-- Copyright (C) 2020 Intel Corporation. All rights reserved.
-- Your use of Intel Corporation's design tools, logic functions
-- and other software and tools, and any partner logic
-- functions, and any output files from any of the foregoing
-- (including device programming or simulation files), and any
-- associated documentation or information are expressly subject
-- to the terms and conditions of the Intel Program License
-- Subscription Agreement, the Intel Quartus Prime License Agreement,
-- the Intel FPGA IP License Agreement, or other applicable license
-- agreement, including, without limitation, that your use is for
-- the sole purpose of programming logic devices manufactured by
-- Intel and sold by Intel or its authorized distributors. Please
-- refer to the applicable agreement for further details, at
-- https://fpgasoftware.intel.com/eula.
-- VENDOR "Altera"
-- PROGRAM "Quartus Prime"
-- VERSION "Version 20.1.1 Build 720 11/11/2020 SJ Lite Edition"
-- DATE "02/18/2023 14:55:13"
--
-- Device: Altera EP4CE115F29C7 Package FBGA780
--
--
-- This VHDL file should be used for ModelSim-Altera (VHDL) only
--
LIBRARY CYCLONEIVE;
LIBRARY IEEE;
USE CYCLONEIVE.CYCLONEIVE_COMPONENTS.ALL;
USE IEEE.STD_LOGIC_1164.ALL;
ENTITY GateDemo IS
PORT (
LEDR : OUT std_logic_vector(0 DOWNTO 0);
SW : IN std_logic_vector(1 DOWNTO 0)
);
END GateDemo;
ARCHITECTURE structure OF GateDemo IS
SIGNAL gnd : std_logic := '0';
SIGNAL vcc : std_logic := '1';
SIGNAL unknown : std_logic := 'X';
SIGNAL devoe : std_logic := '1';
SIGNAL devclrn : std_logic := '1';
SIGNAL devpor : std_logic := '1';
SIGNAL ww_devoe : std_logic;
SIGNAL ww_devclrn : std_logic;
SIGNAL ww_devpor : std_logic;
SIGNAL ww_LEDR : std_logic_vector(0 DOWNTO 0);
SIGNAL ww_SW : std_logic_vector(1 DOWNTO 0);
SIGNAL \LEDR[0]~output_o\ : std_logic;
SIGNAL \SW[1]~input_o\ : std_logic;
SIGNAL \SW[0]~input_o\ : std_logic;
SIGNAL \inst~combout\ : std_logic;
BEGIN
LEDR <= ww_LEDR;
ww_SW <= SW;
ww_devoe <= devoe;
ww_devclrn <= devclrn;
ww_devpor <= devpor;
\LEDR[0]~output\ : cycloneive_io_obuf
-- pragma translate_off
GENERIC MAP (
bus_hold => "false",
open_drain_output => "false")
-- pragma translate_on
PORT MAP (
i => \inst~combout\,
devoe => ww_devoe,
o => \LEDR[0]~output_o\);
\SW[1]~input\ : cycloneive_io_ibuf
-- pragma translate_off
GENERIC MAP (
bus_hold => "false",
simulate_z_as => "z")
-- pragma translate_on
PORT MAP (
i => ww_SW(1),
o => \SW[1]~input_o\);
\SW[0]~input\ : cycloneive_io_ibuf
-- pragma translate_off
GENERIC MAP (
bus_hold => "false",
simulate_z_as => "z")
-- pragma translate_on
PORT MAP (
i => ww_SW(0),
o => \SW[0]~input_o\);
inst : cycloneive_lcell_comb
-- Equation(s):
-- \inst~combout\ = (\SW[1]~input_o\ & \SW[0]~input_o\)
-- pragma translate_off
GENERIC MAP (
lut_mask => "1000100010001000",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \SW[1]~input_o\,
datab => \SW[0]~input_o\,
combout => \inst~combout\);
ww_LEDR(0) <= \LEDR[0]~output_o\;
END structure;