10 15 9 VDD pm_hp l=0.116666u w=1.74521u ad=0.282187p as=0.632262p pd=0.38u
+ ps=2.405u
m1 11 15 10 VDD pm_hp l=0.116666u w=1.74521u ad=0.362937p as=0.282187p pd=0.38u
+ ps=0.38u
m2 12 16 11 VDD pm_hp l=0.116666u w=1.74521u ad=0.406162p as=0.362937p pd=0.525u
+ ps=0.38u
m3 13 17 12 VDD pm_hp l=0.116666u w=1.74521u ad=0.486912p as=0.406162p pd=0.525u
+ ps=0.525u
m4 14 18 13 VDD pm_hp l=0.116666u w=1.74521u ad=0.551512p as=0.486912p pd=2.405u
+ ps=0.525u
m5 3 15 2 VSS nm_hp l=0.118166u w=1.16521u ad=0.196637p as=0.406062p pd=0.38u
+ ps=1.825u
m6 4 15 3 VSS nm_hp l=0.118166u w=1.16521u ad=0.329962p as=0.196637p pd=0.905u
+ ps=0.38u
m7 5 16 4 VSS nm_hp l=0.118166u w=1.16521u ad=0.246987p as=0.329962p pd=0.43u
+ ps=0.905u
m8 6 17 5 VSS nm_hp l=0.118166u w=1.16521u ad=0.165062p as=0.246987p pd=0.285u
+ ps=0.43u
m9 7 18 6 VSS nm_hp l=0.118166u w=1.16521u ad=0.674062p as=0.165062p pd=2.355u
+ ps=0.285u

* resistors:
r10 VSS 2 40 $[mnc]
r11 VSS 2 40 $[mnc]
r12 Z 3 40 $[mnc]
r13 VSS 4 40 $[mnc]
r14 VSS 4 40 $[mnc]
r15 55 7 40 $[mnc]
r16 VDD 9 40 $[mpc]
r17 VDD 9 40 $[mpc]
r18 Z 10 40 $[mpc]
r19 VDD 11 40 $[mpc]
r20 VDD 11 40 $[mpc]
r21 55 12 40 $[mpc]
r22 VDD 13 40 $[mpc]
r23 VDD 13 40 $[mpc]
r24 55 14 40 $[mpc]
r25 55 15 14 $[mpolyc]
r26 C 16 14 $[mpolyc]
r27 B 17 14 $[mpolyc]
r28 A 18 14 $[mpolyc]

* lumped capacitances:
cp1 VDD VSS 0.683924f
cp2 2 VSS 0.0742825f
cp3 3 VSS 0.0378567f
cp4 4 VSS 0.0484689f
cp5 7 VSS 0.0370081f
cp6 9 VSS 0.0669337f
cp7 10 VSS 0.0286857f
cp8 11 VSS 0.075655f
cp9 12 VSS 0.0430763f
cp10 13 VSS 0.0930873f
cp11 14 VSS 0.040152f
cp12 15 VSS 0.649459f
cp13 16 VSS 0.557927f
cp14 17 VSS 0.575231f
cp15 18 VSS 0.460976f
cp16 Z VSS 0.228263f
cp17 55 VSS 0.519969f
cp18 C VSS 0.107776f
cp19 B VSS 0.13741f
cp20 A VSS 0.116509f

.ENDS


** and3m4p.lpe extracted by xCalibre v9.1_1.1 **

** Version: $LSILogic: and3m4p.iclib2,v 9.0.1.5 2002/06/25 06:53:39 tvarga Exp $

.SUBCKT AND3M4P Z A B C VDD VSS 

* devices:
m0 12 19 11 VDD pm_hp l=0.11669u w=1.72021u ad=0.2785p as=0.622512p pd=0.38u
+ ps=2.38u
m1 13 19 12 VDD pm_hp l=0.11669u w=1.72021u ad=0.357125p as=0.2785p pd=0.38u
+ ps=0.38u
m2 14 19 13 VDD pm_hp l=0.11669u w=1.72021u ad=0.2785p as=0.357125p pd=0.38u
+ ps=0.38u
m3 15 19 14 VDD pm_hp l=0.11669u w=1.72021u ad=0.357125p as=0.2785p pd=0.38u
+ ps=0.38u
m4 16 20 15 VDD pm_hp l=0.11669u w=1.72021u ad=0.3796p as=0.357125p pd=0.5u
+ ps=0.38u
m5 17 21 16 VDD pm_hp l=0.11669u w=1.72021u ad=0.357125p as=0.3796p pd=0.38u
+ ps=0.5u
m6 18 22 17 VDD pm_hp l=0.11669u w=1.72021u ad=0.543887p as=0.357125p pd=2.38u
+ ps=0.38u
m7 3 19 2 VSS nm_hp l=0.118201u w=1.13314u ad=0.19025p as=0.3966p pd=0.375u
+ ps=1.8u
m8 4 19 3 VSS nm_hp l=0.118201u w=1.13314u ad=0.21785p as=0.19025p pd=0.375u
+ ps=0.375u
m9 5 19 4 VSS nm_hp l=0.118201u w=1.13314u ad=0.191057p as=0.21785p pd=0.377155u
+ ps=0.375u
m10 6 19 5 VSS nm_hp l=0.118252u w=1.13521u ad=0.329839p as=0.191406p
+ pd=0.954602u ps=0.377844u
m11 7 20 6 VSS nm_hp l=0.118267u w=1.13021u ad=0.203875p as=0.328386p pd=0.365u
+ ps=0.950397u
m12 8 21 7 VSS nm_hp l=0.118267u w=1.13021u ad=0.190187p as=0.203875p pd=0.34u
+ ps=0.365u
m13 9 22 8 VSS nm_hp l=0.118267u w=1.13021u ad=0.489862p as=0.190187p pd=2.02u
+ ps=0.34u

