737 lines
38 KiB
XML
737 lines
38 KiB
XML
<architecture>
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<!-- jluu and ken: ODIN II specific config -->
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<models>
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<model name="multiply">
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<input_ports>
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<port name="a" combinational_sink_ports="out"/>
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<port name="b" combinational_sink_ports="out"/>
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</input_ports>
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<output_ports>
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<port name="out"/>
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</output_ports>
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</model>
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<model name="single_port_ram">
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<input_ports>
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<port name="we"/>
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<!-- control -->
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<port name="addr"/>
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<!-- address lines -->
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<port name="data"/>
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<!-- data lines can be broken down into smaller bit widths minimum size 1 -->
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<port name="clk" is_clock="1"/>
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<!-- memories are often clocked -->
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</input_ports>
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<output_ports>
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<port name="out"/>
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<!-- output can be broken down into smaller bit widths minimum size 1 -->
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</output_ports>
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</model>
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<model name="dual_port_ram">
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<input_ports>
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<port name="we1"/>
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<!-- write enable -->
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<port name="we2"/>
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<!-- write enable -->
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<port name="addr1"/>
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<!-- address lines -->
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<port name="addr2"/>
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<!-- address lines -->
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<port name="data1"/>
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<!-- data lines can be broken down into smaller bit widths minimum size 1 -->
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<port name="data2"/>
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<!-- data lines can be broken down into smaller bit widths minimum size 1 -->
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<port name="clk" is_clock="1"/>
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<!-- memories are often clocked -->
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</input_ports>
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<output_ports>
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<port name="out1"/>
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<!-- output can be broken down into smaller bit widths minimum size 1 -->
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<port name="out2"/>
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<!-- output can be broken down into smaller bit widths minimum size 1 -->
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</output_ports>
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</model>
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</models>
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<tiles>
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<tile name="io" capacity="7">
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<equivalent_sites>
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<site pb_type="io"/>
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</equivalent_sites>
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<input name="outpad" num_pins="1" equivalent="none"/>
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<output name="inpad" num_pins="1"/>
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<clock name="clock" num_pins="1"/>
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<fc in_type="frac" in_val="0.15" out_type="frac" out_val="0.125"/>
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<pinlocations pattern="custom">
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<loc side="left">io.outpad io.inpad io.clock</loc>
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<loc side="top">io.outpad io.inpad io.clock</loc>
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<loc side="right">io.outpad io.inpad io.clock</loc>
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<loc side="bottom">io.outpad io.inpad io.clock</loc>
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</pinlocations>
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</tile>
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<tile name="clb">
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<equivalent_sites>
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<site pb_type="clb"/>
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</equivalent_sites>
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<input name="I" num_pins="56" equivalent="full"/>
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<output name="O" num_pins="16"/>
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<clock name="clk" num_pins="1"/>
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<fc in_type="frac" in_val="0.15" out_type="frac" out_val="0.125"/>
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<pinlocations pattern="spread"/>
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</tile>
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<tile name="memory" height="4">
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<equivalent_sites>
