GATE inv1x: AREA: 928.000000 (square microns) PRIMITIVE: INV LOGIC_EQUATION: O = ! a INPUT_PIN_COUNT: 1 MAX_LOADS: 999.000000 DELAY_EQUATION (pin a to pin y, nanoseconds): delay low-to-hi(rise) = 0.4200 + loads * 4.7100 delay hi-to-low(fall) = 0.4200 + loads * 3.6000 this pin has capacitance = 0.0514 loads(pF) WORST_CASE_DELAY_EQUATION delay low-to-hi(rise) = 0.4200 + loads * 4.7100 delay hi-to-low(fall) = 0.4200 + loads * 3.6000 this pin has capacitance = 0.0514 loads(pF) GATE inv2x: AREA: 928.000000 (square microns) PRIMITIVE: INV LOGIC_EQUATION: O = ! a INPUT_PIN_COUNT: 1 MAX_LOADS: 999.000000 DELAY_EQUATION (pin a to pin y, nanoseconds): delay low-to-hi(rise) = 0.3000 + loads * 1.9800 delay hi-to-low(fall) = 0.2900 + loads * 1.8200 this pin has capacitance = 0.1009 loads(pF) WORST_CASE_DELAY_EQUATION delay low-to-hi(rise) = 0.3000 + loads * 1.9800 delay hi-to-low(fall) = 0.2900 + loads * 1.8200 this pin has capacitance = 0.1009 loads(pF) GATE inv4x: AREA: 1392.000000 (square microns) PRIMITIVE: INV LOGIC_EQUATION: O = ! a INPUT_PIN_COUNT: 1 MAX_LOADS: 999.000000 DELAY_EQUATION (pin a to pin y, nanoseconds): delay low-to-hi(rise) = 0.2300 + loads * 1.0800 delay hi-to-low(fall) = 0.2700 + loads * 0.8500 this pin has capacitance = 0.1897 loads(pF) WORST_CASE_DELAY_EQUATION delay low-to-hi(rise) = 0.2300 + loads * 1.0800 delay hi-to-low(fall) = 0.2700 + loads * 0.8500 this pin has capacitance = 0.1897 loads(pF) GATE xor: AREA: 2320.000000 (square microns) PRIMITIVE: XOR LOGIC_EQUATION: O = ((!a * b) + (a * !b)) INPUT_PIN_COUNT: 2 MAX_LOADS: 999.000000 DELAY_EQUATION (pin a to pin y, nanoseconds): delay low-to-hi(rise) = 1.7700 + loads * 5.2300 delay hi-to-low(fall) = 0.9600 + loads * 4.6400 this pin has capacitance = 0.1442 loads(pF) DELAY_EQUATION (pin b to pin y, nanoseconds): delay low-to-hi(rise) = 1.9400 + loads * 4.6500 delay hi-to-low(fall) = 1.1400 + loads * 5.2200 this pin has capacitance = 0.1381 loads(pF) WORST_CASE_DELAY_EQUATION delay low-to-hi(rise) = 1.9400 + loads * 5.2300 delay hi-to-low(fall) = 1.1400 + loads * 5.2200 this pin has capacitance = 0.1442 loads(pF) GATE xnor: AREA: 2320.000000 (square microns) PRIMITIVE: XNOR LOGIC_EQUATION: O = ((!a * !b) + (a * b)) INPUT_PIN_COUNT: 2 MAX_LOADS: 999.000000 DELAY_EQUATION (pin a to pin y, nanoseconds): delay low-to-hi(rise) = 1.1100 + loads * 4.8600 delay hi-to-low(fall) = 1.0700 + loads * 3.3900 this pin has capacitance = 0.1502 loads(pF) DELAY_EQUATION (pin b to pin y, nanoseconds): delay low-to-hi(rise) = 1.5500 + loads * 4.8700 delay hi-to-low(fall) = 1.0700 + loads * 3.3900 this pin has capacitance = 0.1352 loads(pF) WORST_CASE_DELAY_EQUATION delay low-to-hi(rise) = 1.5500 + loads * 4.8700 delay hi-to-low(fall) = 1.0700 + loads * 3.3900 this pin has capacitance = 0.1502 loads(pF) GATE nand2: AREA: 1392.000000 (square microns) PRIMITIVE: NAND2 LOGIC_EQUATION: O = ! (a * b) INPUT_PIN_COUNT: 2 MAX_LOADS: 999.000000 DELAY_EQUATION (pin a to pin y, nanoseconds): delay low-to-hi(rise) = 0.6400 + loads * 4.0900 delay hi-to-low(fall) = 0.4000 + loads * 2.5700 this pin has capacitance = 0.0777 loads(pF) DELAY_EQUATION (pin b to pin y, nanoseconds): delay low-to-hi(rise) = 0.4600 + loads * 4.1000 delay hi-to-low(fall) = 0.3700 + loads * 2.5700 this pin has capacitance = 0.0716 loads(pF) WORST_CASE_DELAY_EQUATION delay low-to-hi(rise) = 0.6400 + loads * 4.1000 delay hi-to-low(fall) = 0.4000 + loads * 2.5700 this pin has capacitance = 0.0777 loads(pF) GATE nand3: AREA: 1856.000000 (square microns) PRIMITIVE: NAND3 LOGIC_EQUATION: O = ! (a * b * c) INPUT_PIN_COUNT: 3 MAX_LOADS: 999.000000 DELAY_EQUATION (pin a to pin y, nanoseconds): delay low-to-hi(rise) = 0.8900 + loads * 3.6000 delay hi-to-low(fall) = 0.5100 + loads * 2.4900 this pin has capacitance = 0.1000 loads(pF) DELAY_EQUATION (pin b to pin y, nanoseconds): delay low-to-hi(rise) = 0.7100 + loads * 4.1100 delay hi-to-low(fall) = 0.4200 + loads * 2.5000 this pin has capacitance = 0.0828 loads(pF) DELAY_EQUATION (pin c to pin y, nanoseconds): delay low-to-hi(rise) = 0.5600 + loads * 4.3900 delay hi-to-low(fall) = 0.3500 + loads * 2.4900 this pin has capacitance = 0.0777 loads(pF) WORST_CASE_DELAY_EQUATION delay low-to-hi(rise) = 0.8900 + loads * 4.3900 delay hi-to-low(fall) = 0.5100 + loads * 2.5000 this pin has capacitance = 0.1000 loads(pF) GATE nand4: AREA: 2320.000000 (square microns) PRIMITIVE: NAND4 LOGIC_EQUATION: O = ! (a * b * c * d) INPUT_PIN_COUNT: 4 MAX_LOADS: 999.000000 DELAY_EQUATION (pin a to pin y, nanoseconds): delay low-to-hi(rise) = 1.2700 + loads * 3.6200 delay hi-to-low(fall) = 0.6700 + loads * 2.3900 this pin has capacitance = 0.1030 loads(pF) DELAY_EQUATION (pin b to pin y, nanoseconds): delay low-to-hi(rise) = 1.0900 + loads * 3.6100 delay hi-to-low(fall) = 0.6100 + loads * 2.3900 this pin has capacitance = 0.0980 loads(pF) DELAY_EQUATION (pin c to pin y, nanoseconds): delay low-to-hi(rise) = 0.8200 + loads * 3.6200 delay hi-to-low(fall) = 0.5500 + loads * 2.4000 this pin has capacitance = 0.0980 loads(pF) DELAY_EQUATION (pin d to pin y, nanoseconds): delay low-to-hi(rise) = 0.5800 + loads * 3.6200 delay hi-to-low(fall) = 0.3800 + loads * 2.3900 this pin has capacitance = 0.1050 loads(pF) WORST_CASE_DELAY_EQUATION delay low-to-hi(rise) = 1.2700 + loads * 3.6200 delay hi-to-low(fall) = 0.6700 + loads * 2.4000 this pin has capacitance = 0.1050 loads(pF) GATE nor2: AREA: 1392.000000 (square microns) PRIMITIVE: NOR2 LOGIC_EQUATION: O = ! (a + b) INPUT_PIN_COUNT: 2 MAX_LOADS: 999.000000 DELAY_EQUATION (pin a to pin y, nanoseconds): delay low-to-hi(rise) = 0.3300 + loads * 3.6400 delay hi-to-low(fall) = 0.4500 + loads * 3.6400 this pin has capacitance = 0.0736 loads(pF) DELAY_EQUATION (pin b to pin y, nanoseconds): delay low-to-hi(rise) = 0.5000 + loads * 3.6400 delay hi-to-low(fall) = 0.7000 + loads * 3.6600 this pin has capacitance = 0.0968 loads(pF) WORST_CASE_DELAY_EQUATION delay low-to-hi(rise) = 0.5000 + loads * 3.6400 delay hi-to-low(fall) = 0.7000 + loads * 3.6600 this pin has capacitance = 0.0968 loads(pF) GATE nor3: AREA: 1856.000000 (square microns) PRIMITIVE: NOR3 LOGIC_EQUATION: O = ! (a + b + c) INPUT_PIN_COUNT: 3 MAX_LOADS: 999.000000 DELAY_EQUATION (pin a to pin y, nanoseconds): delay low-to-hi(rise) = 0.8400 + loads * 5.0400 delay hi-to-low(fall) = 1.3000 + loads * 3.4500 this pin has capacitance = 0.0856 loads(pF) DELAY_EQUATION (pin b to pin y, nanoseconds): delay low-to-hi(rise) = 0.7800 + loads * 5.0300 delay hi-to-low(fall) = 1.1400 + loads * 3.4300 this pin has capacitance = 0.0806 loads(pF) DELAY_EQUATION (pin c to pin y, nanoseconds): delay low-to-hi(rise) = 0.5200 + loads * 5.0300 delay hi-to-low(fall) = 0.8400 + loads * 3.4400 this pin has capacitance = 0.0826 loads(pF) WORST_CASE_DELAY_EQUATION delay low-to-hi(rise) = 0.8400 + loads * 5.0400 delay hi-to-low(fall) = 1.3000 + loads * 3.4500 this pin has capacitance = 0.0856 loads(pF) GATE nor4: AREA: 2320.000000 (square microns) PRIMITIVE: NOR4 LOGIC_EQUATION: O = ! (a + b + c + d) INPUT_PIN_COUNT: 4 MAX_LOADS: 999.000000 DELAY_EQUATION (pin a to pin y, nanoseconds): delay low-to-hi(rise) = 0.4100 + loads * 5.9100 delay hi-to-low(fall) = 1.1600 + loads * 3.2000 this pin has capacitance = 0.0887 loads(pF) DELAY_EQUATION (pin b to pin y, nanoseconds): delay low-to-hi(rise) = 0.8500 + loads * 5.9100 delay hi-to-low(fall) = 1.5300 + loads * 3.1800 this pin has capacitance = 0.0867 loads(pF) DELAY_EQUATION (pin c to pin y, nanoseconds): delay low-to-hi(rise) = 1.1100 + loads * 5.9200 delay hi-to-low(fall) = 1.7500 + loads * 3.1900 this pin has capacitance = 0.0867 loads(pF) DELAY_EQUATION (pin d to pin y, nanoseconds): delay low-to-hi(rise) = 1.2700 + loads * 5.9100 delay hi-to-low(fall) = 1.9400 + loads * 3.2000 this pin has capacitance = 0.0887 loads(pF) WORST_CASE_DELAY_EQUATION delay low-to-hi(rise) = 1.2700 + loads * 5.9200 delay hi-to-low(fall) = 1.9400 + loads * 3.2000 this pin has capacitance = 0.0887 loads(pF) GATE aoi21: AREA: 1856.000000 (square microns) PRIMITIVE: AOI21 LOGIC_EQUATION: O = ! ((a1 * a2) + b) INPUT_PIN_COUNT: 3 MAX_LOADS: 999.000000 DELAY_EQUATION (pin a1 to pin y, nanoseconds): delay low-to-hi(rise) = 0.7500 + loads * 3.5200 delay hi-to-low(fall) = 0.6700 + loads * 2.5300 this pin has capacitance = 0.1029 loads(pF) DELAY_EQUATION (pin a2 to pin y, nanoseconds): delay low-to-hi(rise) = 0.6700 + loads * 3.6400 delay hi-to-low(fall) = 0.6200 + loads * 2.5200 this pin has capacitance = 0.0908 loads(pF) DELAY_EQUATION (pin b to pin y, nanoseconds): delay low-to-hi(rise) = 0.5800 + loads * 3.6400 delay hi-to-low(fall) = 0.2100 + loads * 1.2800 this pin has capacitance = 0.1110 loads(pF) WORST_CASE_DELAY_EQUATION delay low-to-hi(rise) = 0.7500 + loads * 3.6400 delay hi-to-low(fall) = 0.6700 + loads * 2.5300 this pin has capacitance = 0.1110 loads(pF) GATE aoi31: AREA: 2320.000000 (square microns) PRIMITIVE: AOI31 LOGIC_EQUATION: O = ! ((a1 * a2 * a3) + b) INPUT_PIN_COUNT: 4 MAX_LOADS: 999.000000 DELAY_EQUATION (pin a1 to pin y, nanoseconds): delay low-to-hi(rise) = 0.9100 + loads * 4.0400 delay hi-to-low(fall) = 0.8100 + loads * 2.8600 this pin has capacitance = 0.1009 loads(pF) DELAY_EQUATION (pin a2 to pin y, nanoseconds): delay low-to-hi(rise) = 1.0500 + loads * 3.9300 delay hi-to-low(fall) = 0.8700 + loads * 2.8700 this pin has capacitance = 0.1049 loads(pF) DELAY_EQUATION (pin a3 to pin y, nanoseconds): delay low-to-hi(rise) = 1.1500 + loads * 3.9400 delay hi-to-low(fall) = 0.9400 + loads * 2.8600 this pin has capacitance = 0.1059 loads(pF) DELAY_EQUATION (pin b to pin y, nanoseconds): delay low-to-hi(rise) = 0.8900 + loads * 4.0600 delay hi-to-low(fall) = 0.2500 + loads * 1.2800 this pin has capacitance = 0.0979 loads(pF) WORST_CASE_DELAY_EQUATION delay low-to-hi(rise) = 1.1500 + loads * 4.0600 delay hi-to-low(fall) = 0.9400 + loads * 2.8700 this pin has capacitance = 0.1059 loads(pF) GATE aoi22: AREA: 2320.000000 (square microns) PRIMITIVE: AOI22 LOGIC_EQUATION: O = ! ((a1 * a2) + (b1 * b2)) INPUT_PIN_COUNT: 4 MAX_LOADS: 999.000000 DELAY_EQUATION (pin a1 to pin y, nanoseconds): delay