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uaveiro-leci/1ano/2semestre/lsd/pratica03/ALUDemo/simulation/modelsim/ALUDemo.vho

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[LSD] pratica03 part2 finished (in theory at least :skull:)
2023-03-16 16:36:47 +00:00
-- 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 "03/16/2023 16:33:31"
--
-- 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 ALU4 IS
PORT (
a : IN std_logic_vector(3 DOWNTO 0);
b : IN std_logic_vector(3 DOWNTO 0);
op : IN std_logic_vector(2 DOWNTO 0);
r : BUFFER std_logic_vector(3 DOWNTO 0);
m : BUFFER std_logic_vector(3 DOWNTO 0)
);
END ALU4;
-- Design Ports Information
-- r[0] => Location: PIN_J15, I/O Standard: 2.5 V, Current Strength: Default
-- r[1] => Location: PIN_D16, I/O Standard: 2.5 V, Current Strength: Default
-- r[2] => Location: PIN_H21, I/O Standard: 2.5 V, Current Strength: Default
-- r[3] => Location: PIN_A17, I/O Standard: 2.5 V, Current Strength: Default
-- m[0] => Location: PIN_J19, I/O Standard: 2.5 V, Current Strength: Default
-- m[1] => Location: PIN_E17, I/O Standard: 2.5 V, Current Strength: Default
-- m[2] => Location: PIN_F17, I/O Standard: 2.5 V, Current Strength: Default
-- m[3] => Location: PIN_B17, I/O Standard: 2.5 V, Current Strength: Default
-- b[0] => Location: PIN_G19, I/O Standard: 2.5 V, Current Strength: Default
-- a[0] => Location: PIN_H17, I/O Standard: 2.5 V, Current Strength: Default
-- op[1] => Location: PIN_G16, I/O Standard: 2.5 V, Current Strength: Default
-- op[0] => Location: PIN_G22, I/O Standard: 2.5 V, Current Strength: Default
-- a[3] => Location: PIN_J16, I/O Standard: 2.5 V, Current Strength: Default
-- b[3] => Location: PIN_G18, I/O Standard: 2.5 V, Current Strength: Default
-- b[2] => Location: PIN_H16, I/O Standard: 2.5 V, Current Strength: Default
-- b[1] => Location: PIN_J17, I/O Standard: 2.5 V, Current Strength: Default
-- a[2] => Location: PIN_C16, I/O Standard: 2.5 V, Current Strength: Default
-- a[1] => Location: PIN_G15, I/O Standard: 2.5 V, Current Strength: Default
-- op[2] => Location: PIN_H19, I/O Standard: 2.5 V, Current Strength: Default
ARCHITECTURE structure OF ALU4 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_a : std_logic_vector(3 DOWNTO 0);
SIGNAL ww_b : std_logic_vector(3 DOWNTO 0);
SIGNAL ww_op : std_logic_vector(2 DOWNTO 0);
SIGNAL ww_r : std_logic_vector(3 DOWNTO 0);
SIGNAL ww_m : std_logic_vector(3 DOWNTO 0);
SIGNAL \r[0]~output_o\ : std_logic;
SIGNAL \r[1]~output_o\ : std_logic;
SIGNAL \r[2]~output_o\ : std_logic;
SIGNAL \r[3]~output_o\ : std_logic;
SIGNAL \m[0]~output_o\ : std_logic;
SIGNAL \m[1]~output_o\ : std_logic;
SIGNAL \m[2]~output_o\ : std_logic;
SIGNAL \m[3]~output_o\ : std_logic;
SIGNAL \a[0]~input_o\ : std_logic;
SIGNAL \b[1]~input_o\ : std_logic;
SIGNAL \b[0]~input_o\ : std_logic;
SIGNAL \Mult0|auto_generated|op_3~0_combout\ : std_logic;
SIGNAL \op[0]~input_o\ : std_logic;
SIGNAL \Add0~0_combout\ : std_logic;
SIGNAL \Add0~2_cout\ : std_logic;
SIGNAL \Add0~3_combout\ : std_logic;
SIGNAL \op[2]~input_o\ : std_logic;
SIGNAL \op[1]~input_o\ : std_logic;
SIGNAL \Mux3~4_combout\ : std_logic;
SIGNAL \Mux3~3_combout\ : std_logic;
SIGNAL \Mux3~5_combout\ : std_logic;
SIGNAL \b[2]~input_o\ : std_logic;
SIGNAL \a[2]~input_o\ : std_logic;
SIGNAL \Mod0|auto_generated|divider|divider|StageOut[5]~0_combout\ : std_logic;
SIGNAL \a[3]~input_o\ : std_logic;