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<site pb_type="memory"/>
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</equivalent_sites>
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<input name="addr1" num_pins="16"/>
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<input name="addr2" num_pins="16"/>
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<input name="data" num_pins="64"/>
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<input name="we1" num_pins="1"/>
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<input name="we2" num_pins="1"/>
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<output name="out" num_pins="64"/>
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<clock name="clk" num_pins="1"/>
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<fc in_type="frac" in_val="0.15" out_type="frac" out_val="0.125"/>
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<pinlocations pattern="spread"/>
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</tile>
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<tile name="mult_36" height="3">
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<equivalent_sites>
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<site pb_type="mult_36"/>
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</equivalent_sites>
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<input name="a" num_pins="36"/>
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<input name="b" num_pins="36"/>
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<output name="out" num_pins="72"/>
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<fc in_type="frac" in_val="0.15" out_type="frac" out_val="0.125"/>
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<pinlocations pattern="spread"/>
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</tile>
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</tiles>
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<!-- jluu and ken: ODIN II specific config ends -->
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<!-- jluu and ken: Physical descriptions begin -->
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<!-- <layout width="20" height="20"/> -->
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<layout>
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<auto_layout aspect_ratio="1.0">
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<!--Perimeter of 'io' blocks with 'EMPTY' blocks at corners-->
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<perimeter type="io" priority="100"/>
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<corners type="EMPTY" priority="101"/>
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<!--Fill with 'clb'-->
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<fill type="clb" priority="10"/>
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<!--Column of 'memory' with 'EMPTY' blocks wherever a 'memory' does not fit. Vertical offset by 1 for perimeter.-->
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<col type="memory" startx="2" starty="1" repeatx="5" priority="20"/>
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<col type="EMPTY" startx="2" repeatx="5" starty="1" priority="19"/>
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<!--Column of 'mult_36' with 'EMPTY' blocks wherever a 'mult_36' does not fit. Vertical offset by 1 for perimeter.-->
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<col type="mult_36" startx="4" starty="1" repeatx="5" priority="20"/>
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<col type="EMPTY" startx="4" repeatx="5" starty="1" priority="19"/>
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</auto_layout>
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</layout>
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<device>
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<sizing R_minW_nmos="5726.870117" R_minW_pmos="15491.700195"/>
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<area grid_logic_tile_area="30000.000000"/>
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<chan_width_distr>
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<x distr="uniform" peak="1.000000"/>
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<y distr="uniform" peak="1.000000"/>
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</chan_width_distr>
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<switch_block type="wilton" fs="3"/>
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<connection_block input_switch_name="ipin_cblock"/>
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</device>
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<switchlist>
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<switch type="mux" name="0" R="94.841003" Cin="1.537000e-14" Cout="2.194000e-13" Tdel="6.562000e-11" mux_trans_size="10.000000" buf_size="1"/>
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<!--switch ipin_cblock resistance set to yeild for 4x minimum drive strength buffer-->
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<switch type="mux" name="ipin_cblock" R="1431.71752925" Cout="0." Cin="1.191000e-14" Tdel="1.482000e-10" mux_trans_size="1.000000" buf_size="auto"/>
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</switchlist>
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<segmentlist>
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<segment freq="1.000000" length="4" type="unidir" Rmetal="11.064550" Cmetal="4.727860e-14">
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<mux name="0"/>
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<sb type="pattern">1 1 1 1 1</sb>
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<cb type="pattern">1 1 1 1</cb>
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</segment>
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</segmentlist>
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<complexblocklist>
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<pb_type name="io">
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<input name="outpad" num_pins="1" equivalent="none"/>
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<output name="inpad" num_pins="1"/>
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<clock name="clock" num_pins="1"/>
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<!-- IOs can operate as either inputs or outputs -->
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<mode name="inpad">
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<pb_type name="inpad" blif_model=".input" num_pb="1">
