LIBRARY ieee; USE ieee.std_logic_1164.all; USE ieee.numeric_std.all; USE std.textio.all; USE work.io_lcd_pins.all; USE work.io_switches_pins.all; ENTITY e_testbed IS END ENTITY e_testbed; ARCHITECTURE a_testbed OF e_testbed IS COMPONENT e_system IS PORT ( clk: IN std_logic; pin_o_leds: OUT std_logic_vector(7 DOWNTO 0); pin_o_lcd: OUT t_io_lcd_pins; pin_i_switches: IN t_io_switches_pins; pin_i_uart_rx: IN std_logic; pin_o_uart_tx: OUT std_logic; pin_i_eth_rx_clk: IN std_logic; pin_i_eth_rxd: IN std_logic_vector(4 DOWNTO 0); pin_i_eth_rx_dv: IN std_logic; pin_i_eth_crs: IN std_logic; pin_i_eth_col: IN std_logic; pin_i_eth_tx_clk: IN std_logic; pin_o_eth_txd: OUT std_logic_vector(3 DOWNTO 0); pin_o_eth_tx_en: OUT std_logic ); END COMPONENT e_system; TYPE t_eth_data IS ARRAY(0 TO 160 - 1) OF std_logic_vector(3 DOWNTO 0); CONSTANT eth_data: t_eth_data := ( X"5", X"5", X"5", X"5", X"5", X"5", X"5", X"5", X"5", X"5", X"5", X"5", X"5", X"5", X"5", X"D", X"F", X"F", X"F", X"F", X"F", X"F", X"F", X"F", X"F", X"F", X"F", X"F", X"0", X"0", X"D", X"1", X"0", X"6", X"C", X"D", X"5", X"7", X"D", X"2", X"8", X"0", X"0", X"0", X"5", X"4", X"0", X"0", X"0", X"0", X"6", X"3", X"9", X"3", X"E", X"D", X"0", X"4", X"0", X"0", X"0", X"4", X"1", X"1", X"0", X"4", X"7", X"2", X"0", X"C", X"8", X"A", X"0", X"0", X"A", X"0", X"F", X"F", X"F", X"F", X"F", X"F", X"F", X"F", X"7", X"9", X"3", X"5", X"0", X"0", X"1", X"0", X"0", X"0", X"2", X"2", X"B", X"9", X"1", X"D", X"4", X"4", X"9", X"6", X"5", X"6", X"3", X"7", X"0", X"2", X"9", X"6", X"3", X"7", X"4", X"7", X"0", X"2", X"5", X"6", X"9", X"6", X"E", X"6", X"0", X"2", X"C", X"6", X"1", X"6", X"E", X"6", X"7", X"6", X"5", X"6", X"2", X"7", X"0", X"2", X"4", X"5", X"5", X"6", X"3", X"7", X"4", X"7", X"1", X"2", X"A", X"0", X"B", X"A", X"3", X"8", X"D", X"8", X"D", X"1" ); SIGNAL s_clk: std_logic; SIGNAL s_eth_clk: std_logic; SIGNAL s_eth_rxd: std_logic_vector(3 DOWNTO 0); SIGNAL s_eth_rx_dv: std_logic; SIGNAL pin_leds: std_logic_vector(7 DOWNTO 0); SIGNAL pin_lcd: t_io_lcd_pins; SIGNAL pin_uart_loopback: std_logic; SIGNAL pin_eth_rxd: std_logic_vector(4 DOWNTO 0); SIGNAL pin_eth_txd: std_logic_vector(3 DOWNTO 0); SIGNAL pin_eth_tx_en: std_logic; BEGIN system: e_system PORT MAP ( clk => s_clk, pin_o_leds => pin_leds, pin_o_lcd => pin_lcd, pin_i_switches => (sw => (OTHERS => '0'), OTHERS => '0'), pin_i_uart_rx => pin_uart_loopback, pin_o_uart_tx => pin_uart_loopback, pin_i_eth_rx_clk => s_eth_clk, pin_i_eth_rxd => pin_eth_rxd, pin_i_eth_rx_dv => s_eth_rx_dv, pin_i_eth_crs => s_eth_rx_dv, pin_i_eth_col => '0', pin_i_eth_tx_clk => s_eth_clk, pin_o_eth_txd => pin_eth_txd, pin_o_eth_tx_en => pin_eth_tx_en ); pin_eth_rxd <= "0" & s_eth_rxd; p_clk: PROCESS BEGIN WHILE TRUE LOOP s_clk <= '0'; WAIT FOR 10 ns; s_clk <= '1'; WAIT FOR 10 ns; END LOOP; END PROCESS p_clk; p_eth_clk: PROCESS BEGIN WHILE TRUE LOOP s_eth_clk <= '0'; WAIT FOR 20 ns; s_eth_clk <= '1'; WAIT FOR 20 ns; END LOOP; END PROCESS p_eth_clk; p_eth_data: PROCESS BEGIN s_eth_rxd <= "0000"; s_eth_rx_dv <= '0'; WAIT FOR 1 ms; WAIT UNTIL s_eth_clk = '1'; WAIT UNTIL s_eth_clk = '0'; FOR i IN 0 TO eth_data'length - 1 LOOP s_eth_rxd <= eth_data(i); s_eth_rx_dv <= '1'; WAIT UNTIL s_eth_clk = '1'; WAIT UNTIL s_eth_clk = '0'; END LOOP; s_eth_rxd <= "0000"; s_eth_rx_dv <= '0'; WAIT; END PROCESS p_eth_data; END ARCHITECTURE a_testbed;