* resistors:
r14 VSS 2 40 $[mnc]
r15 Z 3 40 $[mnc]
r16 VSS 4 40 $[mnc]
r17 VSS 4 40 $[mnc]
r18 Z 5 40 $[mnc]
r19 VSS 6 40 $[mnc]
r20 VSS 6 40 $[mnc]
r21 68 9 40 $[mnc]
r22 VDD 11 40 $[mpc]
r23 VDD 11 40 $[mpc]
r24 Z 12 40 $[mpc]
r25 VDD 13 40 $[mpc]
r26 VDD 13 40 $[mpc]
r27 Z 14 40 $[mpc]
r28 VDD 15 40 $[mpc]
r29 VDD 15 40 $[mpc]
r30 68 16 40 $[mpc]
r31 VDD 17 40 $[mpc]
r32 VDD 17 40 $[mpc]
r33 68 18 40 $[mpc]
r34 68 19 14 $[mpolyc]
r35 C 20 14 $[mpolyc]
r36 B 21 14 $[mpolyc]
r37 A 22 14 $[mpolyc]

* lumped capacitances:
cp1 VDD VSS 0.860845f
cp2 2 VSS 0.0647564f
cp3 3 VSS 0.033657f
cp4 4 VSS 0.0595684f
cp5 5 VSS 0.0313281f
cp6 6 VSS 0.0485204f
cp7 9 VSS 0.0368949f
cp8 11 VSS 0.0669228f
cp9 12 VSS 0.0348794f
cp10 13 VSS 0.0546883f
cp11 14 VSS 0.0283784f
cp12 15 VSS 0.0754251f
cp13 16 VSS 0.0382087f
cp14 17 VSS 0.0836821f
cp15 18 VSS 0.0400116f
cp16 19 VSS 1.03962f
cp17 20 VSS 0.579237f
cp18 21 VSS 0.58947f
cp19 22 VSS 0.456138f
cp20 Z VSS 0.47425f
cp21 68 VSS 0.51157f
cp22 C VSS 0.122544f
cp23 B VSS 0.144857f
cp24 A VSS 0.116581f

.ENDS


** and3m8p.lpe extracted by xCalibre v9.1_1.1 **

** Version: $LSILogic: and3m8p.iclib2,v 9.0.1.4 2002/06/20 18:52:35 kensz Exp $

.SUBCKT AND3M8P Z A B C VDD VSS 

* devices:
m0 19 33 18 VDD pm_hp l=0.116666u w=1.74521u ad=0.282187p as=0.632262p pd=0.38u
+ ps=2.405u
m1 20 33 19 VDD pm_hp l=0.116666u w=1.74521u ad=0.350112p as=0.282187p pd=0.365u
+ ps=0.38u
m2 21 33 20 VDD pm_hp l=0.116666u w=1.74521u ad=0.282187p as=0.350112p pd=0.38u
+ ps=0.365u
m3 22 33 21 VDD pm_hp l=0.116666u w=1.74521u ad=0.350112p as=0.282187p pd=0.365u
+ ps=0.38u
m4 23 33 22 VDD pm_hp l=0.116666u w=1.74521u ad=0.282187p as=0.350112p pd=0.38u
+ ps=0.365u
m5 24 33 23 VDD pm_hp l=0.116666u w=1.74521u ad=0.332687p as=0.282187p pd=0.365u
+ ps=0.38u
m6 25 34 24 VDD pm_hp l=0.116666u w=1.74521u ad=0.315218p as=0.332687p
+ pd=0.377724u ps=0.365u
m7 26 35 25 VDD pm_hp l=0.116631u w=1.74314u ad=0.325763p as=0.314844p
+ pd=0.377276u ps=0.377276u
m8 27 36 26 VDD pm_hp l=0.116666u w=1.74521u ad=0.317037p as=0.32615p pd=0.38u
+ ps=0.377724u
m9 28 36 27 VDD pm_hp l=0.116666u w=1.74521u ad=0.328087p as=0.317037p pd=0.38u
+ ps=0.38u
m10 29 37 28 VDD pm_hp l=0.116666u w=1.74521u ad=0.317037p as=0.328087p pd=0.38u
+ ps=0.38u
m11 30 38 29 VDD pm_hp l=0.116666u w=1.74521u ad=0.332687p as=0.317037p
+ pd=0.365u ps=0.38u
m12 31 39 30 VDD pm_hp l=0.116666u w=1.74521u ad=0.282187p as=0.332687p pd=0.38u
+ ps=0.365u
m13 32 39 31 VDD pm_hp l=0.116666u w=1.74521u ad=0.632262p as=0.282187p
+ pd=2.405u ps=0.38u
m14 3 33 2 VSS nm_hp l=0.11818u w=1.16021u ad=0.1959p as=0.404112p pd=0.38u
+ ps=1.82u
m15 4 33 3 VSS nm_hp l=0.11818u w=1.16021u ad=0.226925p as=0.1959p pd=0.38u
+ ps=0.38u
m16 5 33 4 VSS nm_hp l=0.11818u w=1.16021u ad=0.1959p as=0.226925p pd=0.38u
+ ps=0.38u
m17 6 33 5 VSS nm_hp l=0.11818u w=1.16021u ad=0.226925p as=0.1959p pd=0.38u
+ ps=0.38u
m18 7 33 6 VSS nm_hp l=0.11818u w=1.16021u ad=0.1959p as=0.226925p pd=0.38u
+ ps=0.38u
m19 8 33 7 VSS nm_hp l=0.11818u w=1.16021u ad=0.323862p as=0.1959p pd=0.84u
+ ps=0.38u
m20 9 34 8 VSS nm_hp l=0.11818u w=1.16021u ad=0.167162p as=0.323862p pd=0.29u
+ ps=0.84u
m21 10 35 9 VSS nm_hp l=0.11818u w=1.16021u ad=0.1756p as=0.167162p pd=0.305u
+ ps=0.29u
m22 11 36 10 VSS nm_hp l=0.11818u w=1.16021u ad=0.1959p as=0.1756p pd=0.38u
+ ps=0.305u
m23 12 36 11 VSS nm_hp l=0.11818u w=1.16021u ad=0.2206p as=0.1959p pd=0.385u
+ ps=0.38u
m24 13 37 12 VSS nm_hp l=0.11818u w=1.16021u ad=0.14185p as=0.2206p pd=0.245u
+ ps=0.385u
m25 14 38 13 VSS nm_hp l=0.11818u w=1.16021u ad=0.357612p as=0.14185p pd=0.9u
+ ps=0.245u
m26 15 39 14 VSS nm_hp l=0.11818u w=1.16021u ad=0.1959p as=0.357612p pd=0.38u
+ ps=0.9u
m27 16 39 15 VSS nm_hp l=0.11818u w=1.16021u ad=0.404112p as=0.1959p pd=1.82u
+ ps=0.38u

