<?xml version="1.0" ?>
<architecture name="QL745A" xmlns:xi="http://www.w3.org/2001/XInclude">
<models>
<model name="IO_MACRO">
<input_ports>
<port name="outpad"/>
</input_ports>
<output_ports>
<port name="inpad"/>
</output_ports>
</model>
<model name="openfpga_ff">
<input_ports>
<port clock="QCK" name="D"/>
<port is_clock="1" name="QCK"/>
</input_ports>
<output_ports>
<port clock="QCK" name="CQZ"/>
</output_ports>
</model>
<model name="frac_lut4">
<input_ports>
<port name="in"/>
</input_ports>
<output_ports>
<port name="lut2_out"/>
<port name="lut4_out"/>
</output_ports>
</model>
<model name="carry_follower">
<input_ports>
<port name="a"/>
<port name="b"/>
<port name="cin"/>
</input_ports>
<output_ports>
<port name="cout"/>
</output_ports>
</model>
<model name="LUT4">
<input_ports>
<port combinational_sink_ports="O" name="I0"/>
<port combinational_sink_ports="O" name="I1"/>
<port combinational_sink_ports="O" name="I2"/>
<port combinational_sink_ports="O" name="I3"/>
</input_ports>
<output_ports>
<port name="O"/>
</output_ports>
</model>
<model name="logic_1">
<input_ports/>
<output_ports>
<port name="a"/>
</output_ports>
</model>
<model name="logic_0">
<input_ports/>
<output_ports>
<port name="a"/>
</output_ports>
</model>
</models>
<tiles>
<tile capacity="8" name="IO">
<pinlocations pattern="custom">
<loc side="top">
IO.OQI
</loc>
<loc side="right">
IO.IQZ
</loc>
</pinlocations>
<fc in_type="frac" in_val="0.20" out_type="frac" out_val="0.25"/>
<input equivalent="none" name="OQI" num_pins="1"/>
<output equivalent="none" name="IQZ" num_pins="1"/>
<equivalent_sites>
<site pb_type="IO" pin_mapping="custom">
<direct from="IO.IQZ" to="IO.inpad"/>
<direct from="IO.OQI" to="IO.outpad"/>
</site>
</equivalent_sites>
</tile>
<!-- Super Logic Cluster tile -->
<tile area="3900" name="SUPER_LOGIC_CELL">
<pinlocations pattern="custom">
<loc side="top">
SUPER_LOGIC_CELL.L0I
SUPER_LOGIC_CELL.L1I
SUPER_LOGIC_CELL.L2I
SUPER_LOGIC_CELL.L3I
SUPER_LOGIC_CELL.L4I
SUPER_LOGIC_CELL.L5I
SUPER_LOGIC_CELL.L6I
SUPER_LOGIC_CELL.L7I
SUPER_LOGIC_CELL.CI
SUPER_LOGIC_CELL.QCK
</loc>
<loc side="right">
SUPER_LOGIC_CELL.FZ
SUPER_LOGIC_CELL.AQZ
</loc>
<loc side="bottom">
SUPER_LOGIC_CELL.CO
</loc>
</pinlocations>
<fc in_type="frac" in_val="0.2" out_type="frac" out_val="0.25"/>
<clock name="QCK" num_pins="1"/>
<output equivalent="none" name="AQZ" num_pins="8"/>
<output equivalent="none" name="FZ" num_pins="8"/>
<output name="CO" num_pins="1"/>
<!-- Carry output from the last logic cell -->
<input name="CI" num_pins="1"/>
<!-- Carry input to the 1st logic cell -->
<input equivalent="none" name="L7I" num_pins="4"/>
<input equivalent="none" name="L6I" num_pins="4"/>
<input equivalent="none" name="L5I" num_pins="4"/>
<input equivalent="none" name="L4I" num_pins="4"/>
<input equivalent="none" name="L3I" num_pins="4"/>
<input equivalent="none" name="L2I" num_pins="4"/>
<input equivalent="none" name="L1I" num_pins="4"/>
