Lines Matching refs:folds

86         //Calculate number of folds and gate pitches needed
87         unsigned int folds = (normalized_size_ < 1.0) ? 1 : (unsigned int)ceil(normalized_size_);
88         cell_->getGenProperties()->set(name_ + "_GatePitches", 2 * folds);
91         double nmos_width = std::max(calculateNmosWidth(cell_, 1, 2, 1) * normalized_size_ / folds, (double) tech->get("Gate->MinWidth"));
92         double pmos_width = std::max(calculatePmosWidth(cell_, 1, 2, 2) * normalized_size_ / folds, (double) tech->get("Gate->MinWidth"));
95         double leakage_power_00 = vdd * folds * 2 * tech->calculateNmosLeakageCurrent(1, nmos_width, 0x0);
96         double leakage_power_01 = vdd * folds * tech->calculatePmosLeakageCurrent(2, pmos_width, ~0x1);
97         double leakage_power_10 = vdd * folds * tech->calculatePmosLeakageCurrent(2, pmos_width, ~0x2);
98         double leakage_power_11 = vdd * folds * tech->calculatePmosLeakageCurrent(2, pmos_width, ~0x3);                        
106         double c_g = (nmos_width + pmos_width) * gate_cap * folds;
107         double c_d = (2 * pmos_width + 2 * nmos_width) * drain_cap * folds;
108         double r_on = (nmos_eff_res / nmos_width + pmos_stack2_balance * pmos_eff_res / pmos_width) / (folds * 2.0);
114         double wire_length = 2.0 * folds * cell_height;
186         //Calculate number of folds needed
187         unsigned int folds = (normalized_size_ < 1.0) ? 1 : (unsigned int)ceil(normalized_size_);
188         cell_->getGenProperties()->set(name_ + "_GatePitches", 2 * folds);
191         double nmos_width = std::max(calculateNmosWidth(cell_, 2, 1, 2) * normalized_size_ / folds, (double) tech->get("Gate->MinWidth"));
192         double pmos_width = std::max(calculatePmosWidth(cell_, 2, 1, 1) * normalized_size_ / folds, (double) tech->get("Gate->MinWidth"));
195         double leakage_power_00 = vdd * folds * tech->calculateNmosLeakageCurrent(2, nmos_width, 0x0);
196         double leakage_power_01 = vdd * folds * tech->calculateNmosLeakageCurrent(2, nmos_width, 0x1);
197         double leakage_power_10 = vdd * folds * tech->calculateNmosLeakageCurrent(2, nmos_width, 0x2);
198         double leakage_power_11 = vdd * folds * 2 * tech->calculatePmosLeakageCurrent(1, pmos_width, ~0x3);                        
208         double c_g = (nmos_width + pmos_width) * gate_cap * folds;
209         double c_d = (2 * pmos_width + 2 * nmos_width) * drain_cap * folds;
210         double r_on = (nmos_stack2_balance * nmos_eff_res / nmos_width + pmos_eff_res / pmos_width) / (folds * 2.0);
216         double wire_length = 2.0 * folds * cell_height;
283         //Calculate number of folds needed
284         unsigned int folds = (normalized_size_ < 1.0) ? 1 : (unsigned int)ceil(normalized_size_);
285         cell_->getGenProperties()->set(name_ + "_GatePitches", folds);
288         double nmos_width = std::max(calculateNmosWidth(cell_, 1, 1, 1) * normalized_size_ / folds, (double) tech->get("Gate->MinWidth"));
289         double pmos_width = std::max(calculatePmosWidth(cell_, 1, 1, 1) * normalized_size_ / folds, (double) tech->get("Gate->MinWidth"));
292         double leakage_power_0 = vdd * folds * tech->calculateNmosLeakageCurrent(1, nmos_width, 0x0);
293         double leakage_power_1 = vdd * folds * tech->calculatePmosLeakageCurrent(1, pmos_width, ~0x1);
298         double c_g = (nmos_width + pmos_width) * gate_cap * folds;
299         double c_d = (pmos_width + nmos_width) * drain_cap * folds;
300         double r_on = (nmos_eff_res / nmos_width + pmos_eff_res / pmos_width) / (folds * 2.0);
306         double wire_length = folds * cell_height;
384         //Calculate number of folds and gate pitches needed
385         unsigned int folds = (normalized_size_ < 1.0) ? 1 : (unsigned int)ceil(normalized_size_);
386         cell_->getGenProperties()->set(name_ + "_GatePitches", 2 * folds);
389         double nmos_width = std::max(calculateNmosWidth(cell_, 2, 2, 2) * normalized_size_ / folds, (double) tech->get("Gate->MinWidth"));
390         double pmos_width = std::max(calculatePmosWidth(cell_, 2, 2, 2) * normalized_size_ / folds, (double) tech->get("Gate->MinWidth"));
397         double leakage_power_010_0 = vdd * folds * tech->calculatePmosLeakageCurrent(2, pmos_width, ~0x2);
398         double leakage_power_010_1 = vdd * folds * tech->calculateNmosLeakageCurrent(2, nmos_width, 0x0);
399         double leakage_power_011_0 = vdd * folds * tech->calculatePmosLeakageCurrent(2, pmos_width, ~0x3);
400         double leakage_power_011_1 = vdd * folds * tech->calculateNmosLeakageCurrent(2, nmos_width, 0x1);
401         double leakage_power_100_1 = vdd * folds * tech->calculateNmosLeakageCurrent(2, nmos_width, 0x2);
402         double leakage_power_101_0 = vdd * folds * tech->calculatePmosLeakageCurrent(2, pmos_width, ~0x1);        
415         double c_g_a = (nmos_width + pmos_width) * gate_cap * folds;
416         double c_g_oe = nmos_width * gate_cap * folds;
417         double c_g_oen = pmos_width * gate_cap * folds;        
418         double c_d = (2 * pmos_width + 2 * nmos_width) * drain_cap * folds;
419         double r_on = (nmos_stack2_balance * nmos_eff_res / nmos_width + pmos_stack2_balance * pmos_eff_res / pmos_width) / (folds * 2.0);        
425         double wire_length = 2.0 * folds * cell_height;