/*** * 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, S. S. Sarwar, L. Sekanina, Z. Vasicek and K. Roy, "Design of power-efficient approximate multipliers for approximate artificial neural networks," 2016 IEEE/ACM International Conference on Computer-Aided Design (ICCAD), Austin, TX, 2016, pp. 1-7. doi: 10.1145/2966986.2967021 * This file contains a circuit from a sub-set of pareto optimal circuits with respect to the pwr and mae parameters ***/ // MAE% = 1.13 % // MAE = 186 // WCE% = 4.96 % // WCE = 812 // WCRE% = 150.39 % // EP% = 98.23 % // MRE% = 17.68 % // MSE = 54027 // PDK45_PWR = 0.065 mW // PDK45_AREA = 157.2 um2 // PDK45_DELAY = 0.75 ns module mul7u_09Y(A, B, O); input [6:0] A, B; output [13:0] O; wire [6:0] A, B; wire [13:0] O; wire sig_83, sig_113, sig_119, sig_144, sig_145, sig_146; wire sig_147, sig_148, sig_149, sig_150, sig_155, sig_156; wire sig_157, sig_172, sig_173, sig_174, sig_177, sig_178; wire sig_179, sig_181, sig_182, sig_183, sig_184, sig_185; wire sig_186, sig_187, sig_191, sig_192, sig_193, sig_206; wire sig_209, sig_210, sig_211, sig_212, sig_213, sig_214; wire sig_215, sig_216, sig_217, sig_218, sig_219, sig_220; wire sig_221, sig_222, sig_223, sig_231, sig_232, sig_233; wire sig_234, sig_236, sig_238, sig_239, sig_241, sig_242; wire sig_243, sig_244, sig_246, sig_247, sig_248, sig_249; assign sig_83 = A[6] & B[3]; assign sig_113 = A[6] & B[2]; assign sig_119 = A[5] & B[4]; assign O[6] = A[6] & B[4]; assign sig_144 = A[3] & A[4]; assign sig_145 = B[5] & A[4]; assign sig_146 = sig_83 ^ sig_119; assign sig_147 = sig_83 & sig_119; assign sig_148 = sig_146 & sig_113; assign sig_149 = sig_146 ^ sig_113; assign sig_150 = sig_147 ^ sig_148; assign sig_155 = A[4] & B[5]; assign sig_156 = A[5] & B[5]; assign sig_157 = A[6] & B[5]; assign sig_172 = B[6] & A[2]; assign sig_173 = sig_144 ^ A[3]; assign sig_174 = sig_144 & B[4]; assign O[0] = sig_173 & B[5]; assign sig_177 = sig_174 | O[0]; assign sig_178 = sig_149 ^ sig_155; assign sig_179 = A[4] & B[5]; assign sig_181 = sig_178 ^ sig_145; assign sig_182 = sig_179; assign sig_183 = O[6] ^ sig_156; assign sig_184 = O[6] & sig_156; assign sig_185 = sig_183 & sig_150; assign sig_186 = sig_183 ^ sig_150; assign sig_187 = sig_184 ^ sig_185; assign sig_191 = A[3] & B[6]; assign sig_192 = A[4] & B[6]; assign sig_193 = A[5] & B[6]; assign O[2] = A[6] & B[6]; assign O[4] = A[1] & B[6]; assign sig_206 = A[1] & A[2]; assign O[8] = O[4] ^ sig_172; assign sig_209 = sig_206 & B[6]; assign sig_210 = sig_181 ^ sig_191; assign sig_211 = sig_181 & sig_191; assign sig_212 = sig_210 & sig_177; assign sig_213 = sig_210 ^ sig_177; assign sig_214 = sig_211 | sig_212; assign sig_215 = sig_186 ^ sig_192; assign sig_216 = sig_186 & sig_192; assign sig_217 = sig_215 & sig_182; assign sig_218 = sig_215 ^ sig_182; assign sig_219 = sig_216 | sig_217; assign sig_220 = sig_157 ^ sig_193; assign sig_221 = sig_157 & sig_193; assign sig_222 = sig_220 & sig_187; assign sig_223 = sig_220 ^ sig_187; assign O[3] = sig_221 ^ sig_222; assign sig_231 = B[3] & A[5]; assign sig_232 = sig_213 ^ sig_209; assign sig_233 = sig_213 & sig_209; assign sig_234 = sig_232 & sig_231; assign O[9] = sig_232 ^ sig_231; assign sig_236 = sig_233 | sig_234; assign O[1] = sig_218 ^ sig_214; assign sig_238 = sig_218 & sig_214; assign sig_239 = O[1] & sig_236; assign O[10] = O[1] ^ sig_236; assign sig_241 = sig_238 ^ sig_239; assign sig_242 = sig_223 ^ sig_219; assign sig_243 = sig_223 & sig_219; assign sig_244 = sig_242 & sig_241; assign O[11] = sig_242 ^ sig_241; assign sig_246 = sig_243 | sig_244; assign sig_247 = O[2] ^ O[3]; assign sig_248 = B[6] & O[3]; assign sig_249 = sig_247 & sig_246; assign O[12] = sig_247 ^ sig_246; assign O[13] = sig_248 ^ sig_249; assign O[5] = O[4]; assign O[7] = O[0]; endmodule