[test] add a new testcase to programmable clock network on supporting reset signals
This commit is contained in:
tangxifan
parent
3f08b83b3a
commit
8d7dba2d57
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@ -0,0 +1,255 @@
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<?xml version="1.0"?>
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<!-- Architecture annotation for OpenFPGA framework
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This annotation supports the k6_N10_40nm.xml
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- General purpose logic block
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- K = 6, N = 10, I = 40
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- Single mode
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- Routing architecture
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- L = 4, fc_in = 0.15, fc_out = 0.1
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-->
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<openfpga_architecture>
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<technology_library>
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<device_library>
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<device_model name="logic" type="transistor">
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<lib type="industry" corner="TOP_TT" ref="M" path="${OPENFPGA_PATH}/openfpga_flow/tech/PTM_45nm/45nm.pm"/>
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<design vdd="0.9" pn_ratio="2"/>
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<pmos name="pch" chan_length="40e-9" min_width="140e-9" variation="logic_transistor_var"/>
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<nmos name="nch" chan_length="40e-9" min_width="140e-9" variation="logic_transistor_var"/>
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</device_model>
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<device_model name="io" type="transistor">
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<lib type="academia" ref="M" path="${OPENFPGA_PATH}/openfpga_flow/tech/PTM_45nm/45nm.pm"/>
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<design vdd="2.5" pn_ratio="3"/>
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<pmos name="pch_25" chan_length="270e-9" min_width="320e-9" variation="io_transistor_var"/>
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<nmos name="nch_25" chan_length="270e-9" min_width="320e-9" variation="io_transistor_var"/>
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</device_model>
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</device_library>
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<variation_library>
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<variation name="logic_transistor_var" abs_deviation="0.1" num_sigma="3"/>
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<variation name="io_transistor_var" abs_deviation="0.1" num_sigma="3"/>
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</variation_library>
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</technology_library>
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<circuit_library>
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<circuit_model type="inv_buf" name="INVTX1" prefix="INVTX1" is_default="true">
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<design_technology type="cmos" topology="inverter" size="1"/>
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<device_technology device_model_name="logic"/>
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<port type="input" prefix="in" size="1"/>
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<port type="output" prefix="out" size="1"/>
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<delay_matrix type="rise" in_port="in" out_port="out">
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10e-12
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</delay_matrix>
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<delay_matrix type="fall" in_port="in" out_port="out">
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10e-12
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</delay_matrix>
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</circuit_model>
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<circuit_model type="inv_buf" name="buf4" prefix="buf4" is_default="false">
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<design_technology type="cmos" topology="buffer" size="1" num_level="2" f_per_stage="4"/>
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<device_technology device_model_name="logic"/>
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<port type="input" prefix="in" size="1"/>
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<port type="output" prefix="out" size="1"/>
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<delay_matrix type="rise" in_port="in" out_port="out">
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10e-12
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</delay_matrix>
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<delay_matrix type="fall" in_port="in" out_port="out">
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10e-12
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</delay_matrix>
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</circuit_model>
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<circuit_model type="inv_buf" name="tap_buf4" prefix="tap_buf4" is_default="false">