<input equivalent="none" name="L0I" num_pins="4"/>
<!-- Data inputs to each logic cell -->
<equivalent_sites>
<site pb_type="SUPER_LOGIC_CELL" pin_mapping="custom">
<direct from="SUPER_LOGIC_CELL.L0I" to="SUPER_LOGIC_CELL.L0I"/>
<direct from="SUPER_LOGIC_CELL.L1I" to="SUPER_LOGIC_CELL.L1I"/>
<direct from="SUPER_LOGIC_CELL.L2I" to="SUPER_LOGIC_CELL.L2I"/>
<direct from="SUPER_LOGIC_CELL.L3I" to="SUPER_LOGIC_CELL.L3I"/>
<direct from="SUPER_LOGIC_CELL.L4I" to="SUPER_LOGIC_CELL.L4I"/>
<direct from="SUPER_LOGIC_CELL.L5I" to="SUPER_LOGIC_CELL.L5I"/>
<direct from="SUPER_LOGIC_CELL.L6I" to="SUPER_LOGIC_CELL.L6I"/>
<direct from="SUPER_LOGIC_CELL.L7I" to="SUPER_LOGIC_CELL.L7I"/>
<direct from="SUPER_LOGIC_CELL.CI" to="SUPER_LOGIC_CELL.CI"/>
<direct from="SUPER_LOGIC_CELL.CO" to="SUPER_LOGIC_CELL.CO"/>
<direct from="SUPER_LOGIC_CELL.FZ" to="SUPER_LOGIC_CELL.FZ"/>
<direct from="SUPER_LOGIC_CELL.AQZ" to="SUPER_LOGIC_CELL.AQZ"/>
<direct from="SUPER_LOGIC_CELL.QCK" to="SUPER_LOGIC_CELL.QCK"/>
</site>
</equivalent_sites>
</tile>
<tile capacity="1" name="TL-VCC">
<switchbox_locations pattern="all"/>
<pinlocations pattern="custom">
<loc side="right">TL-VCC.VCC</loc>
</pinlocations>
<fc in_type="frac" in_val="0.20" out_type="frac" out_val="0.25"/>
<equivalent_sites>
<site pb_type="LOGIC_1" pin_mapping="custom">
<direct from="TL-VCC.VCC" to="LOGIC_1.a"/>
</site>
</equivalent_sites>
<output name="VCC" num_pins="1"/>
</tile>
<tile capacity="1" name="TL-GND">
<switchbox_locations pattern="all"/>
<pinlocations pattern="custom">
<loc side="right">TL-GND.GND</loc>
</pinlocations>
<fc in_type="frac" in_val="0.20" out_type="frac" out_val="0.25"/>
<equivalent_sites>
<site pb_type="LOGIC_0" pin_mapping="custom">
<direct from="TL-GND.GND" to="LOGIC_0.a"/>
</site>
</equivalent_sites>
<output name="GND" num_pins="1"/>
</tile>
</tiles>
<layout>
<fixed_layout height="12" name="ql-ap3-8x8" width="12">
<!-- Fill the entire grid with empty tiles -->
<region endx="W-1" endy="H-1" priority="1" startx="0" starty="0" type="EMPTY"/>
<!-- Fill with 'SLC' -->
<region endx="W-3" endy="H-3" priority="10" startx="2" starty="2" type="SUPER_LOGIC_CELL"/>
<!-- Top IOs -->
<region endx="W-3" endy="1" priority="20" startx="2" starty="1" type="IO"/>
<!-- Left IOs -->
<region endx="1" endy="H-3" priority="20" startx="1" starty="2" type="IO"/>
<!-- Bottom IOs -->
<region endx="W-3" endy="H-2" priority="20" startx="2" starty="H-2" type="IO"/>
<!-- Right IOs -->
<region endx="W-2" endy="H-3" priority="20" startx="W-2" starty="2" type="IO"/>
<!-- Const sources -->
<single priority="100" type="TL-VCC" x="1" y="1"/>
<single priority="100" type="TL-GND" x="1" y="H-2"/>
</fixed_layout>
</layout>
<device>
<sizing R_minW_nmos="13090.000000" R_minW_pmos="19086.831111"/>
<area grid_logic_tile_area="0"/>
<chan_width_distr>
<x distr="uniform" peak="1.000000"/>
<y distr="uniform" peak="1.000000"/>
</chan_width_distr>
<switch_block fs="3" type="wilton"/>
