# ================================ RAM ================================ # RAM bits <= 4K; Data width <= 16; Address width <= 11: -> SB_RAM40_4K design -reset; read_verilog -defer ../common/blockram.v chparam -set ADDRESS_WIDTH 11 -set DATA_WIDTH 2 sync_ram_sdp hierarchy -top sync_ram_sdp synth_ice40 -top sync_ram_sdp; cd sync_ram_sdp select -assert-count 1 t:SB_RAM40_4K design -reset; read_verilog -defer ../common/blockram.v chparam -set ADDRESS_WIDTH 10 -set DATA_WIDTH 4 sync_ram_sdp hierarchy -top sync_ram_sdp synth_ice40 -top sync_ram_sdp; cd sync_ram_sdp select -assert-count 1 t:SB_RAM40_4K design -reset; read_verilog -defer ../common/blockram.v chparam -set ADDRESS_WIDTH 9 -set DATA_WIDTH 8 sync_ram_sdp hierarchy -top sync_ram_sdp synth_ice40 -top sync_ram_sdp; cd sync_ram_sdp select -assert-count 1 t:SB_RAM40_4K design -reset; read_verilog -defer ../common/blockram.v chparam -set ADDRESS_WIDTH 8 -set DATA_WIDTH 16 sync_ram_sdp hierarchy -top sync_ram_sdp synth_ice40 -top sync_ram_sdp; cd sync_ram_sdp select -assert-count 1 t:SB_RAM40_4K ## With parameters design -reset; read_verilog -defer ../common/blockram.v chparam -set ADDRESS_WIDTH 2 -set DATA_WIDTH 8 sync_ram_sdp hierarchy -top sync_ram_sdp synth_ice40 -top sync_ram_sdp; cd sync_ram_sdp select -assert-count 0 t:SB_RAM40_4K # too inefficient select -assert-min 1 t:SB_DFFE design -reset; read_verilog -defer ../common/blockram.v chparam -set ADDRESS_WIDTH 2 -set DATA_WIDTH 8 sync_ram_sdp hierarchy -top sync_ram_sdp setattr -set syn_ramstyle "block_ram" m:memory synth_ice40 -top sync_ram_sdp; cd sync_ram_sdp select -assert-count 1 t:SB_RAM40_4K design -reset; read_verilog -defer ../common/blockram.v chparam -set ADDRESS_WIDTH 2 -set DATA_WIDTH 8 sync_ram_sdp hierarchy -top sync_ram_sdp setattr -set syn_ramstyle "Block_RAM" m:memory synth_ice40 -top sync_ram_sdp; cd sync_ram_sdp select -assert-count 1 t:SB_RAM40_4K # any case works design -reset; read_verilog -defer ../common/blockram.v chparam -set ADDRESS_WIDTH 2 -set DATA_WIDTH 8 sync_ram_sdp hierarchy -top sync_ram_sdp setattr -set ram_block 1 m:memory synth_ice40 -top sync_ram_sdp; cd sync_ram_sdp select -assert-count 1 t:SB_RAM40_4K design -reset; read_verilog -defer ../common/blockram.v chparam -set ADDRESS_WIDTH 2 -set DATA_WIDTH 8 sync_ram_sdp hierarchy -top sync_ram_sdp setattr -set syn_ramstyle "registers" m:memory synth_ice40 -top sync_ram_sdp; cd sync_ram_sdp select -assert-count 0 t:SB_RAM40_4K # requested FFRAM explicitly select -assert-min 1 t:SB_DFFE design -reset; read_verilog -defer ../common/blockram.v chparam -set ADDRESS_WIDTH 2 -set DATA_WIDTH 8 sync_ram_sdp hierarchy -top sync_ram_sdp setattr -set logic_block 1 m:memory synth_ice40 -top sync_ram_sdp; cd sync_ram_sdp select -assert-count 0 t:SB_RAM40_4K # requested FFRAM explicitly select -assert-min 1 t:SB_DFFE design -reset; read_verilog -defer ../common/blockram.v chparam -set ADDRESS_WIDTH 2 -set DATA_WIDTH 8 sync_ram_sdp hierarchy -top sync_ram_sdp setattr -set syn_romstyle "ebr" m:memory synth_ice40 -top sync_ram_sdp; cd sync_ram_sdp select -assert-count 1 t:$mem_v2 # requested BROM but this is a RAM design -reset; read_verilog -defer ../common/blockram.v chparam -set ADDRESS_WIDTH 2 -set DATA_WIDTH 8 sync_ram_sdp hierarchy -top sync_ram_sdp setattr -set rom_block 1 m:memory synth_ice40 -top sync_ram_sdp; cd sync_ram_sdp select -assert-count 1 t:$mem_v2 # requested BROM but this is a RAM design -reset; read_verilog -defer ../common/blockram.v chparam -set ADDRESS_WIDTH 2 -set DATA_WIDTH 8 sync_ram_sdp hierarchy -top sync_ram_sdp setattr -set syn_ramstyle "block_ram" m:memory synth_ice40 -top sync_ram_sdp -nobram; cd sync_ram_sdp select -assert-count 1 t:$mem_v2 # requested BRAM but BRAM is disabled design -reset; read_verilog -defer ../common/blockram.v