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<design_technology type="cmos" topology="buffer" size="1" num_level="3" f_per_stage="4"/>
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<device_technology device_model_name="logic"/>
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<port type="input" prefix="in" size="1"/>
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<port type="output" prefix="out" size="1"/>
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<delay_matrix type="rise" in_port="in" out_port="out">
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10e-12
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</delay_matrix>
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<delay_matrix type="fall" in_port="in" out_port="out">
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10e-12
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</delay_matrix>
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</circuit_model>
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<circuit_model type="gate" name="OR2" prefix="OR2" is_default="true">
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<design_technology type="cmos" topology="OR"/>
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<device_technology device_model_name="logic"/>
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<input_buffer exist="false"/>
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<output_buffer exist="false"/>
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<port type="input" prefix="a" size="1"/>
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<port type="input" prefix="b" size="1"/>
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<port type="output" prefix="out" size="1"/>
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<delay_matrix type="rise" in_port="a b" out_port="out">
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10e-12 5e-12
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</delay_matrix>
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<delay_matrix type="fall" in_port="a b" out_port="out">
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10e-12 5e-12
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</delay_matrix>
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</circuit_model>
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<circuit_model type="pass_gate" name="TGATE" prefix="TGATE" is_default="true">
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<design_technology type="cmos" topology="transmission_gate" nmos_size="1" pmos_size="2"/>
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<device_technology device_model_name="logic"/>
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<input_buffer exist="false"/>
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<output_buffer exist="false"/>
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<port type="input" prefix="in" lib_name="A" size="1"/>
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<port type="input" prefix="sel" lib_name="S" size="1"/>
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<port type="input" prefix="selb" lib_name="SI" size="1"/>
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<port type="output" prefix="out" lib_name="Y" size="1"/>
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<delay_matrix type="rise" in_port="in sel selb" out_port="out">
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10e-12 5e-12 5e-12
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</delay_matrix>
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<delay_matrix type="fall" in_port="in sel selb" out_port="out">
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10e-12 5e-12 5e-12
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</delay_matrix>
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</circuit_model>
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<circuit_model type="chan_wire" name="chan_segment" prefix="track_seg" is_default="true">
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<design_technology type="cmos"/>
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<input_buffer exist="false"/>
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<output_buffer exist="false"/>
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<port type="input" prefix="in" size="1"/>
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<port type="output" prefix="out" size="1"/>
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<wire_param model_type="pi" R="101" C="22.5e-15" num_level="1"/>
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<!-- model_type could be T, res_val and cap_val DON'T CARE -->
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</circuit_model>
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<circuit_model type="wire" name="direct_interc" prefix="direct_interc" is_default="true">
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<design_technology type="cmos"/>
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<input_buffer exist="false"/>
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<output_buffer exist="false"/>
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<port type="input" prefix="in" size="1"/>
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<port type="output" prefix="out" size="1"/>
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<wire_param model_type="pi" R="0" C="0" num_level="1"/>
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<!-- model_type could be T, res_val cap_val should be defined -->
