// Library = EvoApprox 12x12 // Circuit = mul12x12_251 // Area (45) = 54 // Delay (45) = 0.370 // Power (45) = 0.02 // MAE = 584071.40000 // MSE = 527898155540.70001 // MRE = 277.68 % // WCE = 2501152 // WCRE = 52483900 % // EP = 100.0 % module mul12x12_251(A, B, O); input [11:0] A, B; output [23:0] O; wire n_1408, n_198, n_1274, n_1373, n_1369, n_376, n_23, n_22, n_21, n_20; wire n_41, n_26, n_1496, n_1139, n_29, n_49, n_1377, n_1512, n_1367, n_68; wire n_89, n_1109, n_1385, n_1383, n_1406, n_1502, n_129, n_1504, n_1506, n_486; wire n_1508, n_1520, n_1006, n_309, n_1236, n_1379, n_8, n_9, n_1375, n_4; wire n_5, n_6, n_7, n_0, n_1, n_2, n_3, n_30, n_1275, n_18; wire n_19, n_16, n_17, n_14, n_15, n_12, n_13, n_10, n_11, n_785; wire n_1522, n_1115, n_1387, n_1510, n_46, n_1516, n_1514, n_1410, n_1518; assign n_0 = A[0]; assign n_1 = A[1]; assign n_2 = A[2]; assign n_3 = A[3]; assign n_4 = A[4]; assign n_5 = A[5]; assign n_6 = A[6]; assign n_7 = A[7]; assign n_8 = A[8]; assign n_9 = A[9]; assign n_10 = A[10]; assign n_11 = A[11]; assign n_12 = B[0]; assign n_13 = B[1]; assign n_14 = B[2]; assign n_15 = B[3]; assign n_16 = B[4]; assign n_17 = B[5]; assign n_18 = B[6]; assign n_19 = B[7]; assign n_20 = B[8]; assign n_21 = B[9]; assign n_22 = B[10]; assign n_23 = B[11]; assign n_26 = ~(n_23 | n_12); assign n_29 = n_26 & n_12; assign n_30 = ~n_29; assign n_41 = ~(n_12 | n_30); assign n_46 = ~n_29; assign n_49 = ~(n_22 | n_46); assign n_68 = n_29; assign n_89 = ~(n_30 | n_13); assign n_129 = ~(n_29 | n_41); assign n_198 = ~n_41; assign n_309 = n_11 & n_21; assign n_376 = n_129; assign n_486 = ~n_129; assign n_785 = ~(n_198 | n_22); assign n_1006 = n_11 & n_20; assign n_1109 = n_41 ^ n_1006; assign n_1115 = n_1109; assign n_1139 = n_10 & n_21; assign n_1236 = n_1115 & n_1139; assign n_1274 = ~(n_10 & n_22); assign n_1275 = n_11 & n_22; assign n_1367 = n_198; assign n_1369 = ~(n_785 | n_1274); assign n_1373 = n_1369 & n_1367; assign n_1375 = ~n_30; assign n_1377 = n_1236 | n_1373; assign n_1379 = n_89 ^ n_1275; assign n_1383 = n_1379 & n_1377; assign n_1385 = n_1379 ^ n_1377; assign n_1387 = n_68 | n_1383; assign n_1406 = n_9 & n_23; assign n_1408 = n_10 & n_23; assign n_1410 = n_11 & n_23; assign n_1496 = n_9 & n_1406; assign n_1502 = n_1496 | n_486; assign n_1504 = n_1385 ^ n_1408; assign n_1506 = n_1385 & n_1408; assign n_1508 = n_1504 & n_1502; assign n_1510 = n_1504 ^ n_1502; assign n_1512 = n_1506 | n_1508; assign n_1514 = n_1387 ^ n_1410; assign n_1516 = n_1387 & n_1410; assign n_1518 = n_1514 & n_1512; assign n_1520 = n_1514 ^ n_1512; assign n_1522 = n_1516 | n_1518; assign O[0] = n_49; assign O[1] = n_2; assign O[2] = n_1375; assign O[3] = n_12; assign O[4] = n_13; assign O[5] = n_198; assign O[6] = n_19; assign O[7] = n_8; assign O[8] = n_21; assign O[9] = n_198; assign O[10] = n_15; assign O[11] = n_16; assign O[12] = n_5; assign O[13] = n_2; assign O[14] = n_3; assign O[15] = n_20; assign O[16] = n_17; assign O[17] = n_14; assign O[18] = n_23; assign O[19] = n_376; assign O[20] = n_309; assign O[21] = n_1510; assign O[22] = n_1520; assign O[23] = n_1522; endmodule