library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; use std.textio.all; entity dsp_test is end dsp_test; architecture rtl of dsp_test is component clock is port(clk: out std_logic); end component; component dsp is port( clk: in std_logic; rst: in std_logic; led: out std_logic_vector(7 downto 0); uart0_rx: in std_logic; uart0_tx: out std_logic; pdmout0_pin: out std_logic; uart1_rx: in std_logic; uart1_tx: out std_logic ); end component; signal finished, clk, rst: std_logic := '0'; signal led: std_logic_vector(7 downto 0); signal uart_rx: std_logic; signal uart_tx: std_logic; signal pdmout0: std_logic; type str is array(integer range <>) of std_logic_vector(7 downto 0); signal prog: str(0 to 7) := ( x"63", x"11", x"00", x"04", x"e0", x"00", x"5e", x"00"); signal jump: str(0 to 2) := ( x"6a", x"11", x"00"); constant UART_PERIOD: time := 1000 ns; procedure uart_send( signal s: in str; signal o: out std_logic ) is begin for i in s'range loop o <= '0'; -- start bit wait for UART_PERIOD; for j in 0 to 7 loop o <= s(i)(j); wait for UART_PERIOD; end loop; o <= '1'; -- stop bit wait for UART_PERIOD; end loop; end procedure; begin dut: dsp port map(clk => clk, rst => rst, led => led, uart_rx => uart_rx, uart_tx => uart_tx, pdmout0_pin => pdmout0); clk <= not clk after 5 ns when finished /= '1' else '0'; process begin rst <= '1'; uart_rx <= '1'; wait for 15 ns; assert(led=x"00") report "Fail rst" severity error; rst <= '0'; -- wait for 20 us; -- uart_send(prog, uart_rx); -- wait for 2 us; -- assert(led = x"f0") report "Fail prog" severity error; -- uart_send(jump, uart_rx); -- wait for 2 us; -- assert(led = x"01") report "Fail prog" severity error; wait for 200 us; assert false report "Test done." severity note; finished <= '1'; wait; end process; end rtl;