<connection_block input_switch_name="routing"/>
<default_fc in_type="frac" in_val="0.20" out_type="frac" out_val="0.25"/>
</device>
<switchlist>
<switch Cin="0.0" Cinternal="0.0" Cout="0.0" R="0.0" Tdel="1e-10" buf_size="27.645901" mux_trans_size="2.630740" name="routing" type="mux"/>
</switchlist>
<segmentlist>
<segment Cmetal="22.5e-15" Rmetal="1e-12" freq="1.000000" length="4" name="hop4" type="unidir">
<sb type="pattern">1 1 1 1 1</sb>
<cb type="pattern">1 1 1 1</cb>
<mux name="routing"/>
</segment>
</segmentlist>
<directlist>
<direct from_pin="SUPER_LOGIC_CELL.CO" name="adder_carry" to_pin="SUPER_LOGIC_CELL.CI" x_offset="0" y_offset="-1" z_offset="0"/>
</directlist>
<complexblocklist>
<pb_type name="IO">
<input name="outpad" num_pins="1"/>
<output name="inpad" num_pins="1"/>
<mode name="PHYSICAL">
<pb_type name="PHYSICAL" num_pb="1">
<input name="outpad" num_pins="1"/>
<output name="inpad" num_pins="1"/>
<pb_type blif_model=".subckt IO_MACRO" name="macro" num_pb="1">
<input name="outpad" num_pins="1"/>
<output name="inpad" num_pins="1"/>
</pb_type>
<interconnect>
<direct input="macro.inpad" name="PHYSICAL-inpad" output="PHYSICAL.inpad"/>
<direct input="PHYSICAL.outpad" name="macro-outpad" output="macro.outpad"/>
</interconnect>
</pb_type>
<interconnect>
<direct input="PHYSICAL.inpad" name="IO-inpad" output="IO.inpad"/>
<direct input="IO.outpad" name="PHYSICAL-outpad" output="PHYSICAL.outpad"/>
</interconnect>
</mode>
<mode name="INPUT">
<pb_type name="INPUT" num_pb="1">
<input name="outpad" num_pins="1"/>
<output name="inpad" num_pins="1"/>
<pb_type blif_model=".input" name="i_pad" num_pb="1">
<output name="inpad" num_pins="1"/>
</pb_type>
<interconnect>
<direct input="i_pad.inpad" name="INPUT-inpad" output="INPUT.inpad"/>
</interconnect>
</pb_type>
<interconnect>
<direct input="IO.outpad" name="INPUT-outpad" output="INPUT.outpad"/>
<direct input="INPUT.inpad" name="IO-inpad" output="IO.inpad"/>
</interconnect>
</mode>
<mode name="OUTPUT">
<pb_type name="OUTPUT" num_pb="1">
<input name="outpad" num_pins="1"/>
<output name="inpad" num_pins="1"/>
<pb_type blif_model=".output" name="o_pad" num_pb="1">
<input name="outpad" num_pins="1"/>
</pb_type>
<interconnect>
<direct input="OUTPUT.outpad" name="o_pad-outpad" output="o_pad.outpad"/>
</interconnect>
</pb_type>
<interconnect>
<direct input="OUTPUT.inpad" name="IO-inpad" output="IO.inpad"/>
<direct input="IO.outpad" name="OUTPUT-outpad" output="OUTPUT.outpad"/>
</interconnect>
</mode>
</pb_type>
<pb_type name="SUPER_LOGIC_CELL">
<clock name="QCK" num_pins="1"/>
<input name="CI" num_pins="1"/>
<input name="L0I" num_pins="4"/>
<input name="L1I" num_pins="4"/>
<input name="L2I" num_pins="4"/>
<input name="L3I" num_pins="4"/>
<input name="L4I" num_pins="4"/>
<input name="L5I" num_pins="4"/>
<input name="L6I" num_pins="4"/>
<input name="L7I" num_pins="4"/>
<output name="AQZ" num_pins="8"/>
<output name="CO" num_pins="1"/>
