module mul8_354(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];
XNPDKGENOR2X1 n40(.A(N[12]), .B(N[12]), .Y(N[40]));
assign N[41] = N[40];
PDKGENINVX1 n62(.A(N[41]), .Y(N[62]));
PDKGENOR2X1 n70(.A(N[14]), .B(N[8]), .Y(N[70]));
assign N[71] = N[70];
PDKGENNOR3X1 n82(.A(N[6]), .B(N[4]), .C(N[71]), .Y(N[82]));
assign N[83] = N[82];
PDKGENOR2X1 n86(.A(N[26]), .B(N[24]), .Y(N[86]));
assign N[87] = N[86];
PDKGENNAND3X1 n88(.A(N[2]), .B(N[28]), .C(N[83]), .Y(N[88]));
assign N[89] = N[88];
PDKGENNOR3X1 n90(.A(N[87]), .B(N[28]), .C(N[22]), .Y(N[90]));
assign N[91] = N[90];
PDKGENINVX1 n124(.A(N[41]), .Y(N[124]));
assign N[125] = N[124];
PDKGENAOI21X1 n156(.A(N[89]), .B(N[82]), .C(N[91]), .Y(N[156]));
assign N[157] = N[156];
PDKGENAND2X1 n160(.A(N[18]), .B(N[12]), .Y(N[160]));
assign N[161] = N[160];
PDKGENINVX1 n190(.A(N[125]), .Y(N[190]));
assign N[191] = N[190];
PDKGENAND2X1 n372(.A(N[14]), .B(N[20]), .Y(N[372]));
PDKGENAND2X1 n386(.A(N[6]), .B(N[4]), .Y(N[386]));
PDKGENAND2X1 n420(.A(N[26]), .B(N[386]), .Y(N[420]));
PDKGENAND2X1 n460(.A(N[10]), .B(N[22]), .Y(N[460]));
PDKGENAND2X1 n476(.A(N[12]), .B(N[22]), .Y(N[476]));
PDKGENAND2X1 n490(.A(N[14]), .B(N[22]), .Y(N[490]));
assign N[491] = N[490];
PDKGENAND2X1 n506(.A(N[0]), .B(N[20]), .Y(N[506]));
PDKGENAND2X1 n564(.A(N[8]), .B(N[24]), .Y(N[564]));
PDKGENAND2X1 n580(.A(N[10]), .B(N[24]), .Y(N[580]));
PDKGENAND2X1 n594(.A(N[12]), .B(N[24]), .Y(N[594]));
PDKGENAND2X1 n608(.A(N[14]), .B(N[24]), .Y(N[608]));
PDKGENAND2X1 n682(.A(N[8]), .B(N[26]), .Y(N[682]));
assign N[683] = N[682];
PDKGENAND2X1 n698(.A(N[10]), .B(N[26]), .Y(N[698]));
assign N[699] = N[698];
PDKGENAND2X1 n712(.A(N[12]), .B(N[26]), .Y(N[712]));
PDKGENAND2X1 n728(.A(N[14]), .B(N[26]), .Y(N[728]));
PDKGENINVX1 n760(.A(N[41]), .Y(N[760]));
assign N[761] = N[760];
PDKGENAND2X1 n786(.A(N[6]), .B(N[28]), .Y(N[786]));
PDKGENAND2X1 n802(.A(N[8]), .B(N[28]), .Y(N[802]));
PDKGENAND2X1 n816(.A(N[10]), .B(N[28]), .Y(N[816]));
PDKGENAND2X1 n832(.A(N[12]), .B(N[28]), .Y(N[832]));
PDKGENAND2X1 n846(.A(N[14]), .B(N[28]), .Y(N[846]));
assign N[847] = N[846];
PDKGENAND2X1 n890(.A(N[4]), .B(N[30]), .Y(N[890]));
PDKGENAND2X1 n906(.A(N[6]), .B(N[30]), .Y(N[906]));
PDKGENAND2X1 n920(.A(N[8]), .B(N[30]), .Y(N[920]));
PDKGENAND2X1 n934(.A(N[10]), .B(N[30]), .Y(N[934]));
PDKGENAND2X1 n950(.A(N[12]), .B(N[30]), .Y(N[950]));
PDKGENAND2X1 n964(.A(N[14]), .B(N[30]), .Y(N[964]));
PDKGENBUFX2 n1106(.A(N[491]), .Y(N[1106]));
assign N[1107] = N[1106];
PDKGENOR2X1 n1172(.A(N[460]), .B(N[564]), .Y(N[1172]));
assign N[1173] = N[1172];
PDKGENHAX1 n1186(.A(N[476]), .B(N[580]), .YS(N[1186]), .YC(N[1187]));
PDKGENFAX1 n1202(.A(N[1107]), .B(N[594]), .C(N[699]), .YS(N[1202]), .YC(N[1203]));
PDKGENAND2X1 n1216(.A(N[608]), .B(N[712]), .Y(N[1216]));
PDKGENHAX1 n1232(.A(N[608]), .B(N[712]), .YS(N[1232]), .YC(N[1233]));
PDKGENINVX1 n1246(.A(N[191]), .Y(N[1246]));
PDKGENFAX1 n1350(.A(N[372]), .B(N[420]), .C(N[1186]), .YS(N[1350]), .YC(N[1351]));
PDKGENOR2X1 n1408(.A(N[1173]), .B(N[786]), .Y(N[1408]));
PDKGENFAX1 n1424(.A(N[1187]), .B(N[802]), .C(N[906]), .YS(N[1424]), .YC(N[1425]));
PDKGENFAX1 n1438(.A(N[1203]), .B(N[816]), .C(N[920]), .YS(N[1438]), .YC(N[1439]));