* resistors:
r28 VSS 2 40 $[mnc]
r29 VSS 2 40 $[mnc]
r30 Z 3 40 $[mnc]
r31 VSS 4 40 $[mnc]
r32 VSS 4 40 $[mnc]
r33 Z 5 40 $[mnc]
r34 VSS 6 40 $[mnc]
r35 VSS 6 40 $[mnc]
r36 Z 7 40 $[mnc]
r37 VSS 8 40 $[mnc]
r38 VSS 8 40 $[mnc]
r39 124 11 40 $[mnc]
r40 VSS 14 40 $[mnc]
r41 VSS 14 40 $[mnc]
r42 Z 15 40 $[mnc]
r43 VSS 16 40 $[mnc]
r44 VSS 16 40 $[mnc]
r45 VDD 18 40 $[mpc]
r46 VDD 18 40 $[mpc]
r47 Z 19 40 $[mpc]
r48 VDD 20 40 $[mpc]
r49 VDD 20 40 $[mpc]
r50 Z 21 40 $[mpc]
r51 VDD 22 40 $[mpc]
r52 VDD 22 40 $[mpc]
r53 Z 23 40 $[mpc]
r54 VDD 24 40 $[mpc]
r55 VDD 24 40 $[mpc]
r56 124 25 40 $[mpc]
r57 VDD 26 40 $[mpc]
r58 VDD 26 40 $[mpc]
r59 124 27 40 $[mpc]
r60 VDD 28 40 $[mpc]
r61 VDD 28 40 $[mpc]
r62 124 29 40 $[mpc]
r63 VDD 30 40 $[mpc]
r64 VDD 30 40 $[mpc]
r65 Z 31 40 $[mpc]
r66 VDD 32 40 $[mpc]
r67 VDD 32 40 $[mpc]
r68 124 33 14 $[mpolyc]
r69 C 34 14 $[mpolyc]
r70 B 35 14 $[mpolyc]
r71 A 36 14 $[mpolyc]
r72 B 37 14 $[mpolyc]
r73 C 38 14 $[mpolyc]
r74 124 39 14 $[mpolyc]

* lumped capacitances:
cp1 VDD VSS 1.56329f
cp2 2 VSS 0.066909f
cp3 3 VSS 0.0329567f
cp4 4 VSS 0.053738f
cp5 5 VSS 0.0311139f
cp6 6 VSS 0.0589038f
cp7 7 VSS 0.0343163f
cp8 8 VSS 0.0845744f
cp9 9 VSS 0.0313892f
cp10 10 VSS 0.0295062f
cp11 11 VSS 0.0355657f
cp12 12 VSS 0.0272432f
cp13 13 VSS 0.0374993f
cp14 14 VSS 0.0743539f
cp15 15 VSS 0.040173f
cp16 16 VSS 0.0772047f
cp17 18 VSS 0.0669662f
cp18 19 VSS 0.0343023f
cp19 20 VSS 0.0537532f
cp20 21 VSS 0.0292001f
cp21 22 VSS 0.0537718f
cp22 23 VSS 0.02742f
cp23 24 VSS 0.0961625f
cp24 25 VSS 0.0541043f
cp25 26 VSS 0.0806768f
cp26 27 VSS 0.0474487f
cp27 28 VSS 0.0809222f
cp28 29 VSS 0.0503317f
cp29 30 VSS 0.0980707f
cp30 31 VSS 0.031499f
cp31 32 VSS 0.0712853f
cp32 33 VSS 1.5824f
cp33 34 VSS 0.702386f
cp34 35 VSS 0.71486f
cp35 36 VSS 0.956247f
cp36 37 VSS 0.736203f
cp37 38 VSS 0.695164f
cp38 39 VSS 0.722612f
cp39 Z VSS 1.54225f
cp40 124 VSS 1.26666f
cp41 C VSS 0.572138f
cp42 B VSS 0.269761f
cp43 A VSS 0.135527f