low-to-hi(rise) = 0.9200 + loads * 3.4600 delay hi-to-low(fall) = 0.9400 + loads * 2.7900 this pin has capacitance = 0.1019 loads(pF) DELAY_EQUATION (pin a2 to pin y, nanoseconds): delay low-to-hi(rise) = 0.8400 + loads * 3.6400 delay hi-to-low(fall) = 0.8500 + loads * 2.7900 this pin has capacitance = 0.0908 loads(pF) DELAY_EQUATION (pin b1 to pin y, nanoseconds): delay low-to-hi(rise) = 0.6100 + loads * 3.6400 delay hi-to-low(fall) = 0.4900 + loads * 2.9300 this pin has capacitance = 0.0958 loads(pF) DELAY_EQUATION (pin b2 to pin y, nanoseconds): delay low-to-hi(rise) = 0.7000 + loads * 3.6400 delay hi-to-low(fall) = 0.5400 + loads * 2.9300 this pin has capacitance = 0.0988 loads(pF) WORST_CASE_DELAY_EQUATION delay low-to-hi(rise) = 0.9200 + loads * 3.6400 delay hi-to-low(fall) = 0.9400 + loads * 2.9300 this pin has capacitance = 0.1019 loads(pF) GATE aoi32: AREA: 2784.000000 (square microns) PRIMITIVE: AOI32 LOGIC_EQUATION: O = ! ((a1 * a2 * a3) + (b1 * b2)) INPUT_PIN_COUNT: 5 MAX_LOADS: 999.000000 DELAY_EQUATION (pin a1 to pin y, nanoseconds): delay low-to-hi(rise) = 1.0600 + loads * 3.8100 delay hi-to-low(fall) = 0.9600 + loads * 2.9100 this pin has capacitance = 0.1029 loads(pF) DELAY_EQUATION (pin a2 to pin y, nanoseconds): delay low-to-hi(rise) = 1.2000 + loads * 3.8100 delay hi-to-low(fall) = 1.0300 + loads * 2.9000 this pin has capacitance = 0.1009 loads(pF) DELAY_EQUATION (pin a3 to pin y, nanoseconds): delay low-to-hi(rise) = 1.2900 + loads * 3.6900 delay hi-to-low(fall) = 1.0600 + loads * 2.9100 this pin has capacitance = 0.1060 loads(pF) DELAY_EQUATION (pin b1 to pin y, nanoseconds): delay low-to-hi(rise) = 0.9100 + loads * 3.8100 delay hi-to-low(fall) = 0.4300 + loads * 2.1200 this pin has capacitance = 0.0979 loads(pF) DELAY_EQUATION (pin b2 to pin y, nanoseconds): delay low-to-hi(rise) = 0.7800 + loads * 3.5900 delay hi-to-low(fall) = 0.4300 + loads * 2.1200 this pin has capacitance = 0.1049 loads(pF) WORST_CASE_DELAY_EQUATION delay low-to-hi(rise) = 1.2900 + loads * 3.8100 delay hi-to-low(fall) = 1.0600 + loads * 2.9100 this pin has capacitance = 0.1060 loads(pF) GATE aoi33: AREA: 3248.000000 (square microns) PRIMITIVE: AOI33 LOGIC_EQUATION: O = ! ((a1 * a2 * a3) + (b1 * b2 * b3)) INPUT_PIN_COUNT: 6 MAX_LOADS: 999.000000 DELAY_EQUATION (pin a1 to pin y, nanoseconds): delay low-to-hi(rise) = 1.3300 + loads * 3.9100 delay hi-to-low(fall) = 1.3000 + loads * 2.9100 this pin has capacitance = 0.1029 loads(pF) DELAY_EQUATION (pin a2 to pin y, nanoseconds): delay low-to-hi(rise) = 1.4600 + loads * 3.8400 delay hi-to-low(fall) = 1.4100 + loads * 2.9100 this pin has capacitance = 0.1029 loads(pF) DELAY_EQUATION (pin a3 to pin y, nanoseconds): delay low-to-hi(rise) = 1.4700 + loads * 3.6500 delay hi-to-low(fall) = 1.4100 + loads * 2.9100 this pin has capacitance = 0.1120 loads(pF) DELAY_EQUATION (pin b1 to pin y, nanoseconds): delay low-to-hi(rise) = 1.1100 + loads * 3.5900 delay hi-to-low(fall) = 0.7600 + loads * 2.9000 this pin has capacitance = 0.1029 loads(pF) DELAY_EQUATION (pin b2 to pin y, nanoseconds): delay low-to-hi(rise) = 1.0400 + loads * 3.9100 delay hi-to-low(fall) = 0.6800 + loads * 2.9100 this pin has capacitance = 0.0949 loads(pF) DELAY_EQUATION (pin b3 to pin y, nanoseconds): delay low-to-hi(rise) = 0.8400 + loads * 3.5800 delay hi-to-low(fall) = 0.6400 + loads * 2.9000 