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[/] [z80soc/] [trunk/] [V0.7.2/] [DE1/] [vhdl/] [top_de1.vhd.bak] - Rev 44
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--------------------------------------------------------------------------------------------------- Z80SoC (Z80 System on Chip)-- Ronivon Candido Costa-- ronivon.costa@gmail.com---- Version history:--------------------- version 0.7.1-- 2010 / 11 / 22-- Change memory layout and increased Rom, using Megawizard plug in manager-- Memory cores redefined-- Fixed bug in the video.vhd-- New rom demo in C (SDCC)---- version 0.7-- Release Date: 2010 / 02 / 17-- version 0.6 for for Altera DE1-- Release Date: 2008 / 05 / 21---- Version 0.5 Beta for Altera DE1-- Developer: Ronivon Candido Costa-- Release Date: 2008 / 04 / 16---- Based on the T80 core: http://www.opencores.org/projects.cgi/web/t80-- This version developed and tested on: Altera DE1 Development Board---- Peripherals configured (Using Ports):---- 16 KB Internal ROM Read (0x0000h - 0x3FFFh)-- 08 KB INTERNAL VRAM Write (0x4000h - 0x5FFFh)-- 32 KB External SRAM Read/Write (0x8000h - 0xFFFFh)-- 08 Green Leds Out (Port 0x01h)-- 08 Red Leds Out (Port 0x02h)-- 04 Seven Seg displays Out (Ports 0x11h and 0x10h)-- 36 Pins GPIO0 In/Out (Ports 0xA0h, 0xA1h, 0xA2h, 0xA3h, 0xA4h, 0xC0h)-- 36 Pins GPIO1 In/Out (Ports 0xB0h, 0xB1h, 0xB2h, 0xB3h, 0xB4h, 0xC1h)-- 08 Switches In (Port 0x20h)-- 04 Push buttons In (Port 0x30h)-- 01 PS/2 keyboard In (Port 0x80h)-- 01 Video write port In (Port 0x90h)---- Revision history:---- 2008/05/23 - Modified RAM layout to support new and future improvements-- - Added port 0x90 to write a character to video.-- - Cursor x,y automatically updated after writing to port 0x90-- - Added port 0x91 for video cursor X-- - Added port 0x92 for video cursor Y-- - Updated ROM to demonstrate how to use these new resources-- - Changed ROM to support 14 bit addresses (16 Kb)---- 2008/05/12 - Added support for the Rotary Knob-- - ROT_CENTER push button (Knob) reserved for RESET-- - The four push buttons are now available for the user (Port 0x30)---- 2008/05/11 - Fixed access to RAM and VRAM,-- Released same ROM version for DE1 and S3E---- 2008/05/01 - Added LCD support for Spartan 3E---- 2008/04(21 - Release of Version 0.5-S3E-Beta for Diligent Spartan 3E---- 2008/04/17 - Added Video support for 40x30 mode---- 2008/04/16 - Release of Version 0.5-DE1-Beta for Altera DE1---- TO-DO:-- - Implement hardware control for the A/D and IO pins-- - Monitor program to introduce Z80 Assmebly codes and run-- - Serial communication, to download assembly code from PC-- - Add hardware support for 80x40 Video out-- - SD/MMC card interface to read/store data and programs-------------------------------------------------------------------------------------------------library IEEE;use IEEE.std_logic_1164.all;use IEEE.std_logic_arith.all;use IEEE.std_logic_unsigned.all;entity TOP_DE1 isport(-- ClocksCLOCK_27, -- 27 MHzCLOCK_50, -- 50 MHzEXT_CLOCK : in std_logic; -- External Clock-- Buttons and switchesKEY : in std_logic_vector(3 