--------------------------------------------------------------------------- -- (c) 2016 mark watson -- I am happy for anyone to use this for non-commercial use. -- If my vhdl files are used commercially or otherwise sold, -- please contact me for explicit permission at scrameta (gmail). -- This applies for source and binary form and derived works. --------------------------------------------------------------------------- LIBRARY ieee; USE ieee.std_logic_1164.all; use ieee.numeric_std.all; USE IEEE.STD_LOGIC_UNSIGNED.ALL; use IEEE.STD_LOGIC_MISC.all; ENTITY scandoubler_hdmi IS PORT ( -- Atari clock_domain CLK_ATARI_IN : IN STD_LOGIC; -- 56MHz approx (PAL 50Hz exactly/NTSC 59.94Hz exactly) RESET_N : IN STD_LOGIC; -- Audio audio_left : in std_logic_vector(15 downto 0); audio_right: in std_logic_vector(15 downto 0); -- GTIA interface pal : in std_logic; scanlines_on : in std_logic; csync_on : in std_logic; colour_enable : in std_logic; -- 720 pixels/line (at least...) colour_in : in std_logic_vector(7 downto 0); vsync_in : in std_logic; -- high for new hsync_in : in std_logic; -- high for new line format : in std_logic_vector(1 downto 0); -- "00"=VGA,"01"=DVI,"10"=HDMI --HDMI clock domain CLK_HDMI_IN : IN STD_LOGIC; -- 135MHz exactly CLK_PIXEL_IN : IN STD_LOGIC; -- 27 MHz exactly (aligned with HDMI) -- VGA output - in clk pixel domain O_hsync : out std_logic; O_vsync : out std_logic; O_blank : out std_logic; O_red : out std_logic_vector(7 downto 0); O_green : out std_logic_vector(7 downto 0); O_blue : out std_logic_vector(7 downto 0); -- TO TV... O_TMDS_H : OUT STD_LOGIC_VECTOR(7 downto 0); O_TMDS_L : OUT STD_LOGIC_VECTOR(7 downto 0) ); END scandoubler_hdmi; ARCHITECTURE vhdl OF scandoubler_hdmi IS component hdmi_line_buffer IS PORT ( data : IN STD_LOGIC_VECTOR (7 DOWNTO 0); rdaddress : IN STD_LOGIC_VECTOR (12 DOWNTO 0); rdclock : IN STD_LOGIC ; wraddress : IN STD_LOGIC_VECTOR (12 DOWNTO 0); wrclock : IN STD_LOGIC := '1'; wren : IN STD_LOGIC := '0'; q : OUT STD_LOGIC_VECTOR (7 DOWNTO 0) ); END component; signal colour_mask : std_logic_vector(7 downto 0); -- TODO: NTSC! -- ModeLine " 720x 480@59.94Hz" 27.00 720 736 798 858 480 489 495 525 -HSync -VSync signal hcnt : std_logic_vector(11 downto 0) := "000000000000"; -- horizontal pixel counter signal vcnt : std_logic_vector(11 downto 0) := "000000000000"; -- vertical line counter signal hsync_next : std_logic; signal vsync_next : std_logic; signal blank_next : std_logic; signal red_next : std_logic_vector(7 downto 0); signal green_next : std_logic_vector(7 downto 0); signal blue_next : std_logic_vector(7 downto 0); signal hsync_reg : std_logic; signal vsync_reg : std_logic; signal blank_reg : std_logic; signal red_reg : std_logic_vector(7 downto 0); signal green_reg : std_logic_vector(7 downto 0); signal blue_reg : std_logic_vector(7 downto 0); signal hs_hsync_next : std_logic; signal hs_vsync_next : std_logic; signal hs_hsync_reg : std_logic; signal hs_vsync_reg : std_logic; signal hs_blank_reg : std_logic; signal hs_red_reg : std_logic_vector(7 downto 0); signal hs_green_reg : std_logic_vector(7 downto 0); signal hs_blue_reg : std_logic_vector(7 downto 0); signal hs_red_reg2 : std_logic_vector(7 downto 4); signal hs_green_reg2 : std_logic_vector(7 downto 4); signal hs_blue_reg2 : std_logic_vector(7 downto 4); -- signal cap_vsync_shift_next : std_logic_vector(3 downto 0); signal cap_vsync_shift_reg : std_logic_vector(3 downto 0); signal cap_vcount_next : std_logic_vector(1 downto 0); signal cap_vcount_reg : std_logic_vector(1 downto 0); signal cap_hcount_next : std_logic_vector(10 downto 0); signal cap_hcount_reg : std_logic_vector(10 downto 0); signal cap_vsync_reg : std_logic; signal cap_hsync_reg : std_logic; signal cap_frame_start : std_logic; signal cap_line_start_raw : std_logic; signal cap_line_start : std_logic; signal cap_format : std_logic_vector(1 downto 0); -- signal out_colour_raw : std_logic_vector(7 downto 0); signal out_colour : std_logic_vector(7 downto 0); signal out_pal : std_logic; signal out_scanlines : std_logic; signal out_csync : std_logic; signal out_frame_start : std_logic; signal out_format : std_logic_vector(1 downto 0); -- Horizontal Timing signal h_pixels_across : integer; signal h_sync_on : integer; signal h_sync_off : integer; signal h_end_count : integer; -- Vertical Timing signal v_pixels_down : integer; signal v_sync_on : integer; signal v_sync_off : integer; signal v_end_count : integer; -- signed audio signal audio_left_signed : std_logic_vector(15 downto 0); signal audio_right_signed: std_logic_vector(15 downto 0); -- audio synchronizer signal audio_left_reg1 : std_logic_vector(15 downto 0); signal audio_right_reg1 : std_logic_vector(15 downto 0); signal audio_left_reg2 : std_logic_vector(15 downto 0); signal audio_right_reg2 : std_logic_vector(15 downto 0); -- hdmi/dvi->tmds signal hdmi_encoded_red : std_logic_vector(9 downto 0); signal hdmi_encoded_green : std_logic_vector(9 downto 0); signal hdmi_encoded_blue : std_logic_vector(9 downto 0); signal dvi_encoded_red : std_logic_vector(9 downto 0); signal dvi_encoded_green : std_logic_vector(9 downto 0); signal dvi_encoded_blue : std_logic_vector(9 downto 0); signal encoded_red_next : std_logic_vector(9 downto 0); signal encoded_green_next : std_logic_vector(9 downto 0); signal encoded_blue_next : std_logic_vector(9 downto 0); signal encoded_red_reg : std_logic_vector(9 downto 0); signal encoded_green_reg : std_logic_vector(9 downto 0); signal encoded_blue_reg : std_logic_vector(9 downto 0); signal mod5 : std_logic_vector(2 downto 0) := "000"; -- modulus 5 counter signal shift_r : std_logic_vector(9 downto 0) := "0000000000"; signal shift_g : std_logic_vector(9 downto 0) := "0000000000"; signal shift_b : std_logic_vector(9 downto 0) := "0000000000"; signal shift_clk : std_logic_vector(9 downto 0) := "0000000000"; BEGIN -------------------------------------------------------- -- Capture side -- Store 4 lines of data in dual port ram -- register process(CLK_ATARI_IN,reset_n) begin if (reset_n = '0') then cap_hcount_reg <= (others=>'0'); cap_vcount_reg <= (others=>'0'); cap_vsync_reg <= '0'; cap_hsync_reg <= '0'; cap_vsync_shift_reg <= (others=>'0'); elsif (CLK_ATARI_IN'event and CLK_ATARI_IN='1') then cap_hcount_reg <= cap_hcount_next; cap_vcount_reg <= cap_vcount_next; cap_vsync_reg <= vsync_in; cap_hsync_reg <= hsync_in; cap_vsync_shift_reg <= cap_vsync_shift_next; end if; end process; cap_line_start_raw <= not(hsync_in) and cap_hsync_reg; hsync_delay : entity work.delay_line generic map (COUNT=>184) port map(clk=>clk_atari_in,sync_reset=>'0',data_in=>cap_line_start_raw,enable=>colour_enable,reset_n=>'1',data_out=>cap_line_start); -- our location process(cap_hcount_reg, colour_enable, cap_line_start) begin colour_mask <= x"ff"; cap_hcount_next <= cap_hcount_reg; if (colour_enable = '1') then cap_hcount_next <= std_logic_vector(unsigned(cap_hcount_reg)+1); end if; if (cap_line_start = '1') then cap_hcount_next <= (others=>'0'); end if; if (or_reduce(cap_hcount_reg(10 downto 6))='0') then colour_mask <= x"00"; end if; if (cap_hcount_reg(10 downto 7) >= "1011") then --1408 colour_mask <= x"00"; end if; end process; process(cap_vcount_reg, cap_line_start, cap_vsync_reg, vsync_in, cap_vsync_shift_reg) begin cap_vcount_next <= cap_vcount_reg; cap_vsync_shift_next <= cap_vsync_shift_reg; if (cap_line_start = '1') then cap_vcount_next <= std_logic_vector(unsigned(cap_vcount_reg)+1); cap_vsync_shift_next <= cap_vsync_shift_reg(2 downto 0)&'0'; end if; if (cap_vsync_reg = '1' and vsync_in = '0') then cap_vcount_next <= (others=>'0'); cap_vsync_shift_next <= "0001"; end if; end process; cap_frame_start <= cap_vsync_shift_reg(2); hdmi_line_buffer_inst : hdmi_line_buffer port map ( data => colour_in and colour_mask, wraddress => cap_vcount_reg&cap_hcount_reg, wrclock => CLK_ATARI_IN, wren => colour_enable, -- 1824 times/line rdaddress => vcnt(2 downto 1)&hcnt(9 downto 0)&'0', rdclock => CLK_PIXEL_IN, q => out_colour_raw ); -- Audio should be signed audio_left_signed <= std_logic_vector(to_signed(to_integer(unsigned(audio_left))-32768,16)); audio_right_signed <= std_logic_vector(to_signed(to_integer(unsigned(audio_right))-32768,16)); -------------------------------------------------------- -- Output side -- Retrieve data from dual port ram, do palette lookup and send to hdmi encoder pal_synchronizer : entity work.synchronizer port map (clk=>clk_pixel_in, raw=>pal, sync=>out_pal); scanline_synchronizer : entity work.synchronizer port map (clk=>clk_pixel_in, raw=>scanlines_on, sync=>out_scanlines); csync_synchronizer : entity work.synchronizer port map (clk=>clk_pixel_in, raw=>csync_on, sync=>out_csync); cap_vsync_synchronizer : entity work.synchronizer port map (clk=>clk_pixel_in, raw=>cap_frame_start, sync=>out_frame_start); cap_format0_synchronizer : entity work.synchronizer port map (clk=>clk_pixel_in, raw=>format(0), sync=>out_format(0)); cap_format1_synchronizer : entity work.synchronizer port map (clk=>clk_pixel_in, raw=>format(1), sync=>out_format(1)); out_colour(7 downto 4) <= out_colour_raw(7 downto 4); out_colour(3 downto 0) <= out_colour_raw(3 downto 0) when (not(out_scanlines) or vcnt(0))='1' else '0'&out_colour_raw(3 downto 1); -- colour palette -- TODO- share!! palette4 : entity work.gtia_palette port map (PAL=>out_pal,ATARI_COLOUR=>out_colour, R_next=>red_next, G_next=>green_next, B_next=>blue_next); -- extract from fifo to line buffer (720 pixels) -- sync vsync between sides... process (clk_pixel_in, hcnt, out_frame_start) begin if clk_pixel_in'event and clk_pixel_in = '1' then if hcnt = h_end_count then hcnt <= (others => '0'); else hcnt <= hcnt + 1; end if; if hcnt = h_sync_on then if (vcnt = v_end_count) then vcnt <= (others => '0'); else vcnt <= vcnt + 1; end if; end if; if (out_frame_start='1' and (vcnt <= (v_sync_off-4) or vcnt >= (v_sync_off+4))) then vcnt <= std_logic_vector(to_unsigned(v_sync_off,12)); end if; end if; end process; hsync_next <= '0' when (hcnt <= h_sync_on) or (hcnt > h_sync_off) else '1'; vsync_next <= '0' when (vcnt <= v_sync_on) or (vcnt > v_sync_off) else '1'; blank_next <= '1' when (hcnt > h_pixels_across) or (vcnt > v_pixels_down) else '0'; -- TODO -- allow ZPU to write these - simple CRTC! process(out_pal) begin if (out_pal = '1') then h_pixels_across <= 720 - 1; h_sync_on <= 732 - 1; h_sync_off <= 795 - 1; h_end_count <= 864 - 1; v_pixels_down <= 576 - 1; v_sync_on <= 581 - 1; v_sync_off <= 586 - 1; v_end_count <= 625 - 1; else h_pixels_across <= 720 - 1; h_sync_on <= 736 -1; h_sync_off <= 798 -1; h_end_count <= 858 -1; v_pixels_down <= 480 -1; v_sync_on <= 489 -1; v_sync_off <= 495 -1; v_end_count <= 525 -1; end if; end