<output name="FZ" num_pins="8"/>
<pb_type name="LC" num_pb="8">
<input name="CI" num_pins="1"/>
<input name="LI" num_pins="4"/>
<input name="QCK" num_pins="1"/>
<output name="AQZ" num_pins="1"/>
<output name="CO" num_pins="1"/>
<output name="FZ" num_pins="1"/>
<mode name="PHYSICAL" disabled_in_pack="true">
<pb_type name="PHYSICAL" num_pb="1">
<input name="CI" num_pins="1"/>
<input name="LI" num_pins="4"/>
<output name="AQZ" num_pins="1"/>
<output name="CO" num_pins="1"/>
<output name="FZ" num_pins="1"/>
<clock name="QCK" num_pins="1"/>
<pb_type name="frac_logic" num_pb="1">
<input name="LI" num_pins="4"/>
<input name="CI" num_pins="1"/>
<output name="O" num_pins="1"/>
<output name="CO" num_pins="1"/>
<!-- Define LUT -->
<pb_type name="frac_lut4" blif_model=".subckt frac_lut4" num_pb="1">
<input name="in" num_pins="4"/>
<output name="lut2_out" num_pins="2"/>
<output name="lut4_out" num_pins="1"/>
</pb_type>
<pb_type name="carry_follower" blif_model=".subckt carry_follower" num_pb="1">
<input name="a" num_pins="1"/>
<input name="b" num_pins="1"/>
<input name="cin" num_pins="1"/>
<output name="cout" num_pins="1"/>
</pb_type>
<interconnect>
<direct name="direct1" input="frac_logic.LI[0:1]" output="frac_lut4.in[0:1]" />
<direct name="direct2" input="frac_logic.LI[3:3]" output="frac_lut4.in[3:3]" />
<direct name="direct3" input="frac_lut4.lut4_out" output="frac_logic.O" />
<direct name="direct4" input="frac_lut4.lut2_out[1:1]" output="carry_follower.a" />
<direct name="direct5" input="frac_logic.CI" output="carry_follower.b" />
<direct name="direct6" input="frac_lut4.lut2_out[0:0]" output="carry_follower.cin" />
<direct name="direct7" input="carry_follower.out" output="frac_logic.CO" />
<mux name="i2_ci" input="frac_logic.LI[2:2] frac_logic.CI" output="frac_lut4.in[2:2]"/>
</interconnect>
</pb_type>
<!-- Define flip-flop with scan-chain capability, DI is the scan-chain data input -->
<pb_type name="ff" blif_model=".subckt openfpga_ff" num_pb="1">
<clock name="QCK" num_pins="1"/>
<input name="D" num_pins="1"/>
<output name="CQZ" num_pins="1"/>
<T_clock_to_Q clock="QCK" max="1e-10" port="ff.CQZ"/>
<T_setup clock="QCK" port="ff.D" value="1e-10"/>
<T_hold clock="QCK" port="ff.D" value="1e-10"/>
</pb_type>
<interconnect>
<direct name="direct_LI0" input="PHYSICAL.LI[0]" output="frac_logic.LI[0]" />
<direct name="direct_LI1" input="PHYSICAL.LI[1]" output="frac_logic.LI[1]" />
<direct name="direct_LI2" input="PHYSICAL.LI[2]" output="frac_logic.LI[2]" />
<direct name="direct_LI3" input="PHYSICAL.LI[3]" output="frac_logic.LI[3]" />
<direct name="direct_CI" input="PHYSICAL.CI" output="frac_logic.CI" />
<direct name="direct_QCK" input="PHYSICAL.QCK" output="ff.QCK" />
<mux name="lut_qdi" input="frac_logic.O PHYSICAL.LI[3]" output="ff.D"/>
<direct name="direct_AQZ" input="ff.CQZ" output="PHYSICAL.AQZ" />
<direct name="direct_FZ" input="frac_logic.O" output="PHYSICAL.FZ" />