SIGNAL \b[3]~input_o\ : std_logic;
SIGNAL \Mod0|auto_generated|divider|divider|StageOut[5]~1_combout\ : std_logic;
SIGNAL \Mod0|auto_generated|divider|divider|selnose[5]~0_combout\ : std_logic;
SIGNAL \Mod0|auto_generated|divider|divider|StageOut[4]~2_combout\ : std_logic;
SIGNAL \a[1]~input_o\ : std_logic;
SIGNAL \Div0|auto_generated|divider|divider|add_sub_2_result_int[0]~1\ : std_logic;
SIGNAL \Div0|auto_generated|divider|divider|add_sub_2_result_int[1]~3\ : std_logic;
SIGNAL \Div0|auto_generated|divider|divider|add_sub_2_result_int[2]~4_combout\ : std_logic;
SIGNAL \Div0|auto_generated|divider|divider|add_sub_2_result_int[2]~5\ : std_logic;
SIGNAL \Div0|auto_generated|divider|divider|add_sub_2_result_int[3]~6_combout\ : std_logic;
SIGNAL \Div0|auto_generated|divider|divider|StageOut[10]~0_combout\ : std_logic;
SIGNAL \Div0|auto_generated|divider|divider|add_sub_2_result_int[1]~2_combout\ : std_logic;
SIGNAL \Div0|auto_generated|divider|divider|StageOut[9]~1_combout\ : std_logic;
SIGNAL \Div0|auto_generated|divider|divider|add_sub_2_result_int[0]~0_combout\ : std_logic;
SIGNAL \Div0|auto_generated|divider|divider|StageOut[8]~2_combout\ : std_logic;
SIGNAL \Div0|auto_generated|divider|divider|add_sub_3_result_int[0]~1_cout\ : std_logic;
SIGNAL \Div0|auto_generated|divider|divider|add_sub_3_result_int[1]~3_cout\ : std_logic;
SIGNAL \Div0|auto_generated|divider|divider|add_sub_3_result_int[2]~5_cout\ : std_logic;
SIGNAL \Div0|auto_generated|divider|divider|add_sub_3_result_int[3]~7_cout\ : std_logic;
SIGNAL \Div0|auto_generated|divider|divider|add_sub_3_result_int[4]~8_combout\ : std_logic;
SIGNAL \Mod0|auto_generated|divider|divider|add_sub_3_result_int[0]~0_combout\ : std_logic;
SIGNAL \Mod0|auto_generated|divider|divider|add_sub_2_result_int[0]~1\ : std_logic;
SIGNAL \Mod0|auto_generated|divider|divider|add_sub_2_result_int[1]~3\ : std_logic;
SIGNAL \Mod0|auto_generated|divider|divider|add_sub_2_result_int[2]~4_combout\ : std_logic;
SIGNAL \Mod0|auto_generated|divider|divider|add_sub_2_result_int[2]~5\ : std_logic;
SIGNAL \Mod0|auto_generated|divider|divider|add_sub_2_result_int[3]~6_combout\ : std_logic;
SIGNAL \Mod0|auto_generated|divider|divider|StageOut[10]~3_combout\ : std_logic;
SIGNAL \Mod0|auto_generated|divider|divider|add_sub_2_result_int[1]~2_combout\ : std_logic;
SIGNAL \Mod0|auto_generated|divider|divider|StageOut[9]~4_combout\ : std_logic;
SIGNAL \Mod0|auto_generated|divider|divider|add_sub_2_result_int[0]~0_combout\ : std_logic;
SIGNAL \Mod0|auto_generated|divider|divider|StageOut[8]~5_combout\ : std_logic;
SIGNAL \Mod0|auto_generated|divider|divider|add_sub_3_result_int[0]~1\ : std_logic;
SIGNAL \Mod0|auto_generated|divider|divider|add_sub_3_result_int[1]~3\ : std_logic;
SIGNAL \Mod0|auto_generated|divider|divider|add_sub_3_result_int[2]~5\ : std_logic;
SIGNAL \Mod0|auto_generated|divider|divider|add_sub_3_result_int[3]~7\ : std_logic;
SIGNAL \Mod0|auto_generated|divider|divider|add_sub_3_result_int[4]~8_combout\ : std_logic;
SIGNAL \Mux3~0_combout\ : std_logic;
SIGNAL \Mux3~1_combout\ : std_logic;
SIGNAL \Mux3~2_combout\ : std_logic;
SIGNAL \Mux3~6_combout\ : std_logic;
SIGNAL \Mult0|auto_generated|op_3~1\ : std_logic;
SIGNAL \Mult0|auto_generated|op_3~2_combout\ : std_logic;
SIGNAL \Mux2~2_combout\ : std_logic;
SIGNAL \Mod0|auto_generated|divider|divider|add_sub_3_result_int[1]~2_combout\ : std_logic;