process; hdmiav_inst : entity work.hdmi port map ( I_CLK_PIXEL => clk_pixel_in, I_RESET => not(reset_n), I_AUDIO_PCM_L => audio_left_reg2, I_AUDIO_PCM_R => audio_right_reg2, I_HSYNC => hsync_reg, I_VSYNC => vsync_reg, I_BLANK => blank_reg, I_R => red_reg, I_G => green_reg, I_B => blue_reg, O_R => hdmi_encoded_red, O_G => hdmi_encoded_green, O_B => hdmi_encoded_blue); dvi_inst: entity work.dvi port map ( I_CLK_PIXEL => clk_pixel_in, I_HSYNC => hsync_reg, I_VSYNC => vsync_reg, I_BLANK => blank_reg, I_RED => red_reg, I_GREEN => green_reg, I_BLUE => blue_reg, O_R => dvi_encoded_red, O_G => dvi_encoded_green, O_B => dvi_encoded_blue); process (out_format,dvi_encoded_red,dvi_encoded_green,dvi_encoded_blue,hdmi_encoded_red,hdmi_encoded_green,hdmi_encoded_blue) begin encoded_red_next <= (others=>'0'); encoded_green_next <= (others=>'0'); encoded_blue_next <= (others=>'0'); case out_format is when "01" => encoded_red_next <= dvi_encoded_red; encoded_green_next <= dvi_encoded_green; encoded_blue_next <= dvi_encoded_blue; when "10" => encoded_red_next <= hdmi_encoded_red; encoded_green_next <= hdmi_encoded_green; encoded_blue_next <= hdmi_encoded_blue; when others => encoded_red_next <= (others=>'0'); encoded_green_next <= (others=>'0'); encoded_blue_next <= (others=>'0'); end case; end process; process (CLK_HDMI_IN) begin if (CLK_HDMI_IN'event and CLK_HDMI_IN = '1') then if mod5(2) = '1' then mod5 <= "000"; shift_r <= encoded_red_reg; shift_g <= encoded_green_reg; shift_b <= encoded_blue_reg; shift_clk <= "0000011111"; else mod5 <= mod5 + "001"; shift_r <= "00" & shift_r(9 downto 2); shift_g <= "00" & shift_g(9 downto 2); shift_b <= "00" & shift_b(9 downto 2); shift_clk <= "00" & shift_clk(9 downto 2); end if; end if; end process; process(clk_pixel_in) begin if (clk_pixel_in'event and clk_pixel_in='1') then audio_left_reg1 <= audio_left_signed; audio_left_reg2 <= audio_left_reg1; audio_right_reg1 <= audio_right_signed; audio_right_reg2 <= audio_right_reg1; hsync_reg <= hsync_next; vsync_reg <= vsync_next; blank_reg <= blank_next; red_reg <= red_next; green_reg <= green_next; blue_reg <= blue_next; encoded_blue_reg <= encoded_blue_next; encoded_green_reg <= encoded_green_next; encoded_red_reg <= encoded_red_next; end if; end process; process(clk_hdmi_in) begin if (clk_hdmi_in'event and clk_hdmi_in='1') then hs_hsync_reg <= hs_hsync_next; hs_vsync_reg <= hs_vsync_next; hs_blank_reg <= blank_reg; hs_red_reg <= red_reg; hs_green_reg <= green_reg; hs_blue_reg <= blue_reg; hs_red_reg2(7 downto 4) <= hs_red_reg(7 downto 4); hs_green_reg2(7 downto 4) <= hs_green_reg(7 downto 4); hs_blue_reg2(7 downto 4) <= hs_blue_reg(7 downto 4); end if; end process; process(out_csync,hsync_reg,vsync_reg) begin if (out_csync = '1') then hs_hsync_next <= not(hsync_reg xor vsync_reg); hs_vsync_next <='1'; else hs_hsync_next <= not(hsync_reg); hs_vsync_next <= not(vsync_reg); end if; end process; -- VGA outputs - with specified timings O_hsync <= hs_hsync_reg; O_vsync <= hs_vsync_reg; O_blank <= hs_blank_reg; O_red <= hs_red_reg2(7 downto 4)&hs_red_reg(3 downto 0); -- on different ddr edges O_green <= hs_green_reg2(7 downto 4)&hs_green_reg(3 downto 0); O_blue <= hs_blue_reg2(7 downto 4)&hs_blue_reg(3 downto 0); -- TMDS outputs - with specified timings O_TMDS_H <= shift_r(0) & not(shift_r(0)) & shift_g(0) & not(shift_g(0)) & shift_b(0) & not(shift_b(0)) & shift_clk(0) & not(shift_clk(0)); O_TMDS_L <= shift_r(1) & not(shift_r(1)) & shift_g(1) & not(shift_g(1)) & shift_b(1) & not(shift_b(1)) & shift_clk(1) & not(shift_clk(1)); end vhdl;