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<output name="inpad" num_pins="1"/>
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</pb_type>
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<interconnect>
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<direct name="inpad" input="inpad.inpad" output="io.inpad"/>
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</interconnect>
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</mode>
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<mode name="outpad">
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<pb_type name="outpad" blif_model=".output" num_pb="1">
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<input name="outpad" num_pins="1"/>
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</pb_type>
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<interconnect>
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<direct name="outpad" input="io.outpad" output="outpad.outpad"/>
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</interconnect>
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</mode>
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<!-- IOs go on the periphery of the FPGA, for consistency,
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make it physically equivalent on all sides so that only one definition of I/Os is needed.
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If I do not make a physically equivalent definition, then I need to define 4 different I/Os, one for each side of the FPGA
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-->
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</pb_type>
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<pb_type name="clb">
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<input name="I" num_pins="56" equivalent="full"/>
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<output name="O" num_pins="16"/>
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<clock name="clk" num_pins="1"/>
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<pb_type name="ble" num_pb="8">
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<input name="in" num_pins="7"/>
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<output name="out" num_pins="2"/>
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<clock name="clk" num_pins="1"/>
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<pb_type name="soft_logic" num_pb="1">
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<input name="in" num_pins="7"/>
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<output name="out" num_pins="2"/>
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<mode name="n2_lut5">
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<pb_type name="lut5" blif_model=".names" num_pb="2" class="lut">
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<input name="in" num_pins="5" port_class="lut_in"/>
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<output name="out" num_pins="1" port_class="lut_out"/>
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</pb_type>
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<interconnect>
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<direct name="direct1" input="soft_logic.in[4:0]" output="lut5[0:0].in[4:0]"/>
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<direct name="direct2" input="lut5[0:0].out" output="soft_logic.out[0:0]"/>
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<direct name="direct3" input="soft_logic.in[6:2]" output="lut5[1:1].in[4:0]"/>
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<direct name="direct4" input="lut5[1:1].out" output="soft_logic.out[1:1]"/>
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</interconnect>
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</mode>
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<mode name="n1_lut6">
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<pb_type name="lut6" blif_model=".names" num_pb="1" class="lut">
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<input name="in" num_pins="6" port_class="lut_in"/>
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<output name="out" num_pins="1" port_class="lut_out"/>
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</pb_type>
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<interconnect>
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<direct name="direct1" input="soft_logic.in[5:0]" output="lut6[0:0].in[5:0]"/>
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<direct name="direct2" input="lut6[0:0].out" output="soft_logic.out[0:0]"/>
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</interconnect>
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</mode>
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</pb_type>
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<pb_type name="ff" blif_model=".latch" num_pb="2" class="flipflop">
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<input name="D" num_pins="1" port_class="D"/>
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<output name="Q" num_pins="1" port_class="Q"/>
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<clock name="clk" num_pins="1" port_class="clock"/>
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</pb_type>
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<interconnect>
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<!-- Two ff, make ff available to only corresponding luts -->
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<direct name="direct1" input="ble.in" output="soft_logic.in"/>
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<direct name="direct2" input="soft_logic.out[0:0]" output="ff[0:0].D"/>
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<direct name="direct3" input="soft_logic.out[1:1]" output="ff[1:1].D"/>
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<direct name="direct4" input="ble.clk" output="ff[0:0].clk"/>
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<direct name="direct5" input="ble.clk" output="ff[1:1].clk"/>
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<mux name="mux1" input="ff[0:0].Q soft_logic.out[0:0]" output="ble.out[0:0]"/>
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<mux name="mux2" input="ff[1:1].Q soft_logic.out[1:1]" output="ble.out[1:1]"/>
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</interconnect>
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</pb_type>
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<interconnect>