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</circuit_model>
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<circuit_model type="mux" name="mux_2level" prefix="mux_2level" dump_structural_verilog="true">
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<design_technology type="cmos" structure="multi_level" num_level="2" add_const_input="true" const_input_val="1"/>
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<input_buffer exist="true" circuit_model_name="INVTX1"/>
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<output_buffer exist="true" circuit_model_name="INVTX1"/>
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<pass_gate_logic circuit_model_name="TGATE"/>
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<port type="input" prefix="in" size="1"/>
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<port type="output" prefix="out" size="1"/>
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<port type="sram" prefix="sram" size="1"/>
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</circuit_model>
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<circuit_model type="mux" name="mux_2level_tapbuf" prefix="mux_2level_tapbuf" dump_structural_verilog="true">
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<design_technology type="cmos" structure="multi_level" num_level="2" add_const_input="true" const_input_val="1"/>
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<input_buffer exist="true" circuit_model_name="INVTX1"/>
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<output_buffer exist="true" circuit_model_name="tap_buf4"/>
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<pass_gate_logic circuit_model_name="TGATE"/>
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<port type="input" prefix="in" size="1"/>
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<port type="output" prefix="out" size="1"/>
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<port type="sram" prefix="sram" size="1"/>
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</circuit_model>
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<circuit_model type="mux" name="mux_1level_tapbuf" prefix="mux_1level_tapbuf" is_default="true" dump_structural_verilog="true">
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<design_technology type="cmos" structure="one_level" add_const_input="true" const_input_val="1"/>
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<input_buffer exist="true" circuit_model_name="INVTX1"/>
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<output_buffer exist="true" circuit_model_name="tap_buf4"/>
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<pass_gate_logic circuit_model_name="TGATE"/>
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<port type="input" prefix="in" size="1"/>
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<port type="output" prefix="out" size="1"/>
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<port type="sram" prefix="sram" size="1"/>
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</circuit_model>
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<!--DFF subckt ports should be defined as <D> <Q> <CLK> <RESET> <SET> -->
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<circuit_model type="ff" name="MULTI_MODE_DFFRQ" prefix="MULTI_MODE_DFFRQ" spice_netlist="${OPENFPGA_PATH}/openfpga_flow/openfpga_cell_library/spice/dff.sp" verilog_netlist="${OPENFPGA_PATH}/openfpga_flow/openfpga_cell_library/verilog/dff.v">
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<design_technology type="cmos"/>
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<input_buffer exist="true" circuit_model_name="INVTX1"/>
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<output_buffer exist="true" circuit_model_name="INVTX1"/>
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<port type="input" prefix="D" size="1"/>
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<port type="input" prefix="R" lib_name="RST" size="1" default_val="0"/>
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<port type="output" prefix="Q" size="1"/>
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<port type="clock" prefix="C" lib_name="CK" size="1" default_val="0"/>
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<port type="sram" prefix="mode" size="1" mode_select="true" circuit_model_name="DFFR" default_val="0"/>
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</circuit_model>
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<circuit_model type="lut" name="frac_lut4" prefix="frac_lut4" dump_structural_verilog="true">
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<design_technology type="cmos" fracturable_lut="true"/>
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<input_buffer exist="true" circuit_model_name="INVTX1"/>
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<output_buffer exist="true" circuit_model_name="INVTX1"/>
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<lut_input_inverter exist="true" circuit_model_name="INVTX1"/>
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<lut_input_buffer exist="true" circuit_model_name="buf4"/>
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<lut_intermediate_buffer exist="true" circuit_model_name="buf4" location_map="-1-"/>
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<pass_gate_logic circuit_model_name="TGATE"/>
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<port type="input" prefix="in" size="4" tri_state_map="---1" circuit_model_name="OR2"/>