this pin has capacitance = 0.1039 loads(pF) WORST_CASE_DELAY_EQUATION delay low-to-hi(rise) = 1.4700 + loads * 3.9100 delay hi-to-low(fall) = 1.4100 + loads * 2.9100 this pin has capacitance = 0.1120 loads(pF) GATE aoi211: AREA: 2320.000000 (square microns) PRIMITIVE: AOI211 LOGIC_EQUATION: O = ! ((a1 * a2) + b + c) INPUT_PIN_COUNT: 4 MAX_LOADS: 999.000000 DELAY_EQUATION (pin a1 to pin y, nanoseconds): delay low-to-hi(rise) = 1.1200 + loads * 4.8100 delay hi-to-low(fall) = 1.0300 + loads * 2.3800 this pin has capacitance = 0.1039 loads(pF) DELAY_EQUATION (pin a2 to pin y, nanoseconds): delay low-to-hi(rise) = 1.2900 + loads * 4.8100 delay hi-to-low(fall) = 1.0300 + loads * 2.3800 this pin has capacitance = 0.1090 loads(pF) DELAY_EQUATION (pin b to pin y, nanoseconds): delay low-to-hi(rise) = 1.0400 + loads * 4.8300 delay hi-to-low(fall) = 0.5200 + loads * 1.4000 this pin has capacitance = 0.1080 loads(pF) DELAY_EQUATION (pin c to pin y, nanoseconds): delay low-to-hi(rise) = 0.6800 + loads * 4.8300 delay hi-to-low(fall) = 0.5100 + loads * 1.7900 this pin has capacitance = 0.1008 loads(pF) WORST_CASE_DELAY_EQUATION delay low-to-hi(rise) = 1.2900 + loads * 4.8300 delay hi-to-low(fall) = 1.0300 + loads * 2.3800 this pin has capacitance = 0.1090 loads(pF) GATE aoi221: AREA: 2784.000000 (square microns) PRIMITIVE: AOI221 LOGIC_EQUATION: O = ! ((a1 * a2) + (b1 * b2) + c) INPUT_PIN_COUNT: 5 MAX_LOADS: 999.000000 DELAY_EQUATION (pin a1 to pin y, nanoseconds): delay low-to-hi(rise) = 1.4800 + loads * 4.4300 delay hi-to-low(fall) = 1.3300 + loads * 2.7800 this pin has capacitance = 0.1089 loads(pF) DELAY_EQUATION (pin a2 to pin y, nanoseconds): delay low-to-hi(rise) = 1.4200 + loads * 4.5600 delay hi-to-low(fall) = 1.4000 + loads * 2.7500 this pin has capacitance = 0.0948 loads(pF) DELAY_EQUATION (pin b1 to pin y, nanoseconds): delay low-to-hi(rise) = 0.7600 + loads * 4.4700 delay hi-to-low(fall) = 0.7900 + loads * 2.8900 this pin has capacitance = 0.1029 loads(pF) DELAY_EQUATION (pin b2 to pin y, nanoseconds): delay low-to-hi(rise) = 0.7300 + loads * 4.5800 delay hi-to-low(fall) = 0.7800 + loads * 2.9100 this pin has capacitance = 0.1049 loads(pF) DELAY_EQUATION (pin c to pin y, nanoseconds): delay low-to-hi(rise) = 1.3900 + loads * 4.5600 delay hi-to-low(fall) = 0.7000 + loads * 1.5100 this pin has capacitance = 0.1110 loads(pF) WORST_CASE_DELAY_EQUATION delay low-to-hi(rise) = 1.4800 + loads * 4.5800 delay hi-to-low(fall) = 1.4000 + loads * 2.9100 this pin has capacitance = 0.1110 loads(pF) GATE aoi222: AREA: 3712.000000 (square microns) PRIMITIVE: AOI222 LOGIC_EQUATION: O = ! ((a1 * a2) + (b1 * b2) + (c1 * c2) ) INPUT_PIN_COUNT: 6 MAX_LOADS: 999.000000 DELAY_EQUATION (pin a1 to pin y, nanoseconds): delay low-to-hi(rise) = 1.7700 + loads * 4.5800 delay hi-to-low(fall) = 1.5600 + loads * 2.9500 this pin has capacitance = 0.1019 loads(pF) DELAY_EQUATION (pin a2 to pin y, nanoseconds): delay low-to-hi(rise) = 1.7300 + loads * 4.6900 delay hi-to-low(fall) = 1.6000 + loads * 2.9300 this pin has capacitance = 0.0958 loads(pF) DELAY_EQUATION (pin b1 to pin y, nanoseconds): delay low-to-hi(rise) = 1.3400 + loads * 4.6800 delay hi-to-low(fall) = 1.2100 + loads * 2.9200 this pin has capacitance = 0.1039 loads(pF) DELAY_EQUATION (pin b2 to pin y, nanoseconds): delay low-to-hi(rise) = 1.5000 + loads * 4.6900 delay