klayout/testdata/lvs/invchain_cheat.lvsdb

#%lvsdb-klayout
J(
 W(INVCHAIN)
 U(0.001)
 L(l3 '3/0')
 L(l11 '3/1')
 L(l6 '4/0')
 L(l7 '5/0')
 L(l8 '6/0')
 L(l12 '6/1')
 L(l9 '7/0')
 L(l10 '8/0')
 L(l13 '8/1')
 L(l14)
 L(l2)
 L(l5)
 C(l3 l3 l11 l7)
 C(l11 l3 l11)
 C(l6 l6 l8 l2 l5)
 C(l7 l3 l7 l8)
 C(l8 l6 l7 l8 l12 l9)
 C(l12 l8 l12)
 C(l9 l8 l9 l10)
 C(l10 l9 l10 l13)
 C(l13 l10 l13)
 C(l14 l14)
 C(l2 l6 l2)
 C(l5 l6 l5)
 G(l14 SUBSTRATE)
 K(PMOS MOS3)
 K(NMOS MOS3)
 D(D$PMOS PMOS
  T(S
   R(l2 (-900 -475) (775 950))
  )
  T(G
   R(l3 (-125 -475) (250 950))
  )
  T(D
   R(l2 (125 -475) (775 950))
  )
 )
 D(D$NMOS NMOS
  T(S
   R(l5 (-900 -475) (775 950))
  )
  T(G
   R(l3 (-125 -475) (250 950))
  )
  T(D
   R(l5 (125 -475) (775 950))
  )
 )
 X(INV
  R((-1500 -800) (3000 4600))
  N(1
   R(l6 (290 -310) (220 220))
   R(l6 (-220 180) (220 220))
   R(l8 (-290 -690) (360 760))
   R(l9 (-305 -705) (250 250))
   R(l9 (-250 150) (250 250))
   R(l10 (-2025 -775) (3000 900))
   R(l5 (-1375 -925) (775 950))
  )
  N(2
   R(l6 (290 2490) (220 220))
   R(l6 (-220 180) (220 220))
   R(l8 (-290 -690) (360 760))
   R(l9 (-305 -705) (250 250))
   R(l9 (-250 150) (250 250))
   R(l10 (-2025 -775) (3000 900))
   R(l2 (-1375 -925) (775 950))
  )
  N(3
   R(l3 (-125 -250) (250 2500))
   R(l3 (-250 -3050) (250 1600))
   R(l3 (-250 1200) (250 1600))
  )
  N(4
   R(l6 (-510 -310) (220 220))
   R(l6 (-220 180) (220 220))
   R(l6 (-220 2180) (220 220))
   R(l6 (-220 180) (220 220))
   R(l8 (-290 -3530) (360 2840))
   R(l8 (-360 -2800) (360 760))
   R(l8 (-360 2040) (360 760))
   R(l2 (-680 -855) (775 950))
   R(l5 (-775 -3750) (775 950))
  )
  P(1)
  P(2)
  P(3)
  P(4)
  D(1 D$PMOS
   Y(0 2800)
   E(L 0.25)
   E(W 0.95)
   E(AS 0.73625)
   E(AD 0.73625)
   E(PS 3.45)
   E(PD 3.45)
   T(S 4)
   T(G 3)
   T(D 2)
  )
  D(2 D$NMOS
   Y(0 0)
   E(L 0.25)
   E(W 0.95)
   E(AS 0.73625)
   E(AD 0.73625)
   E(PS 3.45)
   E(PD 3.45)
   T(S 4)
   T(G 3)
   T(D 1)
  )
 )
 X(INV2
  R((0 0) (5500 4600))
  N(1)
  N(2)
  N(3)
  N(4)
  N(5)
  N(6)
  P(1)
  P(2)
  P(3)
  P(4)
  P(5)
  P(6)
  X(1 INV M O(180) Y(1500 800)
   P(0 6)
   P(1 5)
   P(2 3)
   P(3 1)
  )
  X(2 INV Y(4000 800)
   P(0 6)
   P(1 5)
   P(2 4)
   P(3 2)
  )
 )
 X(INV3
  R((0 0) (6300 4600))
  N(1 I('3')
   R(l11 (1510 1930) (0 0))
  )
  N(2 I('5')
   R(l11 (2320 1910) (0 0))
