multiplers/16x16_unsigned/pareto_pwr_mae/mul16u_DAE.v

/***
* 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, Z. Vasicek, L. Sekanina, H. Jiang and J. Han, "Scalable Construction of Approximate Multipliers With Formally Guaranteed Worst Case Error" in IEEE Transactions on Very Large Scale Integration (VLSI) Systems, vol. 26, no. 11, pp. 2572-2576, Nov. 2018. doi: 10.1109/TVLSI.2018.2856362 
* This file contains a circuit from a sub-set of pareto optimal circuits with respect to the pwr and mae parameters
***/
// MAE% = 0.0000045 %
// MAE = 195 
// WCE% = 0.000021 %
// WCE = 907 
// WCRE% = 100.00 %
// EP% = 98.71 %
// MRE% = 0.0005 %
// MSE = 58920 
// PDK45_PWR = 1.952 mW
// PDK45_AREA = 2800.8 um2
// PDK45_DELAY = 2.79 ns

module mult8_cgp14zr_wc907_rcam (
    A,
    B,
    O
);

input [7:0] A;
input [7:0] B;
output [15:0] O;

wire sig_65,sig_72,sig_73,sig_101,sig_102,sig_106,sig_107,sig_108,sig_109,sig_110,sig_116,sig_117,sig_118,sig_146,sig_148,sig_149,sig_150,sig_151,sig_152,sig_153;
wire sig_154,sig_155,sig_160,sig_161,sig_162,sig_163,sig_186,sig_187,sig_188,sig_189,sig_190,sig_191,sig_192,sig_193,sig_194,sig_195,sig_196,sig_197,sig_198,sig_199;
wire sig_200,sig_203,sig_205,sig_206,sig_207,sig_208,sig_222,sig_226,sig_227,sig_228,sig_229,sig_230,sig_231,sig_232,sig_233,sig_234,sig_235,sig_236,sig_237,sig_238;
wire sig_239,sig_240,sig_241,sig_242,sig_243,sig_244,sig_245,sig_249,sig_250,sig_251,sig_252,sig_253,sig_266,sig_267,sig_268,sig_269,sig_270,sig_271,sig_272,sig_273;
wire sig_274,sig_275,sig_276,sig_277,sig_278,sig_279,sig_280,sig_281,sig_282,sig_283,sig_284,sig_285,sig_286,sig_287,sig_288,sig_289,sig_290,sig_292,sig_293,sig_294;
wire sig_295,sig_296,sig_297,sig_298,sig_306,sig_307,sig_311,sig_312,sig_313,sig_314,sig_315,sig_316,sig_317,sig_318,sig_319,sig_320,sig_321,sig_322,sig_323,sig_324;
wire sig_325,sig_326,sig_327,sig_328,sig_329,sig_330,sig_331,sig_332,sig_333,sig_334,sig_335;