downto 0); -- Push buttonsSW : in std_logic_vector(9 downto 0); -- Switches-- LED displaysHEX0, HEX1, HEX2, HEX3 -- 7-segment displays: out std_logic_vector(6 downto 0);LEDG : out std_logic_vector(7 downto 0); -- Green LEDsLEDR : out std_logic_vector(9 downto 0); -- Red LEDs-- RS-232 interfaceUART_TXD : out std_logic; -- UART transmitterUART_RXD : in std_logic; -- UART receiver-- IRDA interface-- IRDA_TXD : out std_logic; -- IRDA TransmitterIRDA_RXD : in std_logic; -- IRDA Receiver-- SDRAMDRAM_DQ : inout std_logic_vector(15 downto 0); -- Data BusDRAM_ADDR : out std_logic_vector(11 downto 0); -- Address BusDRAM_LDQM, -- Low-byte Data MaskDRAM_UDQM, -- High-byte Data MaskDRAM_WE_N, -- Write EnableDRAM_CAS_N, -- Column Address StrobeDRAM_RAS_N, -- Row Address StrobeDRAM_CS_N, -- Chip SelectDRAM_BA_0, -- Bank Address 0DRAM_BA_1, -- Bank Address 0DRAM_CLK, -- ClockDRAM_CKE : out std_logic; -- Clock Enable-- FLASHFL_DQ : inout std_logic_vector(7 downto 0); -- Data busFL_ADDR : out std_logic_vector(21 downto 0); -- Address busFL_WE_N, -- Write EnableFL_RST_N, -- ResetFL_OE_N, -- Output EnableFL_CE_N : out std_logic; -- Chip Enable-- SRAMSRAM_DQ : inout std_logic_vector(15 downto 0); -- Data bus 16 BitsSRAM_ADDR : out std_logic_vector(17 downto 0); -- Address bus 18 BitsSRAM_UB_N, -- High-byte Data MaskSRAM_LB_N, -- Low-byte Data MaskSRAM_WE_N, -- Write EnableSRAM_CE_N, -- Chip EnableSRAM_OE_N : out std_logic; -- Output Enable-- SD card interfaceSD_DAT : in std_logic; -- SD Card Data SD pin 7 "DAT 0/DataOut"SD_DAT3 : out std_logic; -- SD Card Data 3 SD pin 1 "DAT 3/nCS"SD_CMD : out std_logic; -- SD Card Command SD pin 2 "CMD/DataIn"SD_CLK : out std_logic; -- SD Card Clock SD pin 5 "CLK"-- USB JTAG linkTDI, -- CPLD -> FPGA (data in)TCK, -- CPLD -> FPGA (clk)TCS : in std_logic; -- CPLD -> FPGA (CS)TDO : out std_logic; -- FPGA -> CPLD (data out)-- I2C busI2C_SDAT : inout std_logic; -- I2C DataI2C_SCLK : out std_logic; -- I2C Clock-- PS/2 portPS2_DAT, -- DataPS2_CLK : inout std_logic; -- Clock-- VGA outputVGA_HS, -- H_SYNCVGA_VS : out std_logic; -- SYNCVGA_R, -- Red[3:0]VGA_G, -- Green[3:0]VGA_B : out std_logic_vector(3 downto 0); -- Blue[3:0]-- Audio CODECAUD_ADCLRCK : inout std_logic; -- ADC LR ClockAUD_ADCDAT : in std_logic; -- ADC DataAUD_DACLRCK : inout std_logic; -- DAC LR ClockAUD_DACDAT : out std_logic; -- DAC DataAUD_BCLK : inout std_logic; -- Bit-Stream ClockAUD_XCK : out std_logic; -- Chip Clock-- General-purpose I/OGPIO_0, -- GPIO Connection 0GPIO_1 : inout std_logic_vector(35 downto 0) -- GPIO Connection 1);end TOP_DE1;architecture rtl of TOP_DE1 isuse work.z80soc_pack.all;component T80segeneric(Mode : integer := 0; -- 0 => Z80, 1 => Fast Z80, 2 => 8080, 3 => GBT2Write : integer := 1; -- 0 => WR_n active in T3, /=0 => WR_n active in T2IOWait : integer := 1 -- 0 => Single cycle I/O, 1 => Std I/O cycle);port(RESET_n : in std_logic;CLK_n : in std_logic;CLKEN : in std_logic;WAIT_n : in std_logic;INT_n : in std_logic;NMI_n : in std_logic;BUSRQ_n : in std_logic;M1_n : out std_logic;MREQ_n : out std_logic;IORQ_n : out