PDKGENFAX1 n1454(.A(N[1216]), .B(N[832]), .C(N[934]), .YS(N[1454]), .YC(N[1455]));
PDKGENAND2X1 n1468(.A(N[846]), .B(N[950]), .Y(N[1468]));
PDKGENHAX1 n1482(.A(N[847]), .B(N[950]), .YS(N[1482]), .YC(N[1483]));
PDKGENBUFX2 n1542(.A(N[157]), .Y(N[1542]));
assign N[1543] = N[1542];
PDKGENFAX1 n1586(.A(N[1350]), .B(N[62]), .C(N[1408]), .YS(N[1586]), .YC(N[1587]));
PDKGENFAX1 n1602(.A(N[1202]), .B(N[1216]), .C(N[1424]), .YS(N[1602]), .YC(N[1603]));
PDKGENAND2X1 n1616(.A(N[1232]), .B(N[1438]), .Y(N[1616]));
PDKGENOR2X1 n1632(.A(N[1232]), .B(N[1438]), .Y(N[1632]));
PDKGENAND2X1 n1646(.A(N[728]), .B(N[1454]), .Y(N[1646]));
XPDKGENOR2X1 n1660(.A(N[728]), .B(N[1454]), .Y(N[1660]));
PDKGENHAX1 n1720(.A(N[1425]), .B(N[1543]), .YS(N[1720]), .YC(N[1721]));
PDKGENOR2X1 n1750(.A(N[1586]), .B(N[890]), .Y(N[1750]));
PDKGENFAX1 n1764(.A(N[1602]), .B(N[1587]), .C(N[1351]), .YS(N[1764]), .YC(N[1765]));
PDKGENFAX1 n1780(.A(N[1632]), .B(N[1603]), .C(N[1425]), .YS(N[1780]), .YC(N[1781]));
PDKGENFAX1 n1794(.A(N[1660]), .B(N[1616]), .C(N[1439]), .YS(N[1794]), .YC(N[1795]));
PDKGENFAX1 n1808(.A(N[1482]), .B(N[1646]), .C(N[1455]), .YS(N[1808]), .YC(N[1809]));
PDKGENAND2X1 n1824(.A(N[41]), .B(N[1468]), .Y(N[1824]));
PDKGENHAX1 n1838(.A(N[964]), .B(N[1468]), .YS(N[1838]), .YC(N[1839]));
PDKGENBUFX2 n1882(.A(N[1720]), .Y(N[1882]));
PDKGENOR2X1 n1898(.A(N[161]), .B(N[890]), .Y(N[1898]));
PDKGENMUX2X1 n1912(.A(N[1750]), .B(N[190]), .S(N[683]), .Y(N[1912]));
PDKGENBUFX2 n1928(.A(N[1764]), .Y(N[1928]));
PDKGENHAX1 n1942(.A(N[1780]), .B(N[1765]), .YS(N[1942]), .YC(N[1943]));
PDKGENFAX1 n1956(.A(N[1794]), .B(N[1781]), .C(N[1943]), .YS(N[1956]), .YC(N[1957]));
PDKGENFAX1 n1972(.A(N[1808]), .B(N[1795]), .C(N[1957]), .YS(N[1972]), .YC(N[1973]));
PDKGENFAX1 n1986(.A(N[1838]), .B(N[1809]), .C(N[1973]), .YS(N[1986]), .YC(N[1987]));
PDKGENOR2X1 n2016(.A(N[1824]), .B(N[1987]), .Y(N[2016]));
assign O[0] = N[761];
assign O[1] = N[1542];
assign O[2] = N[1246];
assign O[3] = N[1216];
assign O[4] = N[125];
assign O[5] = N[506];
assign O[6] = N[1543];
assign O[7] = N[1882];
assign O[8] = N[1898];
assign O[9] = N[1912];
assign O[10] = N[1928];
assign O[11] = N[1942];
assign O[12] = N[1956];
assign O[13] = N[1972];
assign O[14] = N[1986];
assign O[15] = N[2016];
endmodule
module PDKGENAOI21X1( input A, input B, input C, output Y );
assign Y = ~((A & B) | C);
endmodule
module PDKGENNAND3X1(input A, input B, input C, output Y );
assign Y = ~((A & B) & C);
endmodule
module PDKGENMUX2X1( input A, input B, input S, output Y );
assign Y = (A & ~S) | (B & S);
endmodule
module PDKGENHAX1( input A, input B, output YS, output YC );
assign YS = A ^ B;
assign YC = A & B;
endmodule
module PDKGENOR2X1(input A, input B, output Y );
assign Y = A | B;
endmodule
module PDKGENAND2X1(input A, input B, output Y );
assign Y = A & B;
endmodule
module PDKGENINVX1(input A, output Y );
assign Y = ~A;
endmodule
module PDKGENXOR2X1(input A, input B, output Y );
assign Y = A ^ B;
endmodule
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
module PDKGENNOR3X1(input A, input B, input C, output Y );
assign Y = ~((A | B) | C);
endmodule
module PDKGENBUFX2(input A, output Y );
assign Y = A;
endmodule
module PDKGENXNOR2X1(input A, input B, output Y );
assign Y = ~(A ^ B);
endmodule