SIGNAL \Mod0|auto_generated|divider|divider|StageOut[13]~6_combout\ : std_logic;
SIGNAL \Mux2~3_combout\ : std_logic;
SIGNAL \Add0~5_combout\ : std_logic;
SIGNAL \Add0~4\ : std_logic;
SIGNAL \Add0~6_combout\ : std_logic;
SIGNAL \Mux2~0_combout\ : std_logic;
SIGNAL \Mux2~1_combout\ : std_logic;
SIGNAL \Mux1~2_combout\ : std_logic;
SIGNAL \Mod0|auto_generated|divider|divider|add_sub_3_result_int[2]~4_combout\ : std_logic;
SIGNAL \Mod0|auto_generated|divider|divider|StageOut[14]~7_combout\ : std_logic;
SIGNAL \Mux1~3_combout\ : std_logic;
SIGNAL \Mod0|auto_generated|divider|divider|selnose[5]~1_combout\ : std_logic;
SIGNAL \Mult0|auto_generated|op_1~0_combout\ : std_logic;
SIGNAL \Mult0|auto_generated|op_3~3\ : std_logic;
SIGNAL \Mult0|auto_generated|op_3~4_combout\ : std_logic;
SIGNAL \Add0~8_combout\ : std_logic;
SIGNAL \Add0~7\ : std_logic;
SIGNAL \Add0~9_combout\ : std_logic;
SIGNAL \Mux1~0_combout\ : std_logic;
SIGNAL \Mux1~1_combout\ : std_logic;
SIGNAL \Mult0|auto_generated|op_1~1\ : std_logic;
SIGNAL \Mult0|auto_generated|op_1~2_combout\ : std_logic;
SIGNAL \Mult0|auto_generated|cs2a[1]~0_combout\ : std_logic;
SIGNAL \Mult0|auto_generated|op_3~5\ : std_logic;
SIGNAL \Mult0|auto_generated|op_3~6_combout\ : std_logic;
SIGNAL \Mod0|auto_generated|divider|divider|add_sub_3_result_int[3]~6_combout\ : std_logic;
SIGNAL \Mod0|auto_generated|divider|divider|StageOut[15]~8_combout\ : std_logic;
SIGNAL \Mux0~2_combout\ : std_logic;
SIGNAL \Mux0~3_combout\ : std_logic;
SIGNAL \Add0~11_combout\ : std_logic;
SIGNAL \Add0~10\ : std_logic;
SIGNAL \Add0~12_combout\ : std_logic;
SIGNAL \Mux0~0_combout\ : std_logic;
SIGNAL \Mod0|auto_generated|divider|divider|selnose[0]~2_combout\ : std_logic;
SIGNAL \Mux0~1_combout\ : std_logic;
SIGNAL \Mult0|auto_generated|op_1~3\ : std_logic;
SIGNAL \Mult0|auto_generated|op_1~4_combout\ : std_logic;
SIGNAL \Mult0|auto_generated|op_3~7\ : std_logic;
SIGNAL \Mult0|auto_generated|op_3~8_combout\ : std_logic;
SIGNAL \m~8_combout\ : std_logic;
SIGNAL \Mult0|auto_generated|op_1~5\ : std_logic;
SIGNAL \Mult0|auto_generated|op_1~6_combout\ : std_logic;
SIGNAL \Mult0|auto_generated|op_3~9\ : std_logic;
SIGNAL \Mult0|auto_generated|op_3~10_combout\ : std_logic;
SIGNAL \m~9_combout\ : std_logic;
SIGNAL \Mult0|auto_generated|op_1~7\ : std_logic;
SIGNAL \Mult0|auto_generated|op_1~8_combout\ : std_logic;
SIGNAL \Mult0|auto_generated|op_3~11\ : std_logic;
SIGNAL \Mult0|auto_generated|op_3~12_combout\ : std_logic;
SIGNAL \m~10_combout\ : std_logic;
SIGNAL \Mult0|auto_generated|op_1~9\ : std_logic;
SIGNAL \Mult0|auto_generated|op_1~10_combout\ : std_logic;
SIGNAL \Mult0|auto_generated|op_3~13\ : std_logic;
SIGNAL \Mult0|auto_generated|op_3~14_combout\ : std_logic;
SIGNAL \m~11_combout\ : std_logic;
SIGNAL \Mult0|auto_generated|le5a\ : std_logic_vector(4 DOWNTO 0);
SIGNAL \Div0|auto_generated|divider|divider|selnose\ : std_logic_vector(19 DOWNTO 0);
SIGNAL \Mult0|auto_generated|le4a\ : std_logic_vector(5 DOWNTO 0);
SIGNAL \Mod0|auto_generated|divider|divider|selnose\ : std_logic_vector(19 DOWNTO 0);
SIGNAL \Mult0|auto_generated|le3a\ : std_logic_vector(5 DOWNTO 0);
COMPONENT hard_block
PORT (
devoe : IN std_logic;
devclrn : IN std_logic;
devpor : IN std_logic);
END COMPONENT;
BEGIN
ww_a <= a;
ww_b <= b;
ww_op <= op;
r <= ww_r;
m <= ww_m;
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_X60_Y73_N23
