#!/bin/bash source .travis/common.sh set -e start_section "OpenFPGA.build" "${GREEN}Building..${NC}" mkdir build cd build if [[ $TRAVIS_OS_NAME == 'osx' ]]; then cmake .. -DCMAKE_BUILD_TYPE=debug -DENABLE_VPR_GRAPHICS=off else cmake .. -DCMAKE_BUILD_TYPE=debug fi make -j16 end_section "OpenFPGA.build" start_section "OpenFPGA.TaskTun" "${GREEN}..Running_Regression..${NC}" cd - ############################################### # OpenFPGA with VPR7 # TO BE DEPRECATED ############################################## echo -e "Testing single-mode architectures"; python3 openfpga_flow/scripts/run_fpga_task.py single_mode --debug --show_thread_logs #python3 openfpga_flow/scripts/run_fpga_task.py s298 echo -e "Testing multi-mode architectures"; python3 openfpga_flow/scripts/run_fpga_task.py multi_mode --maxthreads 4 --debug --show_thread_logs echo -e "Testing compact routing techniques"; python3 openfpga_flow/scripts/run_fpga_task.py compact_routing --debug --show_thread_logs echo -e "Testing tileable architectures"; python3 openfpga_flow/scripts/run_fpga_task.py tileable_routing --debug --show_thread_logs echo -e "Testing Verilog generation with explicit port mapping "; python3 openfpga_flow/scripts/run_fpga_task.py explicit_verilog --debug --show_thread_logs echo -e "Testing Verilog generation with grid pin duplication "; python3 openfpga_flow/scripts/run_fpga_task.py duplicate_grid_pin --debug --show_thread_logs ############################################### # OpenFPGA Shell with VPR8 # (Will replace all the old tests) ############################################## echo -e "Testing OpenFPGA Shell"; echo -e "Testing configuration chain of a K4N4 FPGA"; python3 openfpga_flow/scripts/run_fpga_task.py openfpga_shell/configuration_chain --debug --show_thread_logs echo -e "Testing user-defined simulation settings: clock frequency and number of cycles"; python3 openfpga_flow/scripts/run_fpga_task.py openfpga_shell/fixed_simulation_settings --debug --show_thread_logs echo -e "Testing Verilog generation for LUTs: a single mode LUT6 FPGA using micro benchmarks"; python3 openfpga_flow/scripts/run_fpga_task.py openfpga_shell/lut_design/single_mode --debug --show_thread_logs echo -e "Testing Verilog generation for LUTs: simple fracturable LUT6 "; python3 openfpga_flow/scripts/run_fpga_task.py openfpga_shell/lut_design/frac_lut --debug --show_thread_logs echo -e "Testing Verilog generation for LUTs: LUT6 with intermediate buffers"; python3 openfpga_flow/scripts/run_fpga_task.py openfpga_shell/lut_design/intermediate_buffer --debug --show_thread_logs echo -e "Testing Verilog generation with VPR's untileable routing architecture "; python3 openfpga_flow/scripts/run_fpga_task.py openfpga_shell/untileable --debug --show_thread_logs echo -e "Testing Verilog generation with hard adder chain in CLBs "; python3 openfpga_flow/scripts/run_fpga_task.py openfpga_shell/hard_adder --debug --show_thread_logs echo -e "Testing Verilog generation with 16k block RAMs "; python3 openfpga_flow/scripts/run_fpga_task.py openfpga_shell/bram/dpram16k --debug --show_thread_logs echo -e "Testing Verilog generation with 16k block RAMs spanning two columns "; python3 openfpga_flow/scripts/run_fpga_task.py openfpga_shell/bram/wide_dpram16k --debug --show_thread_logs echo -e "Testing Verilog generation with different I/O capacities on each side of an FPGA "; python3 openfpga_flow/scripts/run_fpga_task.py openfpga_shell/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 "; python3 openfpga_flow/scripts/run_fpga_task.py openfpga_shell/io/reduced_io --debug --show_thread_logs echo -e "Testing Verilog generation with adder chain across an FPGA"; python3 openfpga_flow/scripts/run_fpga_task.py openfpga_shell/fabric_chain/adder_chain --debug --show_thread_logs echo -e "Testing Verilog generation with shift register chain across an FPGA"; python3 openfpga_flow/scripts/run_fpga_task.py openfpga_shell/fabric_chain/register_chain --debug --show_thread_logs echo -e "Testing Verilog generation with scan chain across an FPGA"; python3 openfpga_flow/scripts/run_fpga_task.py openfpga_shell/fabric_chain/scan_chain --debug --show_thread_logs echo -e "Testing Verilog generation with routing mutliplexers implemented by tree structure"; python3 openfpga_flow/scripts/run_fpga_task.py openfpga_shell/mux_design/tree_structure --debug --show_thread_logs echo -e "Testing Verilog generation with routing mutliplexers implemented by standard cell MUX2"; python3 openfpga_flow/scripts/run_fpga_task.py openfpga_shell/mux_design/stdcell_mux2 --debug --show_thread_logs echo -e "Testing Verilog generation with routing mutliplexers implemented by local encoders"; python3 openfpga_flow/scripts/run_fpga_task.py openfpga_shell/mux_design/local_encoder --debug --show_thread_logs echo -e "Testing Verilog generation with behavioral description"; python3 openfpga_flow/scripts/run_fpga_task.py openfpga_shell/behavioral_verilog --debug --show_thread_logs echo -e "Testing implicit Verilog generation"; python3 openfpga_flow/scripts/run_fpga_task.py openfpga_shell/implicit_verilog --debug --show_thread_logs echo -e "Testing Verilog generation with flatten routing modules"; python3 openfpga_flow/scripts/run_fpga_task.py openfpga_shell/flatten_routing --debug --show_thread_logs echo -e "Testing Verilog generation with duplicated grid output pins"; python3 openfpga_flow/scripts/run_fpga_task.py openfpga_shell/duplicated_grid_pin --debug --show_thread_logs echo -e "Testing Verilog generation with spy output pads"; python3 openfpga_flow/scripts/run_fpga_task.py openfpga_shell/spypad --debug --show_thread_logs echo -e "Testing fabric Verilog generation only"; python3 openfpga_flow/scripts/run_fpga_task.py openfpga_shell/generate_fabric --debug --show_thread_logs echo -e "Testing Verilog testbench generation only"; python3 openfpga_flow/scripts/run_fpga_task.py openfpga_shell/generate_testbench --debug --show_thread_logs echo -e "Testing SDC generation with time units"; python3 openfpga_flow/scripts/run_fpga_task.py openfpga_shell/sdc_time_unit --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 #python3 openfpga_flow/scripts/run_fpga_task.py openfpga_shell/mcnc_big20 --debug --show_thread_logs --maxthreads 20 #python3 openfpga_flow/scripts/run_modelsim.py openfpga_shell/mcnc_big20 --run_sim end_section "OpenFPGA.TaskTun"