assign sig_65 = B[7] & A[1];
assign sig_72 = B[6] & A[2];
assign sig_73 = B[7] & A[2];
assign sig_101 = B[5] | B[6];
assign sig_102 = B[5] & sig_72;
assign sig_106 = sig_65 ^ sig_73;
assign sig_107 = sig_65 & A[2];
assign sig_108 = B[7] & sig_102;
assign sig_109 = sig_106 ^ sig_102;
assign sig_110 = sig_107 | sig_108;
assign sig_116 = sig_101 & A[3];
assign sig_117 = B[6] & A[3];
assign sig_118 = B[7] & A[3];
assign sig_146 = sig_109 ^ sig_117;
assign sig_148 = sig_106 & sig_116;
assign sig_149 = sig_146 ^ sig_116;
assign sig_150 = sig_117 | sig_148;
assign sig_151 = sig_110 ^ sig_118;
assign sig_152 = sig_107 & A[3];
assign sig_153 = sig_118 & sig_150;
assign sig_154 = sig_151 ^ sig_150;
assign sig_155 = sig_152 | sig_153;
assign sig_160 = B[4] & A[4];
assign sig_161 = B[5] & A[4];
assign sig_162 = B[6] & A[4];
assign sig_163 = B[7] & A[4];
assign sig_186 = sig_149 ^ sig_161;
assign sig_187 = sig_149 & sig_161;
assign sig_188 = sig_186 & sig_160;
assign sig_189 = sig_186 ^ sig_160;
assign sig_190 = sig_187 | sig_188;
assign sig_191 = sig_154 ^ sig_162;
assign sig_192 = sig_154 & sig_162;
assign sig_193 = sig_191 & sig_190;
assign sig_194 = sig_191 ^ sig_190;
assign sig_195 = sig_192 | sig_193;
assign sig_196 = sig_155 ^ sig_163;
assign sig_197 = sig_155 & A[4];
assign sig_198 = B[7] & sig_195;
assign sig_199 = sig_196 ^ sig_195;
assign sig_200 = sig_197 | sig_198;
assign sig_203 = B[2] & A[6];
assign sig_205 = B[4] & A[5];
assign sig_206 = B[5] & A[5];
assign sig_207 = B[6] & A[5];
assign sig_208 = B[7] & A[5];
assign sig_222 = B[3] & A[5];
assign sig_226 = sig_189 ^ sig_205;
assign sig_227 = sig_189 & sig_205;
assign sig_228 = sig_226 & sig_222;
assign sig_229 = sig_226 ^ sig_222;
assign sig_230 = sig_227 | sig_228;
assign sig_231 = sig_194 ^ sig_206;
assign sig_232 = sig_194 & sig_206;
assign sig_233 = sig_231 & sig_230;
assign sig_234 = sig_231 ^ sig_230;
assign sig_235 = sig_232 | sig_233;
assign sig_236 = sig_199 ^ sig_207;
assign sig_237 = sig_199 & sig_207;
assign sig_238 = sig_236 & sig_235;
assign sig_239 = sig_236 ^ sig_235;
assign sig_240 = sig_237 | sig_238;
assign sig_241 = sig_200 ^ sig_208;
assign sig_242 = sig_200 & A[5];
assign sig_243 = sig_208 & sig_240;
assign sig_244 = sig_241 ^ sig_240;
assign sig_245 = sig_242 | sig_243;
assign sig_249 = B[3] & A[6];
assign sig_250 = B[4] & A[6];
assign sig_251 = B[5] & A[6];
assign sig_252 = B[6] & A[6];
assign sig_253 = B[7] & A[6];
assign sig_266 = sig_229 ^ sig_249;
assign sig_267 = sig_229 & sig_249;
assign sig_268 = sig_266 & sig_203;
assign sig_269 = sig_266 ^ sig_203;
assign sig_270 = sig_267 | sig_268;
assign sig_271 = sig_234 ^ sig_250;
assign sig_272 = sig_234 & sig_250;
assign sig_273 = sig_271 & sig_270;
assign sig_274 = sig_271 ^ sig_270;
assign sig_275 = sig_272 | sig_273;
assign sig_276 = sig_239 ^ sig_251;
assign sig_277 = sig_239 & sig_251;
assign sig_278 = sig_276 & sig_275;
assign sig_279 = sig_276 ^ sig_275;
assign sig_280 = sig_277 | sig_278;
assign sig_281 = sig_244 ^ sig_252;
assign sig_282 = sig_244 & sig_252;
assign sig_283 = sig_281 & sig_280;
assign sig_284 = sig_281 ^ sig_280;
assign sig_285 = sig_282 | sig_283;
assign sig_286 = sig_245 ^ sig_253;
assign sig_287 = sig_245 & A[6];
assign sig_288 = B[7] & sig_285;
assign sig_289 = sig_286 ^ sig_285;
assign sig_290 = sig_287 | sig_288;
assign sig_292 = B[1] & A[7];
assign sig_293 = B[2] & A[7];
assign sig_294 = B[3] & A[7];
assign sig_295 = B[4] & A[7];
assign sig_296 = B[5] & A[7];
assign sig_297 = B[6] & A[7];
assign sig_298 = B[7] & A[7];
assign sig_306 = sig_269 ^ sig_293;
assign sig_307 = sig_269 & sig_293;
assign sig_311 = sig_274 ^ sig_294;
assign sig_312 = sig_274 & sig_294;
assign sig_313 = sig_311 & sig_307;
assign sig_314 = sig_311 ^ sig_307;
assign sig_315 = sig_312 | sig_313;
assign sig_316 = sig_279 ^ sig_295;
assign sig_317 = sig_279 & sig_295;
assign sig_318 = sig_316 & sig_315;
assign sig_319 = sig_316 ^ sig_315;
assign sig_320 = sig_317 | sig_318;
assign sig_321 = sig_284 ^ sig_296;
assign sig_322 = sig_284 & sig_296;
assign sig_323 = sig_321 & sig_320;
assign sig_324 = sig_321 ^ sig_320;
assign sig_325 = sig_322 | sig_323;
assign sig_326 = sig_289 ^ sig_297;
assign sig_327 = sig_289 & sig_297;
assign sig_328 = sig_326 & sig_325;
assign sig_329 = sig_326 ^ sig_325;
assign sig_330 = sig_327 | sig_328;
assign sig_331 = sig_290 ^ sig_298;
assign sig_332 = sig_290 & A[7];
assign sig_333 = B[7] & sig_330;
assign sig_334 = sig_331 ^ sig_330;
assign sig_335 = sig_332 | sig_333;

assign O[15] = sig_335;
assign O[14] = sig_334;
assign O[13] = sig_329;
assign O[12] = sig_324;
assign O[11] = sig_319;
assign O[10] = sig_314;
assign O[9] = sig_306;
assign O[8] = sig_292;
assign O[7] = sig_292;
assign O[6] = sig_72;
assign O[5] = 1'b0;
assign O[4] = sig_317;
assign O[3] = 1'b0;
assign O[2] = sig_312;
assign O[1] = sig_293;
assign O[0] = sig_249;

endmodule


module trun8_tam00b ( A, B, O );
  input [7:0] A;
  input [7:0] B;
  output [15:0] O;

  wire C_1_0,C_1_1,C_1_2,C_1_3,C_1_4,C_1_5,C_1_6,C_2_0,C_2_1,C_2_2,C_2_3,C_2_4,C_2_5,C_2_6,C_3_0,C_3_1,C_3_2,C_3_3,C_3_4,C_3_5,C_3_6,C_4_0,C_4_1,C_4_2,C_4_3,C_4_4,C_4_5,C_4_6,C_5_0,C_5_1,C_5_2,C_5_3,C_5_4,C_5_5,C_5_6,C_6_0,C_6_1,C_6_2,C_6_3,C_6_4,C_6_5,C_6_6,C_7_0,C_7_1,C_7_2,C_7_3,C_7_4,C_7_5,C_7_6,S_0_0,S_0_1,S_0_2,S_0_3,S_0_4,S_0_5,S_0_6,S_0_7,S_1_0,S_1_1,S_1_2,S_1_3,S_1_4,S_1_5,S_1_6,S_1_7,S_2_0,S_2_1,S_2_2,S_2_3,S_2_4,S_2_5,S_2_6,S_2_7,S_3_0,S_3_1,S_3_2,S_3_3,S_3_4,S_3_5,S_3_6,S_3_7,S_4_0,S_4_1,S_4_2,S_4_3,S_4_4,S_4_5,S_4_6,S_4_7,S_5_0,S_5_1,S_5_2,S_5_3,S_5_4,S_5_5,S_5_6,S_5_7,S_6_0,S_6_1,S_6_2,S_6_3,S_6_4,S_6_5,S_6_6,S_6_7,S_7_0,S_7_1,S_7_2,S_7_3,S_7_4,S_7_5,S_7_6,S_7_7,S_8_0,S_8_1,S_8_2,S_8_3,S_8_4,S_8_5,S_8_6,S_8_7;