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<complete name="complete1" input="clb.I ble[7:0].out" output="ble[7:0].in"/>
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<complete name="complete2" input="clb.clk" output="ble[7:0].clk"/>
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<direct name="direct1" input="ble[7:0].out" output="clb.O"/>
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</interconnect>
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</pb_type>
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<pb_type name="memory">
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<input name="addr1" num_pins="16"/>
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<input name="addr2" num_pins="16"/>
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<input name="data" num_pins="64"/>
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<input name="we1" num_pins="1"/>
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<input name="we2" num_pins="1"/>
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<output name="out" num_pins="64"/>
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<clock name="clk" num_pins="1"/>
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<mode name="mem_1024x64_sp">
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<pb_type name="mem_1024x64_sp" blif_model=".subckt single_port_ram" class="memory" num_pb="1" area="1000">
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<input name="addr" num_pins="10" port_class="address"/>
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<input name="data" num_pins="64" port_class="data_in"/>
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<input name="we" num_pins="1" port_class="write_en"/>
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<output name="out" num_pins="64" port_class="data_out"/>
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<clock name="clk" num_pins="1" port_class="clock"/>
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</pb_type>
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<interconnect>
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<direct name="address1" input="memory.addr1[9:0]" output="mem_1024x64_sp.addr">
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</direct>
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<direct name="data1" input="memory.data[63:0]" output="mem_1024x64_sp.data">
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</direct>
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<direct name="writeen1" input="memory.we1" output="mem_1024x64_sp.we">
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</direct>
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<direct name="dataout1" input="mem_1024x64_sp.out" output="memory.out[63:0]">
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</direct>
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<direct name="clk" input="memory.clk" output="mem_1024x64_sp.clk">
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</direct>
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</interconnect>
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</mode>
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<mode name="mem_2048x32_dp">
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<pb_type name="mem_2048x32_dp" blif_model=".subckt dual_port_ram" class="memory" num_pb="1" area="1000">
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<input name="addr1" num_pins="11" port_class="address1"/>
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<input name="addr2" num_pins="11" port_class="address2"/>
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<input name="data1" num_pins="32" port_class="data_in1"/>
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<input name="data2" num_pins="32" port_class="data_in2"/>
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<input name="we1" num_pins="1" port_class="write_en1"/>
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<input name="we2" num_pins="1" port_class="write_en2"/>
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<output name="out1" num_pins="32" port_class="data_out1"/>
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<output name="out2" num_pins="32" port_class="data_out2"/>
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<clock name="clk" num_pins="1" port_class="clock"/>
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</pb_type>
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<interconnect>
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<direct name="address1" input="memory.addr1[10:0]" output="mem_2048x32_dp.addr1">
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</direct>
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<direct name="address2" input="memory.addr2[10:0]" output="mem_2048x32_dp.addr2">
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</direct>
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<direct name="data1" input="memory.data[31:0]" output="mem_2048x32_dp.data1">
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</direct>
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<direct name="data2" input="memory.data[63:32]" output="mem_2048x32_dp.data2">
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</direct>
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<direct name="writeen1" input="memory.we1" output="mem_2048x32_dp.we1">
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</direct>
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<direct name="writeen2" input="memory.we2" output="mem_2048x32_dp.we2">
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</direct>
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<direct name="dataout1" input="mem_2048x32_dp.out1" output="memory.out[31:0]">
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</direct>
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<direct name="dataout2" input="mem_2048x32_dp.out2" output="memory.out[63:32]">
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</direct>
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<direct name="clk" input="memory.clk" output="mem_2048x32_dp.clk">
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</direct>
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</interconnect>
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</mode>
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<mode name="mem_2048x32_sp">
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<pb_type name="mem_2048x32_sp" blif_model=".subckt single_port_ram" class="memory" num_pb="1" area="1000">