\r[0]~output\ : cycloneive_io_obuf
-- pragma translate_off
GENERIC MAP (
bus_hold => "false",
open_drain_output => "false")
-- pragma translate_on
PORT MAP (
i => \Mux3~6_combout\,
devoe => ww_devoe,
o => \r[0]~output_o\);
-- Location: IOOBUF_X62_Y73_N23
\r[1]~output\ : cycloneive_io_obuf
-- pragma translate_off
GENERIC MAP (
bus_hold => "false",
open_drain_output => "false")
-- pragma translate_on
PORT MAP (
i => \Mux2~1_combout\,
devoe => ww_devoe,
o => \r[1]~output_o\);
-- Location: IOOBUF_X72_Y73_N16
\r[2]~output\ : cycloneive_io_obuf
-- pragma translate_off
GENERIC MAP (
bus_hold => "false",
open_drain_output => "false")
-- pragma translate_on
PORT MAP (
i => \Mux1~1_combout\,
devoe => ww_devoe,
o => \r[2]~output_o\);
-- Location: IOOBUF_X60_Y73_N2
\r[3]~output\ : cycloneive_io_obuf
-- pragma translate_off
GENERIC MAP (
bus_hold => "false",
open_drain_output => "false")
-- pragma translate_on
PORT MAP (
i => \Mux0~1_combout\,
devoe => ww_devoe,
o => \r[3]~output_o\);
-- Location: IOOBUF_X72_Y73_N9
\m[0]~output\ : cycloneive_io_obuf
-- pragma translate_off
GENERIC MAP (
bus_hold => "false",
open_drain_output => "false")
-- pragma translate_on
PORT MAP (
i => \m~8_combout\,
devoe => ww_devoe,
o => \m[0]~output_o\);
-- Location: IOOBUF_X67_Y73_N23
\m[1]~output\ : cycloneive_io_obuf
-- pragma translate_off
GENERIC MAP (
bus_hold => "false",
open_drain_output => "false")
-- pragma translate_on
PORT MAP (
i => \m~9_combout\,
devoe => ww_devoe,
o => \m[1]~output_o\);
-- Location: IOOBUF_X67_Y73_N16
\m[2]~output\ : cycloneive_io_obuf
-- pragma translate_off
GENERIC MAP (
bus_hold => "false",
open_drain_output => "false")
-- pragma translate_on
PORT MAP (
i => \m~10_combout\,
devoe => ww_devoe,
o => \m[2]~output_o\);
-- Location: IOOBUF_X60_Y73_N9
\m[3]~output\ : cycloneive_io_obuf
-- pragma translate_off
GENERIC MAP (
bus_hold => "false",
open_drain_output => "false")
-- pragma translate_on
PORT MAP (
i => \m~11_combout\,
devoe => ww_devoe,
o => \m[3]~output_o\);
-- Location: IOIBUF_X67_Y73_N8
\a[0]~input\ : cycloneive_io_ibuf
-- pragma translate_off
GENERIC MAP (
bus_hold => "false",
simulate_z_as => "z")
-- pragma translate_on
PORT MAP (
i => ww_a(0),
o => \a[0]~input_o\);
-- Location: IOIBUF_X69_Y73_N1
\b[1]~input\ : cycloneive_io_ibuf
-- pragma translate_off
GENERIC MAP (
bus_hold => "false",
simulate_z_as => "z")
-- pragma translate_on
PORT MAP (
i => ww_b(1),
o => \b[1]~input_o\);
-- Location: IOIBUF_X69_Y73_N15
\b[0]~input\ : cycloneive_io_ibuf
-- pragma translate_off
GENERIC MAP (
bus_hold => "false",
simulate_z_as => "z")
-- pragma translate_on
PORT MAP (
i => ww_b(0),
o => \b[0]~input_o\);
-- Location: LCCOMB_X66_Y72_N4
\Mult0|auto_generated|le3a[0]\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mult0|auto_generated|le3a\(0) = LCELL(\b[1]~input_o\ $ (((\a[0]~input_o\ & \b[0]~input_o\))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0110110001101100",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \a[0]~input_o\,
datab => \b[1]~input_o\,
datac => \b[0]~input_o\,
combout => \Mult0|auto_generated|le3a\(0));
-- Location: LCCOMB_X66_Y72_N12
\Mult0|auto_generated|op_3~0\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mult0|auto_generated|op_3~0_combout\ = (\Mult0|auto_generated|le3a\(0) & (\b[1]~input_o\ $ (VCC))) # (!\Mult0|auto_generated|le3a\(0) & (\b[1]~input_o\ & VCC))