  assign S_0_0 = (A[0] & B[0]);
  assign S_0_1 = (A[0] & B[1]);
  assign S_0_2 = (A[0] & B[2]);
  assign S_0_3 = (A[0] & B[3]);
  assign S_0_4 = (A[0] & B[4]);
  assign S_0_5 = (A[0] & B[5]);
  assign S_0_6 = (A[0] & B[6]);
  assign S_0_7 = (A[0] & B[7]);
  PDKGENHAX1 U13609 (.A(S_0_1), .B((A[1] & B[0])), .YS(S_1_0), .YC(C_1_0));
  PDKGENHAX1 U13610 (.A(S_0_2), .B((A[1] & B[1])), .YS(S_1_1), .YC(C_1_1));
  PDKGENHAX1 U13611 (.A(S_0_3), .B((A[1] & B[2])), .YS(S_1_2), .YC(C_1_2));
  PDKGENHAX1 U13612 (.A(S_0_4), .B((A[1] & B[3])), .YS(S_1_3), .YC(C_1_3));
  PDKGENHAX1 U13613 (.A(S_0_5), .B((A[1] & B[4])), .YS(S_1_4), .YC(C_1_4));
  PDKGENHAX1 U13614 (.A(S_0_6), .B((A[1] & B[5])), .YS(S_1_5), .YC(C_1_5));
  PDKGENHAX1 U13615 (.A(S_0_7), .B((A[1] & B[6])), .YS(S_1_6), .YC(C_1_6));
  assign S_1_7 = (A[1] & B[7]);
  PDKGENFAX1 U13617 (.A(S_1_1), .B(C_1_0), .C((A[2] & B[0])), .YS(S_2_0), .YC(C_2_0));
  PDKGENFAX1 U13618 (.A(S_1_2), .B(C_1_1), .C((A[2] & B[1])), .YS(S_2_1), .YC(C_2_1));
  PDKGENFAX1 U13619 (.A(S_1_3), .B(C_1_2), .C((A[2] & B[2])), .YS(S_2_2), .YC(C_2_2));
  PDKGENFAX1 U13620 (.A(S_1_4), .B(C_1_3), .C((A[2] & B[3])), .YS(S_2_3), .YC(C_2_3));
  PDKGENFAX1 U13621 (.A(S_1_5), .B(C_1_4), .C((A[2] & B[4])), .YS(S_2_4), .YC(C_2_4));
  PDKGENFAX1 U13622 (.A(S_1_6), .B(C_1_5), .C((A[2] & B[5])), .YS(S_2_5), .YC(C_2_5));
  PDKGENFAX1 U13623 (.A(S_1_7), .B(C_1_6), .C((A[2] & B[6])), .YS(S_2_6), .YC(C_2_6));
  assign S_2_7 = (A[2] & B[7]);
  PDKGENFAX1 U13625 (.A(S_2_1), .B(C_2_0), .C((A[3] & B[0])), .YS(S_3_0), .YC(C_3_0));
  PDKGENFAX1 U13626 (.A(S_2_2), .B(C_2_1), .C((A[3] & B[1])), .YS(S_3_1), .YC(C_3_1));
  PDKGENFAX1 U13627 (.A(S_2_3), .B(C_2_2), .C((A[3] & B[2])), .YS(S_3_2), .YC(C_3_2));
  PDKGENFAX1 U13628 (.A(S_2_4), .B(C_2_3), .C((A[3] & B[3])), .YS(S_3_3), .YC(C_3_3));
  PDKGENFAX1 U13629 (.A(S_2_5), .B(C_2_4), .C((A[3] & B[4])), .YS(S_3_4), .YC(C_3_4));
  PDKGENFAX1 U13630 (.A(S_2_6), .B(C_2_5), .C((A[3] & B[5])), .YS(S_3_5), .YC(C_3_5));
  PDKGENFAX1 U13631 (.A(S_2_7), .B(C_2_6), .C((A[3] & B[6])), .YS(S_3_6), .YC(C_3_6));
  assign S_3_7 = (A[3] & B[7]);
  PDKGENFAX1 U13633 (.A(S_3_1), .B(C_3_0), .C((A[4] & B[0])), .YS(S_4_0), .YC(C_4_0));
  PDKGENFAX1 U13634 (.A(S_3_2), .B(C_3_1), .C((A[4] & B[1])), .YS(S_4_1), .YC(C_4_1));
  PDKGENFAX1 U13635 (.A(S_3_3), .B(C_3_2), .C((A[4] & B[2])), .YS(S_4_2), .YC(C_4_2));
  PDKGENFAX1 U13636 (.A(S_3_4), .B(C_3_3), .C((A[4] & B[3])), .YS(S_4_3), .YC(C_4_3));
  PDKGENFAX1 U13637 (.A(S_3_5), .B(C_3_4), .C((A[4] & B[4])), .YS(S_4_4), .YC(C_4_4));
  PDKGENFAX1 U13638 (.A(S_3_6), .B(C_3_5), .C((A[4] & B[5])), .YS(S_4_5), .YC(C_4_5));
  PDKGENFAX1 U13639 (.A(S_3_7), .B(C_3_6), .C((A[4] & B[6])), .YS(S_4_6), .YC(C_4_6));
  assign S_4_7 = (A[4] & B[7]);
  PDKGENFAX1 U13641 (.A(S_4_1), .B(C_4_0), .C((A[5] & B[0])), .YS(S_5_0), .YC(C_5_0));
  PDKGENFAX1 U13642 (.A(S_4_2), .B(C_4_1), .C((A[5] & B[1])), .YS(S_5_1), .YC(C_5_1));
  PDKGENFAX1 U13643 (.A(S_4_3), .B(C_4_2), .C((A[5] & B[2])), .YS(S_5_2), .YC(C_5_2));
  PDKGENFAX1 U13644 (.A(S_4_4), .B(C_4_3), .C((A[5] & B[3])), .YS(S_5_3), .YC(C_5_3));
  PDKGENFAX1 U13645 (.A(S_4_5), .B(C_4_4), .C((A[5] & B[4])), .YS(S_5_4), .YC(C_5_4));
  PDKGENFAX1 U13646 (.A(S_4_6), .B(C_4_5), .C((A[5] & B[5])), .YS(S_5_5), .YC(C_5_5));
  PDKGENFAX1 U13647 (.A(S_4_7), .B(C_4_6), .C((A[5] & B[6])), .YS(S_5_6), .YC(C_5_6));
  assign S_5_7 = (A[5] & B[7]);
  PDKGENFAX1 U13649 (.A(S_5_1), .B(C_5_0), .C((A[6] & B[0])), .YS(S_6_0), .YC(C_6_0));
  PDKGENFAX1 U13650 (.A(S_5_2), .B(C_5_1), .C((A[6] & B[1])), .YS(S_6_1), .YC(C_6_1));
  PDKGENFAX1 U13651 (.A(S_5_3), .B(C_5_2), .C((A[6] & B[2])), .YS(S_6_2), .YC(C_6_2));
  PDKGENFAX1 U13652 (.A(S_5_4), .B(C_5_3), .C((A[6] & B[3])), .YS(S_6_3), .YC(C_6_3));
  PDKGENFAX1 U13653 (.A(S_5_5), .B(C_5_4), .C((A[6] & B[4])), .YS(S_6_4), .YC(C_6_4));
  PDKGENFAX1 U13654 (.A(S_5_6), .B(C_5_5), .C((A[6] & B[5])), .YS(S_6_5), .YC(C_6_5));
  PDKGENFAX1 U13655 (.A(S_5_7), .B(C_5_6), .C((A[6] & B[6])), .YS(S_6_6), .YC(C_6_6));
  assign S_6_7 = (A[6] & B[7]);
  PDKGENFAX1 U13657 (.A(S_6_1), .B(C_6_0), .C((A[7] & B[0])), .YS(S_7_0), .YC(C_7_0));
  PDKGENFAX1 U13658 (.A(S_6_2), .B(C_6_1), .C((A[7] & B[1])), .YS(S_7_1), .YC(C_7_1));
  PDKGENFAX1 U13659 (.A(S_6_3), .B(C_6_2), .C((A[7] & B[2])), .YS(S_7_2), .YC(C_7_2));
  PDKGENFAX1 U13660 (.A(S_6_4), .B(C_6_3), .C((A[7] & B[3])), .YS(S_7_3), .YC(C_7_3));
  PDKGENFAX1 U13661 (.A(S_6_5), .B(C_6_4), .C((A[7] & B[4])), .YS(S_7_4), .YC(C_7_4));
  PDKGENFAX1 U13662 (.A(S_6_6), .B(C_6_5), .C((A[7] & B[5])), .YS(S_7_5), .YC(C_7_5));
  PDKGENFAX1 U13663 (.A(S_6_7), .B(C_6_6), .C((A[7] & B[6])), .YS(S_7_6), .YC(C_7_6));
  assign S_7_7 = (A[7] & B[7]);
  assign {S_8_7, S_8_6, S_8_5, S_8_4, S_8_3, S_8_2, S_8_1, S_8_0} = {C_7_6, C_7_5, C_7_4, C_7_3, C_7_2, C_7_1, C_7_0} + {S_7_7, S_7_6, S_7_5, S_7_4, S_7_3, S_7_2, S_7_1};
  assign O = {S_8_7,S_8_6,S_8_5,S_8_4,S_8_3,S_8_2,S_8_1,S_8_0,S_7_0,S_6_0,S_5_0,S_4_0,S_3_0,S_2_0,S_1_0,S_0_0};

