read_verilog ../common/mux.v design -save read hierarchy -top mux2 proc equiv_opt -assert -map +/xilinx/cells_sim.v synth_xilinx -noiopad # equivalency check design -load postopt # load the post-opt design (otherwise equiv_opt loads the pre-opt design) cd mux2 # Constrain all select calls below inside the top module select -assert-count 1 t:LUT3 select -assert-none t:LUT3 %% t:* %D design -load read hierarchy -top mux4 proc equiv_opt -assert -map +/xilinx/cells_sim.v synth_xilinx -noiopad # equivalency check design -load postopt # load the post-opt design (otherwise equiv_opt loads the pre-opt design) cd mux4 # Constrain all select calls below inside the top module select -assert-count 1 t:LUT6 select -assert-none t:LUT6 %% t:* %D design -load read hierarchy -top mux8 proc equiv_opt -assert -map +/xilinx/cells_sim.v synth_xilinx -noiopad # equivalency check design -load postopt # load the post-opt design (otherwise equiv_opt loads the pre-opt design) cd mux8 # Constrain all select calls below inside the top module select -assert-count 1 t:LUT3 select -assert-count 2 t:LUT6 select -assert-none t:LUT3 t:LUT6 %% t:* %D design -load read hierarchy -top mux16 proc equiv_opt -assert -map +/xilinx/cells_sim.v synth_xilinx -noiopad # equivalency check design -load postopt # load the post-opt design (otherwise equiv_opt loads the pre-opt design) cd mux16 # Constrain all select calls below inside the top module select -assert-min 5 t:LUT6 select -assert-max 7 t:LUT6 select -assert-max 2 t:MUXF7 select -assert-none t:LUT6 t:MUXF7 %% t:* %D