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library ieee;
use ieee.std_logic_1164.all;
use work.ppu_consts.all;
use ieee.numeric_std.all;
use ieee.std_logic_unsigned.all;
entity ppu_plut is port (
CLK : in std_logic; -- system clock
CIDX : in std_logic_vector(PPU_PALETTE_CIDX_WIDTH-1 downto 0); -- color in
RESET : in std_logic;
-- internal memory block (AUX)
PAL_WEN : in std_logic; -- VRAM PAL write enable
PAL_ADDR : in std_logic_vector(PPU_PAL_ADDR_WIDTH-1 downto 0); -- VRAM PAL address
PAL_DATA : in std_logic_vector(PPU_PAL_DATA_WIDTH-1 downto 0); -- VRAM PAL data
R,G,B : out std_logic_vector(PPU_COLOR_OUTPUT_DEPTH-1 downto 0)); -- VGA color out
end ppu_plut;
architecture Behavioral of ppu_plut is
component er_ram
generic(
ADDR_W : natural := PPU_PAL_ADDR_WIDTH; -- ADDR line width
DATA_W : natural := PPU_PAL_DATA_WIDTH; -- DATA line width
ADDR_LOW : natural := 16#0000#; -- starting address
ADDR_RANGE : natural := 16#0040#); -- amount of valid addresses after ADDR_LOW
port(
CLK : in std_logic; -- clock
RST : in std_logic; -- async memory clear
WEN : in std_logic; -- write enable
ADDR : in std_logic_vector(ADDR_W-1 downto 0);
DATA : in std_logic_vector(DATA_W-1 downto 0);
REG : out std_logic_vector((ADDR_RANGE*DATA_W)-1 downto 0)); -- exposed register output
end component;
signal PLUT : std_logic_vector((64 * PPU_PAL_DATA_WIDTH)-1 downto 0) := (others => '0');
signal COLOR : std_logic_vector(PPU_PAL_DATA_WIDTH-1 downto 0) := (others => '0'); -- COLORS RGB IN
signal CIDX_INT : integer := 0;
begin
RAM : component er_ram port map(
CLK => CLK,
RST => RESET,
WEN => PAL_WEN,
ADDR => PAL_ADDR,
DATA => PAL_DATA,
REG => PLUT);
CIDX_INT <= to_integer(unsigned(CIDX));
COLOR <= PLUT((12 * CIDX_INT) + 11 downto (12*CIDX_INT));
R <= COLOR(11 downto 8);
G <= COLOR(7 downto 4);
B <= COLOR(3 downto 0);
end Behavioral;
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