.ENDS


** and4m05p.lpe extracted by xCalibre v9.1_1.1 **

** Version: $LSILogic: and4m05p.iclib2,v 9.0.1.6 2002/07/18 14:39:13 rchiang Exp $

.SUBCKT AND4M05P Z A B C D VDD VSS 

* devices:
m0 10 15 9 VDD pm_hp l=0.117328u w=1.09278u ad=0.200462p as=0.395712p pd=0.395u
+ ps=1.795u
m1 11 16 10 VDD pm_hp l=0.117328u w=1.09278u ad=0.219162p as=0.200462p pd=0.395u
+ ps=0.395u
m2 12 17 11 VDD pm_hp l=0.117328u w=1.09278u ad=0.200462p as=0.219162p pd=0.395u
+ ps=0.395u
m3 13 18 12 VDD pm_hp l=0.117328u w=1.09278u ad=0.244587p as=0.200462p
+ pd=0.48183u ps=0.395u
m4 14 19 13 VDD pm_hp l=0.117479u w=1.02778u ad=0.420562p as=0.230038p pd=1.86u
+ ps=0.45317u
m5 3 15 2 VSS nm_hp l=0.119204u w=0.717426u ad=0.112125p as=0.330525p pd=0.32u
+ ps=1.645u
m6 4 16 3 VSS nm_hp l=0.119204u w=0.717426u ad=0.113737p as=0.112125p pd=0.325u
+ ps=0.32u
m7 5 17 4 VSS nm_hp l=0.119204u w=0.717426u ad=0.0958125p as=0.113737p pd=0.275u
+ ps=0.325u
m8 6 18 5 VSS nm_hp l=0.119204u w=0.717426u ad=0.367823p as=0.0958125p
+ pd=1.58982u ps=0.275u
m9 7 19 6 VSS nm_hp l=0.120619u w=0.670208u ad=0.223637p as=0.343614p pd=1.33u
+ ps=1.48518u

* resistors:
r10 53 2 40 $[mnc]
r11 VSS 6 40 $[mnc]
r12 VSS 6 40 $[mnc]
r13 Z 7 40 $[mnc]
r14 VDD 9 40 $[mpc]
r15 53 10 40 $[mpc]
r16 VDD 11 40 $[mpc]
r17 VDD 11 40 $[mpc]
r18 53 12 40 $[mpc]
r19 VDD 13 40 $[mpc]
r20 VDD 13 40 $[mpc]
r21 Z 14 40 $[mpc]
r22 A 15 14 $[mpolyc]
r23 B 16 14 $[mpolyc]
r24 C 17 14 $[mpolyc]
r25 D 18 14 $[mpolyc]
r26 53 19 14 $[mpolyc]

* lumped capacitances:
cp1 VDD VSS 0.755985f
cp2 2 VSS 0.0370352f
cp3 4 VSS 0.00742427f
cp4 5 VSS 0.00382252f
cp5 6 VSS 0.0534347f
cp6 7 VSS 0.0397901f
cp7 9 VSS 0.0872681f
cp8 10 VSS 0.0304373f
cp9 11 VSS 0.0684828f
cp10 12 VSS 0.0314364f
cp11 13 VSS 0.0816418f
cp12 14 VSS 0.0317797f
cp13 15 VSS 0.372691f
cp14 16 VSS 0.498733f
cp15 17 VSS 0.531127f
cp16 18 VSS 0.519558f
cp17 19 VSS 0.423686f
cp18 53 VSS 0.689956f
cp19 A VSS 0.129825f
cp20 B VSS 0.129243f
cp21 C VSS 0.0974697f
cp22 D VSS 0.122331f
cp23 Z VSS 0.241547f

.ENDS


** and4m1p.lpe extracted by xCalibre v9.1_1.1 **

** Version: $LSILogic: and4m1p.iclib2,v 9.0.1.4 2002/06/20 18:49:38 kensz Exp $

.SUBCKT AND4M1P Z A B C D VDD VSS 

* devices:
m0 10 15 9 VDD pm_hp l=0.117032u w=1.43521u ad=0.236462p as=0.511362p pd=0.38u
+ ps=2.095u
m1 11 16 10 VDD pm_hp l=0.117032u w=1.43521u ad=0.290862p as=0.236462p pd=0.38u
+ ps=0.38u
m2 12 17 11 VDD pm_hp l=0.117032u w=1.43521u ad=0.281962p as=0.290862p pd=0.445u
+ ps=0.38u
m3 13 18 12 VDD pm_hp l=0.117032u w=1.43521u ad=0.332148p as=0.281962p
+ pd=0.502483u ps=0.445u
m4 14 19 13 VDD pm_hp l=0.116675u w=1.73521u ad=0.658962p as=0.401577p pd=2.525u
+ ps=0.607517u
m5 3 15 2 VSS nm_hp l=0.118972u w=0.935208u ad=0.14375p as=0.380962p pd=0.31u
+ ps=1.765u
m6 4 16 3 VSS nm_hp l=0.118972u w=0.935208u ad=0.137162p as=0.14375p pd=0.31u
+ ps=0.31u
m7 5 17 4 VSS nm_hp l=0.118972u w=0.935208u ad=0.129937p as=0.137162p pd=0.31u
+ ps=0.31u
m8 6 18 5 VSS nm_hp l=0.118972u w=0.935208u ad=0.353809p as=0.129937p
+ pd=1.05134u ps=0.31u
m9 7 19 6 VSS nm_hp l=0.118194u w=1.15521u ad=0.371562p as=0.43704p pd=1.815u
+ ps=1.29866u

