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[/] [plasma/] [trunk/] [vhdl/] [uart.vhd] - Rev 368
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--------------------------------------------------------------------- -- TITLE: UART -- AUTHOR: Steve Rhoads (rhoadss@yahoo.com) -- DATE CREATED: 5/29/02 -- FILENAME: uart.vhd -- PROJECT: Plasma CPU core -- COPYRIGHT: Software placed into the public domain by the author. -- Software 'as is' without warranty. Author liable for nothing. -- DESCRIPTION: -- Implements the UART. --------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_misc.all; use ieee.std_logic_arith.all; use ieee.std_logic_textio.all; use ieee.std_logic_unsigned.all; use std.textio.all; use work.mlite_pack.all; entity uart is generic(log_file : string := "UNUSED"); port(clk : in std_logic; reset : in std_logic; enable_read : in std_logic; enable_write : in std_logic; data_in : in std_logic_vector(7 downto 0); data_out : out std_logic_vector(7 downto 0); uart_read : in std_logic; uart_write : out std_logic; busy_write : out std_logic; data_avail : out std_logic); end; --entity uart architecture logic of uart is signal delay_write_reg : std_logic_vector(9 downto 0); signal bits_write_reg : std_logic_vector(3 downto 0); signal data_write_reg : std_logic_vector(8 downto 0); signal delay_read_reg : std_logic_vector(9 downto 0); signal bits_read_reg : std_logic_vector(3 downto 0); signal data_read_reg : std_logic_vector(7 downto 0); signal data_save_reg : std_logic_vector(17 downto 0); signal busy_write_sig : std_logic; signal read_value_reg : std_logic_vector(6 downto 0); signal uart_read2 : std_logic; begin uart_proc: process(clk, reset, enable_read, enable_write, data_in, data_write_reg, bits_write_reg, delay_write_reg, data_read_reg, bits_read_reg, delay_read_reg, data_save_reg, read_value_reg, uart_read2, busy_write_sig, uart_read) constant COUNT_VALUE : std_logic_vector(9 downto 0) := -- "0100011110"; --33MHz/2/57600Hz = 0x11e -- "1101100100"; --50MHz/57600Hz = 0x364 "0110110010"; --25MHz/57600Hz = 0x1b2 -- Plasma IF uses div2 -- "0011011001"; --12.5MHz/57600Hz = 0xd9 -- "0000000100"; --for debug (shorten read_value_reg) begin uart_read2 <= read_value_reg(read_value_reg'length - 1); if reset = '1' then data_write_reg <= ZERO(8 downto 1) & '1'; bits_write_reg <= "0000"; delay_write_reg <= ZERO(9 downto 0); read_value_reg <= ONES(read_value_reg'length-1 downto 0); data_read_reg <= ZERO(7 downto 0); bits_read_reg <= "0000"; delay_read_reg <= ZERO(9 downto 0); data_save_reg <= ZERO(17 downto 0); elsif rising_edge(clk) then --Write UART if bits_write_reg = "0000" then --nothing left to write? if enable_write = '1' then delay_write_reg <= ZERO(9 downto 0); --delay before next bit bits_write_reg <= "1010"; --number of bits to write data_write_reg <= data_in & '0'; --remember data & start bit end if; else if delay_write_reg /= COUNT_VALUE then delay_write_reg <= delay_write_reg + 1; --delay before next bit else delay_write_reg <= ZERO(9 downto 0); --reset delay bits_write_reg <= bits_write_reg - 1; --bits left to write data_write_reg <= '1' & data_write_reg(8 downto 1); end if; end if; --Average uart_read signal if uart_read = '1' then if read_value_reg /= ONES(read_value_reg'length - 1 downto 0) then read_value_reg <= read_value_reg + 1; end if; else if read_value_reg /= ZERO(read_value_reg'length - 1 downto 0) then read_value_reg <= read_value_reg - 1; end if; end if; --Read UART if delay_read_reg = ZERO(9 downto 0) then --done delay for read? if bits_read_reg = "0000" then --nothing left to read? if uart_read2 = '0' then --wait for start bit delay_read_reg <= '0' & COUNT_VALUE(9 downto 1); --half period bits_read_reg <= "1001"; --bits left to read end if; else delay_read_reg <= COUNT_VALUE; --initialize delay bits_read_reg <= bits_read_reg - 1; --bits left to read data_read_reg <= uart_read2 & data_read_reg(7 downto 1); end if; else delay_read_reg <= delay_read_reg - 1; --delay end if; --Control character buffer if bits_read_reg = "0000" and delay_read_reg = COUNT_VALUE then if data_save_reg(8) = '0' or (enable_read = '1' and data_save_reg(17) = '0') then --Empty buffer data_save_reg(8 downto 0) <= '1' & data_read_reg; else --Second character in buffer data_save_reg(17 downto 9) <= '1' & data_read_reg; if enable_read = '1' then data_save_reg(8 downto 0) <= data_save_reg(17 downto 9); end if; end if; elsif enable_read = '1' then data_save_reg(17) <= '0'; --data_available data_save_reg(8 downto 0) <= data_save_reg(17 downto 9); end if; end if; --rising_edge(clk) uart_write <= data_write_reg(0); if bits_write_reg /= "0000" -- Comment out the following line for full UART simulation (much slower) and log_file = "UNUSED" then busy_write_sig <= '1'; else busy_write_sig <= '0'; end if; busy_write <= busy_write_sig; data_avail <= data_save_reg(8); data_out <= data_save_reg(7 downto 0); end process; --uart_proc -- synthesis_off uart_logger: if log_file /= "UNUSED" generate uart_proc: process(clk, enable_write, data_in) file store_file : text open write_mode is log_file; variable hex_file_line : line; variable c : character; variable index : natural; variable line_length : natural := 0; begin if rising_edge(clk) and busy_write_sig = '0' then if enable_write = '1' then index := conv_integer(data_in(6 downto 0)); if index /= 10 then c := character'val(index); write(hex_file_line, c); line_length := line_length + 1; end if; if index = 10 or line_length >= 72 then --The following line may have to be commented out for synthesis writeline(store_file, hex_file_line); line_length := 0; end if; end if; --uart_sel end if; --rising_edge(clk) end process; --uart_proc end generate; --uart_logger -- synthesis_on end; --architecture logic
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