hi-to-low(fall) = 1.2200 + loads * 2.9200 this pin has capacitance = 0.1039 loads(pF) DELAY_EQUATION (pin c1 to pin y, nanoseconds): delay low-to-hi(rise) = 0.9200 + loads * 4.6700 delay hi-to-low(fall) = 0.8100 + loads * 2.9200 this pin has capacitance = 0.0958 loads(pF) DELAY_EQUATION (pin c2 to pin y, nanoseconds): delay low-to-hi(rise) = 0.7700 + loads * 4.4700 delay hi-to-low(fall) = 0.7600 + loads * 2.9200 this pin has capacitance = 0.1039 loads(pF) WORST_CASE_DELAY_EQUATION delay low-to-hi(rise) = 1.7700 + loads * 4.6900 delay hi-to-low(fall) = 1.6000 + loads * 2.9500 this pin has capacitance = 0.1039 loads(pF) GATE oai21: AREA: 1856.000000 (square microns) PRIMITIVE: OAI21 LOGIC_EQUATION: O = ! ( (a1 + a2) * b) INPUT_PIN_COUNT: 3 MAX_LOADS: 999.000000 DELAY_EQUATION (pin a1 to pin y, nanoseconds): delay low-to-hi(rise) = 0.6900 + loads * 3.9400 delay hi-to-low(fall) = 0.5300 + loads * 2.4700 this pin has capacitance = 0.1019 loads(pF) DELAY_EQUATION (pin a2 to pin y, nanoseconds): delay low-to-hi(rise) = 0.8700 + loads * 3.9300 delay hi-to-low(fall) = 0.6300 + loads * 2.4700 this pin has capacitance = 0.0979 loads(pF) DELAY_EQUATION (pin b to pin y, nanoseconds): delay low-to-hi(rise) = 0.3700 + loads * 2.0500 delay hi-to-low(fall) = 0.5700 + loads * 2.5100 this pin has capacitance = 0.0998 loads(pF) WORST_CASE_DELAY_EQUATION delay low-to-hi(rise) = 0.8700 + loads * 3.9400 delay hi-to-low(fall) = 0.6300 + loads * 2.5100 this pin has capacitance = 0.1019 loads(pF) GATE oai31: AREA: 2320.000000 (square microns) PRIMITIVE: OAI31 LOGIC_EQUATION: O = ! ( (a1 + a2 + a3) * b) INPUT_PIN_COUNT: 4 MAX_LOADS: 999.000000 DELAY_EQUATION (pin a1 to pin y, nanoseconds): delay low-to-hi(rise) = 1.2700 + loads * 4.7100 delay hi-to-low(fall) = 1.0300 + loads * 2.4300 this pin has capacitance = 0.1089 loads(pF) DELAY_EQUATION (pin a2 to pin y, nanoseconds): delay low-to-hi(rise) = 1.1100 + loads * 4.7100 delay hi-to-low(fall) = 1.0400 + loads * 2.5700 this pin has capacitance = 0.1049 loads(pF) DELAY_EQUATION (pin a3 to pin y, nanoseconds): delay low-to-hi(rise) = 0.8500 + loads * 4.7100 delay hi-to-low(fall) = 0.6900 + loads * 2.3800 this pin has capacitance = 0.1090 loads(pF) DELAY_EQUATION (pin b to pin y, nanoseconds): delay low-to-hi(rise) = 0.3800 + loads * 1.8600 delay hi-to-low(fall) = 0.8100 + loads * 2.7300 this pin has capacitance = 0.1059 loads(pF) WORST_CASE_DELAY_EQUATION delay low-to-hi(rise) = 1.2700 + loads * 4.7100 delay hi-to-low(fall) = 1.0400 + loads * 2.7300 this pin has capacitance = 0.1090 loads(pF) GATE oai22: AREA: 2320.000000 (square microns) PRIMITIVE: OAI22 LOGIC_EQUATION: O = ! ( (a1 + a2) * (b1 + b2)) INPUT_PIN_COUNT: 4 MAX_LOADS: 999.000000 DELAY_EQUATION (pin a1 to pin y, nanoseconds): delay low-to-hi(rise) = 1.1000 + loads * 4.0600 delay hi-to-low(fall) = 0.9000 + loads * 2.5000 this pin has capacitance = 0.1009 loads(pF) DELAY_EQUATION (pin a2 to pin y, nanoseconds): delay low-to-hi(rise) = 0.9900 + loads * 4.0600 delay hi-to-low(fall) = 0.6800 + loads * 2.3600 this pin has capacitance = 0.1029 loads(pF) DELAY_EQUATION (pin b1 to pin y, nanoseconds): delay low-to-hi(rise) = 0.6900 + loads * 3.6600 delay hi-to-low(fall) = 0.7400 + loads * 2.5300 this pin has capacitance = 0.0958 loads(pF) DELAY_EQUATION (pin b2 to pin y, nanoseconds): delay low-to-hi(rise) = 0.6100 + loads * 3.6600 delay