std_logic;RD_n : out std_logic;WR_n : out std_logic;RFSH_n : out std_logic;HALT_n : out std_logic;BUSAK_n : out std_logic;A : out std_logic_vector(15 downto 0);DI : in std_logic_vector(7 downto 0);DO : out std_logic_vector(7 downto 0));end component;component romport (clock : in std_logic;address : in std_logic_vector(14 downto 0);q : out std_logic_vector(7 downto 0));end component;component Clock_357MhzPORT (clock_50Mhz : IN STD_LOGIC;clock_357Mhz : OUT STD_LOGIC);end component;component clk_divPORT(clock_25Mhz : IN STD_LOGIC;clock_1MHz : OUT STD_LOGIC;clock_100KHz : OUT STD_LOGIC;clock_10KHz : OUT STD_LOGIC;clock_1KHz : OUT STD_LOGIC;clock_100Hz : OUT STD_LOGIC;clock_10Hz : OUT STD_LOGIC;clock_1Hz : OUT STD_LOGIC);end component;component decoder_7segport (NUMBER : in std_logic_vector(3 downto 0);HEX_DISP : out std_logic_vector(6 downto 0));end component;component ps2kbdport (keyboard_clk : inout std_logic;keyboard_data : inout std_logic;clock : in std_logic;clkdelay : in std_logic;reset : in std_logic;read : in std_logic;scan_ready : out std_logic;ps2_ascii_code : out std_logic_vector(7 downto 0));end component;component vram3200x8port(rdaddress : IN STD_LOGIC_VECTOR (12 DOWNTO 0);wraddress : IN STD_LOGIC_VECTOR (12 DOWNTO 0);rdclock : IN STD_LOGIC;wrclock : IN STD_LOGIC;data : IN STD_LOGIC_VECTOR (7 DOWNTO 0);wren : IN STD_LOGIC;q : OUT STD_LOGIC_VECTOR (7 DOWNTO 0));end component;component charram2kport (data : IN STD_LOGIC_VECTOR (7 DOWNTO 0);rdaddress : IN STD_LOGIC_VECTOR (10 DOWNTO 0);rdclock : IN STD_LOGIC ;wraddress : IN STD_LOGIC_VECTOR (10 DOWNTO 0);wrclock : IN STD_LOGIC;wren : IN STD_LOGIC;q : OUT STD_LOGIC_VECTOR (7 DOWNTO 0));end component;COMPONENT videoPORT (CLOCK_25 : IN STD_LOGIC;VRAM_DATA : IN STD_LOGIC_VECTOR(7 DOWNTO 0);VRAM_ADDR : OUT STD_LOGIC_VECTOR(13 DOWNTO 0);VRAM_CLOCK : OUT STD_LOGIC;VRAM_WREN : OUT STD_LOGIC;CRAM_DATA : IN STD_LOGIC_VECTOR(7 DOWNTO 0);CRAM_ADDR : OUT STD_LOGIC_VECTOR(10 DOWNTO 0);CRAM_WEB : OUT STD_LOGIC;VGA_R,VGA_G,VGA_B : OUT STD_LOGIC_VECTOR(3 DOWNTO 0);VGA_HS,VGA_VS : OUT STD_LOGIC);END COMPONENT;COMPONENT video_PLLPORT(inclk0 : IN STD_LOGIC := '0';c0 : OUT STD_LOGIC);END COMPONENT;signal MREQ_n : std_logic;signal IORQ_n : std_logic;signal RD_n : std_logic;signal WR_n : std_logic;signal MWr_n : std_logic;signal Rst_n_s : std_logic;signal Clk_Z80 : std_logic;signal DI_CPU : std_logic_vector(7 downto 0);signal DO_CPU : std_logic_vector(7 downto 0);signal A : std_logic_vector(15 downto 0);signal One : std_logic;signal D_ROM : std_logic_vector(7 downto 0);signal rom_data : std_logic_vector(7 downto 0);signal rom_wren : std_logic;signal clk25mhz : std_logic;signal clk100hz : std_logic;signal clk10hz : std_logic;signal clk1hz : std_logic;signal HEX_DISP0 : std_logic_vector(6 downto 0);signal HEX_DISP1 : std_logic_vector(6 downto 0);signal HEX_DISP2 : std_logic_vector(6 downto 0);signal HEX_DISP3 : std_logic_vector(6 downto 0);signal NUMBER0 : std_logic_vector(3 downto 0);signal NUMBER1 : std_logic_vector(3 downto 0);signal NUMBER2 : std_logic_vector(3 downto 0);signal NUMBER3 : std_logic_vector(3 downto 0);signal GPIO_0_buf_in : std_logic_vector(35 downto 0);signal GPIO_1_buf_in : std_logic_vector(35 downto 0);signal vram_addra : std_logic_vector(15 downto 0);signal vram_addrb : std_logic_vector(13 downto 0);signal vram_dina : std_logic_vector(7 downto 0);signal vram_dinb : std_logic_vector(7 downto 0);signal vram_douta : std_logic_vector(7 downto 0);signal vram_doutb : std_logic_vector(7 downto 0);signal vram_wea : std_logic;signal vram_web : std_logic;signal vram_clka : std_logic;signal vram_clkb : std_logic;-- signal vram_douta_reg : std_logic_vector(7 downto 0);signal cram_addra : std_logic_vector(15 downto 0);signal cram_addrb : std_logic_vector(15 downto 0);signal cram_dina : std_logic_vector(7 downto 0);signal cram_dinb : std_logic_vector(7 downto 0);signal cram_douta : std_logic_vector(7 downto 0);signal cram_doutb : std_logic_vector(7 downto 0);signal cram_wea : std_logic;signal cram_web : std_logic;signal cram_clka : std_logic;signal cram_clkb : std_logic;-- PS/2 Keyboardsignal ps2_read : std_logic;signal ps2_scan_ready : std_logic;signal ps2_ascii_sig : std_logic_vector(7 downto 0);signal ps2_ascii_reg1 : std_logic_vector(7 downto 0);signal ps2_ascii_reg : std_logic_vector(7 downto 0);signal Z80SOC_VERSION : std_logic_vector(2 downto 0); -- "000" = DE1, "001" = S3EbeginZ80SOC_VERSION <= "000"; -- "000" = DE1, "001" = S3ERst_n_s <= not SW(9);HEX0 <= HEX_DISP0;HEX1 <= HEX_DISP1;HEX2 <= HEX_DISP2;HEX3 <= HEX_DISP3;-- Write into VRAMvram_addra <= A - x"4000";vram_dina <= DO_CPU;vram_wea <= '0' when (A >= x"4000" and A < x"5800" and Wr_n = '0' and MReq_n = '0') else'1';-- Write into char ramcram_addra <= A - x"5800";cram_dina <= DO_CPU;cram_wea <= '0' when (A >= x"5800" and A < x"6000" and Wr_n = '0' and MReq_n = '0') else '1';-- SRAM control signals-- SRAM will store data for video, characters patterns and RAM (only on DE1 version)-- Due to limitation in dual-port block rams on this platform--SRAM_CE_N <= '0';SRAM_ADDR(15 downto 0) <= A - x"4000";SRAM_DQ(7 downto 0) <= DO_CPU when (Wr_n = '0' and MREQ_n = '0' and A >= x"4000") else(others => 'Z');SRAM_WE_N <= '0' when (Wr_n = '0' and MREQ_n = '0' and A >= x"4000") else'1';SRAM_OE_N <= '0' when (Rd_n = '0' and MREQ_n = '0' and A >= x"4000") else'Z';-- Input to Z80DI_CPU <= ("00000" & Z80SOC_VERSION) when (Rd_n = '0' and MREQ_n = '0' and A = x"52C0") elseD_ROM when (Rd_n = '0' and MREQ_n = '0' and IORQ_n = '1' and A < x"4000") elseSRAM_DQ(7 downto 0) when (Rd_n = '0' and MREQ_n = '0' and IORQ_n = '1' and A >= x"4000") elseSW(7 downto 0) when (IORQ_n = '0' and MREQ_n = '1' and Rd_n = '0' and A(7 downto 0) = x"20") else("0000" & not KEY) when (IORQ_n = '0' and MREQ_n = '1' and Rd_n = '0' and A(7 downto 0) = x"30") elseGPIO_0(7 downto 0) when (IORQ_n = '0' and MREQ_n = '1' and Rd_n = '0' and A(7 downto 0) = x"A0") elseGPIO_0(15 downto 8) when (IORQ_n = '0' and MREQ_n = '1' and Rd_n = '0' and A(7 downto 0) = x"A1") elseGPIO_0(23 downto 16) when (IORQ_n = '0' and MREQ_n = '1' and Rd_n = '0' and A(7 downto 0) = x"A2") elseGPIO_0(31 downto 24) when (IORQ_n = '0' and MREQ_n = '1' and Rd_n = '0' and A(7 downto 0) = x"A3") else("0000" & GPIO_0(35 downto 32)) when (IORQ_n = '0' and MREQ_n = '1' and Rd_n = '0' and A(7 downto 0) = x"A4") elseGPIO_1(7 downto 0) when (IORQ_n = '0' and MREQ_n = '1' and Rd_n = '0' and A(7 downto 0) = x"B0") elseGPIO_1(15 downto 8) when (IORQ_n = '0' and MREQ_n = '1' and Rd_n = '0' and A(7 downto 0) = x"B1") elseGPIO_1(23 downto 16) when (IORQ_n = '0' and MREQ_n = '1' and Rd_n = '0' and A(7 downto 0) = x"B2") elseGPIO_1(31 downto 24) when (IORQ_n = '0' and MREQ_n = '1' and Rd_n = '0' and A(7 downto 0) = x"B3") else("0000" & GPIO_1(35 downto 32)) when (IORQ_n = '0' and MREQ_n = '1' and Rd_n = '0' and A(7 downto 0) = x"B4") elseps2_ascii_reg when (IORQ_n = '0' and MREQ_n = '1' and Rd_n = '0' and A(7 downto 0) = x"80") else"ZZZZZZZZ";-- Process to latch leds and hex displayspinout_process: process(Clk_Z80)variable NUMBER0_sig : std_logic_vector(3 downto 0);variable NUMBER1_sig : std_logic_vector(3 downto 0);variable NUMBER2_sig : std_logic_vector(3 downto 0);variable NUMBER3_sig : std_logic_vector(3 downto 0);variable LEDG_sig : std_logic_vector(7 downto 0);variable LEDR_sig : std_logic_vector(9 downto 0);variable GPIO_0_buf_out: std_logic_vector(35 downto 0);variable GPIO_1_buf_out: std_logic_vector(35 downto 0);beginif Clk_Z80'event and Clk_Z80 = '1' thenif IORQ_n = '0' and MREQ_n = '1' and Wr_n = '0' then-- LEDGif A(7 downto 0) = x"01" thenLEDG_sig := DO_CPU;-- LEDRelsif A(7 downto 0) = x"02" thenLEDR_sig(7 downto 0) := DO_CPU;-- HEX1 and HEX0elsif A(7 downto 0) = x"10" thenNUMBER2_sig := DO_CPU(3 downto 0);NUMBER3_sig := DO_CPU(7 downto 4);-- HEX3 and HEX2elsif A(7 downto 0) = x"11" thenNUMBER0_sig := DO_CPU(3 downto 0);NUMBER1_sig := DO_CPU(7 downto 4);-- GPIO_0elsif A(7 downto 0) = x"A0" thenGPIO_0_buf_out(7 downto 0) := DO_CPU;elsif A(7 downto 0) = x"A1" thenGPIO_0_buf_out(15 downto 8) := DO_CPU;elsif A(7 downto 0) = x"A2" thenGPIO_0_buf_out(23 downto 16) := DO_CPU;elsif A(7 downto 0) = x"A3" thenGPIO_0_buf_out(31 downto 24) := DO_CPU;elsif A(7 downto 0) = x"A4" thenGPIO_0_buf_out(35 downto 32) := DO_CPU(3 downto 0);-- GPIO_1elsif A(7 downto 0) = x"B0" thenGPIO_1_buf_out(7 downto 0) := DO_CPU;elsif A(7 downto 0) = x"B1" thenGPIO_1_buf_out(15 downto 8) := DO_CPU;elsif A(7 downto 0) = x"B2" thenGPIO_1_buf_out(23 downto 16) := DO_CPU;elsif A(7 downto 0) = x"B3" thenGPIO_1_buf_out(31 downto 24) := DO_CPU;elsif A(7 downto 0) = x"B4" thenGPIO_1_buf_out(35 downto 32) := DO_CPU(3 downto 0);elsif A(7 downto 0) = x"C0" thenGPIO_0 <= GPIO_0_buf_out;elsif A(7 downto 0) = x"C1" thenGPIO_1 <= GPIO_1_buf_out;end if;end if;end if;-- Latches the signalsNUMBER0 <= NUMBER0_sig;NUMBER1 <= NUMBER1_sig;NUMBER2 <= NUMBER2_sig;NUMBER3 <= NUMBER3_sig;LEDR(7 downto 0) <= LEDR_sig(7 downto 0);LEDG <= LEDG_sig;end process;-- the following three processes deals with different clock domain signalsps2_process1: process(CLOCK_50)beginif CLOCK_50'event and CLOCK_50 = '1' thenif ps2_read = '1' thenif ps2_ascii_sig /= x"FF" thenps2_read <= '0';ps2_ascii_reg1 <= "00000000";end