peter-tanner.github.io/assets/lib/2024-08-19-ELEC4406ELEC2311-not/io_10M50DAF484C7G.vhd

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VHDL
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2024-10-13 04:41:15 +08:00
library ieee;
use ieee.std_logic_1164.all;
entity io_10M50DAF484C7G is
port (
CLK_IN_50MHz : in std_logic;
KEY0, KEY1 : in std_logic;
SW0_9 : in std_logic_vector(8 downto 0);
SW0, SW1, SW2, SW3, SW4, SW5, SW6, SW7, SW8, SW9 : in std_logic;
LEDR0_9 : out std_logic_vector(8 downto 0);
LEDR0, LEDR1, LEDR2, LEDR3, LEDR4, LEDR5, LEDR6, LEDR7, LEDR8, LEDR9 : out std_logic;
HEX0, HEX1, HEX2, HEX3, HEX4, HEX5 : out std_logic_vector(6 downto 0);
HEX0_DP, HEX1_DP, HEX2_DP, HEX3_DP, HEX4_DP, HEX5_DP : out std_logic
);
end entity;
architecture rtl of io_10M50DAF484C7G is
attribute chip_pin : string; -- MUST BE DECLARED.
---------------------
-- 50 MHz CLOCK IN --
---------------------
attribute chip_pin of CLK_IN_50MHz : signal is "P11";
----------------------
-- TACTILE SWITCHES --
----------------------
-- IMPORTANT: YOU MUST SET THE INPUT TYPE TO "2.5V Schmitt trigger I/O standard" TO DEBOUNCE.
-- Behavior: HIGH (Pullup)
attribute chip_pin of KEY0 : signal is "B8";
attribute chip_pin of KEY1 : signal is "A7";
---------------------
-- TOGGLE SWITCHES --
---------------------
-- SINGLE VECTOR
attribute chip_pin of SW0_9 : signal is "C10 C11 D12 C12 A12 B12 A13 A14 B14 F15";
-- MULTIPLE
attribute chip_pin of SW0 : signal is "C10";
attribute chip_pin of SW1 : signal is "C11";
attribute chip_pin of SW2 : signal is "D12";
attribute chip_pin of SW3 : signal is "C12";
attribute chip_pin of SW4 : signal is "A12";
attribute chip_pin of SW5 : signal is "B12";
attribute chip_pin of SW6 : signal is "A13";
attribute chip_pin of SW7 : signal is "A14";
attribute chip_pin of SW8 : signal is "B14";
attribute chip_pin of SW9 : signal is "F15";
----------
-- LEDS --
----------
-- SINGLE VECTOR
attribute chip_pin of LEDR0_9 : signal is "A8 A9 A10 B10 D13 C13 E14 D14 A11 B11";
-- MULTIPLE OUTPUTS
attribute chip_pin of LEDR0 : signal is "A8";
attribute chip_pin of LEDR1 : signal is "A9";
attribute chip_pin of LEDR2 : signal is "A10";
attribute chip_pin of LEDR3 : signal is "B10";
attribute chip_pin of LEDR4 : signal is "D13";
attribute chip_pin of LEDR5 : signal is "C13";
attribute chip_pin of LEDR6 : signal is "E14";
attribute chip_pin of LEDR7 : signal is "D14";
attribute chip_pin of LEDR8 : signal is "A11";
attribute chip_pin of LEDR9 : signal is "B11";
------------------
-- HEX DISPLAYS --
------------------
attribute chip_pin of HEX0 : signal is "C14 E15 C15 C16 E16 D17 C17";
attribute chip_pin of HEX0_DP : signal is "D15"; -- DECIMAL POINT
attribute chip_pin of HEX1 : signal is "C18 D18 E18 B16 A17 A18 B17";
attribute chip_pin of HEX1_DP : signal is "A16"; -- DECIMAL POINT
attribute chip_pin of HEX2 : signal is "B20 A20 B19 A21 B21 C22 B22";
attribute chip_pin of HEX2_DP : signal is "A19"; -- DECIMAL POINT
attribute chip_pin of HEX3 : signal is "F21 E22 E21 C19 C20 D19 E17";
attribute chip_pin of HEX3_DP : signal is "D22"; -- DECIMAL POINT
attribute chip_pin of HEX4 : signal is "F18 E20 E19 J18 H19 F19 F20";
attribute chip_pin of HEX4_DP : signal is "F17"; -- DECIMAL POINT
attribute chip_pin of HEX5 : signal is "J20 K20 L18 N18 M20 N19 N20";
attribute chip_pin of HEX5_DP : signal is "L19"; -- DECIMAL POINT
begin
end architecture;