* resistors:
r10 54 2 40 $[mnc]
r11 VSS 6 40 $[mnc]
r12 VSS 6 40 $[mnc]
r13 Z 7 40 $[mnc]
r14 VDD 9 40 $[mpc]
r15 VDD 9 40 $[mpc]
r16 54 10 40 $[mpc]
r17 VDD 11 40 $[mpc]
r18 VDD 11 40 $[mpc]
r19 54 12 40 $[mpc]
r20 VDD 13 40 $[mpc]
r21 VDD 13 40 $[mpc]
r22 Z 14 40 $[mpc]
r23 A 15 14 $[mpolyc]
r24 B 16 14 $[mpolyc]
r25 C 17 14 $[mpolyc]
r26 D 18 14 $[mpolyc]
r27 54 19 14 $[mpolyc]

* lumped capacitances:
cp1 VDD VSS 0.668808f
cp2 2 VSS 0.0288445f
cp3 4 VSS 0.00425421f
cp4 5 VSS 0.00736845f
cp5 6 VSS 0.0535487f
cp6 7 VSS 0.0418897f
cp7 9 VSS 0.0836126f
cp8 10 VSS 0.0309527f
cp9 11 VSS 0.0761958f
cp10 12 VSS 0.037819f
cp11 13 VSS 0.0868835f
cp12 14 VSS 0.031722f
cp13 15 VSS 0.420047f
cp14 16 VSS 0.577185f
cp15 17 VSS 0.564959f
cp16 18 VSS 0.533858f
cp17 19 VSS 0.469582f
cp18 54 VSS 0.656012f
cp19 A VSS 0.125542f
cp20 B VSS 0.131007f
cp21 C VSS 0.0967615f
cp22 D VSS 0.128138f
cp23 Z VSS 0.229475f

.ENDS


** and4m2p.lpe extracted by xCalibre v9.1_1.1 **

** Version: $LSILogic: and4m2p.iclib2,v 9.0.1.4 2002/06/20 19:29:06 kensz Exp $

.SUBCKT AND4M2P Z A B C D VDD VSS 

* devices:
m0 11 17 10 VDD pm_hp l=0.116656u w=1.75521u ad=0.283662p as=0.636162p pd=0.38u
+ ps=2.415u
m1 12 17 11 VDD pm_hp l=0.116656u w=1.75521u ad=0.364837p as=0.283662p pd=0.38u
+ ps=0.38u
m2 13 18 12 VDD pm_hp l=0.116656u w=1.75521u ad=0.284512p as=0.364837p pd=0.38u
+ ps=0.38u
m3 14 19 13 VDD pm_hp l=0.116656u w=1.75521u ad=0.364412p as=0.284512p pd=0.38u
+ ps=0.38u
m4 15 20 14 VDD pm_hp l=0.116656u w=1.75521u ad=0.460812p as=0.364412p pd=0.585u
+ ps=0.38u
m5 16 21 15 VDD pm_hp l=0.116656u w=1.75521u ad=0.635312p as=0.460812p pd=2.415u
+ ps=0.585u
m6 3 17 2 VSS nm_hp l=0.118152u w=1.17021u ad=0.197375p as=0.408012p pd=0.38u
+ ps=1.83u
m7 4 17 3 VSS nm_hp l=0.118152u w=1.17021u ad=0.326575p as=0.197375p pd=0.915u
+ ps=0.38u
m8 5 18 4 VSS nm_hp l=0.118152u w=1.17021u ad=0.2282p as=0.326575p pd=0.395u
+ ps=0.915u
m9 6 19 5 VSS nm_hp l=0.118152u w=1.17021u ad=0.191312p as=0.2282p pd=0.33u
+ ps=0.395u
m10 7 20 6 VSS nm_hp l=0.118152u w=1.17021u ad=0.316162p as=0.191312p pd=0.55u
+ ps=0.33u
m11 8 21 7 VSS nm_hp l=0.118152u w=1.17021u ad=0.376137p as=0.316162p pd=1.83u
+ ps=0.55u

* resistors:
r12 VSS 2 40 $[mnc]
r13 VSS 2 40 $[mnc]
r14 Z 3 40 $[mnc]
r15 VSS 4 40 $[mnc]
r16 VSS 4 40 $[mnc]
r17 63 8 40 $[mnc]
r18 VDD 10 40 $[mpc]
r19 VDD 10 40 $[mpc]
r20 Z 11 40 $[mpc]
r21 VDD 12 40 $[mpc]
r22 VDD 12 40 $[mpc]
r23 63 13 40 $[mpc]
r24 VDD 14 40 $[mpc]
r25 VDD 14 40 $[mpc]
r26 63 15 40 $[mpc]
r27 VDD 16 40 $[mpc]
r28 VDD 16 40 $[mpc]
r29 63 17 14 $[mpolyc]
r30 D 18 14 $[mpolyc]
r31 C 19 14 $[mpolyc]
r32 B 20 14 $[mpolyc]
r33 A 21 14 $[mpolyc]