if;elsif ps2_scan_ready = '1' thenif ps2_ascii_sig = x"FF" thenps2_read <= '1';elseps2_ascii_reg1 <= ps2_ascii_sig;end if;end if;end if;end process;ps2_process2: process(Clk_Z80)beginif Clk_Z80'event and Clk_Z80 = '1' thenps2_ascii_reg <= ps2_ascii_reg1;end if;end process;One <= '1';z80_inst: T80seport map (M1_n => open,MREQ_n => MREQ_n,IORQ_n => IORQ_n,RD_n => Rd_n,WR_n => Wr_n,RFSH_n => open,HALT_n => open,WAIT_n => One,INT_n => One,NMI_n => One,RESET_n => Rst_n_s,BUSRQ_n => One,BUSAK_n => open,CLK_n => Clk_Z80,CLKEN => One,A => A,DI => DI_CPU,DO => DO_CPU);video_inst: video port map (CLOCK_25 => clk25mhz,VRAM_DATA => vram_doutb,VRAM_ADDR => vram_addrb(13 downto 0),VRAM_CLOCK => vram_clkb,VRAM_WREN => vram_web,CRAM_DATA => cram_doutb,CRAM_ADDR => cram_addrb(10 downto 0),CRAM_WEB => cram_web,VGA_R => VGA_R,VGA_G => VGA_G,VGA_B => VGA_B,VGA_HS => VGA_HS,VGA_VS => VGA_VS);vram : vram3200x8port map (rdclock => vram_clkb,wrclock => Clk_Z80,wren => not vram_wea, -- inverted logic so code is similar to SRAM and S3E portwraddress => vram_addra(12 downto 0),rdaddress => vram_addrb(12 downto 0),data => vram_dina,q => vram_doutb);cram: charram2kport map (rdaddress => cram_addrb(10 downto 0),wraddress => cram_addra(10 downto 0),wrclock => Clk_Z80,rdclock => vram_clkb,data => cram_dina,q => cram_doutb,wren => NOT cram_wea);rom_inst: romport map (clock => clk25mhz,address => A(14 downto 0),q => D_ROM);-- PLL below is used to generate the pixel clock frequency-- Uses DE1 50Mhz clock for PLL's input clockvideo_PLL_inst: video_PLLport map (inclk0 => CLOCK_50,c0 => clk25mhz);clkdiv_inst: clk_divport map (clock_25Mhz => clk25mhz,clock_1MHz => open,clock_100KHz => open,clock_10KHz => open,clock_1KHz => open,clock_100Hz => clk100hz,clock_10Hz => clk10hz,clock_1Hz => clk1hz);clock_z80_inst : Clock_357Mhzport map (clock_50Mhz => CLOCK_50,clock_357Mhz => Clk_Z80);DISPHEX0 : decoder_7seg PORT MAP (NUMBER => NUMBER0,HEX_DISP => HEX_DISP0);DISPHEX1 : decoder_7seg PORT MAP (NUMBER => NUMBER1,HEX_DISP => HEX_DISP1);DISPHEX2 : decoder_7seg PORT MAP (NUMBER => NUMBER2,HEX_DISP => HEX_DISP2);DISPHEX3 : decoder_7seg PORT MAP (NUMBER => NUMBER3,HEX_DISP => HEX_DISP3);ps2_kbd_inst : ps2kbd PORT MAP (keyboard_clk => PS2_CLK,keyboard_data => PS2_DAT,clock => CLOCK_50,clkdelay => clk100hz,reset => Rst_n_s,read => ps2_read,scan_ready => ps2_scan_ready,ps2_ascii_code => ps2_ascii_sig);--SRAM_DQ(15 downto 8) <= (others => 'Z');SRAM_ADDR(17 downto 16) <= "00";SRAM_UB_N <= '1';SRAM_LB_N <= '0';--UART_TXD <= 'Z';DRAM_ADDR <= (others => '0');DRAM_LDQM <= '0';DRAM_UDQM <= '0';DRAM_WE_N <= '1';DRAM_CAS_N <= '1';DRAM_RAS_N <= '1';DRAM_CS_N <= '1';DRAM_BA_0 <= '0';DRAM_BA_1 <= '0';DRAM_CLK <= '0';DRAM_CKE <= '0';FL_ADDR <= (others => '0');FL_WE_N <= '1';FL_RST_N <= '0';FL_OE_N <= '1';FL_CE_N <= '1';TDO <= '0';I2C_SCLK <= '0';AUD_DACDAT <= '0';AUD_XCK <= '0';-- Set all bidirectional ports to tri-stateDRAM_DQ <= (others => 'Z');FL_DQ <= (others => 'Z');I2C_SDAT <= 'Z';AUD_ADCLRCK <= 'Z';AUD_DACLRCK <= 'Z';AUD_BCLK <= 'Z';GPIO_0 <= (others => 'Z');GPIO_1 <= (others => 'Z');end;