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<input name="addr" num_pins="11" port_class="address"/>
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<input name="data" num_pins="32" port_class="data_in"/>
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<input name="we" num_pins="1" port_class="write_en"/>
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<output name="out" num_pins="32" port_class="data_out"/>
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<clock name="clk" num_pins="1" port_class="clock"/>
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</pb_type>
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<interconnect>
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<direct name="address1" input="memory.addr1[10:0]" output="mem_2048x32_sp.addr">
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</direct>
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<direct name="data1" input="memory.data[31:0]" output="mem_2048x32_sp.data">
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</direct>
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<direct name="writeen1" input="memory.we1" output="mem_2048x32_sp.we">
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</direct>
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<direct name="dataout1" input="mem_2048x32_sp.out" output="memory.out[31:0]">
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</direct>
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<direct name="clk" input="memory.clk" output="mem_2048x32_sp.clk">
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</direct>
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</interconnect>
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</mode>
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<mode name="mem_4096x16_dp">
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<pb_type name="mem_4096x16_dp" blif_model=".subckt dual_port_ram" class="memory" num_pb="1" area="1000">
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<input name="addr1" num_pins="12" port_class="address1"/>
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<input name="addr2" num_pins="12" port_class="address2"/>
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<input name="data1" num_pins="16" port_class="data_in1"/>
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<input name="data2" num_pins="16" port_class="data_in2"/>
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<input name="we1" num_pins="1" port_class="write_en1"/>
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<input name="we2" num_pins="1" port_class="write_en2"/>
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<output name="out1" num_pins="16" port_class="data_out1"/>
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<output name="out2" num_pins="16" port_class="data_out2"/>
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<clock name="clk" num_pins="1" port_class="clock"/>
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</pb_type>
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<interconnect>
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<direct name="address1" input="memory.addr1[11:0]" output="mem_4096x16_dp.addr1">
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</direct>
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<direct name="address2" input="memory.addr2[11:0]" output="mem_4096x16_dp.addr2">
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</direct>
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<direct name="data1" input="memory.data[15:0]" output="mem_4096x16_dp.data1">
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</direct>
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<direct name="data2" input="memory.data[31:16]" output="mem_4096x16_dp.data2">
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</direct>
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<direct name="writeen1" input="memory.we1" output="mem_4096x16_dp.we1">
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</direct>
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<direct name="writeen2" input="memory.we2" output="mem_4096x16_dp.we2">
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</direct>
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<direct name="dataout1" input="mem_4096x16_dp.out1" output="memory.out[15:0]">
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</direct>
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<direct name="dataout2" input="mem_4096x16_dp.out2" output="memory.out[31:16]">
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</direct>
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<direct name="clk" input="memory.clk" output="mem_4096x16_dp.clk">
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</direct>
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</interconnect>
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</mode>
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<mode name="mem_4096x16_sp">
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<pb_type name="mem_4096x16_sp" blif_model=".subckt single_port_ram" class="memory" num_pb="1" area="1000">
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<input name="addr" num_pins="12" port_class="address"/>
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<input name="data" num_pins="16" port_class="data_in"/>
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<input name="we" num_pins="1" port_class="write_en"/>
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<output name="out" num_pins="16" port_class="data_out"/>
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<clock name="clk" num_pins="1" port_class="clock"/>
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</pb_type>
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<interconnect>
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<direct name="address1" input="memory.addr1[11:0]" output="mem_4096x16_sp.addr">
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</direct>
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<direct name="data1" input="memory.data[15:0]" output="mem_4096x16_sp.data">
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</direct>
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<direct name="writeen1" input="memory.we1" output="mem_4096x16_sp.we">
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</direct>
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<direct name="dataout1" input="mem_4096x16_sp.out" output="memory.out[15:0]">