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<port type="output" prefix="lut3_out" size="2" lut_frac_level="3" lut_output_mask="0,1"/>
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<port type="output" prefix="lut4_out" size="1" lut_output_mask="0"/>
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<port type="sram" prefix="sram" size="16"/>
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<port type="sram" prefix="mode" size="1" mode_select="true" circuit_model_name="DFFR" default_val="1"/>
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</circuit_model>
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<!--Scan-chain DFF subckt ports should be defined as <D> <Q> <Qb> <CLK> <RESET> <SET> -->
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<circuit_model type="ccff" name="DFFR" prefix="DFFR" spice_netlist="${OPENFPGA_PATH}/openfpga_flow/openfpga_cell_library/spice/dff.sp" verilog_netlist="${OPENFPGA_PATH}/openfpga_flow/openfpga_cell_library/verilog/dff.v">
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<design_technology type="cmos"/>
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<input_buffer exist="true" circuit_model_name="INVTX1"/>
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<output_buffer exist="true" circuit_model_name="INVTX1"/>
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<port type="input" prefix="pReset" lib_name="RST" size="1" is_global="true" default_val="0" is_reset="true" is_prog="true"/>
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<port type="input" prefix="D" size="1"/>
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<port type="output" prefix="Q" size="1"/>
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<port type="output" prefix="QN" size="1"/>
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<port type="clock" prefix="prog_clk" lib_name="CK" size="1" is_global="true" default_val="0" is_prog="true"/>
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</circuit_model>
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<circuit_model type="iopad" name="GPIO" prefix="GPIO" spice_netlist="${OPENFPGA_PATH}/openfpga_flow/openfpga_cell_library/spice/gpio.sp" verilog_netlist="${OPENFPGA_PATH}/openfpga_flow/openfpga_cell_library/verilog/gpio.v">
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<design_technology type="cmos"/>
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<input_buffer exist="true" circuit_model_name="INVTX1"/>
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<output_buffer exist="true" circuit_model_name="INVTX1"/>
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<port type="inout" prefix="PAD" size="1" is_global="true" is_io="true" is_data_io="true"/>
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<port type="sram" prefix="DIR" size="1" mode_select="true" circuit_model_name="DFFR" default_val="1"/>
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<port type="input" prefix="outpad" lib_name="A" size="1"/>
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<port type="output" prefix="inpad" lib_name="Y" size="1"/>
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</circuit_model>
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</circuit_library>
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<configuration_protocol>
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<organization type="scan_chain" circuit_model_name="DFFR"/>
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</configuration_protocol>
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<connection_block>
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<switch name="ipin_cblock" circuit_model_name="mux_2level_tapbuf"/>
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</connection_block>
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<switch_block>
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<switch name="0" circuit_model_name="mux_2level_tapbuf"/>
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</switch_block>
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<routing_segment>
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<segment name="L4" circuit_model_name="chan_segment"/>
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</routing_segment>
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<tile_annotations>
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<global_port name="op_clk" clock_arch_tree_name="clk_tree_2lvl" is_clock="true" default_val="0">
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<tile name="clb" port="clk"/>
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</global_port>
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<global_port name="op_reset" clock_arch_tree_name="rst_tree_2lvl" is_reset="true" default_val="0">
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<tile name="clb" port="reset"/>
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</global_port>
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</tile_annotations>
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<pb_type_annotations>
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<!-- physical pb_type binding in complex block IO -->
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<pb_type name="io" physical_mode_name="physical" idle_mode_name="inpad"/>
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<pb_type name="io[physical].iopad" circuit_model_name="GPIO" mode_bits="1"/>
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<pb_type name="io[inpad].inpad" physical_pb_type_name="io[physical].iopad" mode_bits="1"/>