<direct name="direct_CO" input="frac_logic.CO" output="PHYSICAL.CO" />
</interconnect>
</pb_type>
<interconnect>
<direct input="PHYSICAL.AQZ" name="LC-AQZ" output="LC.AQZ"/>
<direct input="PHYSICAL.CO" name="LC-CO" output="LC.CO"/>
<direct input="PHYSICAL.FZ" name="LC-FZ" output="LC.FZ"/>
<direct input="LC.CI" name="PHYSICAL-CI" output="PHYSICAL.CI"/>
<direct input="LC.LI" name="PHYSICAL-LI" output="PHYSICAL.LI"/>
<direct input="LC.QCK" name="PHYSICAL-QCK" output="PHYSICAL.QCK"/>
</interconnect>
</mode>
<mode name="DEFAULT">
<pb_type name="DEFAULT" num_pb="1">
<input name="CI" num_pins="1"/>
<input name="LI" num_pins="4"/>
<input name="QCK" num_pins="1"/>
<output name="AQZ" num_pins="1"/>
<output name="CO" num_pins="1"/>
<output name="FZ" num_pins="1"/>
<pb_type blif_model=".subckt openfpga_ff" name="ff" num_pb="1">
<clock name="QCK" num_pins="1"/>
<input name="D" num_pins="1"/>
<output name="CQZ" num_pins="1"/>
<T_clock_to_Q clock="QCK" max="1e-10" port="ff.CQZ"/>
<T_setup clock="QCK" port="ff.D" value="1e-10"/>
<T_hold clock="QCK" port="ff.D" value="1e-10"/>
<metadata>
<meta name="fasm_prefix">BLK2REG</meta>
<meta name="fasm_features"/>
</metadata>
</pb_type>
<pb_type name="lut_part" num_pb="1">
<input name="LI" num_pins="4"/>
<output name="FZ" num_pins="1"/>
<mode name="VPR_LUT4">
<pb_type name="VPR_LUT4" num_pb="1">
<input name="LI" num_pins="4"/>
<output name="FZ" num_pins="1"/>
<pb_type name="lut_inst" num_pb="1">
<input name="in" num_pins="4"/>
<output name="out" num_pins="1"/>
<pb_type blif_model=".names" class="lut" name="lut" num_pb="1">
<input name="in" num_pins="4" port_class="lut_in"/>
<output name="out" num_pins="1" port_class="lut_out"/>
<delay_matrix in_port="lut.in" out_port="lut.out" type="max">
1e-10 1e-10 1e-10 1e-10
</delay_matrix>
</pb_type>
<interconnect>
<direct input="lut_inst.in[0]" name="lut-in[0]" output="lut.in[0]"/>
<direct input="lut_inst.in[1]" name="lut-in[1]" output="lut.in[1]"/>
<direct input="lut_inst.in[2]" name="lut-in[2]" output="lut.in[2]"/>
<direct input="lut_inst.in[3]" name="lut-in[3]" output="lut.in[3]"/>
<direct input="lut.out" name="lut_inst-out" output="lut_inst.out"/>
</interconnect>
<metadata>
<meta name="fasm_prefix">LUT4</meta>
<meta name="fasm_type">LUT</meta>
<meta name="fasm_lut">INIT[15:0] = lut</meta>
</metadata>
</pb_type>
<interconnect>
<direct input="lut_inst.out" name="VPR_LUT4-FZ" output="VPR_LUT4.FZ">
<pack_pattern in_port="lut_inst.out" name="pack-VPR_LUT_to_FF" out_port="VPR_LUT4.FZ"/>
</direct>
<direct input="VPR_LUT4.LI[0]" name="lut_inst-in[0]" output="lut_inst.in[0]"/>
<direct input="VPR_LUT4.LI[1]" name="lut_inst-in[1]" output="lut_inst.in[1]"/>
<direct input="VPR_LUT4.LI[2]" name="lut_inst-in[2]" output="lut_inst.in[2]"/>
<direct input="VPR_LUT4.LI[3]" name="lut_inst-in[3]" output="lut_inst.in[3]"/>
</interconnect>
</pb_type>
<interconnect>
<direct input="lut_part.LI" name="VPR_LUT4-LI" output="VPR_LUT4.LI"/>