  )
  N(3 I('7')
   R(l11 (4830 1890) (0 0))
  )
  N(4 I('4')
   R(l12 (1090 1970) (0 0))
  )
  N(5 I('6')
   R(l12 (2680 1940) (0 0))
  )
  N(6 I('8')
   R(l12 (4410 1920) (0 0))
  )
  N(7)
  N(8)
  P(1 I('3'))
  P(2 I('5'))
  P(3 I('7'))
  P(4 I('4'))
  P(5 I('6'))
  P(6 I('8'))
  P(7)
  P(8)
  X(1 INV Y(1500 800)
   P(0 8)
   P(1 7)
   P(2 1)
   P(3 4)
  )
  X(2 INV M O(180) Y(2300 800)
   P(0 8)
   P(1 7)
   P(2 2)
   P(3 5)
  )
  X(3 INV Y(4800 800)
   P(0 8)
   P(1 7)
   P(2 3)
   P(3 6)
  )
 )
 X(INVCHAIN
  R((-1500 -800) (10400 4600))
  N(1 I(IN)
   R(l3 (-1295 925) (1235 350))
   R(l11 (-910 -150) (0 0))
  )
  N(2
   R(l3 (445 805) (480 550))
   R(l7 (-435 -365) (220 220))
   R(l8 (-1065 -285) (1105 350))
  )
  N(3
   R(l3 (1345 925) (1945 350))
   R(l7 (-1885 -285) (220 220))
   R(l8 (-295 -370) (440 520))
  )
  N(4
   R(l3 (3745 805) (480 550))
   R(l7 (-435 -365) (220 220))
   R(l8 (-1065 -285) (1105 350))
  )
  N(5
   R(l3 (4645 925) (1945 350))
   R(l7 (-1885 -285) (220 220))
   R(l8 (-295 -370) (440 520))
  )
  N(6
   R(l3 (7045 805) (480 550))
   R(l7 (-435 -365) (220 220))
   R(l8 (-1065 -285) (1105 350))
  )
  N(7 I(OUT)
   R(l12 (7790 1100) (0 0))
  )
  N(8 I(VSS)
   R(l13 (6600 0) (0 0))
   R(l13 (-3300 0) (0 0))
   R(l13 (-3300 0) (0 0))
  )
  N(9 I(VDD)
   R(l13 (3300 2800) (0 0))
   R(l13 (3300 0) (0 0))
   R(l13 (-6600 0) (0 0))
  )
  P(1 I(IN))
  P(7 I(OUT))
  P(8 I(VSS))
  P(9 I(VDD))
  X(1 INV3 Y(-1500 -800)
   P(0 1)
   P(1 2)
   P(2 3)
   P(3 2)
   P(4 3)
   P(5 4)
   P(6 9)
   P(7 8)
  )
  X(2 INV2 Y(2600 -800)
   P(0 5)
   P(1 6)
   P(2 4)
   P(3 5)
   P(4 9)
   P(5 8)
  )
  X(3 INV M O(180) Y(7400 0)
   P(0 8)
   P(1 9)
   P(2 6)
   P(3 7)
  )
 )
)
H(
 K(PMOS MOS3)
 K(NMOS MOS3)
 X(INV
  N(1 I('1'))
  N(2 I('2'))
  N(3 I('3'))
  N(4 I('4'))
  P(1 I('1'))
  P(2 I('2'))
  P(3 I('3'))
  P(4 I('4'))
  D(1 PMOS
   I($1)
   E(L 0.25)
   E(W 0.95)
   E(AS 0)
   E(AD 0)
   E(PS 0)
   E(PD 0)
   T(S 1)
   T(G 3)
   T(D 4)
  )
  D(2 NMOS
   I($3)
   E(L 0.25)
   E(W 0.95)
   E(AS 0)
   E(AD 0)
   E(PS 0)
   E(PD 0)
   T(S 2)
   T(G 3)
   T(D 4)
  )
 )
 X(INV3
  N(1 I('1'))
  N(2 I('2'))
  N(3 I('3'))
  N(4 I('4'))
  N(5 I('5'))
  N(6 I('6'))
  N(7 I('7'))
  N(8 I('8'))
  P(1 I('1'))
  P(2 I('2'))
  P(3 I('3'))
  P(4 I('4'))
  P(5 I('5'))
  P(6 I('6'))
  P(7 I('7'))
  P(8 I('8'))
