/*** * 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, L. Sekanina, Z. Vasicek "Libraries of Approximate Circuits: Automated Design and Application in CNN Accelerators" IEEE Journal on Emerging and Selected Topics in Circuits and Systems, Vol 10, No 4, 2020 * This file contains a circuit from a sub-set of pareto optimal circuits with respect to the pwr and ep parameters ***/ // MAE% = 1.09 % // MAE = 2.8 // WCE% = 3.12 % // WCE = 8.0 // WCRE% = 700.00 % // EP% = 89.06 % // MRE% = 10.79 % // MSE = 12 // PDK45_PWR = 0.019 mW // PDK45_AREA = 41.3 um2 // PDK45_DELAY = 0.35 ns #include #include uint64_t add8se_8T0(const uint64_t B,const uint64_t A) { uint64_t dout_31, dout_33, dout_34, dout_35, dout_36, dout_37, dout_38, dout_39, dout_40, dout_41, dout_42, dout_43, dout_44, dout_45, dout_46, dout_47, dout_48, dout_49, dout_50, dout_51, dout_52, dout_53, dout_54; uint64_t O; dout_31=((B >> 3)&1)^0xFFFFFFFFFFFFFFFFU; dout_33=((A >> 4)&1)^((B >> 4)&1); dout_34=((A >> 4)&1)&((B >> 4)&1); dout_35=dout_33&((B >> 3)&1); dout_36=dout_33^((B >> 3)&1); dout_37=dout_34|dout_35; dout_38=((A >> 5)&1)^((B >> 5)&1); dout_39=((A >> 5)&1)&((B >> 5)&1); dout_40=dout_38&dout_37; dout_41=dout_38^dout_37; dout_42=dout_39|dout_40; dout_43=((A >> 6)&1)^((B >> 6)&1); dout_44=((A >> 6)&1)&((B >> 6)&1); dout_45=dout_43&dout_42; dout_46=dout_43^dout_42; dout_47=dout_44|dout_45; dout_48=((A >> 7)&1)^((B >> 7)&1); dout_49=((A >> 7)&1)&((B >> 7)&1); dout_50=dout_48&dout_47; dout_51=dout_48^dout_47; dout_52=dout_49|dout_50; dout_53=((A >> 7)&1)^((B >> 7)&1); dout_54=dout_53^dout_52; O = 0; O |= (0&1) << 0; O |= (((A >> 3)&1)&1) << 1; O |= (((A >> 3)&1)&1) << 2; O |= (dout_31&1) << 3; O |= (dout_36&1) << 4; O |= (dout_41&1) << 5; O |= (dout_46&1) << 6; O |= (dout_51&1) << 7; O |= (dout_54&1) << 8; return O; }