#read_verilog ../common/lutram.v #hierarchy -top lutram_1w1r -chparam A_WIDTH 4 #proc #memory -nomap #equiv_opt -run :prove -map +/xilinx/cells_sim.v synth_xilinx #memory #opt -full # #miter -equiv -flatten -make_assert -make_outputs gold gate miter #sat -verify -prove-asserts -seq 3 -set-init-zero -show-inputs -show-outputs miter # #design -load postopt #cd lutram_1w1r #select -assert-count 1 t:BUFG #select -assert-count 8 t:FDRE #select -assert-count 8 t:RAM16X1D #select -assert-none t:BUFG t:FDRE t:RAM16X1D %% t:* %D design -reset read_verilog ../common/lutram.v hierarchy -top lutram_1w1r -chparam A_WIDTH 5 proc memory -nomap equiv_opt -run :prove -map +/xilinx/cells_sim.v synth_xilinx memory opt -full miter -equiv -flatten -make_assert -make_outputs gold gate miter sat -verify -prove-asserts -seq 3 -set-init-zero -show-inputs -show-outputs miter design -load postopt cd lutram_1w1r select -assert-count 1 t:BUFG select -assert-count 8 t:FDRE select -assert-count 8 t:RAM32X1D select -assert-none t:BUFG t:FDRE t:RAM32X1D %% t:* %D design -reset read_verilog ../common/lutram.v hierarchy -top lutram_1w1r proc memory -nomap equiv_opt -run :prove -map +/xilinx/cells_sim.v synth_xilinx memory opt -full miter -equiv -flatten -make_assert -make_outputs gold gate miter sat -verify -prove-asserts -seq 3 -set-init-zero -show-inputs -show-outputs miter design -load postopt cd lutram_1w1r select -assert-count 1 t:BUFG select -assert-count 8 t:FDRE select -assert-count 8 t:RAM64X1D select -assert-none t:BUFG t:FDRE t:RAM64X1D %% t:* %D design -reset read_verilog ../common/lutram.v hierarchy -top lutram_1w3r proc memory -nomap equiv_opt -run :prove -map +/xilinx/cells_sim.v synth_xilinx memory opt -full miter -equiv -flatten -make_assert -make_outputs gold gate miter sat -verify -prove-asserts -seq 3 -set-init-zero -show-inputs -show-outputs miter design -load postopt cd lutram_1w3r select -assert-count 1 t:BUFG select -assert-count 24 t:FDRE select -assert-count 4 t:RAM32M select -assert-none t:BUFG t:FDRE t:RAM32M %% t:* %D design -reset read_verilog ../common/lutram.v hierarchy -top lutram_1w3r -chparam A_WIDTH 6 proc memory -nomap equiv_opt -run :prove -map +/xilinx/cells_sim.v synth_xilinx memory opt -full miter -equiv -flatten -make_assert -make_outputs gold gate miter sat -verify -prove-asserts -seq 3 -set-init-zero -show-inputs -show-outputs miter design -load postopt cd lutram_1w3r select -assert-count 1 t:BUFG select -assert-count 24 t:FDRE select -assert-count 8 t:RAM64M select -assert-none t:BUFG t:FDRE t:RAM64M %% t:* %D design -reset read_verilog ../common/lutram.v hierarchy -top lutram_1w1r -chparam A_WIDTH 5 -chparam D_WIDTH 6 proc memory -nomap equiv_opt -run :prove -map +/xilinx/cells_sim.v synth_xilinx memory opt -full miter -equiv -flatten -make_assert -make_outputs gold gate miter sat -verify -prove-asserts -seq 3 -set-init-zero -show-inputs -show-outputs miter design -load postopt cd lutram_1w1r select -assert-count 1 t:BUFG select -assert-count 6 t:FDRE select -assert-count 1 t:RAM32M select -assert-none t:BUFG t:FDRE t:RAM32M %% t:* %D design -reset read_verilog ../common/lutram.v hierarchy -top lutram_1w1r -chparam A_WIDTH 6 -chparam D_WIDTH 6 proc memory -nomap equiv_opt -run :prove -map +/xilinx/cells_sim.v synth_xilinx memory opt -full miter -equiv -flatten -make_assert -make_outputs gold gate miter sat -verify -prove-asserts -seq 3 -set-init-zero -show-inputs -show-outputs miter design -load postopt cd lutram_1w1r select -assert-count 1 t:BUFG select -assert-count 6 t:FDRE select -assert-count 2 t:RAM64M select -assert-none t:BUFG t:FDRE t:RAM64M %% t:* %D