-- \Mult0|auto_generated|op_3~1\ = CARRY((\Mult0|auto_generated|le3a\(0) & \b[1]~input_o\))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0110011010001000",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \Mult0|auto_generated|le3a\(0),
datab => \b[1]~input_o\,
datad => VCC,
combout => \Mult0|auto_generated|op_3~0_combout\,
cout => \Mult0|auto_generated|op_3~1\);
-- Location: IOIBUF_X72_Y73_N22
\op[0]~input\ : cycloneive_io_ibuf
-- pragma translate_off
GENERIC MAP (
bus_hold => "false",
simulate_z_as => "z")
-- pragma translate_on
PORT MAP (
i => ww_op(0),
o => \op[0]~input_o\);
-- Location: LCCOMB_X68_Y71_N0
\Add0~0\ : cycloneive_lcell_comb
-- Equation(s):
-- \Add0~0_combout\ = \b[0]~input_o\ $ (\op[0]~input_o\)
-- pragma translate_off
GENERIC MAP (
lut_mask => "0101010110101010",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \b[0]~input_o\,
datad => \op[0]~input_o\,
combout => \Add0~0_combout\);
-- Location: LCCOMB_X67_Y71_N10
\Add0~2\ : cycloneive_lcell_comb
-- Equation(s):
-- \Add0~2_cout\ = CARRY(\op[0]~input_o\)
-- pragma translate_off
GENERIC MAP (
lut_mask => "0000000010101010",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \op[0]~input_o\,
datad => VCC,
cout => \Add0~2_cout\);
-- Location: LCCOMB_X67_Y71_N12
\Add0~3\ : cycloneive_lcell_comb
-- Equation(s):
-- \Add0~3_combout\ = (\a[0]~input_o\ & ((\Add0~0_combout\ & (\Add0~2_cout\ & VCC)) # (!\Add0~0_combout\ & (!\Add0~2_cout\)))) # (!\a[0]~input_o\ & ((\Add0~0_combout\ & (!\Add0~2_cout\)) # (!\Add0~0_combout\ & ((\Add0~2_cout\) # (GND)))))
-- \Add0~4\ = CARRY((\a[0]~input_o\ & (!\Add0~0_combout\ & !\Add0~2_cout\)) # (!\a[0]~input_o\ & ((!\Add0~2_cout\) # (!\Add0~0_combout\))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1001011000010111",
sum_lutc_input => "cin")
-- pragma translate_on
PORT MAP (
dataa => \a[0]~input_o\,
datab => \Add0~0_combout\,
datad => VCC,
cin => \Add0~2_cout\,
combout => \Add0~3_combout\,
cout => \Add0~4\);
-- Location: IOIBUF_X72_Y73_N1
\op[2]~input\ : cycloneive_io_ibuf
-- pragma translate_off
GENERIC MAP (
bus_hold => "false",
simulate_z_as => "z")
-- pragma translate_on
PORT MAP (
i => ww_op(2),
o => \op[2]~input_o\);
-- Location: IOIBUF_X67_Y73_N1
\op[1]~input\ : cycloneive_io_ibuf
-- pragma translate_off
GENERIC MAP (
bus_hold => "false",
simulate_z_as => "z")
-- pragma translate_on
PORT MAP (
i => ww_op(1),
o => \op[1]~input_o\);
-- Location: LCCOMB_X67_Y72_N18
\Mux3~4\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mux3~4_combout\ = (!\op[2]~input_o\ & \op[1]~input_o\)
-- pragma translate_off
GENERIC MAP (
lut_mask => "0101010100000000",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \op[2]~input_o\,
datad => \op[1]~input_o\,
combout => \Mux3~4_combout\);
-- Location: LCCOMB_X67_Y72_N8
\Mux3~3\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mux3~3_combout\ = (\op[2]~input_o\) # ((\op[0]~input_o\ & \op[1]~input_o\))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1111101010101010",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \op[2]~input_o\,
datac => \op[0]~input_o\,
datad => \op[1]~input_o\,
combout => \Mux3~3_combout\);
-- Location: LCCOMB_X67_Y71_N22
\Mux3~5\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mux3~5_combout\ = (\Mux3~4_combout\ & ((\Mult0|auto_generated|op_3~0_combout\) # ((\Mux3~3_combout\)))) # (!\Mux3~4_combout\ & (((\Add0~3_combout\ & !\Mux3~3_combout\))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1111000010101100",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \Mult0|auto_generated|op_3~0_combout\,
