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-- --------------------------------------------------- -- Video Display terminal -- --------------------------------------------------- -- John Kent -- 3th September 2004 -- Assumes a pixel clock input of 25 MHz -- -- Display Format is: -- 80 characters across by 25 characters down. -- 8 horizontal pixels / character -- 16 vertical scan lines / character (2 scan lines/row) -- -- Modified by Bert Cuzeau for compliance and code cleanliness -- The effort is not over. -- There are still signal initialized, which is BAD.\ -- -- 7th Februaury 2007 - John Kent -- Added generics for VGA Timing -- Library IEEE; use IEEE.std_logic_1164.all; use IEEE.numeric_std.all; Library unisim; use unisim.vcomponents.all; Entity vdu8 is generic( VDU_CLOCK_FREQUENCY : integer := 12500000; -- HZ VGA_CLOCK_FREQUENCY : integer := 25000000; -- HZ VGA_HOR_CHARS : integer := 80; -- CHARACTERS VGA_VER_CHARS : integer := 25; -- CHARACTERS VGA_PIXELS_PER_CHAR : integer := 8; -- PIXELS VGA_LINES_PER_CHAR : integer := 16; -- LINES VGA_HOR_BACK_PORCH : integer := 40; -- PIXELS VGA_HOR_SYNC : integer := 96; -- PIXELS VGA_HOR_FRONT_PORCH : integer := 24; -- PIXELS VGA_VER_BACK_PORCH : integer := 13; -- LINES VGA_VER_SYNC : integer := 1; -- LINES VGA_VER_FRONT_PORCH : integer := 36 -- LINES ); port( -- control register interface vdu_clk : in std_logic; -- 12.5/25 MHz CPU Clock vdu_rst : in std_logic; vdu_cs : in std_logic; vdu_rw : in std_logic; vdu_addr : in std_logic_vector(2 downto 0); vdu_data_in : in std_logic_vector(7 downto 0); vdu_data_out : out std_logic_vector(7 downto 0); -- vga port connections vga_clk : in std_logic; -- 25MHz clock vga_red_o : out std_logic; vga_green_o : out std_logic; vga_blue_o : out std_logic; vga_hsync_o : out std_logic; vga_vsync_o : out std_logic ); end vdu8; Architecture RTL of vdu8 is -- -- Synchronisation constants -- -- Displayed Characters per row constant HOR_DISP_CHR : integer := VGA_HOR_CHARS; -- Last horizontal pixel displayed constant HOR_DISP_END : integer := (HOR_DISP_CHR * VGA_PIXELS_PER_CHAR) - 1; -- Start of horizontal synch pulse constant HOR_SYNC_BEG : integer := HOR_DISP_END + VGA_HOR_BACK_PORCH; -- End of Horizontal Synch pulse constant HOR_SYNC_END : integer := HOR_SYNC_BEG + VGA_HOR_SYNC; -- Last pixel in scan line constant HOR_SCAN_END : integer := HOR_SYNC_END + VGA_HOR_FRONT_PORCH; -- Displayed Characters per Column constant VER_DISP_CHR : integer := VGA_VER_CHARS; -- last row displayed constant VER_DISP_END : integer := (VER_DISP_CHR * VGA_LINES_PER_CHAR) - 1; -- start of vertical synch pulse constant VER_SYNC_BEG : integer := VER_DISP_END + VGA_VER_BACK_PORCH; -- end of vertical synch pulse constant VER_SYNC_END : integer := VER_SYNC_BEG + VGA_VER_SYNC; -- Last scan row in the frame constant VER_SCAN_END : integer := VER_SYNC_END + VGA_VER_FRONT_PORCH; signal horiz_sync : std_logic := '1'; signal vert_sync : std_logic := '1'; signal cursor_on_v : std_logic; signal cursor_on_h : std_logic; signal video_on_v : std_logic := '0'; signal video_on_h : std_logic := '0'; signal h_count : std_logic_vector(9 downto 0) := (others=>'0'); signal v_count : std_logic_vector(8 downto 0) := (others=>'0'); -- 0 to VER_SCAN_END signal blink_count : std_logic_vector(22 downto 0):= (others=>'1'); -- -- Character generator ROM -- signal char_addr : std_logic_vector(10 downto 0); signal char_data_out : std_logic_vector(7 downto 0); -- -- Control Registers -- signal