<direct input="VPR_LUT4.FZ" name="lut_part-FZ" output="lut_part.FZ"/>
</interconnect>
</mode>
<!--mode name="LUT4">
<pb_type name="LUT4" num_pb="1">
<input name="LI" num_pins="4"/>
<output name="FZ" num_pins="1"/>
<pb_type blif_model=".subckt LUT4" name="lut_inst" num_pb="1">
<input name="I0" num_pins="1"/>
<input name="I1" num_pins="1"/>
<input name="I2" num_pins="1"/>
<input name="I3" num_pins="1"/>
<output name="O" num_pins="1"/>
<delay_constant in_port="lut_inst.I0" max="1e-10" out_port="lut_inst.O"/>
<delay_constant in_port="lut_inst.I1" max="1e-10" out_port="lut_inst.O"/>
<delay_constant in_port="lut_inst.I2" max="1e-10" out_port="lut_inst.O"/>
<delay_constant in_port="lut_inst.I3" max="1e-10" out_port="lut_inst.O"/>
<metadata>
<meta name="fasm_prefix">LUT4</meta>
<meta name="fasm_params">INIT[15:0]=INIT</meta>
</metadata>
</pb_type>
<interconnect>
<direct input="lut_inst.O" name="LUT4-FZ" output="LUT4.FZ">
<pack_pattern in_port="lut_inst.O" name="pack-LUT4_to_FF" out_port="LUT4.FZ"/>
</direct>
<direct input="LUT4.LI[0]" name="lut_inst-I0" output="lut_inst.I0"/>
<direct input="LUT4.LI[1]" name="lut_inst-I1" output="lut_inst.I1"/>
<direct input="LUT4.LI[2]" name="lut_inst-I2" output="lut_inst.I2"/>
<direct input="LUT4.LI[3]" name="lut_inst-I3" output="lut_inst.I3"/>
</interconnect>
</pb_type>
<interconnect>
<direct input="lut_part.LI" name="LUT4-LI" output="LUT4.LI"/>
<direct input="LUT4.FZ" name="lut_part-FZ" output="lut_part.FZ"/>
</interconnect>
</mode-->
</pb_type>
<interconnect>
<direct input="ff.CQZ" name="DEFAULT-AQZ" output="DEFAULT.AQZ"/>
<direct input="lut_part.FZ" name="DEFAULT-FZ" output="DEFAULT.FZ">
<pack_pattern in_port="lut_part.FZ" name="pack-VPR_LUT_to_FF" out_port="DEFAULT.FZ"/>
<!--pack_pattern in_port="lut_part.FZ" name="pack-LUT4_to_FF" out_port="DEFAULT.FZ"/-->
</direct>
<mux input="lut_part.FZ DEFAULT.LI[3]" name="cds_mux" output="ff.D">
<metadata>
<meta name="fasm_mux">
lut_part.FZ : I0
DEFAULT.LI[3] : I1
</meta>
<meta name="type">bel</meta>
<meta name="subtype">routing</meta>
</metadata>
</mux>
<direct input="DEFAULT.QCK" name="ff-QCK" output="ff.QCK"/>
<direct input="DEFAULT.LI[0]" name="lut_part-LI[0]" output="lut_part.LI[0]"/>
<direct input="DEFAULT.LI[1]" name="lut_part-LI[1]" output="lut_part.LI[1]"/>
<direct input="DEFAULT.LI[2]" name="lut_part-LI[2]" output="lut_part.LI[2]"/>
<direct input="DEFAULT.LI[3]" name="lut_part-LI[3]" output="lut_part.LI[3]"/>
</interconnect>
</pb_type>
<interconnect>
<direct input="LC.CI" name="DEFAULT-CI" output="DEFAULT.CI"/>
<direct input="LC.LI" name="DEFAULT-LI" output="DEFAULT.LI"/>
<direct input="LC.QCK" name="DEFAULT-QCK" output="DEFAULT.QCK"/>
<direct input="DEFAULT.AQZ" name="LC-AQZ" output="LC.AQZ"/>
<direct input="DEFAULT.CO" name="LC-CO" output="LC.CO"/>
<direct input="DEFAULT.FZ" name="LC-FZ" output="LC.FZ"/>
</interconnect>
</mode>
<metadata>
<meta name="fasm_prefix">LC0 LC1 LC2 LC3 LC4 LC5 LC6 LC7</meta>
</metadata>
</pb_type>