* lumped capacitances:
cp1 VDD VSS 0.805408f
cp2 2 VSS 0.0744319f
cp3 3 VSS 0.0381096f
cp4 4 VSS 0.0484689f
cp5 8 VSS 0.0295542f
cp6 10 VSS 0.0668804f
cp7 11 VSS 0.031473f
cp8 12 VSS 0.0539689f
cp9 13 VSS 0.0374769f
cp10 14 VSS 0.0712234f
cp11 15 VSS 0.0449856f
cp12 16 VSS 0.0934304f
cp13 17 VSS 0.634257f
cp14 18 VSS 0.612393f
cp15 19 VSS 0.611031f
cp16 20 VSS 0.561056f
cp17 21 VSS 0.380966f
cp18 Z VSS 0.218002f
cp19 63 VSS 0.610683f
cp20 D VSS 0.123016f
cp21 C VSS 0.139425f
cp22 B VSS 0.108584f
cp23 A VSS 0.129863f

.ENDS


** and4m4p.lpe extracted by xCalibre v9.1_1.1 **

** Version: $LSILogic: and4m4p.iclib2,v 9.0.1.5 2002/06/20 18:50:40 kensz Exp $

.SUBCKT AND4M4P Z A B C D VDD VSS 

* devices:
m0 13 21 12 VDD pm_hp l=0.116656u w=1.75521u ad=0.284512p as=0.635312p pd=0.38u
+ ps=2.415u
m1 14 21 13 VDD pm_hp l=0.116656u w=1.75521u ad=0.364412p as=0.284512p pd=0.38u
+ ps=0.38u
m2 15 21 14 VDD pm_hp l=0.116656u w=1.75521u ad=0.284512p as=0.364412p pd=0.38u
+ ps=0.38u
m3 16 21 15 VDD pm_hp l=0.116656u w=1.75521u ad=0.364412p as=0.284512p pd=0.38u
+ ps=0.38u
m4 17 22 16 VDD pm_hp l=0.116656u w=1.75521u ad=0.284512p as=0.364412p pd=0.38u
+ ps=0.38u
m5 18 23 17 VDD pm_hp l=0.116656u w=1.75521u ad=0.364412p as=0.284512p pd=0.38u
+ ps=0.38u
m6 19 24 18 VDD pm_hp l=0.116656u w=1.75521u ad=0.314612p as=0.364412p pd=0.415u
+ ps=0.38u
m7 20 25 19 VDD pm_hp l=0.116656u w=1.75521u ad=0.635312p as=0.314612p pd=2.415u
+ ps=0.415u
m8 3 21 2 VSS nm_hp l=0.118152u w=1.17021u ad=0.197375p as=0.408012p pd=0.38u
+ ps=1.83u
m9 4 21 3 VSS nm_hp l=0.118152u w=1.17021u ad=0.22925p as=0.197375p pd=0.38u
+ ps=0.38u
m10 5 21 4 VSS nm_hp l=0.118152u w=1.17021u ad=0.197375p as=0.22925p pd=0.38u
+ ps=0.38u
m11 6 21 5 VSS nm_hp l=0.118152u w=1.17021u ad=0.322087p as=0.197375p pd=0.9u
+ ps=0.38u
m12 7 22 6 VSS nm_hp l=0.118152u w=1.17021u ad=0.1374p as=0.322087p pd=0.235u
+ ps=0.9u
m13 8 23 7 VSS nm_hp l=0.118152u w=1.17021u ad=0.28495p as=0.1374p pd=0.495u
+ ps=0.235u
m14 9 24 8 VSS nm_hp l=0.118152u w=1.17021u ad=0.219687p as=0.28495p pd=0.38u
+ ps=0.495u
m15 10 25 9 VSS nm_hp l=0.118152u w=1.17021u ad=0.376137p as=0.219687p pd=1.83u
+ ps=0.38u

* resistors:
r16 VSS 2 40 $[mnc]
r17 VSS 2 40 $[mnc]
r18 Z 3 40 $[mnc]
r19 VSS 4 40 $[mnc]
r20 VSS 4 40 $[mnc]
r21 Z 5 40 $[mnc]
r22 VSS 6 40 $[mnc]
r23 VSS 6 40 $[mnc]
r24 77 10 40 $[mnc]
r25 VDD 12 40 $[mpc]
r26 VDD 12 40 $[mpc]
r27 Z 13 40 $[mpc]
r28 VDD 14 40 $[mpc]
r29 VDD 14 40 $[mpc]
r30 Z 15 40 $[mpc]
r31 VDD 16 40 $[mpc]
r32 VDD 16 40 $[mpc]
r33 77 17 40 $[mpc]
r34 VDD 18 40 $[mpc]
r35 VDD 18 40 $[mpc]
r36 77 19 40 $[mpc]
r37 VDD 20 40 $[mpc]
r38 VDD 20 40 $[mpc]
r39 77 21 14 $[mpolyc]
r40 D 22 14 $[mpolyc]
r41 C 23 14 $[mpolyc]
r42 B 24 14 $[mpolyc]
r43 A 25 14 $[mpolyc]