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<pb_type name="io[outpad].outpad" physical_pb_type_name="io[physical].iopad" mode_bits="0"/>
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<!-- End physical pb_type binding in complex block IO -->
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<!-- physical pb_type binding in complex block CLB -->
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<!-- physical mode will be the default mode if not specified -->
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<pb_type name="clb">
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<!-- Binding interconnect to circuit models as their physical implementation, if not defined, we use the default model -->
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<interconnect name="crossbar" circuit_model_name="mux_2level"/>
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</pb_type>
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<pb_type name="clb.fle" physical_mode_name="physical"/>
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<pb_type name="clb.fle[physical].fabric.frac_logic.frac_lut4" circuit_model_name="frac_lut4" mode_bits="0"/>
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<pb_type name="clb.fle[physical].fabric.ff" circuit_model_name="MULTI_MODE_DFFRQ" mode_bits="0"/>
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<!-- Binding operating pb_type to physical pb_type -->
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<pb_type name="clb.fle[n2_lut3].lut3inter.ble3.lut3" physical_pb_type_name="clb.fle[physical].fabric.frac_logic.frac_lut4" mode_bits="1" physical_pb_type_index_factor="0.5">
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<!-- Binding the lut3 to the first 3 inputs of fracturable lut4 -->
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<port name="in" physical_mode_port="in[0:2]"/>
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<port name="out" physical_mode_port="lut3_out[0:0]" physical_mode_pin_rotate_offset="1"/>
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</pb_type>
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<pb_type name="clb.fle[n2_lut3].lut3inter.ble3.ff[latch].latch" physical_pb_type_name="clb.fle[physical].fabric.ff" mode_bits="0">
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<port name="clk" physical_mode_port="C"/>
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</pb_type>
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<pb_type name="clb.fle[n2_lut3].lut3inter.ble3.ff[dff].dff" physical_pb_type_name="clb.fle[physical].fabric.ff" mode_bits="0"/>
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<pb_type name="clb.fle[n2_lut3].lut3inter.ble3.ff[dffr].dffr" physical_pb_type_name="clb.fle[physical].fabric.ff" mode_bits="0"/>
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<pb_type name="clb.fle[n2_lut3].lut3inter.ble3.ff[dffrn].dffrn" physical_pb_type_name="clb.fle[physical].fabric.ff" mode_bits="1">
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<port name="RN" physical_mode_port="R"/>
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</pb_type>
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<pb_type name="clb.fle[n1_lut4].ble4.lut4" physical_pb_type_name="clb.fle[physical].fabric.frac_logic.frac_lut4" mode_bits="0">
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<!-- Binding the lut4 to the first 4 inputs of fracturable lut4 -->
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<port name="in" physical_mode_port="in[0:3]"/>
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<port name="out" physical_mode_port="lut4_out"/>
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</pb_type>
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<pb_type name="clb.fle[n1_lut4].ble4.ff[latch].latch" physical_pb_type_name="clb.fle[physical].fabric.ff" mode_bits="0" physical_pb_type_index_factor="2" physical_pb_type_index_offset="0">
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<port name="clk" physical_mode_port="C"/>
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</pb_type>
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<pb_type name="clb.fle[n1_lut4].ble4.ff[dff].dff" physical_pb_type_name="clb.fle[physical].fabric.ff" mode_bits="0" physical_pb_type_index_factor="2" physical_pb_type_index_offset="0"/>
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<pb_type name="clb.fle[n1_lut4].ble4.ff[dffr].dffr" physical_pb_type_name="clb.fle[physical].fabric.ff" mode_bits="0" physical_pb_type_index_factor="2" physical_pb_type_index_offset="0"/>
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<pb_type name="clb.fle[n1_lut4].ble4.ff[dffrn].dffrn" physical_pb_type_name="clb.fle[physical].fabric.ff" mode_bits="1" physical_pb_type_index_factor="2" physical_pb_type_index_offset="0">
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<port name="RN" physical_mode_port="R"/>
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</pb_type>
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<!-- End physical pb_type binding in complex block IO -->
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</pb_type_annotations>
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</openfpga_architecture>
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@ -0,0 +1,75 @@
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# Run VPR for the 'and' design
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#--write_rr_graph example_rr_graph.xml