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</direct>
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<direct name="clk" input="memory.clk" output="mem_4096x16_sp.clk">
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</direct>
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</interconnect>
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</mode>
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<mode name="mem_8192x8_dp">
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<pb_type name="mem_8192x8_dp" blif_model=".subckt dual_port_ram" class="memory" num_pb="1" area="1000">
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<input name="addr1" num_pins="13" port_class="address1"/>
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<input name="addr2" num_pins="13" port_class="address2"/>
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<input name="data1" num_pins="8" port_class="data_in1"/>
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<input name="data2" num_pins="8" port_class="data_in2"/>
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<input name="we1" num_pins="1" port_class="write_en1"/>
|
|
<input name="we2" num_pins="1" port_class="write_en2"/>
|
|
<output name="out1" num_pins="8" port_class="data_out1"/>
|
|
<output name="out2" num_pins="8" port_class="data_out2"/>
|
|
<clock name="clk" num_pins="1" port_class="clock"/>
|
|
</pb_type>
|
|
<interconnect>
|
|
<direct name="address1" input="memory.addr1[12:0]" output="mem_8192x8_dp.addr1">
|
|
</direct>
|
|
<direct name="address2" input="memory.addr2[12:0]" output="mem_8192x8_dp.addr2">
|
|
</direct>
|
|
<direct name="data1" input="memory.data[7:0]" output="mem_8192x8_dp.data1">
|
|
</direct>
|
|
<direct name="data2" input="memory.data[15:8]" output="mem_8192x8_dp.data2">
|
|
</direct>
|
|
<direct name="writeen1" input="memory.we1" output="mem_8192x8_dp.we1">
|
|
</direct>
|
|
<direct name="writeen2" input="memory.we2" output="mem_8192x8_dp.we2">
|
|
</direct>
|
|
<direct name="dataout1" input="mem_8192x8_dp.out1" output="memory.out[7:0]">
|
|
</direct>
|
|
<direct name="dataout2" input="mem_8192x8_dp.out2" output="memory.out[15:8]">
|
|
</direct>
|
|
<direct name="clk" input="memory.clk" output="mem_8192x8_dp.clk">
|
|
</direct>
|
|
</interconnect>
|
|
</mode>
|
|
<mode name="mem_8192x8_sp">
|
|
<pb_type name="mem_8192x8_sp" blif_model=".subckt single_port_ram" class="memory" num_pb="1" area="1000">
|
|
<input name="addr" num_pins="13" port_class="address"/>
|
|
<input name="data" num_pins="8" port_class="data_in"/>
|
|
<input name="we" num_pins="1" port_class="write_en"/>
|
|
<output name="out" num_pins="8" port_class="data_out"/>
|
|
<clock name="clk" num_pins="1" port_class="clock"/>
|
|
</pb_type>
|
|
<interconnect>
|
|
<direct name="address1" input="memory.addr1[12:0]" output="mem_8192x8_sp.addr">
|
|
</direct>
|
|
<direct name="data1" input="memory.data[7:0]" output="mem_8192x8_sp.data">
|
|
</direct>
|
|
<direct name="writeen1" input="memory.we1" output="mem_8192x8_sp.we">
|
|
</direct>
|
|
<direct name="dataout1" input="mem_8192x8_sp.out" output="memory.out[7:0]">
|
|
</direct>
|
|
<direct name="clk" input="memory.clk" output="mem_8192x8_sp.clk">
|
|
</direct>
|
|
</interconnect>
|
|
</mode>
|
|
<mode name="mem_16384x4_dp">
|
|
<pb_type name="mem_16384x4_dp" blif_model=".subckt dual_port_ram" class="memory" num_pb="1" area="1000">
|
|
<input name="addr1" num_pins="14" port_class="address1"/>
|
|
<input name="addr2" num_pins="14" port_class="address2"/>
|
|
<input name="data1" num_pins="4" port_class="data_in1"/>
|
|
<input name="data2" num_pins="4" port_class="data_in2"/>
|
|
<input name="we1" num_pins="1" port_class="write_en1"/>
|
|
<input name="we2" num_pins="1" port_class="write_en2"/>
|
|
<output name="out1" num_pins="4" port_class="data_out1"/>
|
|
<output name="out2" num_pins="4" port_class="data_out2"/>
|
|
<clock name="clk" num_pins="1" port_class="clock"/>
|
|
</pb_type>
|
|
<interconnect>
|
|
<direct name="address1" input="memory.addr1[13:0]" output="mem_16384x4_dp.addr1">
|
|
</direct>
|
|
<direct name="address2" input="memory.addr2[13:0]" output="mem_16384x4_dp.addr2">
|
|
</direct>
|
|
<direct name="data1" input="memory.data[3:0]" output="mem_16384x4_dp.data1">
|
|
</direct>
|
|
<direct name="data2" input="memory.data[7:4]" output="mem_16384x4_dp.data2">
|
|
</direct>
|
|
<direct name="writeen1" input="memory.we1" output="mem_16384x4_dp.we1">
|
|
</direct>
|
|
<direct name="writeen2" input="memory.we2" output="mem_16384x4_dp.we2">
|
|
</direct>
|
|
<direct name="dataout1" input="mem_16384x4_dp.out1" output="memory.out[3:0]">
|
|
</direct>
|
|
<direct name="dataout2" input="mem_16384x4_dp.out2" output="memory.out[7:4]">
|
|
</direct>
|
|
<direct name="clk" input="memory.clk" output="mem_16384x4_dp.clk">
|
|
</direct>
|
|
</interconnect>
|
|
</mode>
|
|
<mode name="mem_16384x4_sp">
|
|
<pb_type name="mem_16384x4_sp" blif_model=".subckt single_port_ram" class="memory" num_pb="1" area="1000">
|
|
<input name="addr" num_pins="14" port_class="address"/>
|
|
<input name="data" num_pins="4" port_class="data_in"/>
|
|
<input name="we" num_pins="1" port_class="write_en"/>
|
|
<output name="out" num_pins="4" port_class="data_out"/>
|
|
<clock name="clk" num_pins="1" port_class="clock"/>
|
|
</pb_type>
|
|
<interconnect>
|
|
<direct name="address1" input="memory.addr1[13:0]" output="mem_16384x4_sp.addr">
|
|
</direct>
|
|
<direct name="data1" input="memory.data[3:0]" output="mem_16384x4_sp.data">
|
|
</direct>
|
|
<direct name="writeen1" input="memory.we1" output="mem_16384x4_sp.we">
|
|
</direct>
|
|
<direct name="dataout1" input="mem_16384x4_sp.out" output="memory.out[3:0]">
|
|
</direct>
|
|
<direct name="clk" input="memory.clk" output="mem_16384x4_sp.clk">
|
|
</direct>
|
|
</interconnect>
|
|
</mode>
|
|
<mode name="mem_32768x2_dp">
|
|
<pb_type name="mem_32768x2_dp" blif_model=".subckt dual_port_ram" class="memory" num_pb="1" area="1000">
|
|
<input name="addr1" num_pins="15" port_class="address1"/>
|
|
<input name="addr2" num_pins="15" port_class="address2"/>
|
|
<input name="data1" num_pins="2" port_class="data_in1"/>
|
|
<input name="data2" num_pins="2" port_class="data_in2"/>
|
|
<input name="we1" num_pins="1" port_class="write_en1"/>
|
|
<input name="we2" num_pins="1" port_class="write_en2"/>
|
|
<output name="out1" num_pins="2" port_class="data_out1"/>
|
|
<output name="out2" num_pins="2" port_class="data_out2"/>
|
|
<clock name="clk" num_pins="1" port_class="clock"/>
|
|
</pb_type>
|
|
<interconnect>
|
|
<direct name="address1" input="memory.addr1[14:0]" output="mem_32768x2_dp.addr1">