* lumped capacitances:
cp1 VDD VSS 0.976713f
cp2 2 VSS 0.0669337f
cp3 3 VSS 0.0399503f
cp4 4 VSS 0.0728176f
cp5 5 VSS 0.0326792f
cp6 6 VSS 0.0483475f
cp7 10 VSS 0.0296893f
cp8 12 VSS 0.0669337f
cp9 13 VSS 0.0426534f
cp10 14 VSS 0.0697763f
cp11 15 VSS 0.0259259f
cp12 16 VSS 0.0741454f
cp13 17 VSS 0.0296032f
cp14 18 VSS 0.0731667f
cp15 19 VSS 0.0321976f
cp16 20 VSS 0.0917249f
cp17 21 VSS 1.04403f
cp18 22 VSS 0.671622f
cp19 23 VSS 0.660961f
cp20 24 VSS 0.596943f
cp21 25 VSS 0.452201f
cp22 Z VSS 0.481297f
cp23 77 VSS 0.70876f
cp24 D VSS 0.103867f
cp25 C VSS 0.129789f
cp26 B VSS 0.102416f
cp27 A VSS 0.133726f

.ENDS


** and4m8p.lpe extracted by xCalibre v9.1_1.1 **

** Version: $LSILogic: and4m8p.iclib2,v 9.0.1.4 2002/06/20 18:50:20 kensz Exp $

.SUBCKT AND4M8P Z A B C D VDD VSS 

* devices:
m0 22 39 21 VDD pm_hp l=0.116481u w=1.96021u ad=0.39465p as=0.654612p pd=0.38u
+ ps=2.64u
m1 23 39 22 VDD pm_hp l=0.116481u w=1.96021u ad=0.332175p as=0.39465p pd=0.38u
+ ps=0.38u
m2 24 40 23 VDD pm_hp l=0.116481u w=1.96021u ad=0.39465p as=0.332175p pd=0.38u
+ ps=0.38u
m3 25 40 24 VDD pm_hp l=0.116481u w=1.96021u ad=0.635362p as=0.39465p pd=2.62u
+ ps=0.38u
m4 27 41 26 VDD pm_hp l=0.116666u w=1.74521u ad=0.585712p as=0.632262p pd=0.735u
+ ps=2.405u
m5 28 42 27 VDD pm_hp l=0.116666u w=1.74521u ad=0.362937p as=0.585712p pd=0.38u
+ ps=0.735u
m6 29 42 28 VDD pm_hp l=0.116666u w=1.74521u ad=0.282187p as=0.362937p pd=0.38u
+ ps=0.38u
m7 30 43 29 VDD pm_hp l=0.116666u w=1.74521u ad=0.362937p as=0.282187p pd=0.38u
+ ps=0.38u
m8 31 44 30 VDD pm_hp l=0.116666u w=1.74521u ad=0.329212p as=0.362937p pd=0.435u
+ ps=0.38u
m9 32 44 31 VDD pm_hp l=0.116666u w=1.74521u ad=0.362937p as=0.329212p pd=0.38u
+ ps=0.435u
m10 33 44 32 VDD pm_hp l=0.116666u w=1.74521u ad=0.282187p as=0.362937p pd=0.38u
+ ps=0.38u
m11 34 45 33 VDD pm_hp l=0.116666u w=1.74521u ad=0.362937p as=0.282187p pd=0.38u
+ ps=0.38u
m12 35 45 34 VDD pm_hp l=0.116666u w=1.74521u ad=0.333487p as=0.362937p pd=0.44u
+ ps=0.38u
m13 36 45 35 VDD pm_hp l=0.116666u w=1.74521u ad=0.362937p as=0.333487p pd=0.38u
+ ps=0.44u
m14 37 46 36 VDD pm_hp l=0.116666u w=1.74521u ad=0.282187p as=0.362937p pd=0.38u
+ ps=0.38u
m15 38 46 37 VDD pm_hp l=0.116666u w=1.74521u ad=0.632262p as=0.282187p
+ pd=2.405u ps=0.38u
m16 3 39 2 VSS nm_hp l=0.117796u w=1.31521u ad=0.311262p as=0.573362p pd=0.49u
+ ps=2.145u
m17 4 39 3 VSS nm_hp l=0.117796u w=1.31521u ad=0.241272p as=0.311262p
+ pd=0.411295u ps=0.49u
m18 5 40 4 VSS nm_hp l=0.117616u w=1.30692u ad=0.262162p as=0.239753p pd=0.385u
+ ps=0.408705u
m19 6 40 5 VSS nm_hp l=0.117616u w=1.30692u ad=0.438262p as=0.262162p pd=1.995u
+ ps=0.385u
m20 8 41 7 VSS nm_hp l=0.118209u w=1.15021u ad=0.194061p as=0.604862p
+ pd=0.376355u ps=2.86u
m21 9 42 8 VSS nm_hp l=0.118004u w=1.14192u ad=0.225037p as=0.192664p pd=0.385u
+ ps=0.373645u
m22 10 42 9 VSS nm_hp l=0.118004u w=1.14192u ad=0.264877p as=0.225037p
+ pd=0.503175u ps=0.385u
m23 11 43 10 VSS nm_hp l=0.118209u w=1.15021u ad=0.241325p as=0.266798p pd=0.41u
+ ps=0.506825u
m24 12 44 11 VSS nm_hp l=0.118209u w=1.15021u ad=0.194425p as=0.241325p pd=0.38u
+ ps=0.41u
m25 13 44 12 VSS nm_hp l=0.118209u w=1.15021u ad=0.2246p as=0.194425p pd=0.38u
+ ps=0.38u
m26 14 44 13 VSS nm_hp l=0.118209u w=1.15021u ad=0.194425p as=0.2246p pd=0.38u
+ ps=0.38u
m27 15 45 14 VSS nm_hp l=0.118209u w=1.15021u ad=0.2246p as=0.194425p pd=0.38u
+ ps=0.38u
m28 16 45 15 VSS nm_hp l=0.118209u w=1.15021u ad=0.21115p as=0.2246p pd=0.41u
+ ps=0.38u
m29 17 45 16 VSS nm_hp l=0.118209u w=1.15021u ad=0.2246p as=0.21115p pd=0.38u
+ ps=0.41u
m30 18 46 17 VSS nm_hp l=0.118209u w=1.15021u ad=0.194425p as=0.2246p pd=0.38u
+ ps=0.38u
m31 19 46 18 VSS nm_hp l=0.118209u w=1.15021u ad=0.400212p as=0.194425p pd=1.81u
+ ps=0.38u

