-- 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 "03/01/2023 12:46:36" -- -- 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 hard_block IS PORT ( devoe : IN std_logic; devclrn : IN std_logic; devpor : IN std_logic ); END hard_block; -- Design Ports Information -- ~ALTERA_ASDO_DATA1~ => Location: PIN_F4, I/O Standard: 2.5 V, Current Strength: Default -- ~ALTERA_FLASH_nCE_nCSO~ => Location: PIN_E2, I/O Standard: 2.5 V, Current Strength: Default -- ~ALTERA_DCLK~ => Location: PIN_P3, I/O Standard: 2.5 V, Current Strength: Default -- ~ALTERA_DATA0~ => Location: PIN_N7, I/O Standard: 2.5 V, Current Strength: Default -- ~ALTERA_nCEO~ => Location: PIN_P28, I/O Standard: 2.5 V, Current Strength: 8mA ARCHITECTURE structure OF hard_block IS SIGNAL gnd : std_logic := '0'; SIGNAL vcc : std_logic := '1'; SIGNAL unknown : std_logic := 'X'; SIGNAL ww_devoe : std_logic; SIGNAL ww_devclrn : std_logic; SIGNAL ww_devpor : std_logic; SIGNAL \~ALTERA_ASDO_DATA1~~padout\ : std_logic; SIGNAL \~ALTERA_FLASH_nCE_nCSO~~padout\ : std_logic; SIGNAL \~ALTERA_DATA0~~padout\ : std_logic; SIGNAL \~ALTERA_ASDO_DATA1~~ibuf_o\ : std_logic; SIGNAL \~ALTERA_FLASH_nCE_nCSO~~ibuf_o\ : std_logic; SIGNAL \~ALTERA_DATA0~~ibuf_o\ : std_logic; BEGIN ww_devoe <= devoe; ww_devclrn <= devclrn; ww_devpor <= devpor; END structure; LIBRARY CYCLONEIVE; LIBRARY IEEE; USE CYCLONEIVE.CYCLONEIVE_COMPONENTS.ALL; USE IEEE.STD_LOGIC_1164.ALL; ENTITY Dec2_4EnDemo IS PORT ( SW : IN std_logic_vector(2 DOWNTO 0); LEDR : OUT std_logic_vector(3 DOWNTO 0) ); END Dec2_4EnDemo; -- Design Ports Information -- LEDR[0] => Location: PIN_G19, I/O Standard: 2.5 V, Current Strength: Default -- LEDR[1] => Location: PIN_F19, I/O Standard: 2.5 V, Current Strength: Default -- LEDR[2] => Location: PIN_E19, I/O Standard: 2.5 V, Current Strength: Default -- LEDR[3] => Location: PIN_F21, I/O Standard: 2.5 V, Current Strength: Default -- SW[2] => Location: PIN_AC27, I/O Standard: 2.5 V, Current Strength: Default -- SW[1] => Location: PIN_AC28, I/O Standard: 2.5 V, Current Strength: Default -- SW[0] => Location: PIN_AB28, I/O Standard: 2.5 V, Current Strength: Default ARCHITECTURE structure OF Dec2_4EnDemo 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_SW : std_logic_vector(2 DOWNTO 0); SIGNAL ww_LEDR : std_logic_vector(3 DOWNTO 0); SIGNAL \LEDR[0]~output_o\ : std_logic; SIGNAL \LEDR[1]~output_o\ : std_logic; SIGNAL \LEDR[2]~output_o\ : std_logic; SIGNAL \LEDR[3]~output_o\ : std_logic; SIGNAL \SW[1]~input_o\ : std_logic; SIGNAL \SW[2]~input_o\ : std_logic; SIGNAL \SW[0]~input_o\ : std_logic; SIGNAL \system_core|outputs[0]~0_combout\ : std_logic; SIGNAL \system_core|outputs[1]~1_combout\ : std_logic; SIGNAL \system_core|outputs[2]~2_combout\ : std_logic; SIGNAL \system_core|outputs[3]~3_combout\ : std_logic; COMPONENT hard_block PORT ( devoe : IN std_logic; devclrn : IN std_logic; devpor : IN std_logic); END COMPONENT; BEGIN ww_SW <= SW; LEDR <= ww_LEDR; ww_devoe <= devoe; ww_devclrn <= devclrn; ww_devpor <= devpor; auto_generated_inst : hard_block PORT MAP ( devoe => ww_devoe, devclrn => ww_devclrn, devpor => ww_devpor); -- Location: IOOBUF_X69_Y73_N16 \LEDR[0]~output\ : cycloneive_io_obuf -- pragma translate_off GENERIC MAP ( bus_hold => "false", open_drain_output => "false") -- pragma translate_on