datab => \Add0~3_combout\,
datac => \Mux3~4_combout\,
datad => \Mux3~3_combout\,
combout => \Mux3~5_combout\);
-- Location: IOIBUF_X65_Y73_N22
\b[2]~input\ : cycloneive_io_ibuf
-- pragma translate_off
GENERIC MAP (
bus_hold => "false",
simulate_z_as => "z")
-- pragma translate_on
PORT MAP (
i => ww_b(2),
o => \b[2]~input_o\);
-- Location: IOIBUF_X62_Y73_N15
\a[2]~input\ : cycloneive_io_ibuf
-- pragma translate_off
GENERIC MAP (
bus_hold => "false",
simulate_z_as => "z")
-- pragma translate_on
PORT MAP (
i => ww_a(2),
o => \a[2]~input_o\);
-- Location: LCCOMB_X66_Y71_N0
\Mod0|auto_generated|divider|divider|StageOut[5]~0\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mod0|auto_generated|divider|divider|StageOut[5]~0_combout\ = (\b[1]~input_o\ & (!\a[2]~input_o\ & \b[0]~input_o\)) # (!\b[1]~input_o\ & ((!\b[0]~input_o\)))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0101000000001111",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \a[2]~input_o\,
datac => \b[1]~input_o\,
datad => \b[0]~input_o\,
combout => \Mod0|auto_generated|divider|divider|StageOut[5]~0_combout\);
-- Location: IOIBUF_X65_Y73_N15
\a[3]~input\ : cycloneive_io_ibuf
-- pragma translate_off
GENERIC MAP (
bus_hold => "false",
simulate_z_as => "z")
-- pragma translate_on
PORT MAP (
i => ww_a(3),
o => \a[3]~input_o\);
-- Location: IOIBUF_X69_Y73_N22
\b[3]~input\ : cycloneive_io_ibuf
-- pragma translate_off
GENERIC MAP (
bus_hold => "false",
simulate_z_as => "z")
-- pragma translate_on
PORT MAP (
i => ww_b(3),
o => \b[3]~input_o\);
-- Location: LCCOMB_X65_Y71_N24
\Mod0|auto_generated|divider|divider|StageOut[5]~1\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mod0|auto_generated|divider|divider|StageOut[5]~1_combout\ = (\a[3]~input_o\ & ((\b[2]~input_o\) # ((\Mod0|auto_generated|divider|divider|StageOut[5]~0_combout\) # (\b[3]~input_o\))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1111000011100000",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \b[2]~input_o\,
datab => \Mod0|auto_generated|divider|divider|StageOut[5]~0_combout\,
datac => \a[3]~input_o\,
datad => \b[3]~input_o\,
combout => \Mod0|auto_generated|divider|divider|StageOut[5]~1_combout\);
-- Location: LCCOMB_X66_Y72_N8
\Mod0|auto_generated|divider|divider|selnose[5]~0\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mod0|auto_generated|divider|divider|selnose[5]~0_combout\ = (\b[2]~input_o\) # ((\b[3]~input_o\) # ((\b[1]~input_o\ & !\a[3]~input_o\)))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1111111110101110",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \b[2]~input_o\,
datab => \b[1]~input_o\,
datac => \a[3]~input_o\,
datad => \b[3]~input_o\,
combout => \Mod0|auto_generated|divider|divider|selnose[5]~0_combout\);
-- Location: LCCOMB_X66_Y71_N2
\Mod0|auto_generated|divider|divider|StageOut[4]~2\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mod0|auto_generated|divider|divider|StageOut[4]~2_combout\ = (\a[2]~input_o\ & ((\Mod0|auto_generated|divider|divider|selnose[5]~0_combout\) # (!\b[0]~input_o\)))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1010000010101010",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \a[2]~input_o\,