hi-to-low(fall) = 0.5600 + loads * 2.0600 this pin has capacitance = 0.1039 loads(pF) WORST_CASE_DELAY_EQUATION delay low-to-hi(rise) = 1.1000 + loads * 4.0600 delay hi-to-low(fall) = 0.9000 + loads * 2.5300 this pin has capacitance = 0.1039 loads(pF) GATE oai32: AREA: 2784.000000 (square microns) PRIMITIVE: OAI32 LOGIC_EQUATION: O = ! ( (a1 + a2 + a3) * (b1 + b2)) INPUT_PIN_COUNT: 5 MAX_LOADS: 999.000000 DELAY_EQUATION (pin a1 to pin y, nanoseconds): delay low-to-hi(rise) = 1.3900 + loads * 4.4600 delay hi-to-low(fall) = 1.0400 + loads * 2.4600 this pin has capacitance = 0.1130 loads(pF) DELAY_EQUATION (pin a2 to pin y, nanoseconds): delay low-to-hi(rise) = 1.2500 + loads * 4.4600 delay hi-to-low(fall) = 1.0900 + loads * 2.6300 this pin has capacitance = 0.1069 loads(pF) DELAY_EQUATION (pin a3 to pin y, nanoseconds): delay low-to-hi(rise) = 0.9900 + loads * 4.4600 delay hi-to-low(fall) = 0.7400 + loads * 2.4200 this pin has capacitance = 0.1140 loads(pF) DELAY_EQUATION (pin b1 to pin y, nanoseconds): delay low-to-hi(rise) = 0.5800 + loads * 3.2000 delay hi-to-low(fall) = 0.7900 + loads * 2.7100 this pin has capacitance = 0.1059 loads(pF) DELAY_EQUATION (pin b2 to pin y, nanoseconds): delay low-to-hi(rise) = 0.6800 + loads * 3.2100 delay hi-to-low(fall) = 0.8300 + loads * 2.3400 this pin has capacitance = 0.1130 loads(pF) WORST_CASE_DELAY_EQUATION delay low-to-hi(rise) = 1.3900 + loads * 4.4600 delay hi-to-low(fall) = 1.0900 + loads * 2.7100 this pin has capacitance = 0.1140 loads(pF) GATE oai33: AREA: 3248.000000 (square microns) PRIMITIVE: OAI33 LOGIC_EQUATION: O = ! ( (a1 + a2 + a3) * (b1 + b2 + b3)) INPUT_PIN_COUNT: 6 MAX_LOADS: 999.000000 DELAY_EQUATION (pin a1 to pin y, nanoseconds): delay low-to-hi(rise) = 1.5800 + loads * 4.3000 delay hi-to-low(fall) = 1.4800 + loads * 2.4700 this pin has capacitance = 0.1170 loads(pF) DELAY_EQUATION (pin a2 to pin y, nanoseconds): delay low-to-hi(rise) = 1.5000 + loads * 4.3100 delay hi-to-low(fall) = 1.4200 + loads * 2.6300 this pin has capacitance = 0.1089 loads(pF) DELAY_EQUATION (pin a3 to pin y, nanoseconds): delay low-to-hi(rise) = 1.2400 + loads * 4.3100 delay hi-to-low(fall) = 1.1700 + loads * 2.6500 this pin has capacitance = 0.1079 loads(pF) DELAY_EQUATION (pin b1 to pin y, nanoseconds): delay low-to-hi(rise) = 0.8000 + loads * 4.3000 delay hi-to-low(fall) = 0.8200 + loads * 2.2700 this pin has capacitance = 0.1170 loads(pF) DELAY_EQUATION (pin b2 to pin y, nanoseconds): delay low-to-hi(rise) = 0.0000 + loads * 4.3000 delay hi-to-low(fall) = 1.1700 + loads * 2.6400 this pin has capacitance = 0.1089 loads(pF) DELAY_EQUATION (pin b3 to pin y, nanoseconds): delay low-to-hi(rise) = 1.1300 + loads * 4.3100 delay hi-to-low(fall) = 1.3500 + loads * 2.6500 this pin has capacitance = 0.1109 loads(pF) WORST_CASE_DELAY_EQUATION delay low-to-hi(rise) = 1.5800 + loads * 4.3100 delay hi-to-low(fall) = 1.4800 + loads * 2.6500 this pin has capacitance = 0.1170 loads(pF) GATE oai211: AREA: 2320.000000 (square microns) PRIMITIVE: OAI211 LOGIC_EQUATION: O = ! ( (a1 + a2) * b * c) INPUT_PIN_COUNT: 4 MAX_LOADS: 999.000000 DELAY_EQUATION (pin a1 to pin y, nanoseconds): delay low-to-hi(rise) = 1.1200 + loads * 4.1700 delay hi-to-low(fall) = 0.5900 + loads * 2.3100 this pin has capacitance = 0.1070 loads(pF) DELAY_EQUATION (pin a2 to pin y, nanoseconds): delay low-to-hi(rise) = 