endmodule


module mul8_364(A, B, O);
  input [7:0] A;
  input [7:0] B;
  output [15:0] O;
  wire [2031:0] N;

  assign N[0] = A[0];
  assign N[1] = A[0];
  assign N[2] = A[1];
  assign N[3] = A[1];
  assign N[4] = A[2];
  assign N[5] = A[2];
  assign N[6] = A[3];
  assign N[7] = A[3];
  assign N[8] = A[4];
  assign N[9] = A[4];
  assign N[10] = A[5];
  assign N[11] = A[5];
  assign N[12] = A[6];
  assign N[13] = A[6];
  assign N[14] = A[7];
  assign N[15] = A[7];
  assign N[16] = B[0];
  assign N[17] = B[0];
  assign N[18] = B[1];
  assign N[19] = B[1];
  assign N[20] = B[2];
  assign N[21] = B[2];
  assign N[22] = B[3];
  assign N[23] = B[3];
  assign N[24] = B[4];
  assign N[25] = B[4];
  assign N[26] = B[5];
  assign N[27] = B[5];
  assign N[28] = B[6];
  assign N[29] = B[6];
  assign N[30] = B[7];
  assign N[31] = B[7];

  PDKGENAND2X1 n32(.A(N[0]), .B(N[16]), .Y(N[32]));
  PDKGENAND2X1 n48(.A(N[2]), .B(N[16]), .Y(N[48]));
  PDKGENAND2X1 n64(.A(N[4]), .B(N[16]), .Y(N[64]));
  PDKGENAND2X1 n82(.A(N[6]), .B(N[16]), .Y(N[82]));
  PDKGENAND2X1 n98(.A(N[8]), .B(N[16]), .Y(N[98]));
  PDKGENAND2X1 n114(.A(N[10]), .B(N[16]), .Y(N[114]));
  PDKGENAND2X1 n132(.A(N[12]), .B(N[16]), .Y(N[132]));
  PDKGENAND2X1 n148(.A(N[14]), .B(N[16]), .Y(N[148]));
  assign N[149] = N[148];
  PDKGENAND2X1 n164(.A(N[0]), .B(N[18]), .Y(N[164]));
  PDKGENBUFX2 n166(.A(N[149]), .Y(N[166]));
  assign N[167] = N[166];
  PDKGENAND2X1 n182(.A(N[2]), .B(N[18]), .Y(N[182]));
  PDKGENAND2X1 n198(.A(N[4]), .B(N[18]), .Y(N[198]));
  PDKGENAND2X1 n214(.A(N[6]), .B(N[18]), .Y(N[214]));
  PDKGENAND2X1 n232(.A(N[8]), .B(N[18]), .Y(N[232]));
  PDKGENAND2X1 n248(.A(N[10]), .B(N[18]), .Y(N[248]));
  PDKGENAND2X1 n264(.A(N[12]), .B(N[18]), .Y(N[264]));
  PDKGENAND2X1 n282(.A(N[14]), .B(N[18]), .Y(N[282]));
  PDKGENHAX1 n298(.A(N[48]), .B(N[164]), .YS(N[298]), .YC(N[299]));
  PDKGENHAX1 n314(.A(N[64]), .B(N[182]), .YS(N[314]), .YC(N[315]));
  PDKGENHAX1 n332(.A(N[82]), .B(N[198]), .YS(N[332]), .YC(N[333]));
  PDKGENHAX1 n348(.A(N[98]), .B(N[214]), .YS(N[348]), .YC(N[349]));
  PDKGENHAX1 n364(.A(N[114]), .B(N[232]), .YS(N[364]), .YC(N[365]));
  PDKGENHAX1 n382(.A(N[132]), .B(N[248]), .YS(N[382]), .YC(N[383]));
  PDKGENHAX1 n398(.A(N[167]), .B(N[264]), .YS(N[398]), .YC(N[399]));
  PDKGENAND2X1 n414(.A(N[0]), .B(N[20]), .Y(N[414]));
  PDKGENAND2X1 n432(.A(N[2]), .B(N[20]), .Y(N[432]));
  PDKGENAND2X1 n448(.A(N[4]), .B(N[20]), .Y(N[448]));
  PDKGENAND2X1 n464(.A(N[6]), .B(N[20]), .Y(N[464]));
  PDKGENAND2X1 n482(.A(N[8]), .B(N[20]), .Y(N[482]));
  PDKGENAND2X1 n498(.A(N[10]), .B(N[20]), .Y(N[498]));
  PDKGENAND2X1 n514(.A(N[12]), .B(N[20]), .Y(N[514]));
  PDKGENAND2X1 n532(.A(N[14]), .B(N[20]), .Y(N[532]));
  PDKGENFAX1 n548(.A(N[314]), .B(N[414]), .C(N[299]), .YS(N[548]), .YC(N[549]));
  PDKGENFAX1 n564(.A(N[332]), .B(N[432]), .C(N[315]), .YS(N[564]), .YC(N[565]));
  PDKGENFAX1 n582(.A(N[348]), .B(N[448]), .C(N[333]), .YS(N[582]), .YC(N[583]));
  PDKGENFAX1 n598(.A(N[364]), .B(N[464]), .C(N[349]), .YS(N[598]), .YC(N[599]));
