/*** * This code is a part of EvoApproxLib library (ehw.fit.vutbr.cz/approxlib) distributed under The MIT License. * When used, please cite the following article(s): V. MRAZEK. Optimization of BDD-based Approximation Error Metrics Calculations. In: IEEE Computer Society Annual Symposium on VLSI (ISVLSI '22). Paphos: Institute of Electrical and Electronics Engineers, 2022, pp. 86-91. ISBN 978-1-6654-6605-9. * This file contains a circuit from a sub-set of pareto optimal circuits with respect to the pwr and mae parameters ***/ // MAE% = 0.00 % // MAE = 0 // WCE% = 0.00 % // WCE = 0 // WCRE% = 0.00 % // EP% = 0.00 % // MRE% = 0.00 % // MSE = 0 // PDK45_PWR = 0.072 mW // PDK45_AREA = 141.7 um2 // PDK45_DELAY = 1.28 ns module add16u_1A5(A, B, O); input [15:0] A, B; output [16:0] O; wire sig_33, sig_34, sig_35, sig_36, sig_38, sig_39; wire sig_40, sig_41, sig_43, sig_44, sig_45, sig_46; wire sig_48, sig_49, sig_50, sig_51, sig_53, sig_54; wire sig_55, sig_56, sig_58, sig_59, sig_60, sig_61; wire sig_63, sig_64, sig_65, sig_66, sig_68, sig_69; wire sig_70, sig_71, sig_73, sig_74, sig_75, sig_76; wire sig_78, sig_79, sig_80, sig_81, sig_83, sig_84; wire sig_85, sig_86, sig_88, sig_89, sig_90, sig_91; wire sig_93, sig_94, sig_95, sig_96, sig_98, sig_99; wire sig_100, sig_101, sig_103, sig_104, sig_105, sig_106; assign O[0] = A[0] ^ B[0]; assign sig_33 = A[0] & B[0]; assign sig_34 = A[1] ^ B[1]; assign sig_35 = A[1] & B[1]; assign sig_36 = sig_34 & sig_33; assign O[1] = sig_34 ^ sig_33; assign sig_38 = sig_35 | sig_36; assign sig_39 = A[2] ^ B[2]; assign sig_40 = A[2] & B[2]; assign sig_41 = sig_39 & sig_38; assign O[2] = sig_39 ^ sig_38; assign sig_43 = sig_40 | sig_41; assign sig_44 = A[3] ^ B[3]; assign sig_45 = A[3] & B[3]; assign sig_46 = sig_44 & sig_43; assign O[3] = sig_44 ^ sig_43; assign sig_48 = sig_45 | sig_46; assign sig_49 = A[4] ^ B[4]; assign sig_50 = A[4] & B[4]; assign sig_51 = sig_49 & sig_48; assign O[4] = sig_49 ^ sig_48; assign sig_53 = sig_50 | sig_51; assign sig_54 = A[5] ^ B[5]; assign sig_55 = A[5] & B[5]; assign sig_56 = sig_54 & sig_53; assign O[5] = sig_54 ^ sig_53; assign sig_58 = sig_55 | sig_56; assign sig_59 = A[6] ^ B[6]; assign sig_60 = A[6] & B[6]; assign sig_61 = sig_59 & sig_58; assign O[6] = sig_59 ^ sig_58; assign sig_63 = sig_60 | sig_61; assign sig_64 = A[7] ^ B[7]; assign sig_65 = A[7] & B[7]; assign sig_66 = sig_64 & sig_63; assign O[7] = sig_64 ^ sig_63; assign sig_68 = sig_65 | sig_66; assign sig_69 = A[8] ^ B[8]; assign sig_70 = A[8] & B[8]; assign sig_71 = sig_69 & sig_68; assign O[8] = sig_69 ^ sig_68; assign sig_73 = sig_70 | sig_71; assign sig_74 = A[9] ^ B[9]; assign sig_75 = A[9] & B[9]; assign sig_76 = sig_74 & sig_73; assign O[9] = sig_74 ^ sig_73; assign sig_78 = sig_75 | sig_76; assign sig_79 = A[10] ^ B[10]; assign sig_80 = A[10] & B[10]; assign sig_81 = sig_79 & sig_78; assign O[10] = sig_79 ^ sig_78; assign sig_83 = sig_80 | sig_81; assign sig_84 = A[11] ^ B[11]; assign sig_85 = A[11] & B[11]; assign sig_86 = sig_84 & sig_83; assign O[11] = sig_84 ^ sig_83; assign sig_88 = sig_85 | sig_86; assign sig_89 = A[12] ^ B[12]; assign sig_90 = A[12] & B[12]; assign sig_91 = sig_89 & sig_88; assign O[12] = sig_89 ^ sig_88; assign sig_93 = sig_90 | sig_91; assign sig_94 = A[13] ^ B[13]; assign sig_95 = A[13] & B[13]; assign sig_96 = sig_94 & sig_93; assign O[13] = sig_94 ^ sig_93; assign sig_98 = sig_95 | sig_96; assign sig_99 = A[14] ^ B[14]; assign sig_100 = A[14] & B[14]; assign sig_101 = sig_99 & sig_98; assign O[14] = sig_99 ^ sig_98; assign sig_103 = sig_100 | sig_101; assign sig_104 = A[15] ^ B[15]; assign sig_105 = A[15] & B[15]; assign sig_106 = sig_104 & sig_103; assign O[15] = sig_104 ^ sig_103; assign O[16] = sig_105 | sig_106; endmodule