<interconnect>
<direct input="SUPER_LOGIC_CELL.CI" name="LC[0]-CI" output="LC[0].CI"/>
<direct input="SUPER_LOGIC_CELL.L0I[0]" name="LC[0]-LI[0]" output="LC[0].LI[0]"/>
<direct input="SUPER_LOGIC_CELL.L0I[1]" name="LC[0]-LI[1]" output="LC[0].LI[1]"/>
<direct input="SUPER_LOGIC_CELL.L0I[2]" name="LC[0]-LI[2]" output="LC[0].LI[2]"/>
<direct input="SUPER_LOGIC_CELL.L0I[3]" name="LC[0]-LI[3]" output="LC[0].LI[3]"/>
<direct input="SUPER_LOGIC_CELL.QCK" name="LC[0]-QCK" output="LC[0].QCK"/>
<direct input="LC[0].CO" name="LC[1]-CI" output="LC[1].CI"/>
<direct input="SUPER_LOGIC_CELL.L1I[0]" name="LC[1]-LI[0]" output="LC[1].LI[0]"/>
<direct input="SUPER_LOGIC_CELL.L1I[1]" name="LC[1]-LI[1]" output="LC[1].LI[1]"/>
<direct input="SUPER_LOGIC_CELL.L1I[2]" name="LC[1]-LI[2]" output="LC[1].LI[2]"/>
<direct input="SUPER_LOGIC_CELL.L1I[3]" name="LC[1]-LI[3]" output="LC[1].LI[3]"/>
<direct input="SUPER_LOGIC_CELL.QCK" name="LC[1]-QCK" output="LC[1].QCK"/>
<direct input="LC[1].CO" name="LC[2]-CI" output="LC[2].CI"/>
<direct input="SUPER_LOGIC_CELL.L2I[0]" name="LC[2]-LI[0]" output="LC[2].LI[0]"/>
<direct input="SUPER_LOGIC_CELL.L2I[1]" name="LC[2]-LI[1]" output="LC[2].LI[1]"/>
<direct input="SUPER_LOGIC_CELL.L2I[2]" name="LC[2]-LI[2]" output="LC[2].LI[2]"/>
<direct input="SUPER_LOGIC_CELL.L2I[3]" name="LC[2]-LI[3]" output="LC[2].LI[3]"/>
<direct input="SUPER_LOGIC_CELL.QCK" name="LC[2]-QCK" output="LC[2].QCK"/>
<direct input="LC[2].CO" name="LC[3]-CI" output="LC[3].CI"/>
<direct input="SUPER_LOGIC_CELL.L3I[0]" name="LC[3]-LI[0]" output="LC[3].LI[0]"/>
<direct input="SUPER_LOGIC_CELL.L3I[1]" name="LC[3]-LI[1]" output="LC[3].LI[1]"/>
<direct input="SUPER_LOGIC_CELL.L3I[2]" name="LC[3]-LI[2]" output="LC[3].LI[2]"/>
<direct input="SUPER_LOGIC_CELL.L3I[3]" name="LC[3]-LI[3]" output="LC[3].LI[3]"/>
<direct input="SUPER_LOGIC_CELL.QCK" name="LC[3]-QCK" output="LC[3].QCK"/>
<direct input="LC[3].CO" name="LC[4]-CI" output="LC[4].CI"/>
<direct input="SUPER_LOGIC_CELL.L4I[0]" name="LC[4]-LI[0]" output="LC[4].LI[0]"/>
<direct input="SUPER_LOGIC_CELL.L4I[1]" name="LC[4]-LI[1]" output="LC[4].LI[1]"/>
<direct input="SUPER_LOGIC_CELL.L4I[2]" name="LC[4]-LI[2]" output="LC[4].LI[2]"/>
<direct input="SUPER_LOGIC_CELL.L4I[3]" name="LC[4]-LI[3]" output="LC[4].LI[3]"/>
<direct input="SUPER_LOGIC_CELL.QCK" name="LC[4]-QCK" output="LC[4].QCK"/>
<direct input="LC[4].CO" name="LC[5]-CI" output="LC[5].CI"/>
<direct input="SUPER_LOGIC_CELL.L5I[0]" name="LC[5]-LI[0]" output="LC[5].LI[0]"/>
<direct input="SUPER_LOGIC_CELL.L5I[1]" name="LC[5]-LI[1]" output="LC[5].LI[1]"/>
<direct input="SUPER_LOGIC_CELL.L5I[2]" name="LC[5]-LI[2]" output="LC[5].LI[2]"/>
<direct input="SUPER_LOGIC_CELL.L5I[3]" name="LC[5]-LI[3]" output="LC[5].LI[3]"/>
<direct input="SUPER_LOGIC_CELL.QCK" name="LC[5]-QCK" output="LC[5].QCK"/>
<direct input="LC[5].CO" name="LC[6]-CI" output="LC[6].CI"/>
<direct input="SUPER_LOGIC_CELL.L6I[0]" name="LC[6]-LI[0]" output="LC[6].LI[0]"/>