chparam -set ADDRESS_WIDTH 2 -set DATA_WIDTH 8 sync_ram_sdp hierarchy -top sync_ram_sdp setattr -set ram_block 1 m:memory synth_ice40 -top sync_ram_sdp -nobram; cd sync_ram_sdp select -assert-count 1 t:$mem_v2 # requested BRAM but BRAM is disabled # ================================ ROM ================================ # ROM bits <= 4K; Data width <= 16; Address width <= 11: -> SB_RAM40_4K design -reset; read_verilog -defer ../common/blockrom.v chparam -set ADDRESS_WIDTH 11 -set DATA_WIDTH 2 sync_rom hierarchy -top sync_rom synth_ice40 -top sync_rom; cd sync_rom select -assert-count 1 t:SB_RAM40_4K design -reset; read_verilog -defer ../common/blockrom.v chparam -set ADDRESS_WIDTH 10 -set DATA_WIDTH 4 sync_rom hierarchy -top sync_rom synth_ice40 -top sync_rom; cd sync_rom select -assert-count 1 t:SB_RAM40_4K design -reset; read_verilog -defer ../common/blockrom.v chparam -set ADDRESS_WIDTH 9 -set DATA_WIDTH 8 sync_rom hierarchy -top sync_rom synth_ice40 -top sync_rom; cd sync_rom select -assert-count 1 t:SB_RAM40_4K design -reset; read_verilog -defer ../common/blockrom.v chparam -set ADDRESS_WIDTH 8 -set DATA_WIDTH 16 sync_rom hierarchy -top sync_rom synth_ice40 -top sync_rom; cd sync_rom select -assert-count 1 t:SB_RAM40_4K ## With parameters design -reset; read_verilog -defer ../common/blockrom.v chparam -set ADDRESS_WIDTH 2 -set DATA_WIDTH 8 sync_rom hierarchy -top sync_rom synth_ice40 -top sync_rom; cd sync_rom select -assert-count 0 t:SB_RAM40_4K # too inefficient select -assert-min 1 t:SB_LUT4 design -reset; read_verilog -defer ../common/blockrom.v chparam -set ADDRESS_WIDTH 2 -set DATA_WIDTH 8 sync_rom hierarchy -top sync_rom setattr -set syn_romstyle "ebr" m:memory synth_ice40 -top sync_rom; cd sync_rom select -assert-count 1 t:SB_RAM40_4K design -reset; read_verilog -defer ../common/blockrom.v chparam -set ADDRESS_WIDTH 2 -set DATA_WIDTH 8 sync_rom hierarchy -top sync_rom setattr -set rom_block 1 m:memory synth_ice40 -top sync_rom; cd sync_rom select -assert-count 1 t:SB_RAM40_4K design -reset; read_verilog -defer ../common/blockrom.v chparam -set ADDRESS_WIDTH 2 -set DATA_WIDTH 8 sync_rom hierarchy -top sync_rom setattr -set syn_romstyle "logic" m:memory synth_ice40 -top sync_rom; cd sync_rom select -assert-count 0 t:SB_RAM40_4K # requested LUTROM explicitly select -assert-min 1 t:SB_LUT4 design -reset; read_verilog -defer ../common/blockrom.v chparam -set ADDRESS_WIDTH 2 -set DATA_WIDTH 8 sync_rom hierarchy -top sync_rom setattr -set logic_block 1 m:memory synth_ice40 -top sync_rom; cd sync_rom select -assert-count 0 t:SB_RAM40_4K # requested LUTROM explicitly select -assert-min 1 t:SB_LUT4 design -reset; read_verilog -defer ../common/blockrom.v chparam -set ADDRESS_WIDTH 2 -set DATA_WIDTH 8 sync_rom hierarchy -top sync_rom setattr -set syn_ramstyle "block_ram" m:memory synth_ice40 -top sync_rom; cd sync_rom select -assert-count 1 t:$mem_v2 # requested BRAM but this is a ROM design -reset; read_verilog -defer ../common/blockrom.v chparam -set ADDRESS_WIDTH 2 -set DATA_WIDTH 8 sync_rom hierarchy -top sync_rom setattr -set ram_block 1 m:memory synth_ice40 -top sync_rom; cd sync_rom select -assert-count 1 t:$mem_v2 # requested BRAM but this is a ROM design -reset; read_verilog -defer ../common/blockrom.v chparam -set ADDRESS_WIDTH 2 -set DATA_WIDTH 8 sync_rom hierarchy -top sync_rom setattr -set syn_romstyle "ebr" m:memory synth_ice40 -top sync_rom -nobram; cd sync_rom select -assert-count 1 t:$mem_v2 # requested BROM but BRAM is disabled design -reset; read_verilog -defer ../common/blockrom.v chparam -set ADDRESS_WIDTH 2 -set DATA_WIDTH 8 sync_rom hierarchy -top sync_rom setattr -set rom_block 1 m:memory synth_ice40 -top sync_rom -nobram; cd sync_rom select -assert-count 1 t:$mem_v2 # requested BROM but BRAM is disabled