.ADR3(N224),    .O(\_n0024<1>1/O )  );  defparam sd_1.INIT = 1'b0;  X_SFF sd_1 (    .I(\sd<1>/DXMUX ),    .CE(VCC),    .CLK(\sd<1>/CLKINV ),    .SET(GND),    .RST(GSR),    .SSET(GND),    .SRST(\sd<1>/SRINVNOT ),    .O(\sd<1> )  );  defparam Ker011.INIT = 16'hFFFE;  X_LUT4 Ker011 (    .ADR0(\Ker011_SW1/O ),    .ADR1(\sb<5> ),    .ADR2(N197_0),    .ADR3(\sb<7> ),    .O(CHOICE58)  );  defparam \s4_FFd1-In1_SW0 .INIT = 16'hC000;  X_LUT4 \s4_FFd1-In1_SW0  (    .ADR0(VCC),    .ADR1(\sb<4> ),    .ADR2(\sb<2> ),    .ADR3(\sb<3> ),    .O(\s4_FFd1-In1_SW0/O_pack_1 )  );  defparam \s4_FFd1-In1 .INIT = 16'hEAAA;  X_LUT4 \s4_FFd1-In1  (    .ADR0(s4_FFd1),    .ADR1(\s4_FFd1-In1_SW0/O ),    .ADR2(CHOICE34_0),    .ADR3(\sb<5> ),    .O(\s4_FFd1-In )  );  defparam s4_FFd1_230.INIT = 1'b0;  X_SFF s4_FFd1_230 (    .I(\s4_FFd1/DXMUX ),    .CE(\s4_FFd1/CEINV ),    .CLK(\s4_FFd1/CLKINV ),    .SET(GND),    .RST(GSR),    .SSET(GND),    .SRST(\s4_FFd1/SRINVNOT ),    .O(s4_FFd1)  );  X_BUF \reset/OUTPUT/OFF/OMUX  (    .I(reset_OBUF),    .O(\reset/O )  );  X_BUF \reset/OUTPUT/OFF/OREV_USED_231  (    .I(s1_FFd1),    .O(\reset/OUTPUT/OFF/OREV_USED )  );  X_INV \reset/OUTPUT/OFF/OSR_USED_232  (    .I(rst_IBUF),    .O(\reset/OUTPUT/OFF/OSR_USED )  );  X_BUF \reset/OUTPUT/OFF/OCEINV_233  (    .I(_n0000),    .O(\reset/OUTPUT/OFF/OCEINV )  );  X_BUF \reset/OUTPUT/OFF/O1INV_234  (    .I(GLOBAL_LOGIC0),    .O(\reset/OUTPUT/OFF/O1INV )  );  defparam reset_235.INIT = 1'b0;  X_SFF reset_235 (    .I(\reset/OUTPUT/OFF/O1INV ),    .CE(\reset/OUTPUT/OFF/OCEINV ),    .CLK(\reset/OUTPUT/OTCLK1INV ),    .SET(GND),    .RST(GSR),    .SSET(\reset/OUTPUT/OFF/OREV_USED ),    .SRST(\reset/OUTPUT/OFF/OSR_USED ),    .O(reset_OBUF)  );  defparam \serial_sa__n0000<0>lut_INV_0 .INIT = 16'h5555;  X_LUT4 \serial_sa__n0000<0>lut_INV_0  (    .ADR0(\sa<0> ),    .ADR1(VCC),    .ADR2(VCC),    .ADR3(VCC),    .O(N9)  );  defparam sa_0.INIT = 1'b0;  X_SFF sa_0 (    .I(\sa<0>/DXMUX ),    .CE(\sa<0>/CEINV ),    .CLK(\sa<0>/CLKINV ),    .SET(GND),    .RST(GSR),    .SSET(GND),    .SRST(\sa<0>/SRINVNOT ),    .O(\sa<0> )  );  defparam sa_3.INIT = 1'b0;  X_SFF sa_3 (    .I(\sa<2>/DYMUX ),    .CE(\sa<2>/CEINV ),    .CLK(\sa<2>/CLKINV ),    .SET(GND),    .RST(GSR),    .SSET(GND),    .SRST(\sa<2>/SRINVNOT ),    .O(\sa<3> )  );  defparam sa_2.INIT = 1'b0;  X_SFF sa_2 (    .I(\sa<2>/DXMUX ),    .CE(\sa<2>/CEINV ),    .CLK(\sa<2>/CLKINV ),    .SET(GND),    .RST(GSR),    .SSET(GND),    .SRST(\sa<2>/SRINVNOT ),    .O(\sa<2> )  );  defparam sa_5.INIT = 1'b0;  X_SFF sa_5 (    .I(\sa<4>/DYMUX ),    .CE(\sa<4>/CEINV ),    .CLK(\sa<4>/CLKINV ),    .SET(GND),    .RST(GSR),    .SSET(GND),    .SRST(\sa<4>/SRINVNOT ),    .O(\sa<5> )  );  defparam sa_4.INIT = 1'b0;  X_SFF sa_4 (    .I(\sa<4>/DXMUX ),    .CE(\sa<4>/CEINV ),    .CLK(\sa<4>/CLKINV ),    .SET(GND),    .RST(GSR),    .SSET(GND),    .SRST(\sa<4>/SRINVNOT ),    .O(\sa<4> )  );  defparam sa_6.INIT = 1'b0;  X_SFF sa_6 (    .I(\sa<6>/DXMUX ),    .CE(\sa<6>/CEINV ),    .CLK(\sa<6>/CLKINV ),    .SET(GND),    .RST(GSR),    .SSET(GND),    .SRST(\sa<6>/SRINVNOT ),    .O(\sa<6> )  );  defparam sc_1.INIT = 1'b0;  X_SFF sc_1 (    .I(\sc<0>/DYMUX ),    .CE(\sc<0>/CEINV ),    .CLK(\sc<0>/CLKINV ),    .SET(GND),    .RST(GSR),    .SSET(GND),    .SRST(\sc<0>/SRINVNOT ),    .O(\sc<1> )  );  defparam \serial_sc__n0000<0>lut_INV_0 .INIT = 16'h5555;  X_LUT4 \serial_sc__n0000<0>lut_INV_0  (    .ADR0(\sc<0> ),    .ADR1(VCC),    .ADR2(VCC),    .ADR3(VCC),    .O(N8)  );  defparam sc_0.INIT = 1'b0;  X_SFF sc_0 (    .I(\sc<0>/DXMUX ),    .CE(\sc<0>/CEINV ),    .CLK(\sc<0>/CLKINV ),    .SET(GND),    .RST(GSR),    .SSET(GND),    .SRST(\sc<0>/SRINVNOT ),    .O(\sc<0> )  );  defparam sc_3.INIT = 1'b0;  X_SFF sc_3 (    .I(\sc<2>/DYMUX ),    .CE(\sc<2>/CEINV ),    .CLK(\sc<2>/CLKINV ),    .SET(GND),    .RST(GSR),    .SSET(GND),    .SRST(\sc<2>/SRINVNOT ),    .O(\sc<3> )  );  defparam sc_2.INIT = 1'b0;  X_SFF sc_2 (    .I(\sc<2>/DXMUX ),    .CE(\sc<2>/CEINV ),    .CLK(\sc<2>/CLKINV ),    .SET(GND),    .RST(GSR),    .SSET(GND),    .SRST(\sc<2>/SRINVNOT ),    .O(\sc<2> )  );  defparam sc_5.INIT = 1'b0;  X_SFF sc_5 (    .I(\sc<4>/DYMUX ),    .CE(\sc<4>/CEINV ),    .CLK(\sc<4>/CLKINV ),    .SET(GND),    .RST(GSR),    .SSET(GND),    .SRST(\sc<4>/SRINVNOT ),    .O(\sc<5> )  );  defparam sc_4.INIT = 1'b0;  X_SFF sc_4 (    .I(\sc<4>/DXMUX ),    .CE(\sc<4>/CEINV ),    .CLK(\sc<4>/CLKINV ),    .SET(GND),    .RST(GSR),    .SSET(GND),    .SRST(\sc<4>/SRINVNOT ),    .O(\sc<4> )  );  defparam sc_6.INIT = 1'b0;  X_SFF sc_6 (    .I(\sc<6>/DXMUX ),    .CE(\sc<6>/CEINV ),    .CLK(\sc<6>/CLKINV ),    .SET(GND),    .RST(GSR),    .SSET(GND),    .SRST(\sc<6>/SRINVNOT ),    .O(\sc<6> )  );  defparam \serial__n0025<0>lut_INV_0 .INIT = 16'h3333;  X_LUT4 \serial__n0025<0>lut_INV_0  (    .ADR0(VCC),    .ADR1(\sb<0> ),    .ADR2(VCC),    .ADR3(VCC),    .O(N6)  );  defparam s5_FFd1_236.INIT = 1'b0;  X_SFF s5_FFd1_236 (    .I(\s5_FFd1/DYMUX ),    .CE(VCC),    .CLK(\s5_FFd1/CLKINV ),    .SET(GND),    .RST(GSR),    .SSET(\s5_FFd1/REVUSED ),    .SRST(\s5_FFd1/SRINVNOT ),    .O(s5_FFd1)  );  defparam _n00231_SW1.INIT = 16'hD044;  X_LUT4 _n00231_SW1 (    .ADR0(\sd<0> ),    .ADR1(\sd<1> ),    .ADR2(sclk_OBUF),    .ADR3(s5_FFd1),    .O(N220)  );  defparam Ker8.INIT = 16'h0001;  X_LUT4 Ker8 (    .ADR0(\sd<6> ),    .ADR1(\sd<5> ),    .ADR2(N28),    .ADR3(\sd<4> ),    .O(N81)  );  defparam Ker9.INIT = 16'h0001;  X_LUT4 Ker9 (    .ADR0(\sb<7> ),    .ADR1(\sb<4> ),    .ADR2(\sb<5> ),    .ADR3(\Ker9_SW0/O ),    .O(N91)  );  defparam \_n0021<0>18 .INIT = 16'h0145;  X_LUT4 \_n0021<0>18  (    .ADR0(_n0008_0),    .ADR1(N91_0),    .ADR2(N206_0),    .ADR3(\_n0021<0>18_SW0_SW3/O ),    .O(CHOICE44)  );  defparam \s2_FFd1-In1_SW1 .INIT = 16'hFFFE;  X_LUT4 \s2_FFd1-In1_SW1  (    .ADR0(\sb<5> ),    .ADR1(\sb<4> ),    .ADR2(\sb<2> ),    .ADR3(\sb<3> ),    .O(\s2_FFd1-In1_SW1/O_pack_1 )  );  defparam \s2_FFd1-In1 .INIT = 16'hF0E2;  X_LUT4 \s2_FFd1-In1  (    .ADR0(N199_0),    .ADR1(\sb<7> ),    .ADR2(s2_FFd1),    .ADR3(\s2_FFd1-In1_SW1/O ),    .O(\s2_FFd1-In )  );  defparam s2_FFd1_237.INIT = 1'b0;  X_SFF s2_FFd1_237 (    .I(\s2_FFd1/DXMUX ),    .CE(\s2_FFd1/CEINV ),    .CLK(\s2_FFd1/CLKINV ),    .SET(GND),    .RST(GSR),    .SSET(GND),    .SRST(\s2_FFd1/SRINVNOT ),    .O(s2_FFd1)  );  defparam \s3_FFd1-In1 .INIT = 16'hBAAA;  X_LUT4 \s3_FFd1-In1  (    .ADR0(s3_FFd1),    .ADR1(\sc<3> ),    .ADR2(CHOICE25),    .ADR3(\s3_FFd1-In1_SW0/O ),    .O(\s3_FFd1-In )  );  defparam Ker41.INIT = 16'hEEE2;  X_LUT4 Ker41 (    .ADR0(_n0008_0),    .ADR1(s3_FFd1),    .ADR2(_n0012),    .ADR3(s4_FFd1),    .O(N4)  );  defparam sb_4.INIT = 1'b0;  X_SFF sb_4 (    .I(\sb<5>/DYMUX ),    .CE(VCC),    .CLK(\sb<5>/CLKINV ),    .SET(GND),    .RST(GSR),    .SSET(GND),    .SRST(\sb<5>/SRINVNOT ),    .O(\sb<4> )  );  defparam \_n0021<5>1 .INIT = 16'hF888;  X_LUT4 \_n0021<5>1  (    .ADR0(N01),    .ADR1(\_n0025<5> ),    .ADR2(\sb<5> ),    .ADR3(N4_0),    .O(\_n0021<5>1/O )  );  defparam sb_5.INIT = 1'b0;  X_SFF sb_5 (    .I(\sb<5>/DXMUX ),    .CE(VCC),    .CLK(\sb<5>/CLKINV ),    .SET(GND),    .RST(GSR),    .SSET(GND),    .SRST(\sb<5>/SRINVNOT ),    .O(\sb<5> )  );  defparam sb_6.INIT = 1'b0;  X_SFF sb_6 (    .I(\sb<7>/DYMUX ),    .CE(VCC),    .CLK(\sb<7>/CLKINV ),    .SET(GND),    .RST(GSR),    .SSET(GND),    .SRST(\sb<7>/SRINVNOT ),    .O(\sb<6> )  );  defparam \_n0021<7>1 .INIT = 16'hECA0;  X_LUT4 \_n0021<7>1  (    .ADR0(\_n0025<7> ),    .ADR1(\sb<7> ),    .ADR2(N01),    .ADR3(N4_0),    .O(\_n0021<7>1/O )  );  defparam sb_7.INIT = 1'b0;  X_SFF sb_7 (    .I(\sb<7>/DXMUX ),    .CE(VCC),    .CLK(\sb<7>/CLKINV ),    .SET(GND),    .RST(GSR),    .SSET(GND),    .SRST(\sb<7>/SRINVNOT ),    .O(\sb<7> )  );  defparam sd_2.INIT = 1'b0;  X_SFF sd_2 (    .I(\sd<3>/DYMUX ),    .CE(VCC),    .CLK(\sd<3>/CLKINV ),    .SET(GND),    .RST(GSR),    .SSET(GND),    .SRST(\sd<3>/SRINVNOT ),    .O(\sd<2> )  );  defparam \_n0024<3>1 .INIT = 16'hAA0A;  X_LUT4 \_n0024<3>1  (    .ADR0(\_n0026<3> ),    .ADR1(VCC),    .ADR2(N81_0),    .ADR3(N224),    .O(\_n0024<3>1/O )  );  defparam sd_3.INIT = 1'b0;  X_SFF sd_3 (    .I(\sd<3>/DXMUX ),    .CE(VCC),    .CLK(\sd<3>/CLKINV ),    .SET(GND),    .RST(GSR),    .SSET(GND),    .SRST(\sd<3>/SRINVNOT ),    .O(\sd<3> )  );  defparam sd_4.INIT = 1'b0;  X_SFF sd_4 (    .I(\sd<5>/DYMUX ),    .CE(VCC),    .CLK(\sd<5>/CLKINV ),    .SET(GND),    .RST(GSR),    .SSET(GND),    .SRST(\sd<5>/SRINVNOT ),    .O(\sd<4> )  );  defparam \_n0024<5>1 .INIT = 16'h88CC;  X_LUT4 \_n0024<5>1  (    .ADR0(N224),    .ADR1(\_n0026<5> ),    .ADR2(VCC),    .ADR3(N81_0),    .O(\_n0024<5>1/O )  );  defparam sd_5.INIT = 1'b0;  X_SFF sd_5 (    .I(\sd<5>/DXMUX ),    .CE(VCC),    .CLK(\sd<5>/CLKINV ),    .SET(GND),    .RST(GSR),    .SSET(GND),    .SRST(\sd<5>/SRINVNOT ),    .O(\sd<5> )  );  defparam _n000828.INIT = 16'h0080;  X_LUT4 _n000828 (    .ADR0(\sc<1> ),    .ADR1(CHOICE17_0),    .ADR2(CHOICE25),    .ADR3(\sc<0> ),    .O(_n0008)  );  defparam sd_6.INIT = 1'b0;  X_SFF sd_6 (    .I(\sd<6>/DYMUX ),    .CE(VCC),    .CLK(\sd<6>/CLKINV ),    .SET(GND),    .RST(GSR),    .SSET(GND),    .SRST(\sd<6>/SRINVNOT ),    .O(\sd<6> )  );  defparam \_n0021<0>18_SW0_SW2 .INIT = 16'hEEEE;  X_LUT4 \_n0021<0>18_SW0_SW2  (    .ADR0(\sb<0> ),    .ADR1(s3_FFd1),    .ADR2(VCC),    .ADR3(VCC),    .O(N206)  );  defparam s1_FFd1_238.INIT = 1'b0;  X_SFF s1_FFd1_238 (    .I(\s1_FFd1/DXMUX ),    .CE(VCC),    .CLK(\s1_FFd1/CLKINV ),    .SET(GND),    .RST(GSR),    .SSET(\s1_FFd1/REVUSED ),    .SRST(\s1_FFd1/SRINVNOT ),    .O(s1_FFd1)  );  defparam Ker011_SW0.INIT = 16'hF7EF;  X_LUT4 Ker011_SW0 (    .ADR0(\sb<0> ),    .ADR1(\sb<1> ),    .ADR2(\sb<6> ),    .ADR3(s2_FFd1),    .O(N197)  );  defparam \_n0021<0>18_SW0_SW3_SW0 .INIT = 16'hAB2A;  X_LUT4 \_n0021<0>18_SW0_SW3_SW0  (    .ADR0(\sb<0> ),    .ADR1(s2_FFd1),    .ADR2(\sb<1> ),    .ADR3(\sb<6> ),    .O(N215)  );  defparam s3_FFd1_239.INIT = 1'b0;  X_SFF s3_FFd1_239 (    .I(\s3_FFd1/DYMUX ),    .CE(\s3_FFd1/CEINV ),    .CLK(\s3_FFd1/CLKINV ),    .SET(GND),    .RST(GSR),    .SSET(GND),    .SRST(\s3_FFd1/SRINVNOT ),    .O(s3_FFd1)  );  X_ZERO GLOBAL_LOGIC0_GND (    .O(GLOBAL_LOGIC0)  );  X_ONE GLOBAL_LOGIC1_VCC (    .O(GLOBAL_LOGIC1)  );  defparam \_n0026<1>/G/X_LUT4 .INIT = 16'hCCCC;  X_LUT4 \_n0026<1>/G/X_LUT4  (    .ADR0(VCC),    .ADR1(\sd<1> ),    .ADR2(VCC),    .ADR3(VCC),    .O(\_n0026<1>/G )  );  defparam \_n0026<2>/F/X_LUT4 .INIT = 16'hFF00;  X_LUT4 \_n0026<2>/F/X_LUT4  (    .ADR0(VCC),    .ADR1(VCC),    .ADR2(VCC),    .ADR3(\sd<2> ),    .O(\_n0026<2>/F )  );  defparam \_n0026<2>/G/X_LUT4 .INIT = 16'hAAAA;  X_LUT4 \_n0026<2>/G/X_LUT4  (    .ADR0(\sd<3> ),    .ADR1(VCC),    .ADR2(VCC),    .ADR3(VCC),    .O(\_n0026<2>/G )  );  defparam \_n0026<4>/F/X_LUT4 .INIT = 16'hAAAA;  X_LUT4 \_n0026<4>/F/X_LUT4  (    .ADR0(\sd<4> ),    .ADR1(VCC),    .ADR2(VCC),    .ADR3(VCC),    .O(\_n0026<4>/F )  );  defparam \_n0026<4>/G/X_LUT4 .INIT = 16'hF0F0;  X_LUT4 \_n0026<4>/G/X_LUT4  (    .ADR0(VCC),    .ADR1(VCC),    .ADR2(\sd<5> ),    .ADR3(VCC),    .O(\_n0026<4>/G )  );  defparam \_n0026<6>/F/X_LUT4 .INIT = 16'hFF00;  X_LUT4 \_n0026<6>/F/X_LUT4  (    .ADR0(VCC),    .ADR1(VCC),    .ADR2(VCC),    .ADR3(\sd<6> ),    .O(\_n0026<6>/F )  );  defparam \sa<0>/G/X_LUT4 .INIT = 16'hCCCC;  X_LUT4 \sa<0>/G/X_LUT4  (    .ADR0(VCC),    .ADR1(\sa<1> ),    .ADR2(VCC),    .ADR3(VCC),    .O(\sa<0>/G )  );  defparam \sa<2>/F/X_LUT4 .INIT = 16'hF0F0;  X_LUT4 \sa<2>/F/X_LUT4  (    .ADR0(VCC),    .ADR1(VCC),    .ADR2(\sa<2> ),    .ADR3(VCC),    .O(\sa<2>/F )  );  defparam \sa<2>/G/X_LUT4 .INIT = 16'hAAAA;  X_LUT4 \sa<2>/G/X_LUT4  (    .ADR0(\sa<3> ),    .ADR1(VCC),    .ADR2(VCC),    .ADR3(VCC),    .O(\sa<2>/G )  );  defparam \sa<4>/F/X_LUT4 .INIT = 16'hFF00;  X_LUT4 \sa<4>/F/X_LUT4  (    .ADR0(VCC),    .ADR1(VCC),    .ADR2(VCC),    .ADR3(\sa<4> ),    .O(\sa<4>/F )  );  defparam \sa<4>/G/X_LUT4 .INIT = 16'hCCCC;  X_LUT4 \sa<4>/G/X_LUT4  (    .ADR0(VCC),    .ADR1(\sa<5> ),    .ADR2(VCC),    .ADR3(VCC),    .O(\sa<4>/G )  );  defparam \sa<6>/F/X_LUT4 .INIT = 16'hAAAA;  X_LUT4 \sa