read_rtlil << EOT module \top wire width 12 input 0 \A wire width 2 input 1 \S wire width 6 output 2 \Y cell $bmux $0 parameter \WIDTH 6 parameter \S_WIDTH 2 connect \A { \A [11:10] \A [3:2] \A [10:9] \A [7] \A [7] \A [8] \A [2] \A [7:6] \A [5] \A [5] \A [3:2] \A [5:4] \A [1] \A [1] \A [3:0] } connect \S \S connect \Y \Y end end EOT equiv_opt -assert opt_reduce -fine opt_reduce -fine select -assert-count 1 t:$bmux r:WIDTH=4 %i design -reset read_rtlil << EOT module \top wire width 6 input 0 \A wire width 2 input 1 \S wire width 6 output 2 \Y cell $bmux $0 parameter \WIDTH 6 parameter \S_WIDTH 2 connect \A { \A [5:0] \A [5:0] \A [5:0] \A [5:0] } connect \S \S connect \Y \Y end end EOT equiv_opt -assert opt_reduce -fine opt_reduce -fine select -assert-count 0 t:$bmux design -reset read_rtlil << EOT module \top wire width 160 input 0 \A wire width 2 input 1 \S wire width 5 output 2 \Y cell $bmux $0 parameter \WIDTH 5 parameter \S_WIDTH 5 connect \A \A connect \S { \S [1] 1'1 \S [0] \S [1] 1'0 } connect \Y \Y end end EOT equiv_opt -assert opt_reduce -fine opt_reduce -fine select -assert-count 1 t:$bmux r:S_WIDTH=2 %i design -reset read_rtlil << EOT module \top wire width 10 input 0 \A wire input 1 \S wire width 5 output 2 \Y cell $bmux $0 parameter \WIDTH 5 parameter \S_WIDTH 1 connect \A \A connect \S \S connect \Y \Y end end EOT equiv_opt -assert opt_reduce -fine opt_reduce -fine select -assert-count 0 t:$bmux select -assert-count 1 t:$mux design -reset read_rtlil << EOT module \top wire width 5 input 0 \A wire width 5 output 1 \Y cell $bmux $0 parameter \WIDTH 5 parameter \S_WIDTH 0 connect \A \A connect \S { } connect \Y \Y end end EOT equiv_opt -assert opt_reduce -fine opt_reduce -fine select -assert-count 0 t:$bmux