  PDKGENFAX1 n614(.A(N[382]), .B(N[482]), .C(N[365]), .YS(N[614]), .YC(N[615]));
  PDKGENFAX1 n632(.A(N[398]), .B(N[498]), .C(N[383]), .YS(N[632]), .YC(N[633]));
  PDKGENFAX1 n648(.A(N[282]), .B(N[514]), .C(N[399]), .YS(N[648]), .YC(N[649]));
  PDKGENAND2X1 n664(.A(N[0]), .B(N[22]), .Y(N[664]));
  PDKGENAND2X1 n682(.A(N[2]), .B(N[22]), .Y(N[682]));
  PDKGENAND2X1 n698(.A(N[4]), .B(N[22]), .Y(N[698]));
  PDKGENAND2X1 n714(.A(N[6]), .B(N[22]), .Y(N[714]));
  PDKGENAND2X1 n732(.A(N[8]), .B(N[22]), .Y(N[732]));
  PDKGENAND2X1 n748(.A(N[10]), .B(N[22]), .Y(N[748]));
  PDKGENAND2X1 n764(.A(N[12]), .B(N[22]), .Y(N[764]));
  PDKGENAND2X1 n782(.A(N[14]), .B(N[22]), .Y(N[782]));
  PDKGENFAX1 n798(.A(N[564]), .B(N[664]), .C(N[549]), .YS(N[798]), .YC(N[799]));
  PDKGENFAX1 n814(.A(N[582]), .B(N[682]), .C(N[565]), .YS(N[814]), .YC(N[815]));
  PDKGENFAX1 n832(.A(N[598]), .B(N[698]), .C(N[583]), .YS(N[832]), .YC(N[833]));
  PDKGENFAX1 n848(.A(N[614]), .B(N[714]), .C(N[599]), .YS(N[848]), .YC(N[849]));
  PDKGENFAX1 n864(.A(N[632]), .B(N[732]), .C(N[615]), .YS(N[864]), .YC(N[865]));
  PDKGENFAX1 n882(.A(N[648]), .B(N[748]), .C(N[633]), .YS(N[882]), .YC(N[883]));
  PDKGENFAX1 n898(.A(N[532]), .B(N[764]), .C(N[649]), .YS(N[898]), .YC(N[899]));
  PDKGENAND2X1 n914(.A(N[0]), .B(N[24]), .Y(N[914]));
  PDKGENAND2X1 n932(.A(N[2]), .B(N[24]), .Y(N[932]));
  PDKGENAND2X1 n948(.A(N[4]), .B(N[24]), .Y(N[948]));
  PDKGENAND2X1 n964(.A(N[6]), .B(N[24]), .Y(N[964]));
  PDKGENAND2X1 n982(.A(N[8]), .B(N[24]), .Y(N[982]));
  PDKGENAND2X1 n998(.A(N[10]), .B(N[24]), .Y(N[998]));
  PDKGENAND2X1 n1014(.A(N[12]), .B(N[24]), .Y(N[1014]));
  PDKGENAND2X1 n1032(.A(N[14]), .B(N[24]), .Y(N[1032]));
  PDKGENFAX1 n1048(.A(N[814]), .B(N[914]), .C(N[799]), .YS(N[1048]), .YC(N[1049]));
  PDKGENFAX1 n1064(.A(N[832]), .B(N[932]), .C(N[815]), .YS(N[1064]), .YC(N[1065]));
  PDKGENFAX1 n1082(.A(N[848]), .B(N[948]), .C(N[833]), .YS(N[1082]), .YC(N[1083]));
  PDKGENFAX1 n1098(.A(N[864]), .B(N[964]), .C(N[849]), .YS(N[1098]), .YC(N[1099]));
  PDKGENFAX1 n1114(.A(N[882]), .B(N[982]), .C(N[865]), .YS(N[1114]), .YC(N[1115]));
  PDKGENFAX1 n1132(.A(N[898]), .B(N[998]), .C(N[883]), .YS(N[1132]), .YC(N[1133]));
  PDKGENFAX1 n1148(.A(N[782]), .B(N[1014]), .C(N[899]), .YS(N[1148]), .YC(N[1149]));
  PDKGENAND2X1 n1164(.A(N[0]), .B(N[26]), .Y(N[1164]));
  PDKGENAND2X1 n1182(.A(N[2]), .B(N[26]), .Y(N[1182]));
  PDKGENAND2X1 n1198(.A(N[4]), .B(N[26]), .Y(N[1198]));
  PDKGENAND2X1 n1214(.A(N[6]), .B(N[26]), .Y(N[1214]));
  PDKGENAND2X1 n1232(.A(N[8]), .B(N[26]), .Y(N[1232]));
  PDKGENAND2X1 n1248(.A(N[10]), .B(N[26]), .Y(N[1248]));
  PDKGENAND2X1 n1264(.A(N[12]), .B(N[26]), .Y(N[1264]));
  PDKGENAND2X1 n1282(.A(N[14]), .B(N[26]), .Y(N[1282]));
  PDKGENFAX1 n1298(.A(N[1064]), .B(N[1164]), .C(N[1049]), .YS(N[1298]), .YC(N[1299]));
  PDKGENFAX1 n1314(.A(N[1082]), .B(N[1182]), .C(N[1065]), .YS(N[1314]), .YC(N[1315]));
  PDKGENFAX1 n1332(.A(N[1098]), .B(N[1198]), .C(N[1083]), .YS(N[1332]), .YC(N[1333]));