<direct input="SUPER_LOGIC_CELL.L6I[1]" name="LC[6]-LI[1]" output="LC[6].LI[1]"/>
<direct input="SUPER_LOGIC_CELL.L6I[2]" name="LC[6]-LI[2]" output="LC[6].LI[2]"/>
<direct input="SUPER_LOGIC_CELL.L6I[3]" name="LC[6]-LI[3]" output="LC[6].LI[3]"/>
<direct input="SUPER_LOGIC_CELL.QCK" name="LC[6]-QCK" output="LC[6].QCK"/>
<direct input="LC[6].CO" name="LC[7]-CI" output="LC[7].CI"/>
<direct input="SUPER_LOGIC_CELL.L7I[0]" name="LC[7]-LI[0]" output="LC[7].LI[0]"/>
<direct input="SUPER_LOGIC_CELL.L7I[1]" name="LC[7]-LI[1]" output="LC[7].LI[1]"/>
<direct input="SUPER_LOGIC_CELL.L7I[2]" name="LC[7]-LI[2]" output="LC[7].LI[2]"/>
<direct input="SUPER_LOGIC_CELL.L7I[3]" name="LC[7]-LI[3]" output="LC[7].LI[3]"/>
<direct input="SUPER_LOGIC_CELL.QCK" name="LC[7]-QCK" output="LC[7].QCK"/>
<direct input="LC[0].AQZ" name="SUPER_LOGIC_CELL-AQZ[0]" output="SUPER_LOGIC_CELL.AQZ[0]"/>
<direct input="LC[1].AQZ" name="SUPER_LOGIC_CELL-AQZ[1]" output="SUPER_LOGIC_CELL.AQZ[1]"/>
<direct input="LC[2].AQZ" name="SUPER_LOGIC_CELL-AQZ[2]" output="SUPER_LOGIC_CELL.AQZ[2]"/>
<direct input="LC[3].AQZ" name="SUPER_LOGIC_CELL-AQZ[3]" output="SUPER_LOGIC_CELL.AQZ[3]"/>
<direct input="LC[4].AQZ" name="SUPER_LOGIC_CELL-AQZ[4]" output="SUPER_LOGIC_CELL.AQZ[4]"/>
<direct input="LC[5].AQZ" name="SUPER_LOGIC_CELL-AQZ[5]" output="SUPER_LOGIC_CELL.AQZ[5]"/>
<direct input="LC[6].AQZ" name="SUPER_LOGIC_CELL-AQZ[6]" output="SUPER_LOGIC_CELL.AQZ[6]"/>
<direct input="LC[7].AQZ" name="SUPER_LOGIC_CELL-AQZ[7]" output="SUPER_LOGIC_CELL.AQZ[7]"/>
<direct input="LC[7].CO" name="SUPER_LOGIC_CELL-CO" output="SUPER_LOGIC_CELL.CO"/>
<direct input="LC[0].FZ" name="SUPER_LOGIC_CELL-FZ[0]" output="SUPER_LOGIC_CELL.FZ[0]"/>
<direct input="LC[1].FZ" name="SUPER_LOGIC_CELL-FZ[1]" output="SUPER_LOGIC_CELL.FZ[1]"/>
<direct input="LC[2].FZ" name="SUPER_LOGIC_CELL-FZ[2]" output="SUPER_LOGIC_CELL.FZ[2]"/>
<direct input="LC[3].FZ" name="SUPER_LOGIC_CELL-FZ[3]" output="SUPER_LOGIC_CELL.FZ[3]"/>
<direct input="LC[4].FZ" name="SUPER_LOGIC_CELL-FZ[4]" output="SUPER_LOGIC_CELL.FZ[4]"/>
<direct input="LC[5].FZ" name="SUPER_LOGIC_CELL-FZ[5]" output="SUPER_LOGIC_CELL.FZ[5]"/>
<direct input="LC[6].FZ" name="SUPER_LOGIC_CELL-FZ[6]" output="SUPER_LOGIC_CELL.FZ[6]"/>
<direct input="LC[7].FZ" name="SUPER_LOGIC_CELL-FZ[7]" output="SUPER_LOGIC_CELL.FZ[7]"/>
</interconnect>
</pb_type>
<pb_type name="LOGIC_1">
<output name="a" num_pins="1"/>
<pb_type blif_model=".subckt logic_1" name="logic_1" num_pb="1">
<output name="a" num_pins="1"/>
</pb_type>
<interconnect>
<direct input="logic_1.a" name="LOGIC_1-a" output="LOGIC_1.a"/>
</interconnect>
</pb_type>
<pb_type name="LOGIC_0">
<output name="a" num_pins="1"/>
<pb_type blif_model=".subckt logic_0" name="gnd" num_pb="1">
<output name="a" num_pins="1"/>
</pb_type>
<interconnect>
<direct input="gnd.a" name="LOGIC_0-a" output="LOGIC_0.a"/>
</interconnect>
</pb_type>
</complexblocklist>
</architecture>