reg_character : std_logic_vector(7 downto 0); signal reg_colour : std_logic_vector(7 downto 0); signal reg_hcursor : std_logic_vector(6 downto 0); -- 80 columns signal reg_vcursor : std_logic_vector(4 downto 0); -- 25 rows signal reg_voffset : std_logic_vector(4 downto 0); -- 25 rows -- -- Video Shift register -- signal vga_shift : std_logic_vector(7 downto 0); signal vga_fg_colour : std_logic_vector(2 downto 0); signal vga_bg_colour : std_logic_vector(2 downto 0); signal cursor_on : std_logic; signal cursor_on1 : std_logic; signal video_on : std_logic := '0'; signal video_on1 : std_logic := '0'; signal video_on2 : std_logic := '0'; -- -- vga character ram access bus -- signal col_addr : std_logic_vector(6 downto 0) := (others=>'0'); -- 0 to 79 signal row_addr : unsigned(5 downto 0) := (others=>'0'); -- 0 to 49 (25 * 2 -1) signal col1_addr : std_logic_vector(6 downto 0) := (others=>'0'); -- 0 to 79 signal row1_addr : unsigned(5 downto 0) := (others=>'0'); -- 0 to 49 (25 * 2 - 1) signal hor_addr : std_logic_vector(6 downto 0) := (others=>'0'); -- 0 to 79 signal ver_addr : std_logic_vector(6 downto 0) := (others=>'0'); -- 0 to 124 signal vga0_cs : std_logic; signal vga0_rw : std_logic; signal vga1_cs : std_logic; signal vga1_rw : std_logic; signal vga2_cs : std_logic; signal vga2_rw : std_logic; signal vga_cs : std_logic; signal vga_rw : std_logic; signal vga_addr : std_logic_vector(10 downto 0) := (others=>'0'); -- 2K byte character buffer signal vga_data_out : std_logic_vector(7 downto 0); signal attr_data_out : std_logic_vector(7 downto 0); -- -- Character write handshake signals -- signal req_write : std_logic; -- request character write signal ack_write : std_logic; -- -- Block Ram Character gen -- component char_rom port ( clk : in std_logic; rst : in std_logic; cs : in std_logic; rw : in std_logic; addr : in std_logic_vector (10 downto 0); wdata : in std_logic_vector (7 downto 0); rdata : out std_logic_vector (7 downto 0) ); end component; component ram_2k port ( clk : in std_logic; rst : in std_logic; cs : in std_logic; -- r_wn : in std_logic; rw : in std_logic; addr : in std_logic_vector (10 downto 0); wdata : in std_logic_vector (7 downto 0); rdata : out std_logic_vector (7 downto 0) ); end component; begin -- -- instantiate Character generator ROM -- vdu_char_rom : char_rom port map( clk => vga_clk, rst => vdu_rst, cs => '1', rw => '1', addr => char_addr, wdata => "00000000", rdata => char_data_out ); -- -- Character buffer RAM -- char_buff_ram : ram_2k port map( clk => vga_clk, rst => vdu_rst, cs => vga_cs, -- r_wn => vga_rw, rw => vga_rw, addr => vga_addr, wdata => reg_character, rdata => vga_data_out ); -- -- Attribute buffer RAM -- attr_buff_ram : ram_2k port map( clk => vga_clk, rst => vdu_rst, cs => vga_cs, -- r_wn => vga_rw, rw => vga_rw, addr => vga_addr, wdata => reg_colour, rdata => attr_data_out ); -- -- CPU Write interface -- vga_cpu_write : process(vdu_clk, vdu_rst) begin if vdu_rst = '1' then reg_character <= "00000000"; reg_colour <= "00000111"; reg_hcursor <= "0000000"; reg_vcursor <= "00000"; reg_voffset <= "00000"; req_write <= '0'; elsif vdu_clk'event and vdu_clk = '0' then if (vdu_cs = '1') and (vdu_rw = '0') then case vdu_addr is when "000" => reg_character <= vdu_data_in; req_write <= '1'; when "001" => reg_colour <= vdu_data_in; when "010" => reg_hcursor <= vdu_data_in(6 downto 0); when "011" => reg_vcursor <= vdu_data_in(4 downto 0); when others => reg_voffset <= vdu_data_in(4 downto 