datac => \Mod0|auto_generated|divider|divider|selnose[5]~0_combout\,
datad => \b[0]~input_o\,
combout => \Mod0|auto_generated|divider|divider|StageOut[4]~2_combout\);
-- Location: IOIBUF_X65_Y73_N8
\a[1]~input\ : cycloneive_io_ibuf
-- pragma translate_off
GENERIC MAP (
bus_hold => "false",
simulate_z_as => "z")
-- pragma translate_on
PORT MAP (
i => ww_a(1),
o => \a[1]~input_o\);
-- Location: LCCOMB_X65_Y71_N16
\Div0|auto_generated|divider|divider|add_sub_2_result_int[0]~0\ : cycloneive_lcell_comb
-- Equation(s):
-- \Div0|auto_generated|divider|divider|add_sub_2_result_int[0]~0_combout\ = (\b[0]~input_o\ & (\a[1]~input_o\ $ (VCC))) # (!\b[0]~input_o\ & ((\a[1]~input_o\) # (GND)))
-- \Div0|auto_generated|divider|divider|add_sub_2_result_int[0]~1\ = CARRY((\a[1]~input_o\) # (!\b[0]~input_o\))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0110011011011101",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \b[0]~input_o\,
datab => \a[1]~input_o\,
datad => VCC,
combout => \Div0|auto_generated|divider|divider|add_sub_2_result_int[0]~0_combout\,
cout => \Div0|auto_generated|divider|divider|add_sub_2_result_int[0]~1\);
-- Location: LCCOMB_X65_Y71_N18
\Div0|auto_generated|divider|divider|add_sub_2_result_int[1]~2\ : cycloneive_lcell_comb
-- Equation(s):
-- \Div0|auto_generated|divider|divider|add_sub_2_result_int[1]~2_combout\ = (\Mod0|auto_generated|divider|divider|StageOut[4]~2_combout\ & ((\b[1]~input_o\ & (!\Div0|auto_generated|divider|divider|add_sub_2_result_int[0]~1\)) # (!\b[1]~input_o\ &
-- (\Div0|auto_generated|divider|divider|add_sub_2_result_int[0]~1\ & VCC)))) # (!\Mod0|auto_generated|divider|divider|StageOut[4]~2_combout\ & ((\b[1]~input_o\ & ((\Div0|auto_generated|divider|divider|add_sub_2_result_int[0]~1\) # (GND))) # (!\b[1]~input_o\
-- & (!\Div0|auto_generated|divider|divider|add_sub_2_result_int[0]~1\))))
-- \Div0|auto_generated|divider|divider|add_sub_2_result_int[1]~3\ = CARRY((\Mod0|auto_generated|divider|divider|StageOut[4]~2_combout\ & (\b[1]~input_o\ & !\Div0|auto_generated|divider|divider|add_sub_2_result_int[0]~1\)) #
-- (!\Mod0|auto_generated|divider|divider|StageOut[4]~2_combout\ & ((\b[1]~input_o\) # (!\Div0|auto_generated|divider|divider|add_sub_2_result_int[0]~1\))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0110100101001101",
sum_lutc_input => "cin")
-- pragma translate_on
PORT MAP (
dataa => \Mod0|auto_generated|divider|divider|StageOut[4]~2_combout\,
datab => \b[1]~input_o\,
datad => VCC,
cin => \Div0|auto_generated|divider|divider|add_sub_2_result_int[0]~1\,
combout => \Div0|auto_generated|divider|divider|add_sub_2_result_int[1]~2_combout\,
cout => \Div0|auto_generated|divider|divider|add_sub_2_result_int[1]~3\);
-- Location: LCCOMB_X65_Y71_N20
\Div0|auto_generated|divider|divider|add_sub_2_result_int[2]~4\ : cycloneive_lcell_comb
-- Equation(s):
-- \Div0|auto_generated|divider|divider|add_sub_2_result_int[2]~4_combout\ = ((\b[2]~input_o\ $ (\Mod0|auto_generated|divider|divider|StageOut[5]~1_combout\ $ (\Div0|auto_generated|divider|divider|add_sub_2_result_int[1]~3\)))) # (GND)
-- \Div0|auto_generated|divider|divider|add_sub_2_result_int[2]~5\ = CARRY((\b[2]~input_o\ & (\Mod0|auto_generated|divider|divider|StageOut[5]~1_combout\ & !\Div0|auto_generated|divider|divider|add_sub_2_result_int[1]~3\)) # (!\b[2]~input_o\ &