|
|
</direct>
|
|
<direct name="address2" input="memory.addr2[14:0]" output="mem_32768x2_dp.addr2">
|
|
</direct>
|
|
<direct name="data1" input="memory.data[1:0]" output="mem_32768x2_dp.data1">
|
|
</direct>
|
|
<direct name="data2" input="memory.data[3:2]" output="mem_32768x2_dp.data2">
|
|
</direct>
|
|
<direct name="writeen1" input="memory.we1" output="mem_32768x2_dp.we1">
|
|
</direct>
|
|
<direct name="writeen2" input="memory.we2" output="mem_32768x2_dp.we2">
|
|
</direct>
|
|
<direct name="dataout1" input="mem_32768x2_dp.out1" output="memory.out[1:0]">
|
|
</direct>
|
|
<direct name="dataout2" input="mem_32768x2_dp.out2" output="memory.out[3:2]">
|
|
</direct>
|
|
<direct name="clk" input="memory.clk" output="mem_32768x2_dp.clk">
|
|
</direct>
|
|
</interconnect>
|
|
</mode>
|
|
<mode name="mem_32768x2_sp">
|
|
<pb_type name="mem_32768x2_sp" blif_model=".subckt single_port_ram" class="memory" num_pb="1" area="1000">
|
|
<input name="addr" num_pins="15" port_class="address"/>
|
|
<input name="data" num_pins="2" port_class="data_in"/>
|
|
<input name="we" num_pins="1" port_class="write_en"/>
|
|
<output name="out" num_pins="2" port_class="data_out"/>
|
|
<clock name="clk" num_pins="1" port_class="clock"/>
|
|
</pb_type>
|
|
<interconnect>
|
|
<direct name="address1" input="memory.addr1[14:0]" output="mem_32768x2_sp.addr">
|
|
</direct>
|
|
<direct name="data1" input="memory.data[1:0]" output="mem_32768x2_sp.data">
|
|
</direct>
|
|
<direct name="writeen1" input="memory.we1" output="mem_32768x2_sp.we">
|
|
</direct>
|
|
<direct name="dataout1" input="mem_32768x2_sp.out" output="memory.out[1:0]">
|
|
</direct>
|
|
<direct name="clk" input="memory.clk" output="mem_32768x2_sp.clk">
|
|
</direct>
|
|
</interconnect>
|
|
</mode>
|
|
<mode name="mem_65536x1_dp">
|
|
<pb_type name="mem_65536x1_dp" blif_model=".subckt dual_port_ram" class="memory" num_pb="1" area="1000">
|
|
<input name="addr1" num_pins="16" port_class="address1"/>
|
|
<input name="addr2" num_pins="16" port_class="address2"/>
|
|
<input name="data1" num_pins="1" port_class="data_in1"/>
|
|
<input name="data2" num_pins="1" port_class="data_in2"/>
|
|
<input name="we1" num_pins="1" port_class="write_en1"/>
|
|
<input name="we2" num_pins="1" port_class="write_en2"/>
|
|
<output name="out1" num_pins="1" port_class="data_out1"/>
|
|
<output name="out2" num_pins="1" port_class="data_out2"/>
|
|
<clock name="clk" num_pins="1" port_class="clock"/>
|
|
</pb_type>
|
|
<interconnect>
|
|
<direct name="address1" input="memory.addr1[15:0]" output="mem_65536x1_dp.addr1">
|
|
</direct>
|
|
<direct name="address2" input="memory.addr2[15:0]" output="mem_65536x1_dp.addr2">
|
|
</direct>
|
|
<direct name="data1" input="memory.data[0:0]" output="mem_65536x1_dp.data1">
|
|
</direct>
|
|
<direct name="data2" input="memory.data[1:1]" output="mem_65536x1_dp.data2">
|
|
</direct>
|
|
<direct name="writeen1" input="memory.we1" output="mem_65536x1_dp.we1">
|
|
</direct>
|
|
<direct name="writeen2" input="memory.we2" output="mem_65536x1_dp.we2">
|
|
</direct>
|
|
<direct name="dataout1" input="mem_65536x1_dp.out1" output="memory.out[0:0]">
|
|
</direct>
|
|
<direct name="dataout2" input="mem_65536x1_dp.out2" output="memory.out[1:1]">
|
|
</direct>
|
|
<direct name="clk" input="memory.clk" output="mem_65536x1_dp.clk">
|
|
</direct>
|
|
</interconnect>
|
|
</mode>
|
|
<mode name="mem_65536x1_sp">
|
|
<pb_type name="mem_65536x1_sp" blif_model=".subckt single_port_ram" class="memory" num_pb="1" area="1000">
|
|
<input name="addr" num_pins="16" port_class="address"/>
|
|
<input name="data" num_pins="1" port_class="data_in"/>
|
|
<input name="we" num_pins="1" port_class="write_en"/>
|
|
<output name="out" num_pins="1" port_class="data_out"/>
|
|
<clock name="clk" num_pins="1" port_class="clock"/>
|
|
</pb_type>
|
|
<interconnect>
|
|
<direct name="address1" input="memory.addr1[15:0]" output="mem_65536x1_sp.addr">
|
|
</direct>
|
|
<direct name="data1" input="memory.data[0:0]" output="mem_65536x1_sp.data">
|
|
</direct>
|
|
<direct name="writeen1" input="memory.we1" output="mem_65536x1_sp.we">
|
|
</direct>
|
|
<direct name="dataout1" input="mem_65536x1_sp.out" output="memory.out[0:0]">
|
|
</direct>
|
|
<direct name="clk" input="memory.clk" output="mem_65536x1_sp.clk">
|
|
</direct>
|
|
</interconnect>
|
|
</mode>
|
|
</pb_type>
|
|
<!-- This is the 36*36 uniform mult -->
|
|
<pb_type name="mult_36">
|
|
<input name="a" num_pins="36"/>
|
|
<input name="b" num_pins="36"/>
|
|
<output name="out" num_pins="72"/>
|
|
<mode name="two_divisible_mult_18x18">
|
|
<pb_type name="divisible_mult_18x18" num_pb="2">
|
|
<input name="a" num_pins="18"/>
|
|
<input name="b" num_pins="18"/>
|
|
<output name="out" num_pins="36"/>
|
|
<mode name="two_mult_9x9">
|
|
<pb_type name="mult_9x9_slice" num_pb="2">
|
|
<input name="A_cfg" num_pins="9"/>
|
|
<input name="B_cfg" num_pins="9"/>
|
|
<output name="OUT_cfg" num_pins="18"/>
|
|
<pb_type name="mult_9x9" blif_model=".subckt multiply" num_pb="1" area="300">
|
|
<input name="a" num_pins="9"/>
|
|
<input name="b" num_pins="9"/>
|
|
<output name="out" num_pins="18"/>
|
|
<delay_constant max="2.03e-13" min="1.89e-13" in_port="a" out_port="out"/>
|
|
<delay_constant max="2.03e-13" min="1.89e-13" in_port="b" out_port="out"/>
|
|
</pb_type>
|
|
<interconnect>
|
|
<direct name="a2a" input="mult_9x9_slice.A_cfg" output="mult_9x9.a">
|
|
<delay_constant max="2.03e-13" min="1.89e-13" in_port="mult_9x9_slice.A_cfg" out_port="mult_9x9.a"/>
|
|
<C_constant C="1.89e-13" in_port="mult_9x9_slice.A_cfg" out_port="mult_9x9.a"/>
|
|
</direct>
|
|
<direct name="b2b" input="mult_9x9_slice.B_cfg" output="mult_9x9.b">
|
|
<delay_constant max="2.03e-13" min="1.89e-13" in_port="mult_9x9_slice.B_cfg" out_port="mult_9x9.b"/>
|
|
<C_constant C="1.89e-13" in_port="mult_9x9_slice.B_cfg" out_port="mult_9x9.b"/>
|
|
</direct>
|
|
<direct name="out2out" input="mult_9x9.out" output="mult_9x9_slice.OUT_cfg">
|
|
<delay_constant max="2.03e-13" min="1.89e-13" in_port="mult_9x9.out" out_port="mult_9x9_slice.OUT_cfg"/>
|
|
<C_constant C="1.89e-13" in_port="mult_9x9.out" out_port="mult_9x9_slice.OUT_cfg"/>
|
|
</direct>
|
|
</interconnect>
|
|
</pb_type>
|
|
<interconnect>
|
|
<direct name="a2a" input="divisible_mult_18x18.a" output="mult_9x9_slice[1:0].A_cfg">
|
|
<delay_constant max="2.03e-13" min="1.89e-13" in_port="divisible_mult_18x18.a" out_port="mult_9x9_slice[1:0].A_cfg"/>
|
|
<C_constant C="1.89e-13" in_port="divisible_mult_18x18.a" out_port="mult_9x9_slice[1:0].A_cfg"/>
|
|
</direct>
|
|