0); end case; else if (req_write = '1') and (ack_write = '1') then req_write <= '0'; else req_write <= req_write; end if; end if; end if; end process; -- -- CPU Read interface -- vga_cpu_read : process(vdu_addr, vdu_cs, reg_character, reg_colour, reg_hcursor, reg_vcursor, reg_voffset) begin case vdu_addr is when "000" => vdu_data_out <= reg_character; when "001" => vdu_data_out <= reg_colour; when "010" => vdu_data_out <= "0" & reg_hcursor; when "011" => vdu_data_out <= "000" & reg_vcursor; when others => vdu_data_out <= "000" & reg_voffset; end case; end process; -- -- Video memory access -- vga_addr_proc : process(vga_clk, vdu_rst) begin if vdu_rst = '1' then vga0_cs <= '0'; vga0_rw <= '1'; row_addr <= "000000"; col_addr <= "0000000"; -- vga1_cs <= '0'; vga1_rw <= '1'; row1_addr <= "000000"; col1_addr <= "0000000"; -- vga2_cs <= '0'; vga2_rw <= '1'; ver_addr <= "0000000"; hor_addr <= "0000000"; -- vga_cs <= '0'; vga_rw <= '1'; vga_addr <= "00000000000"; elsif vga_clk'event and vga_clk = '0' then -- -- on h_count = 0 initiate character write. -- all other cycles are reads. -- case h_count(2 downto 0) is when "000" => -- pipeline character write vga0_cs <= req_write; vga0_rw <= '0'; col_addr <= reg_hcursor(6 downto 0); row_addr <= unsigned("0" & reg_vcursor(4 downto 0)) + unsigned("0" & reg_voffset(4 downto 0)); when others => -- other 6 cycles free vga0_cs <= '1'; vga0_rw <= '1'; col_addr <= h_count(9 downto 3); row_addr <= unsigned("0" & v_count(8 downto 4)) + unsigned("0" & reg_voffset(4 downto 0)); end case; -- -- on vga_clk + 1 round off row address -- vga1_cs <= vga0_cs; vga1_rw <= vga0_rw; if row_addr < VER_DISP_CHR then row1_addr <= row_addr; else row1_addr <= row_addr - VER_DISP_CHR; end if; col1_addr <= col_addr; -- -- on vga_clk + 2 calculate vertical address -- vga2_cs <= vga1_cs; vga2_rw <= vga1_rw; ver_addr <= std_logic_vector(unsigned("00" & row1_addr(4 downto 0)) + unsigned(row1_addr(4 downto 0) & "00")); hor_addr <= col1_addr; -- -- on vga_clk + 3 calculate memory address -- vga_cs <= vga2_cs; vga_rw <= vga2_rw; vga_addr <= std_logic_vector(unsigned("0000" & hor_addr) + unsigned(ver_addr & "0000")); end if; end process; -- -- Video shift register -- vga_shift_proc : process( vga_clk, vdu_rst) begin if vdu_rst = '1' then ack_write <= '0'; video_on2 <= '0'; video_on <= '0'; cursor_on <= '0'; vga_bg_colour <= "000"; vga_fg_colour <= "111"; vga_shift <= "00000000"; vga_red_o <= '0'; vga_green_o <= '0'; vga_blue_o <= '0'; -- Put all video signals through DFFs to elminate any delays that cause a blurry image elsif vga_clk'event and vga_clk = '0' then -- Character Data valid on 1 count if h_count(2 downto 0) = "000" then if (req_write = '1') and (ack_write = '0') then ack_write <= '1'; elsif (req_write = '0') and (ack_write = '1') then ack_write <= '0'; else ack_write <= ack_write; end if; video_on2 <= video_on1; video_on <= video_on2; cursor_on <= (cursor_on1 or attr_data_out(3)) and blink_count(22); vga_fg_colour <= attr_data_out(2 downto 0); vga_bg_colour <= attr_data_out(6 downto 4); if attr_data_out(7) = '0' then vga_shift <= char_data_out; else case v_count(3 downto 2) is when "00" => vga_shift(7 downto 4) <= vga_data_out(0) & vga_data_out(0) & vga_data_out(0) & vga_data_out(0); vga_shift(3 downto 0) <= vga_data_out(1) & vga_data_out(1) & vga_data_out(1) & vga_data_out(1); when "01" => vga_shift(7 downto 4) <= vga_data_out(2) & vga_data_out(2) & vga_data_out(2) & vga_data_out(2); vga_shift(3 downto 