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vpr ${VPR_ARCH_FILE} ${VPR_TESTBENCH_BLIF} \
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--clock_modeling ideal \
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--device ${OPENFPGA_VPR_DEVICE_LAYOUT} \
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--route_chan_width ${OPENFPGA_VPR_ROUTE_CHAN_WIDTH}
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# Read OpenFPGA architecture definition
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read_openfpga_arch -f ${OPENFPGA_ARCH_FILE}
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# Read OpenFPGA simulation settings
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read_openfpga_simulation_setting -f ${OPENFPGA_SIM_SETTING_FILE}
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# Read OpenFPGA clock architecture
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read_openfpga_clock_arch -f ${OPENFPGA_CLOCK_ARCH_FILE}
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# Append clock network to vpr's routing resource graph
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append_clock_rr_graph
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# Annotate the OpenFPGA architecture to VPR data base
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# to debug use --verbose options
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link_openfpga_arch --activity_file ${ACTIVITY_FILE} --sort_gsb_chan_node_in_edges
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# Route clock based on clock network definition
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route_clock_rr_graph --pin_constraints_file ${OPENFPGA_PIN_CONSTRAINTS_FILE}
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# Check and correct any naming conflicts in the BLIF netlist
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check_netlist_naming_conflict --fix --report ./netlist_renaming.xml
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# Apply fix-up to Look-Up Table truth tables based on packing results
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lut_truth_table_fixup
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# Build the module graph
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# - Enabled compression on routing architecture modules
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# - Enable pin duplication on grid modules
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build_fabric --compress_routing #--verbose
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# Write the fabric hierarchy of module graph to a file
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# This is used by hierarchical PnR flows
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write_fabric_hierarchy --file ./fabric_hierarchy.txt
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# Repack the netlist to physical pbs
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# This must be done before bitstream generator and testbench generation
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# Strongly recommend it is done after all the fix-up have been applied
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repack --design_constraints ${OPENFPGA_REPACK_CONSTRAINTS_FILE} #--verbose
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# Build the bitstream
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# - Output the fabric-independent bitstream to a file
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build_architecture_bitstream --verbose --write_file fabric_independent_bitstream.xml
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# Build fabric-dependent bitstream
|
||||
build_fabric_bitstream --verbose
|
||||
|
||||
# Write fabric-dependent bitstream
|
||||
write_fabric_bitstream --file fabric_bitstream.bit --format plain_text
|
||||
|
||||
# Write the Verilog netlist for FPGA fabric
|
||||
# - Enable the use of explicit port mapping in Verilog netlist
|
||||
write_fabric_verilog --file ./SRC --explicit_port_mapping --include_timing --print_user_defined_template --verbose
|
||||
|
||||
# Write the Verilog testbench for FPGA fabric
|
||||
# - We suggest the use of same output directory as fabric Verilog netlists
|
||||
# - Must specify the reference benchmark file if you want to output any testbenches
|
||||
# - Enable top-level testbench which is a full verification including programming circuit and core logic of FPGA
|
||||
# - Enable pre-configured top-level testbench which is a fast verification skipping programming phase
|
||||
# - Simulation ini file is optional and is needed only when you need to interface different HDL simulators using openfpga flow-run scripts
|
||||
write_full_testbench --file ./SRC --reference_benchmark_file_path ${REFERENCE_VERILOG_TESTBENCH} --explicit_port_mapping --include_signal_init --bitstream fabric_bitstream.bit --pin_constraints_file ${OPENFPGA_PIN_CONSTRAINTS_FILE}
|
||||
write_preconfigured_fabric_wrapper --embed_bitstream iverilog --file ./SRC --explicit_port_mapping --pin_constraints_file ${OPENFPGA_PIN_CONSTRAINTS_FILE}
|
||||
write_preconfigured_testbench --file ./SRC --reference_benchmark_file_path ${REFERENCE_VERILOG_TESTBENCH} --explicit_port_mapping --pin_constraints_file ${OPENFPGA_PIN_CONSTRAINTS_FILE}
|
||||
|
||||
# Finish and exit OpenFPGA
|
||||
exit
|
||||
|
||||
# Note :
|
||||
# To run verification at the end of the flow maintain source in ./SRC directory
|
||||
|
|
@ -0,0 +1,32 @@
|
|||
<clock_networks default_segment="L1" default_tap_switch="ipin_cblock" default_driver_switch="0">