  PDKGENFAX1 n1348(.A(N[1114]), .B(N[1214]), .C(N[1099]), .YS(N[1348]), .YC(N[1349]));
  PDKGENFAX1 n1364(.A(N[1132]), .B(N[1232]), .C(N[1115]), .YS(N[1364]), .YC(N[1365]));
  PDKGENFAX1 n1382(.A(N[1148]), .B(N[1248]), .C(N[1133]), .YS(N[1382]), .YC(N[1383]));
  PDKGENFAX1 n1398(.A(N[1032]), .B(N[1264]), .C(N[1149]), .YS(N[1398]), .YC(N[1399]));
  PDKGENAND2X1 n1414(.A(N[0]), .B(N[28]), .Y(N[1414]));
  PDKGENAND2X1 n1432(.A(N[2]), .B(N[28]), .Y(N[1432]));
  PDKGENAND2X1 n1448(.A(N[4]), .B(N[28]), .Y(N[1448]));
  PDKGENAND2X1 n1464(.A(N[6]), .B(N[28]), .Y(N[1464]));
  PDKGENAND2X1 n1482(.A(N[8]), .B(N[28]), .Y(N[1482]));
  PDKGENAND2X1 n1498(.A(N[10]), .B(N[28]), .Y(N[1498]));
  PDKGENAND2X1 n1514(.A(N[12]), .B(N[28]), .Y(N[1514]));
  PDKGENAND2X1 n1532(.A(N[14]), .B(N[28]), .Y(N[1532]));
  PDKGENFAX1 n1548(.A(N[1314]), .B(N[1414]), .C(N[1299]), .YS(N[1548]), .YC(N[1549]));
  PDKGENFAX1 n1564(.A(N[1332]), .B(N[1432]), .C(N[1315]), .YS(N[1564]), .YC(N[1565]));
  PDKGENFAX1 n1582(.A(N[1348]), .B(N[1448]), .C(N[1333]), .YS(N[1582]), .YC(N[1583]));
  PDKGENFAX1 n1598(.A(N[1364]), .B(N[1464]), .C(N[1349]), .YS(N[1598]), .YC(N[1599]));
  PDKGENFAX1 n1614(.A(N[1382]), .B(N[1482]), .C(N[1365]), .YS(N[1614]), .YC(N[1615]));
  PDKGENFAX1 n1632(.A(N[1398]), .B(N[1498]), .C(N[1383]), .YS(N[1632]), .YC(N[1633]));
  PDKGENFAX1 n1648(.A(N[1282]), .B(N[1514]), .C(N[1399]), .YS(N[1648]), .YC(N[1649]));
  PDKGENAND2X1 n1664(.A(N[0]), .B(N[30]), .Y(N[1664]));
  PDKGENAND2X1 n1682(.A(N[2]), .B(N[30]), .Y(N[1682]));
  PDKGENAND2X1 n1698(.A(N[4]), .B(N[30]), .Y(N[1698]));
  PDKGENAND2X1 n1714(.A(N[6]), .B(N[30]), .Y(N[1714]));
  PDKGENAND2X1 n1732(.A(N[8]), .B(N[30]), .Y(N[1732]));
  PDKGENAND2X1 n1748(.A(N[10]), .B(N[30]), .Y(N[1748]));
  PDKGENAND2X1 n1764(.A(N[12]), .B(N[30]), .Y(N[1764]));
  PDKGENAND2X1 n1782(.A(N[14]), .B(N[30]), .Y(N[1782]));
  PDKGENFAX1 n1798(.A(N[1564]), .B(N[1664]), .C(N[1549]), .YS(N[1798]), .YC(N[1799]));
  PDKGENFAX1 n1814(.A(N[1582]), .B(N[1682]), .C(N[1565]), .YS(N[1814]), .YC(N[1815]));
  PDKGENFAX1 n1832(.A(N[1598]), .B(N[1698]), .C(N[1583]), .YS(N[1832]), .YC(N[1833]));
  PDKGENFAX1 n1848(.A(N[1614]), .B(N[1714]), .C(N[1599]), .YS(N[1848]), .YC(N[1849]));
  PDKGENFAX1 n1864(.A(N[1632]), .B(N[1732]), .C(N[1615]), .YS(N[1864]), .YC(N[1865]));
  PDKGENFAX1 n1882(.A(N[1648]), .B(N[1748]), .C(N[1633]), .YS(N[1882]), .YC(N[1883]));
  PDKGENFAX1 n1898(.A(N[1532]), .B(N[1764]), .C(N[1649]), .YS(N[1898]), .YC(N[1899]));
  PDKGENHAX1 n1914(.A(N[1814]), .B(N[1799]), .YS(N[1914]), .YC(N[1915]));
  PDKGENFAX1 n1932(.A(N[1832]), .B(N[1815]), .C(N[1915]), .YS(N[1932]), .YC(N[1933]));
  PDKGENFAX1 n1948(.A(N[1848]), .B(N[1833]), .C(N[1933]), .YS(N[1948]), .YC(N[1949]));
  PDKGENFAX1 n1964(.A(N[1864]), .B(N[1849]), .C(N[1949]), .YS(N[1964]), .YC(N[1965]));
  PDKGENFAX1 n1982(.A(N[1882]), .B(N[1865]), .C(N[1965]), .YS(N[1982]), .YC(N[1983]));
  PDKGENFAX1 n1998(.A(N[1898]), .B(N[1883]), .C(N[1983]), .YS(N[1998]), .YC(N[1999]));
  PDKGENFAX1 n2014(.A(N[1782]), .B(N[1899]), .C(N[1999]), .YS(N[2014]), .YC(N[2015]));