1.3000 + loads * 4.1600 delay hi-to-low(fall) = 0.7900 + loads * 2.3600 this pin has capacitance = 0.1131 loads(pF) DELAY_EQUATION (pin b to pin y, nanoseconds): delay low-to-hi(rise) = 0.5100 + loads * 2.1300 delay hi-to-low(fall) = 0.6900 + loads * 2.4000 this pin has capacitance = 0.1050 loads(pF) DELAY_EQUATION (pin c to pin y, nanoseconds): delay low-to-hi(rise) = 0.5000 + loads * 2.4600 delay hi-to-low(fall) = 0.5200 + loads * 2.4100 this pin has capacitance = 0.1050 loads(pF) WORST_CASE_DELAY_EQUATION delay low-to-hi(rise) = 1.3000 + loads * 4.1700 delay hi-to-low(fall) = 0.7900 + loads * 2.4100 this pin has capacitance = 0.1131 loads(pF) GATE oai221: AREA: 2784.000000 (square microns) PRIMITIVE: OAI221 LOGIC_EQUATION: O = ! ( (a1 + a2) * (b1 + b2) * c) INPUT_PIN_COUNT: 5 MAX_LOADS: 999.000000 DELAY_EQUATION (pin a1 to pin y, nanoseconds): delay low-to-hi(rise) = 1.5800 + loads * 4.1700 delay hi-to-low(fall) = 1.1100 + loads * 2.4700 this pin has capacitance = 0.1039 loads(pF) DELAY_EQUATION (pin a2 to pin y, nanoseconds): delay low-to-hi(rise) = 1.4800 + loads * 4.1700 delay hi-to-low(fall) = 0.8600 + loads * 2.3600 this pin has capacitance = 0.1050 loads(pF) DELAY_EQUATION (pin b1 to pin y, nanoseconds): delay low-to-hi(rise) = 0.9400 + loads * 4.0300 delay hi-to-low(fall) = 0.8100 + loads * 2.5000 this pin has capacitance = 0.1080 loads(pF) DELAY_EQUATION (pin b2 to pin y, nanoseconds): delay low-to-hi(rise) = 0.7600 + loads * 4.0300 delay hi-to-low(fall) = 0.6400 + loads * 2.5000 this pin has capacitance = 0.1060 loads(pF) DELAY_EQUATION (pin c to pin y, nanoseconds): delay low-to-hi(rise) = 0.7800 + loads * 2.2800 delay hi-to-low(fall) = 0.9000 + loads * 2.5400 this pin has capacitance = 0.1019 loads(pF) WORST_CASE_DELAY_EQUATION delay low-to-hi(rise) = 1.5800 + loads * 4.1700 delay hi-to-low(fall) = 1.1100 + loads * 2.5400 this pin has capacitance = 0.1080 loads(pF) GATE oai222: AREA: 3248.000000 (square microns) PRIMITIVE: OAI222 LOGIC_EQUATION: O = ! ( (a1 + a2) * (b1 + b2) * (c1 + c2)) INPUT_PIN_COUNT: 6 MAX_LOADS: 999.000000 DELAY_EQUATION (pin a1 to pin y, nanoseconds): delay low-to-hi(rise) = 1.7700 + loads * 3.7500 delay hi-to-low(fall) = 1.2100 + loads * 2.4700 this pin has capacitance = 0.1161 loads(pF) DELAY_EQUATION (pin a2 to pin y, nanoseconds): delay low-to-hi(rise) = 1.6200 + loads * 3.7500 delay hi-to-low(fall) = 1.1300 + loads * 2.4800 this pin has capacitance = 0.1110 loads(pF) DELAY_EQUATION (pin b1 to pin y, nanoseconds): delay low-to-hi(rise) = 1.1700 + loads * 3.5800 delay hi-to-low(fall) = 1.0700 + loads * 2.4800 this pin has capacitance = 0.1009 loads(pF) DELAY_EQUATION (pin b2 to pin y, nanoseconds): delay low-to-hi(rise) = 1.3500 + loads * 3.5800 delay hi-to-low(fall) = 1.1000 + loads * 2.3500 this pin has capacitance = 0.1191 loads(pF) DELAY_EQUATION (pin c1 to pin y, nanoseconds): delay low-to-hi(rise) = 0.9900 + loads * 3.5900 delay hi-to-low(fall) = 0.9300 + loads * 2.4900 this pin has capacitance = 0.1060 loads(pF) DELAY_EQUATION (pin c2 to pin y, nanoseconds): delay low-to-hi(rise) = 0.8200 + loads * 3.5800 delay hi-to-low(fall) = 0.7900 + loads * 2.4800 this pin has capacitance = 0.1140 loads(pF) WORST_CASE_DELAY_EQUATION delay low-to-hi(rise) = 1.7700 + loads * 3.7500 delay hi-to-low(fall) = 1.2100 + loads * 2.4900 this pin has capacitance = 0.1191 loads(pF)