<direct name="b2b" input="divisible_mult_18x18.b" output="mult_9x9_slice[1:0].B_cfg">
|
|
<delay_constant max="2.03e-13" min="1.89e-13" in_port="divisible_mult_18x18.b" out_port="mult_9x9_slice[1:0].B_cfg"/>
|
|
<C_constant C="1.89e-13" in_port="divisible_mult_18x18.b" out_port="mult_9x9_slice[1:0].B_cfg"/>
|
|
</direct>
|
|
<direct name="out2out" input="mult_9x9_slice[1:0].OUT_cfg" output="divisible_mult_18x18.out">
|
|
<delay_constant max="2.03e-13" min="1.89e-13" in_port="mult_9x9_slice[1:0].OUT_cfg" out_port="divisible_mult_18x18.out"/>
|
|
<C_constant C="1.89e-13" in_port="mult_9x9_slice[1:0].OUT_cfg" out_port="divisible_mult_18x18.out"/>
|
|
</direct>
|
|
</interconnect>
|
|
</mode>
|
|
<mode name="mult_18x18">
|
|
<pb_type name="mult_18x18_slice" num_pb="1">
|
|
<input name="A_cfg" num_pins="18"/>
|
|
<input name="B_cfg" num_pins="18"/>
|
|
<output name="OUT_cfg" num_pins="36"/>
|
|
<pb_type name="mult_18x18" blif_model=".subckt multiply" num_pb="1" area="1000">
|
|
<input name="a" num_pins="18"/>
|
|
<input name="b" num_pins="18"/>
|
|
<output name="out" num_pins="36"/>
|
|
<delay_constant max="2.03e-13" min="1.89e-13" in_port="a" out_port="out"/>
|
|
<delay_constant max="2.03e-13" min="1.89e-13" in_port="b" out_port="out"/>
|
|
</pb_type>
|
|
<interconnect>
|
|
<direct name="a2a" input="mult_18x18_slice.A_cfg" output="mult_18x18.a">
|
|
<delay_constant max="2.03e-13" min="1.89e-13" in_port="mult_18x18_slice.A_cfg" out_port="mult_18x18.a"/>
|
|
<C_constant C="1.89e-13" in_port="mult_18x18_slice.A_cfg" out_port="mult_18x18.a"/>
|
|
</direct>
|
|
<direct name="b2b" input="mult_18x18_slice.B_cfg" output="mult_18x18.b">
|
|
<delay_constant max="2.03e-13" min="1.89e-13" in_port="mult_18x18_slice.B_cfg" out_port="mult_18x18.b"/>
|
|
<C_constant C="1.89e-13" in_port="mult_18x18_slice.B_cfg" out_port="mult_18x18.b"/>
|
|
</direct>
|
|
<direct name="out2out" input="mult_18x18.out" output="mult_18x18_slice.OUT_cfg">
|
|
<delay_constant max="2.03e-13" min="1.89e-13" in_port="mult_18x18.out" out_port="mult_18x18_slice.OUT_cfg"/>
|
|
<C_constant C="1.89e-13" in_port="mult_18x18.out" out_port="mult_18x18_slice.OUT_cfg"/>
|
|
</direct>
|
|
</interconnect>
|
|
</pb_type>
|
|
<interconnect>
|
|
<direct name="a2a" input="divisible_mult_18x18.a" output="mult_18x18_slice.A_cfg">
|
|
<delay_constant max="2.03e-13" min="1.89e-13" in_port="divisible_mult_18x18.a" out_port="mult_18x18_slice.A_cfg"/>
|
|
<C_constant C="1.89e-13" in_port="divisible_mult_18x18.a" out_port="mult_18x18_slice.A_cfg"/>
|
|
</direct>
|
|
<direct name="b2b" input="divisible_mult_18x18.b" output="mult_18x18_slice.B_cfg">
|
|
<delay_constant max="2.03e-13" min="1.89e-13" in_port="divisible_mult_18x18.b" out_port="mult_18x18_slice.B_cfg"/>
|
|
<C_constant C="1.89e-13" in_port="divisible_mult_18x18.b" out_port="mult_18x18_slice.B_cfg"/>
|
|
</direct>
|
|
<direct name="out2out" input="mult_18x18_slice.OUT_cfg" output="divisible_mult_18x18.out">
|
|
<delay_constant max="2.03e-13" min="1.89e-13" in_port="mult_18x18_slice.OUT_cfg" out_port="divisible_mult_18x18.out"/>
|
|
<C_constant C="1.89e-13" in_port="mult_18x18_slice.OUT_cfg" out_port="divisible_mult_18x18.out"/>
|
|
</direct>
|
|
</interconnect>
|
|
</mode>
|
|
</pb_type>
|
|
<interconnect>
|
|
<direct name="a2a" input="mult_36.a" output="divisible_mult_18x18[1:0].a">
|
|
<delay_constant max="2.03e-13" min="1.89e-13" in_port="mult_36.a" out_port="divisible_mult_18x18[1:0].a"/>
|
|
<C_constant C="1.89e-13" in_port="mult_36.a" out_port="divisible_mult_18x18[1:0].a"/>
|
|
</direct>
|
|
<direct name="b2b" input="mult_36.b" output="divisible_mult_18x18[1:0].a">
|
|
<delay_constant max="2.03e-13" min="1.89e-13" in_port="mult_36.b" out_port="divisible_mult_18x18[1:0].a"/>
|
|
<C_constant C="1.89e-13" in_port="mult_36.b" out_port="divisible_mult_18x18[1:0].a"/>
|
|
</direct>
|
|
<direct name="out2out" input="divisible_mult_18x18[1:0].out" output="mult_36.out">
|
|
<delay_constant max="2.03e-13" min="1.89e-13" in_port="divisible_mult_18x18[1:0].out" out_port="mult_36.out"/>
|
|
<C_constant C="1.89e-13" in_port="divisible_mult_18x18[1:0].out" out_port="mult_36.out"/>
|
|
</direct>
|
|
</interconnect>
|
|
</mode>
|
|
<mode name="mult_36x36">
|
|
<pb_type name="mult_36x36_slice" num_pb="1">
|
|
<input name="A_cfg" num_pins="36"/>
|
|
<input name="B_cfg" num_pins="36"/>
|
|
<output name="OUT_cfg" num_pins="72"/>
|
|
<pb_type name="mult_36x36" blif_model=".subckt multiply" num_pb="1" area="4000">
|
|
<input name="a" num_pins="36"/>
|
|
<input name="b" num_pins="36"/>
|
|
<output name="out" num_pins="72"/>
|
|
<delay_constant max="2.03e-13" min="1.89e-13" in_port="a" out_port="out"/>
|
|
<delay_constant max="2.03e-13" min="1.89e-13" in_port="b" out_port="out"/>
|
|
</pb_type>
|
|
<interconnect>
|
|
<direct name="a2a" input="mult_36x36_slice.A_cfg" output="mult_36x36.a">
|
|
<delay_constant max="2.03e-13" min="1.89e-13" in_port="mult_36x36_slice.A_cfg" out_port="mult_36x36.a"/>
|
|
<C_constant C="1.89e-13" in_port="mult_36x36_slice.A_cfg" out_port="mult_36x36.a"/>
|
|
</direct>
|
|
<direct name="b2b" input="mult_36x36_slice.B_cfg" output="mult_36x36.b">
|
|
<delay_constant max="2.03e-13" min="1.89e-13" in_port="mult_36x36_slice.B_cfg" out_port="mult_36x36.b"/>
|
|
<C_constant C="1.89e-13" in_port="mult_36x36_slice.B_cfg" out_port="mult_36x36.b"/>
|
|
</direct>
|
|
<direct name="out2out" input="mult_36x36.out" output="mult_36x36_slice.OUT_cfg">
|
|
<delay_constant max="2.03e-13" min="1.89e-13" in_port="mult_36x36.out" out_port="mult_36x36_slice.OUT_cfg"/>
|
|
<C_constant C="1.89e-13" in_port="mult_36x36.out" out_port="mult_36x36_slice.OUT_cfg"/>
|
|
</direct>
|
|
</interconnect>
|
|
</pb_type>
|
|
<interconnect>
|
|
<direct name="a2a" input="mult_36.a" output="mult_36x36_slice.A_cfg">
|
|
<delay_constant max="2.03e-13" min="1.89e-13" in_port="mult_36.a" out_port="mult_36x36_slice.A_cfg"/>
|
|
<C_constant C="1.89e-13" in_port="mult_36.a" out_port="mult_36x36_slice.A_cfg"/>
|
|
</direct>
|
|
<direct name="b2b" input="mult_36.b" output="mult_36x36_slice.B_cfg">
|
|
<delay_constant max="2.03e-13" min="1.89e-13" in_port="mult_36.b" out_port="mult_36x36_slice.B_cfg"/>
|
|
<C_constant C="1.89e-13" in_port="mult_36.b" out_port="mult_36x36_slice.B_cfg"/>
|
|
</direct>
|
|
<direct name="out2out" input="mult_36x36_slice.OUT_cfg" output="mult_36.out">
|
|
<delay_constant max="2.03e-13" min="1.89e-13" in_port="mult_36x36_slice.OUT_cfg" out_port="mult_36.out"/>
|
|
<C_constant C="1.89e-13" in_port="mult_36x36_slice.OUT_cfg" out_port="mult_36.out"/>
|
|
</direct>
|
|
</interconnect>
|
|
</mode>
|
|
</pb_type>
|
|
</complexblocklist>
|
|
</architecture>
|