  X(1 INV I($1)
   P(0 1)
   P(1 2)
   P(2 3)
   P(3 4)
  )
  X(2 INV I($2)
   P(0 1)
   P(1 2)
   P(2 5)
   P(3 6)
  )
  X(3 INV I($3)
   P(0 1)
   P(1 2)
   P(2 7)
   P(3 8)
  )
 )
 X(INV2
  N(1 I('1'))
  N(2 I('2'))
  N(3 I('3'))
  N(4 I('4'))
  N(5 I('5'))
  N(6 I('6'))
  P(1 I('1'))
  P(2 I('2'))
  P(3 I('3'))
  P(4 I('4'))
  P(5 I('5'))
  P(6 I('6'))
  X(1 INV I($1)
   P(0 1)
   P(1 2)
   P(2 3)
   P(3 4)
  )
  X(2 INV I($2)
   P(0 1)
   P(1 2)
   P(2 5)
   P(3 6)
  )
 )
 X(INVCHAIN
  N(1 I('1'))
  N(2 I('2'))
  N(3 I('3'))
  N(4 I('4'))
  N(5 I('5'))
  N(6 I('6'))
  N(7 I('7'))
  N(8 I('8'))
  N(9 I('9'))
  X(1 INV3 I($1)
   P(0 1)
   P(1 2)
   P(2 3)
   P(3 4)
   P(4 4)
   P(5 5)
   P(6 5)
   P(7 6)
  )
  X(2 INV2 I($2)
   P(0 1)
   P(1 2)
   P(2 6)
   P(3 7)
   P(4 7)
   P(5 8)
  )
  X(3 INV I($3)
   P(0 1)
   P(1 2)
   P(2 8)
   P(3 9)
  )
 )
)
Z(
 X(INV INV 1
  Z(
   N(2 1 1)
   N(1 2 1)
   N(3 3 1)
   N(4 4 1)
   P(1 0 1)
   P(0 1 1)
   P(2 2 1)
   P(3 3 1)
   D(2 2 1)
   D(1 1 1)
  )
 )
 X(INV2 INV2 1
  L(
   M(W B('Matching nets $I8 vs. 4 from an ambiguous group of nets'))
   M(W B('Matching nets $I7 vs. 6 from an ambiguous group of nets'))
   M(I B('Matching nets $I6 vs. 3 following an ambiguous match'))
   M(I B('Matching nets $I5 vs. 5 following an ambiguous match'))
  )
  Z(
   N(5 1 1)
   N(6 2 1)
   N(3 3 1)
   N(1 4 W)
   N(4 5 1)
   N(2 6 W)
   P(4 0 1)
   P(5 1 1)
   P(2 2 1)
   P(0 3 1)
   P(3 4 1)
   P(1 5 1)
   X(1 1 1)
   X(2 2 1)
  )
 )
 X(INV3 INV3 1
  L(
   M(W B('Matching nets 4 from an ambiguous group of nets'))
   M(W B('Matching nets 6 from an ambiguous group of nets'))
   M(W B('Matching nets 8 from an ambiguous group of nets'))
   M(I B('Matching nets 3 following an ambiguous match'))
   M(I B('Matching nets 5 following an ambiguous match'))
   M(I B('Matching nets 7 following an ambiguous match'))
  )
  Z(
   N(7 1 1)
   N(8 2 1)
   N(1 3 1)
   N(4 4 W)
   N(2 5 1)
   N(5 6 W)
   N(3 7 1)
   N(6 8 W)
   P(6 0 1)
   P(7 1 1)
   P(0 2 1)
   P(3 3 1)
   P(1 4 1)
   P(4 5 1)
   P(2 6 1)
   P(5 7 1)
   X(1 1 1)
   X(2 2 1)
   X(3 3 1)
  )
 )
 X(INVCHAIN INVCHAIN 1
  Z(
   N(2 4 1)
   N(3 5 1)
   N(4 6 1)
   N(5 7 1)
   N(6 8 1)
   N(1 3 1)
   N(7 9 1)
   N(9 1 1)
   N(8 2 1)
   P(0 () 1)
   P(1 () 1)
   P(3 () 1)
   P(2 () 1)
   X(3 3 1)
   X(2 2 1)
   X(1 1 1)
  )
 )
)