0) <= vga_data_out(3) & vga_data_out(3) & vga_data_out(3) & vga_data_out(3); when "10" => vga_shift(7 downto 4) <= vga_data_out(4) & vga_data_out(4) & vga_data_out(4) & vga_data_out(4); vga_shift(3 downto 0) <= vga_data_out(5) & vga_data_out(5) & vga_data_out(5) & vga_data_out(5); when others => vga_shift(7 downto 4) <= vga_data_out(6) & vga_data_out(6) & vga_data_out(6) & vga_data_out(6); vga_shift(3 downto 0) <= vga_data_out(7) & vga_data_out(7) & vga_data_out(7) & vga_data_out(7); end case; end if; else vga_shift <= vga_shift(6 downto 0) & '0'; end if; -- -- Colour mask is -- 7 6 5 4 3 2 1 0 -- X BG BB BR X FG FB FR -- if vga_shift(7) = (not cursor_on) then vga_red_o <= video_on and vga_fg_colour(0); vga_green_o <= video_on and vga_fg_colour(1); vga_blue_o <= video_on and vga_fg_colour(2); else vga_red_o <= video_on and vga_bg_colour(0); vga_green_o <= video_on and vga_bg_colour(1); vga_blue_o <= video_on and vga_bg_colour(2); end if; end if; end process; -- -- Sync generator & timing process -- Generate Horizontal and Vertical Timing Signals for Video Signal -- vga_sync : process(vga_clk) begin if vga_clk'event and vga_clk = '0' then -- -- H_count counts pixels (640 + extra time for sync signals) -- -- Horiz_sync -----------------------------__________-------- -- H_count 0 640 659 755 799 -- if unsigned(h_count) = HOR_SCAN_END then h_count <= (others=>'0'); else h_count <= std_logic_vector(unsigned(h_count) + 1); end if; -- -- Generate Horizontal Sync Signal using H_count -- if unsigned(h_count) = HOR_SYNC_BEG then horiz_sync <= '0'; elsif unsigned(h_count) = HOR_SYNC_END then horiz_sync <= '1'; else horiz_sync <= horiz_sync; end if; -- -- V_count counts rows of pixels -- 400 lines + extra time for sync signals -- 25 rows * 16 scan lines -- -- Vert_sync ---------------------------------_______------------ -- V_count 0 400 413 414 444 -- if (unsigned(v_count) = VER_SCAN_END) and (unsigned(h_count) = HOR_SCAN_END) then v_count <= "000000000"; elsif unsigned(h_count) = HOR_SYNC_END then v_count <= std_logic_vector(unsigned(v_count) + 1); end if; -- -- Generate Vertical Sync Signal using V_count -- if unsigned(v_count) = VER_SYNC_BEG then vert_sync <= '0'; elsif unsigned(v_count) = VER_SYNC_END then vert_sync <= '1'; else vert_sync <= vert_sync; end if; -- Generate Video on Screen Signals for Pixel Data if unsigned(h_count) = HOR_SCAN_END then video_on_h <= '1'; elsif unsigned(h_count) = HOR_DISP_END then video_on_h <= '0'; else video_on_h <= video_on_h; end if; if unsigned(v_count) = VER_SCAN_END then video_on_v <= '1'; elsif unsigned(v_count) = VER_DISP_END then video_on_v <= '0'; else video_on_v <= video_on_v; end if; if h_count(9 downto 3) = reg_hcursor(6 downto 0) then cursor_on_h <= '1'; else cursor_on_h <= '0'; end if; if (v_count(8 downto 4) = reg_vcursor(4 downto 0)) then cursor_on_v <= '1'; else cursor_on_v <= '0'; end if; -- cursor_on is only active when on selected character blink_count <= std_logic_vector(unsigned(blink_count) + 1); end if; end process; -- video_on is high only when RGB data is displayed vga_hsync_o <= horiz_sync; vga_vsync_o <= vert_sync; video_on1 <= video_on_H and video_on_V; cursor_on1 <= cursor_on_h and cursor_on_v; -- -- Here to look up character ROM -- This will take one clock cycle -- and should be performed on h_count = "111" -- char_addr(10 downto 4) <= vga_data_out(6 downto 0); char_addr(3 downto 0) <= v_count(3 downto 0); end RTL;
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