  assign O[0] = N[32];
  assign O[1] = N[298];
  assign O[2] = N[548];
  assign O[3] = N[798];
  assign O[4] = N[1048];
  assign O[5] = N[1298];
  assign O[6] = N[1548];
  assign O[7] = N[1798];
  assign O[8] = N[1914];
  assign O[9] = N[1932];
  assign O[10] = N[1948];
  assign O[11] = N[1964];
  assign O[12] = N[1982];
  assign O[13] = N[1998];
  assign O[14] = N[2014];
  assign O[15] = N[2015];

endmodule

module CLA32bit(a,b,c_in,sum,c_out);

input [31:0]a,b;
input c_in;
output [31:0]sum;
output c_out;

wire [31:0] sum_out,  p,  g;
wire [7:0] PPP, GGG;
wire [8:0] CC;

assign p[31:0] = a[31:0] ^ b[31:0];
assign g[31:0] = a[31:0] & b[31:0];

assign PPP[0]= p [3] & p [2] & p [1] & p [0];
assign PPP[1]= p [7] & p [6] & p [5] & p [4];
assign PPP[2]= p[11] & p[10] & p [9] & p [8];
assign PPP[3]= p[15] & p[14] & p[13] & p[12];
assign PPP[4]= p[19] & p[18] & p[17] & p[16];
assign PPP[5]= p[23] & p[22] & p[21] & p[20];
assign PPP[6]= p[27] & p[26] & p[25] & p[24];
assign PPP[7]= p[31] & p[30] & p[29] & p[28];

