blob: ffd14e9d9ec43d8ad72bbf12ef8f9e5a40cac74c [file] [log] [blame]
library (ls05_stdcells) {
delay_model: table_lookup;
in_place_swap_mode: match_footprint;
time_unit: "1ns";
voltage_unit: "1V";
current_unit: "1uA";
pulling_resistance_unit: "1kohm";
leakage_power_unit: "1nW";
capacitive_load_unit (1.0, pf);
slew_upper_threshold_pct_rise: 80.0;
slew_lower_threshold_pct_rise: 20.0;
slew_upper_threshold_pct_fall: 80.0;
slew_lower_threshold_pct_fall: 20.0;
input_threshold_pct_rise: 50.0;
input_threshold_pct_fall: 50.0;
output_threshold_pct_rise: 50.0;
output_threshold_pct_fall: 50.0;
nom_process: 1.0;
nom_voltage: 5.0;
nom_temperature: 25.0;
default_operating_conditions: typical;
operating_conditions (typical) {
process: 1.0;
voltage: 5.0;
temperature: 25.0;
}
lu_table_template (delay_template_5x5) {
variable_1: total_output_net_capacitance;
variable_2: input_net_transition;
index_1 (
"1000.000000, 1001.000000, 1002.000000, 1003.000000, 1004.000000"
);
index_2 (
"1000.000000, 1001.000000, 1002.000000, 1003.000000, 1004.000000"
);
}
cell (INVX1) {
area: 438912.0;
cell_leakage_power: 0.1173;
pin (A) {
direction: input;
rise_capacitance: 0.006188556324394764;
fall_capacitance: 0.008930247677472391;
capacitance: 0.007559402000933578;
}
pin (Y) {
direction: output;
function: "!(A)";
function: "(!A)";
timing () {
related_pin: "A";
timing_sense: negative_unate;
cell_rise (delay_template_5x5) {
index_1 (
"0.000500, 0.050000, 0.100000, 0.200000, 1.000000"
);
index_2 (
"0.010000, 0.050000, 0.100000, 0.200000, 1.500000"
);
values (
"0.005045, 0.004409, 0.003488, -0.000307, -0.065884", \
"0.045060, 0.042762, 0.047513, 0.054699, 0.040967", \
"0.088722, 0.082033, 0.082140, 0.091178, 0.111791", \
"0.176767, 0.166715, 0.160456, 0.160380, 0.224564", \
"0.882682, 0.869493, 0.854103, 0.828028, 0.824714"
);
}
cell_fall (delay_template_5x5) {
index_1 (
"0.000500, 0.050000, 0.100000, 0.200000, 1.000000"
);
index_2 (
"0.010000, 0.050000, 0.100000, 0.200000, 1.500000"
);
values (
"0.005563, 0.008580, 0.012595, 0.019184, 0.090037", \
"0.046837, 0.047773, 0.053764, 0.068471, 0.181014", \
"0.091353, 0.089965, 0.091587, 0.103620, 0.243501", \
"0.180850, 0.178100, 0.176154, 0.179192, 0.343968", \
"0.897064, 0.893202, 0.888379, 0.879811, 0.928891"
);
}
rise_transition (delay_template_5x5) {
index_1 (
"0.000500, 0.050000, 0.100000, 0.200000, 1.000000"
);
index_2 (
"0.010000, 0.050000, 0.100000, 0.200000, 1.500000"
);
values (
"0.008037, 0.029159, 0.057520, 0.115796, 0.870209", \
"0.074565, 0.079799, 0.096343, 0.138761, 0.864852", \
"0.145329, 0.146192, 0.155787, 0.188759, 0.863750", \
"0.286862, 0.286915, 0.288453, 0.307678, 0.903487", \
"1.420162, 1.420160, 1.420161, 1.420161, 1.674200"
);
}
fall_transition (delay_template_5x5) {
index_1 (
"0.000500, 0.050000, 0.100000, 0.200000, 1.000000"
);
index_2 (
"0.010000, 0.050000, 0.100000, 0.200000, 1.500000"
);
values (
"0.008767, 0.030412, 0.056701, 0.115566, 0.870158", \
"0.089918, 0.095810, 0.111953, 0.155870, 0.877226", \
"0.175658, 0.177628, 0.186680, 0.219666, 0.900539", \
"0.348403, 0.348491, 0.350746, 0.368988, 0.971736", \
"1.726613, 1.726603, 1.726598, 1.726608, 1.975691"
);
}
}
}
}
}