* resistors:
r32 152 2 40 $[mnc]
r33 151 3 40 $[mnc]
r34 152 4 40 $[mnc]
r35 154 5 40 $[mnc]
r36 152 6 40 $[mnc]
r37 VSS 7 40 $[mnc]
r38 VSS 7 40 $[mnc]
r39 157 8 40 $[mnc]
r40 154 9 40 $[mnc]
r41 157 10 40 $[mnc]
r42 VSS 11 40 $[mnc]
r43 VSS 11 40 $[mnc]
r44 Z 12 40 $[mnc]
r45 VSS 13 40 $[mnc]
r46 VSS 13 40 $[mnc]
r47 Z 14 40 $[mnc]
r48 VSS 15 40 $[mnc]
r49 VSS 15 40 $[mnc]
r50 Z 16 40 $[mnc]
r51 VSS 17 40 $[mnc]
r52 VSS 17 40 $[mnc]
r53 Z 18 40 $[mnc]
r54 VSS 19 40 $[mnc]
r55 151 21 40 $[mpc]
r56 VDD 22 40 $[mpc]
r57 VDD 22 40 $[mpc]
r58 151 23 40 $[mpc]
r59 VDD 24 40 $[mpc]
r60 VDD 24 40 $[mpc]
r61 151 25 40 $[mpc]
r62 VDD 26 40 $[mpc]
r63 VDD 26 40 $[mpc]
r64 151 27 40 $[mpc]
r65 VDD 28 40 $[mpc]
r66 VDD 28 40 $[mpc]
r67 151 29 40 $[mpc]
r68 VDD 30 40 $[mpc]
r69 VDD 30 40 $[mpc]
r70 Z 31 40 $[mpc]
r71 VDD 32 40 $[mpc]
r72 VDD 32 40 $[mpc]
r73 Z 33 40 $[mpc]
r74 VDD 34 40 $[mpc]
r75 VDD 34 40 $[mpc]
r76 Z 35 40 $[mpc]
r77 VDD 36 40 $[mpc]
r78 VDD 36 40 $[mpc]
r79 Z 37 40 $[mpc]
r80 VDD 38 40 $[mpc]
r81 VDD 38 40 $[mpc]
r82 A 39 14 $[mpolyc]
r83 B 40 14 $[mpolyc]
r84 D 41 14 $[mpolyc]
r85 C 42 14 $[mpolyc]
r86 D 43 14 $[mpolyc]
r87 151 44 14 $[mpolyc]
r88 151 45 14 $[mpolyc]
r89 151 46 14 $[mpolyc]

* lumped capacitances:
cp1 VDD VSS 1.88539f
cp2 2 VSS 0.0733921f
cp3 3 VSS 0.0517399f
cp4 4 VSS 0.0595972f
cp5 5 VSS 0.0403998f
cp6 6 VSS 0.0411972f
cp7 7 VSS 0.0727517f
cp8 8 VSS 0.0360192f
cp9 9 VSS 0.0387512f
cp10 10 VSS 0.0267839f
cp11 11 VSS 0.0602358f
cp12 12 VSS 0.0316335f
cp13 13 VSS 0.0654892f
cp14 14 VSS 0.0334395f
cp15 15 VSS 0.0682219f
cp16 16 VSS 0.0355611f
cp17 17 VSS 0.0650075f
cp18 18 VSS 0.036368f
cp19 19 VSS 0.0690729f
cp20 21 VSS 0.0413738f
cp21 22 VSS 0.0846182f
cp22 23 VSS 0.0502937f
cp23 24 VSS 0.0756185f
cp24 25 VSS 0.0362481f
cp25 26 VSS 0.0774668f
cp26 27 VSS 0.0627529f
cp27 28 VSS 0.0728926f
cp28 29 VSS 0.034799f
cp29 30 VSS 0.0750678f
cp30 31 VSS 0.0310642f
cp31 32 VSS 0.0710903f
cp32 33 VSS 0.0312666f
cp33 34 VSS 0.0711433f
cp34 35 VSS 0.0351933f
cp35 36 VSS 0.0703017f
cp36 37 VSS 0.0367407f
cp37 38 VSS 0.0712393f
cp38 39 VSS 0.714853f
cp39 40 VSS 0.715523f
cp40 41 VSS 0.470212f
cp41 42 VSS 0.769196f
cp42 43 VSS 0.580036f
cp43 44 VSS 1.04419f
cp44 45 VSS 1.06122f
cp45 46 VSS 0.703884f
cp46 151 VSS 1.43567f
cp47 152 VSS 0.454536f
cp48 A VSS 0.123952f
cp49 154 VSS 0.35775f
cp50 B VSS 0.106251f
cp51 D VSS 0.379062f
cp52 157 VSS 0.224034f
cp53 C VSS 0.133522f
cp54 Z VSS 1.09684f

.ENDS