|
||||
<clock_network name="clk_tree_2lvl" width="1">
|
||||
<spine name="clk_spine_lvl0" start_x="1" start_y="1" end_x="2" end_y="1">
|
||||
<switch_point tap="clk_rib_lvl1_sw0_upper" x="1" y="1"/>
|
||||
<switch_point tap="clk_rib_lvl1_sw0_lower" x="1" y="1"/>
|
||||
<switch_point tap="clk_rib_lvl1_sw1_upper" x="2" y="1"/>
|
||||
<switch_point tap="clk_rib_lvl1_sw1_lower" x="2" y="1"/>
|
||||
</spine>
|
||||
<spine name="clk_rib_lvl1_sw0_upper" start_x="1" start_y="2" end_x="1" end_y="2" type="CHANY" direction="INC_DIRECTION"/>
|
||||
<spine name="clk_rib_lvl1_sw0_lower" start_x="1" start_y="1" end_x="1" end_y="1" type="CHANY" direction="DEC_DIRECTION"/>
|
||||
<spine name="clk_rib_lvl1_sw1_upper" start_x="2" start_y="2" end_x="2" end_y="2" type="CHANY" direction="INC_DIRECTION"/>
|
||||
<spine name="clk_rib_lvl1_sw1_lower" start_x="2" start_y="1" end_x="2" end_y="1" type="CHANY" direction="DEC_DIRECTION"/>
|
||||
<taps>
|
||||
<tap tile_pin="clb[0:0].clk[0:0]"/>
|
||||
</taps>
|
||||
</clock_network>
|
||||
<clock_network name="rst_tree_2lvl" width="1">
|
||||
<spine name="rst_spine_lvl0" start_x="1" start_y="1" end_x="2" end_y="1">
|
||||
<switch_point tap="rst_rib_lvl1_sw0_upper" x="1" y="1"/>
|
||||
<switch_point tap="rst_rib_lvl1_sw0_lower" x="1" y="1"/>
|
||||
<switch_point tap="rst_rib_lvl1_sw1_upper" x="2" y="1"/>
|
||||
<switch_point tap="rst_rib_lvl1_sw1_lower" x="2" y="1"/>
|
||||
</spine>
|
||||
<spine name="rst_rib_lvl1_sw0_upper" start_x="1" start_y="2" end_x="1" end_y="2" type="CHANY" direction="INC_DIRECTION"/>
|
||||
<spine name="rst_rib_lvl1_sw0_lower" start_x="1" start_y="1" end_x="1" end_y="1" type="CHANY" direction="DEC_DIRECTION"/>
|
||||
<spine name="rst_rib_lvl1_sw1_upper" start_x="2" start_y="2" end_x="2" end_y="2" type="CHANY" direction="INC_DIRECTION"/>
|
||||
<spine name="rst_rib_lvl1_sw1_lower" start_x="2" start_y="1" end_x="2" end_y="1" type="CHANY" direction="DEC_DIRECTION"/>
|
||||
<taps>
|
||||
<tap tile_pin="clb[0:0].reset[0:0]"/>
|
||||
</taps>
|
||||
</clock_network>
|
||||
</clock_networks>
|
||||
|
|
@ -0,0 +1,7 @@
|
|||
<pin_constraints>
|
||||
<!-- For a given .blif file, we want to assign
|
||||
- the reset signal to the op_reset[0] port of the FPGA fabric
|
||||
-->
|
||||
<set_io pin="op_reset[0]" net="reset"/>
|
||||
</pin_constraints>
|
||||
|
||||
|
|
@ -0,0 +1,7 @@
|
|||
<pin_constraints>
|
||||
<!-- For a given .blif file, we want to assign
|
||||
- the reset signal to the op_reset[0] port of the FPGA fabric
|
||||
-->
|
||||
<set_io pin="op_reset[0]" net="resetb" default_value="1"/>
|
||||
</pin_constraints>
|
||||
|
||||
|
|
@ -0,0 +1,49 @@
|
|||
# = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
|
||||
# Configuration file for running experiments
|
||||
# = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
|
||||
# timeout_each_job : FPGA Task script splits fpga flow into multiple jobs
|
||||
# Each job execute fpga_flow script on combination of architecture & benchmark
|
||||
# timeout_each_job is timeout for each job
|
||||
# = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
|
||||
|
||||
[GENERAL]
|
||||
run_engine=openfpga_shell
|
||||
power_tech_file = ${PATH:OPENFPGA_PATH}/openfpga_flow/tech/PTM_45nm/45nm.xml
|
||||
power_analysis = false
|
||||
spice_output=false
|
||||
verilog_output=true
|
||||
timeout_each_job = 3*60
|
||||
fpga_flow=yosys_vpr
|
||||
|
||||
[OpenFPGA_SHELL]
|
||||
openfpga_shell_template=${PATH:OPENFPGA_PATH}/openfpga_flow/openfpga_shell_scripts/example_clkntwk_no_ace_script.openfpga
|
||||
openfpga_arch_file=${PATH:OPENFPGA_PATH}/openfpga_flow/openfpga_arch/k4_frac_N4_fracff_40nm_Ntwk1clk1rst2lvl_cc_openfpga.xml
|
||||
openfpga_sim_setting_file=${PATH:OPENFPGA_PATH}/openfpga_flow/openfpga_simulation_settings/fixed_sim_openfpga.xml
|
||||
openfpga_vpr_device_layout=2x2
|
||||
openfpga_vpr_route_chan_width=40
|
||||
openfpga_clock_arch_file=${PATH:TASK_DIR}/config/clk_arch_1clk_1rst_2layer.xml
|
||||
|
||||
[ARCHITECTURES]
|
||||
arch0=${PATH:OPENFPGA_PATH}/openfpga_flow/vpr_arch/k4_frac_N4_tileable_fracff_40nm.xml
|
||||
|
||||
[BENCHMARKS]
|
||||
bench0=${PATH:OPENFPGA_PATH}/openfpga_flow/benchmarks/micro_benchmark/counters/counter_8bit_async_reset/counter.v
|
||||
bench1=${PATH:OPENFPGA_PATH}/openfpga_flow/benchmarks/micro_benchmark/counters/counter_8bit_async_resetb/counter.v
|
||||
|
||||
[SYNTHESIS_PARAM]
|
||||
# Yosys script parameters
|
||||
bench_yosys_cell_sim_verilog_common=${PATH:OPENFPGA_PATH}/openfpga_flow/openfpga_yosys_techlib/openfpga_dff_sim.v
|
||||
bench_yosys_dff_map_verilog_common=${PATH:OPENFPGA_PATH}/openfpga_flow/openfpga_yosys_techlib/openfpga_dff_map.v
|
||||
bench_read_verilog_options_common = -nolatches
|
||||
bench_yosys_common=${PATH:OPENFPGA_PATH}/openfpga_flow/misc/ys_tmpl_yosys_vpr_dff_flow.ys
|
||||
bench_yosys_rewrite_common=${PATH:OPENFPGA_PATH}/openfpga_flow/misc/ys_tmpl_yosys_vpr_flow_with_rewrite.ys;${PATH:OPENFPGA_PATH}/openfpga_flow/misc/ys_tmpl_rewrite_flow.ys
|
||||
|
||||
bench0_top = counter
|
||||
bench0_openfpga_pin_constraints_file = ${PATH:OPENFPGA_PATH}/openfpga_flow/tasks/basic_tests/k4_series/k4n4_fracff/config/pin_constraints_reset.xml
|
||||
|
||||
bench1_top = counter
|
||||
bench1_openfpga_pin_constraints_file = ${PATH:OPENFPGA_PATH}/openfpga_flow/tasks/basic_tests/k4_series/k4n4_fracff/config/pin_constraints_resetb.xml
|
||||
|
||||
[SCRIPT_PARAM_MIN_ROUTE_CHAN_WIDTH]
|
||||
end_flow_with_test=
|
||||
vpr_fpga_verilog_formal_verification_top_netlist=
|
||||
Loading…
Reference in New Issue