PORT MAP ( i => \system_core|outputs[0]~0_combout\, devoe => ww_devoe, o => \LEDR[0]~output_o\); -- Location: IOOBUF_X94_Y73_N2 \LEDR[1]~output\ : cycloneive_io_obuf -- pragma translate_off GENERIC MAP ( bus_hold => "false", open_drain_output => "false") -- pragma translate_on PORT MAP ( i => \system_core|outputs[1]~1_combout\, devoe => ww_devoe, o => \LEDR[1]~output_o\); -- Location: IOOBUF_X94_Y73_N9 \LEDR[2]~output\ : cycloneive_io_obuf -- pragma translate_off GENERIC MAP ( bus_hold => "false", open_drain_output => "false") -- pragma translate_on PORT MAP ( i => \system_core|outputs[2]~2_combout\, devoe => ww_devoe, o => \LEDR[2]~output_o\); -- Location: IOOBUF_X107_Y73_N16 \LEDR[3]~output\ : cycloneive_io_obuf -- pragma translate_off GENERIC MAP ( bus_hold => "false", open_drain_output => "false") -- pragma translate_on PORT MAP ( i => \system_core|outputs[3]~3_combout\, devoe => ww_devoe, o => \LEDR[3]~output_o\); -- Location: IOIBUF_X115_Y14_N1 \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\); -- Location: IOIBUF_X115_Y15_N8 \SW[2]~input\ : cycloneive_io_ibuf -- pragma translate_off GENERIC MAP ( bus_hold => "false", simulate_z_as => "z") -- pragma translate_on PORT MAP ( i => ww_SW(2), o => \SW[2]~input_o\); -- Location: IOIBUF_X115_Y17_N1 \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\); -- Location: LCCOMB_X107_Y69_N0 \system_core|outputs[0]~0\ : cycloneive_lcell_comb -- Equation(s): -- \system_core|outputs[0]~0_combout\ = (!\SW[1]~input_o\ & (\SW[2]~input_o\ & !\SW[0]~input_o\)) -- pragma translate_off GENERIC MAP ( lut_mask => "0000000000110000", sum_lutc_input => "datac") -- pragma translate_on PORT MAP ( datab => \SW[1]~input_o\, datac => \SW[2]~input_o\, datad => \SW[0]~input_o\, combout => \system_core|outputs[0]~0_combout\); -- Location: LCCOMB_X107_Y69_N2 \system_core|outputs[1]~1\ : cycloneive_lcell_comb -- Equation(s): -- \system_core|outputs[1]~1_combout\ = (!\SW[1]~input_o\ & (\SW[2]~input_o\ & \SW[0]~input_o\)) -- pragma translate_off GENERIC MAP ( lut_mask => "0011000000000000", sum_lutc_input => "datac") -- pragma translate_on PORT MAP ( datab => \SW[1]~input_o\, datac => \SW[2]~input_o\, datad => \SW[0]~input_o\, combout => \system_core|outputs[1]~1_combout\); -- Location: LCCOMB_X107_Y69_N4 \system_core|outputs[2]~2\ : cycloneive_lcell_comb -- Equation(s): -- \system_core|outputs[2]~2_combout\ = (\SW[1]~input_o\ & (\SW[2]~input_o\ & !\SW[0]~input_o\)) -- pragma translate_off GENERIC MAP ( lut_mask => "0000000011000000", sum_lutc_input => "datac") -- pragma translate_on PORT MAP ( datab => \SW[1]~input_o\, datac => \SW[2]~input_o\, datad => \SW[0]~input_o\, combout => \system_core|outputs[2]~2_combout\); -- Location: LCCOMB_X107_Y69_N14 \system_core|outputs[3]~3\ : cycloneive_lcell_comb -- Equation(s): -- \system_core|outputs[3]~3_combout\ = (\SW[1]~input_o\ & (\SW[2]~input_o\ & \SW[0]~input_o\)) -- pragma translate_off GENERIC MAP ( lut_mask => "1100000000000000", sum_lutc_input => "datac") -- pragma translate_on PORT MAP ( datab => \SW[1]~input_o\, datac => \SW[2]~input_o\, datad => \SW[0]~input_o\, combout => \system_core|outputs[3]~3_combout\); ww_LEDR(0) <= \LEDR[0]~output_o\; ww_LEDR(1) <= \LEDR[1]~output_o\; ww_LEDR(2) <= \LEDR[2]~output_o\; ww_LEDR(3) <= \LEDR[3]~output_o\; END structure;