assign GGG[0]= g[3]  | (p [3] & g [2])  | (p [3] & p [2] & g [1])  | (p [3] & p [2] & p [1] & g [0]) ;
assign GGG[1]= g[7]  | (p [7] & g [6])  | (p [7] & p [6] & g [5])  | (p [7] & p [6] & p [5] & g [4]);
assign GGG[2]= g[11] | (p[11] & g[10])  | (p[11] & p[10] & g [9])  | (p[11] & p[10] & p [9] & g [8]);
assign GGG[3]= g[15] | (p[15] & g[14])  | (p[15] & p[14] & g[13])  | (p[15] & p[14] & p[13] & g[12]);
assign GGG[4]= g[19] | (p[19] & g[18])  | (p[19] & p[18] & g[17])  | (p[19] & p[18] & p[17] & g[16]);
assign GGG[5]= g[23] | (p[23] & g[22])  | (p[23] & p[22] & g[21])  | (p[23] & p[22] & p[21] & g[20]);
assign GGG[6]= g[27] | (p[27] & g[26])  | (p[27] & p[26] & g[25])  | (p[27] & p[26] & p[25] & g[24]);
assign GGG[7]= g[31] | (p[31] & g[30])  | (p[31] & p[30] & g[29])  | (p[31] & p[30] & p[29] & g[28]);
assign CC[0] = c_in;
assign CC[1] = GGG[0]  |  PPP[0]&  CC[0];
assign CC[2] = GGG[1]  |  PPP[1]&GGG[0]  |  PPP[1]&PPP[0]&  CC[0];
assign CC[3] = GGG[2]  |  PPP[2]&GGG[1]  |  PPP[2]&PPP[1]&GGG[0]  |  PPP[2]&PPP[1]&PPP[0]&  CC[0];
assign CC[4] = GGG[3]  |  PPP[3]&GGG[2]  |  PPP[3]&PPP[2]&GGG[1]  |  PPP[3]&PPP[2]&PPP[1]&GGG[0]  |  PPP[3]&PPP[2]&PPP[1]&PPP[0]&  CC[0];
assign CC[5] = GGG[4]  |  PPP[4]&GGG[3]  |  PPP[4]&PPP[3]&GGG[2]  |  PPP[4]&PPP[3]&PPP[2]&GGG[1]  |  PPP[4]&PPP[3]&PPP[2]&PPP[1]&GGG[0] |  PPP[4]&PPP[3]&PPP[2]&PPP[1]&PPP[0]&  CC[0];
assign CC[6] = GGG[5]  |  PPP[5]&GGG[4]  |  PPP[5]&PPP[4]&GGG[3]  |  PPP[5]&PPP[4]&PPP[3]&GGG[2]  |  PPP[5]&PPP[4]&PPP[3]&PPP[2]&GGG[1] |  PPP[5]&PPP[4]&PPP[3]&PPP[2]&PPP[1]&GGG[0] |  PPP[5]&PPP[4]&PPP[3]&PPP[2]&PPP[1]&PPP[0]& CC[0];
assign CC[7] = GGG[6]  | PPP[6]&GGG[5]  |  PPP[6]&PPP[5]&GGG[4]  |  PPP[6]&PPP[5]&PPP[4]&GGG[3]  |  PPP[6]&PPP[5]&PPP[4]&PPP[3]&GGG[2]  |  PPP[6]&PPP[5]&PPP[4]&PPP[3]&PPP[2]&GGG[1] |  PPP[6]&PPP[5]&PPP[4]&PPP[3]&PPP[2]&PPP[1]&GGG[0] |  PPP[6]&PPP[5]&PPP[4]&PPP[3]&PPP[2]&PPP[1]&PPP[0] & CC[0];
assign CC[8] = GGG[7] | PPP[7]&GGG[6]  | PPP[7]&PPP[6]&GGG[5]  |  PPP[7]&PPP[6]&PPP[5]&GGG[4]  |  PPP[7]&PPP[6]&PPP[5]&PPP[4]&GGG[3]  |  PPP[7]&PPP[6]&PPP[5]&PPP[4]&PPP[3]&GGG[2]  |  PPP[7]&PPP[6]&PPP[5]&PPP[4]&PPP[3]&PPP[2]&GGG[1] |  PPP[7]&PPP[6]&PPP[5]&PPP[4]&PPP[3]&PPP[2]&PPP[1]&GGG[0] |  PPP[7]&PPP[6]&PPP[5]&PPP[4]&PPP[3]&PPP[2]&PPP[1]&PPP[0] & CC[0];
cla_4bit cla4bit1(.aa(a  [3:0]),  .bb(b  [3:0]),  .cin(CC[0]),   .pp(p  [3:0]),  .gg(g  [3:0]),   .summ(sum  [3:0]));
cla_4bit cla4bit2(.aa(a  [7:4]),  .bb(b  [7:4]),  .cin(CC[1]),   .pp(p  [7:4]),  .gg(g  [7:4]),   .summ(sum  [7:4]));
cla_4bit cla4bit3(.aa(a [11:8]),  .bb(b [11:8]),  .cin(CC[2]),   .pp(p [11:8]),  .gg(g [11:8]),   .summ(sum [11:8]));
cla_4bit cla4bit4(.aa(a[15:12]),  .bb(b[15:12]),  .cin(CC[3]),   .pp(p[15:12]),  .gg(g[15:12]),   .summ(sum[15:12]));
cla_4bit cla4bit5(.aa(a[19:16]),  .bb(b[19:16]),  .cin(CC[4]),   .pp(p[19:16]),  .gg(g[19:16]),   .summ(sum[19:16]));
cla_4bit cla4bit6(.aa(a[23:20]),  .bb(b[23:20]),  .cin(CC[5]),   .pp(p[23:20]),  .gg(g[23:20]),   .summ(sum[23:20]));
cla_4bit cla4bit7(.aa(a[27:24]),  .bb(b[27:24]),  .cin(CC[6]),   .pp(p[27:24]),  .gg(g[27:24]),   .summ(sum[27:24]));
cla_4bit cla4bit8(.aa(a[31:28]),  .bb(b[31:28]),  .cin(CC[7]),   .pp(p[31:28]),  .gg(g[31:28]),   .summ(sum[31:28]));

assign c_out=CC[8];

endmodule
module cla_4bit(aa,bb,cin,summ,pp,gg);
input  [3:0] aa,bb,pp,gg;  
input cin;
output [3:0] summ;

wire [3:0] c;

   assign c[0] = cin;
   assign c[1] = gg[0] | (pp[0] & c[0]);
   assign c[2] = gg[1] | (pp[1] & gg[0]) | (pp[1] & pp[0] & c[0]);
   assign c[3] = gg[2] | (pp[2] & gg[1]) | (pp[2] & pp[1] & gg[0])| (pp[2] & pp[1] & pp[0] & c[0]);

   assign summ[3:0] = pp[3:0]  ^  c[3:0];
endmodule

`timescale 1ns/100ps
module mul16u_DAE ( input[15:0] A,
                   input[15:0] B,
                   output [31:0] O
                 );

wire [15:0] ll,lh,hl,hh;
wire [31:0] llhhlh_sum;
wire [31:0] shifted_llhh, shifted_lh, shifted_hl;

localparam MAX1 = 15;
localparam MIN1 = 8;

localparam MAX2 = 7;
localparam MIN2 = 0;

mult8_cgp14zr_wc907_rcam LxL (.A(A[MAX2:MIN2]), .B(B[MAX2:MIN2]), .O(ll));
mul8_364 HxL (.A(A[MAX1:MIN1]), .B(B[MAX2:MIN2]), .O(hl));
trun8_tam00b LxH (.A(A[MAX2:MIN2]), .B(B[MAX1:MIN1]), .O(lh));
trun8_tam00b HxH (.A(A[MAX1:MIN1]), .B(B[MAX1:MIN1]), .O(hh));

assign shifted_llhh = { hh, ll }; 
assign shifted_lh = { {8{1'b0}}, lh, {8{1'b0}}}; 
assign shifted_hl = { {8{1'b0}}, hl, {8{1'b0}}};
CLA32bit LLHHLH (.a(shifted_llhh), .b(shifted_lh), .c_in(1'b0), .sum(llhhlh_sum), .c_out());
CLA32bit SUMO (.a(llhhlh_sum), .b(shifted_hl), .c_in(1'b0), .sum(O), .c_out());

endmodule


/* mod */
module PDKGENFAX1( input A, input B, input C, output YS, output YC );
    assign YS = (A ^ B) ^ C;
    assign YC = (A & B) | (B & C) | (A & C);
endmodule
/* mod */
module PDKGENAND2X1(input A, input B, output Y );
     assign Y = A & B;
endmodule
/* mod */
module PDKGENHAX1( input A, input B, output YS, output YC );
    assign YS = A ^ B;
    assign YC = A & B;
endmodule
/* mod */
module PDKGENBUFX2(input A, output Y );
     assign Y = A;
endmodule