#!/bin/bash set -e source openfpga.sh PYTHON_EXEC=python3.8 ############################################### # OpenFPGA Shell with VPR8 ############################################## echo -e "FPGA-Verilog Feature Tests"; echo -e "Testing Verilog generation for LUTs: a single mode LUT6 FPGA using micro benchmarks"; run-task fpga_verilog/lut_design/single_mode --debug --show_thread_logs echo -e "Testing Verilog generation for LUTs: simple fracturable LUT4 "; run-task fpga_verilog/lut_design/frac_lut4 --debug --show_thread_logs echo -e "Testing Verilog generation for LUTs: fracturable LUT4 with embedded carry logic"; run-task fpga_verilog/lut_design/frac_lut4_arith --debug --show_thread_logs echo -e "Testing Verilog generation for LUTs: native fracturable LUT4 "; run-task fpga_verilog/lut_design/frac_native_lut4 --debug --show_thread_logs echo -e "Testing Verilog generation for LUTs: simple fracturable LUT4 using AND gate to switch modes"; run-task fpga_verilog/lut_design/frac_lut4_and_switch --debug --show_thread_logs echo -e "Testing Verilog generation for LUTs: simple fracturable LUT6 "; run-task fpga_verilog/lut_design/frac_lut6 --debug --show_thread_logs echo -e "Testing Verilog generation for LUTs: LUT6 with intermediate buffers"; run-task fpga_verilog/lut_design/intermediate_buffer --debug --show_thread_logs echo -e "Testing Verilog generation with VPR's untileable routing architecture "; run-task fpga_verilog/untileable --debug --show_thread_logs echo -e "Testing Verilog generation with hard adder chain in CLBs "; run-task fpga_verilog/adder/hard_adder --debug --show_thread_logs echo -e "Testing Verilog generation with soft adder chain in CLBs "; run-task fpga_verilog/adder/soft_adder --debug --show_thread_logs echo -e "Testing Verilog generation with 16k block RAMs "; run-task fpga_verilog/bram/dpram16k --debug --show_thread_logs echo -e "Testing Verilog generation with 16k block RAMs spanning two columns "; run-task fpga_verilog/bram/wide_dpram16k --debug --show_thread_logs echo -e "Testing Verilog generation with different I/O capacities on each side of an FPGA "; run-task fpga_verilog/io/multi_io_capacity --debug --show_thread_logs echo -e "Testing Verilog generation with I/Os only on left and right sides of an FPGA "; run-task fpga_verilog/io/reduced_io --debug --show_thread_logs echo -e "Testing Verilog generation with embedded I/Os for an FPGA "; run-task fpga_verilog/io/embedded_io --debug --show_thread_logs echo -e "Testing Verilog generation with SoC I/Os for an FPGA "; run-task fpga_verilog/io/soc_io --debug --show_thread_logs echo -e "Testing Verilog generation with registerable I/Os for an FPGA "; run-task fpga_verilog/io/registerable_io --debug --show_thread_logs echo -e "Testing Verilog generation with adder chain across an FPGA"; run-task fpga_verilog/fabric_chain/adder_chain --debug --show_thread_logs echo -e "Testing Verilog generation with shift register chain across an FPGA"; run-task fpga_verilog/fabric_chain/register_chain --debug --show_thread_logs echo -e "Testing Verilog generation with scan chain across an FPGA"; run-task fpga_verilog/fabric_chain/scan_chain --debug --show_thread_logs echo -e "Testing Verilog generation with routing multiplexers implemented by tree structure"; run-task fpga_verilog/mux_design/tree_structure --debug --show_thread_logs echo -e "Testing Verilog generation with routing multiplexers implemented by standard cell MUX2"; run-task fpga_verilog/mux_design/stdcell_mux2 --debug --show_thread_logs echo -e "Testing Verilog generation with routing multiplexers implemented by local encoders"; run-task fpga_verilog/mux_design/local_encoder --debug --show_thread_logs echo -e "Testing Verilog generation with routing multiplexers without buffers"; run-task fpga_verilog/mux_design/debuf_mux --debug --show_thread_logs echo -e "Testing Verilog generation with routing multiplexers with input buffers only"; run-task fpga_verilog/mux_design/inbuf_only_mux --debug --show_thread_logs echo -e "Testing Verilog generation with routing multiplexers with output buffers only"; run-task fpga_verilog/mux_design/outbuf_only_mux --debug --show_thread_logs echo -e "Testing Verilog generation with routing multiplexers with constant gnd input"; run-task fpga_verilog/mux_design/const_input_gnd --debug --show_thread_logs echo -e "Testing Verilog generation with routing multiplexers without constant inputs"; run-task fpga_verilog/mux_design/no_const_input --debug --show_thread_logs echo -e "Testing Verilog generation with behavioral description"; run-task fpga_verilog/verilog_netlist_formats/behavioral_verilog --debug --show_thread_logs run-task fpga_verilog/verilog_netlist_formats/behavioral_verilog_default_nettype_wire --debug --show_thread_logs echo -e "Testing synthesizable Verilog generation with external standard cells"; run-task fpga_verilog/verilog_netlist_formats/synthesizable_verilog --debug --show_thread_logs echo -e "Testing implicit Verilog generation"; run-task fpga_verilog/verilog_netlist_formats/implicit_verilog --debug --show_thread_logs run-task fpga_verilog/verilog_netlist_formats/implicit_verilog_default_nettype_wire --debug --show_thread_logs echo -e "Testing explicit Verilog generation"; run-task fpga_verilog/verilog_netlist_formats/explicit_port_mapping_default_nettype_wire --debug --show_thread_logs echo -e "Testing Verilog generation with flatten routing modules"; run-task fpga_verilog/flatten_routing --debug --show_thread_logs echo -e "Testing Verilog generation with duplicated grid output pins"; run-task fpga_verilog/duplicated_grid_pin --debug --show_thread_logs echo -e "Testing Verilog generation with spy output pads"; run-task fpga_verilog/spypad --debug --show_thread_logs echo -e "Testing Power-gating designs"; run-task fpga_verilog/power_gated_design/power_gated_inverter --show_thread_logs --debug echo -e "Testing Depopulated crossbar in local routing"; run-task fpga_verilog/depopulate_crossbar --debug --show_thread_logs echo -e "Testing Fully connected output crossbar in local routing"; run-task fpga_verilog/fully_connected_output_crossbar --debug --show_thread_logs echo -e "Testing through channels in tileable routing"; run-task fpga_verilog/thru_channel/thru_narrow_tile --debug --show_thread_logs run-task fpga_verilog/thru_channel/thru_wide_tile --debug --show_thread_logs # Verify MCNC big20 benchmark suite with ModelSim # Please make sure you have ModelSim installed in the environment # Otherwise, it will fail #run-task fpga_verilog/mcnc_big20 --debug --show_thread_logs --maxthreads 20 #python3 openfpga_flow/scripts/run_modelsim.py mcnc_big20 --run_sim