-- ((\Mod0|auto_generated|divider|divider|StageOut[5]~1_combout\) # (!\Div0|auto_generated|divider|divider|add_sub_2_result_int[1]~3\))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1001011001001101",
sum_lutc_input => "cin")
-- pragma translate_on
PORT MAP (
dataa => \b[2]~input_o\,
datab => \Mod0|auto_generated|divider|divider|StageOut[5]~1_combout\,
datad => VCC,
cin => \Div0|auto_generated|divider|divider|add_sub_2_result_int[1]~3\,
combout => \Div0|auto_generated|divider|divider|add_sub_2_result_int[2]~4_combout\,
cout => \Div0|auto_generated|divider|divider|add_sub_2_result_int[2]~5\);
-- Location: LCCOMB_X65_Y71_N22
\Div0|auto_generated|divider|divider|add_sub_2_result_int[3]~6\ : cycloneive_lcell_comb
-- Equation(s):
-- \Div0|auto_generated|divider|divider|add_sub_2_result_int[3]~6_combout\ = !\Div0|auto_generated|divider|divider|add_sub_2_result_int[2]~5\
-- pragma translate_off
GENERIC MAP (
lut_mask => "0000111100001111",
sum_lutc_input => "cin")
-- pragma translate_on
PORT MAP (
cin => \Div0|auto_generated|divider|divider|add_sub_2_result_int[2]~5\,
combout => \Div0|auto_generated|divider|divider|add_sub_2_result_int[3]~6_combout\);
-- Location: LCCOMB_X65_Y71_N0
\Div0|auto_generated|divider|divider|StageOut[10]~0\ : cycloneive_lcell_comb
-- Equation(s):
-- \Div0|auto_generated|divider|divider|StageOut[10]~0_combout\ = (\Div0|auto_generated|divider|divider|add_sub_2_result_int[3]~6_combout\ & (\Mod0|auto_generated|divider|divider|StageOut[5]~1_combout\)) #
-- (!\Div0|auto_generated|divider|divider|add_sub_2_result_int[3]~6_combout\ & ((\b[3]~input_o\ & (\Mod0|auto_generated|divider|divider|StageOut[5]~1_combout\)) # (!\b[3]~input_o\ &
-- ((\Div0|auto_generated|divider|divider|add_sub_2_result_int[2]~4_combout\)))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1010101010101100",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \Mod0|auto_generated|divider|divider|StageOut[5]~1_combout\,
datab => \Div0|auto_generated|divider|divider|add_sub_2_result_int[2]~4_combout\,
datac => \Div0|auto_generated|divider|divider|add_sub_2_result_int[3]~6_combout\,
datad => \b[3]~input_o\,
combout => \Div0|auto_generated|divider|divider|StageOut[10]~0_combout\);
-- Location: LCCOMB_X65_Y71_N26
\Div0|auto_generated|divider|divider|StageOut[9]~1\ : cycloneive_lcell_comb
-- Equation(s):
-- \Div0|auto_generated|divider|divider|StageOut[9]~1_combout\ = (\Div0|auto_generated|divider|divider|add_sub_2_result_int[3]~6_combout\ & (\Mod0|auto_generated|divider|divider|StageOut[4]~2_combout\)) #
-- (!\Div0|auto_generated|divider|divider|add_sub_2_result_int[3]~6_combout\ & ((\b[3]~input_o\ & (\Mod0|auto_generated|divider|divider|StageOut[4]~2_combout\)) # (!\b[3]~input_o\ &
-- ((\Div0|auto_generated|divider|divider|add_sub_2_result_int[1]~2_combout\)))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1010101010101100",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \Mod0|auto_generated|divider|divider|StageOut[4]~2_combout\,
datab => \Div0|auto_generated|divider|divider|add_sub_2_result_int[1]~2_combout\,
datac => \Div0|auto_generated|divider|divider|add_sub_2_result_int[3]~6_combout\,
datad => \b[3]~input_o\,
combout => \Div0|auto_generated|divider|divider|StageOut[9]~1_combout\);
-- Location: LCCOMB_X65_Y71_N28
\Div0|auto_generated|divider|divider|StageOut[8]~2\ : cycloneive_lcell_comb
-- Equation(s):
-- \Div0|auto_generated|divider|divider|StageOut[8]~2_combout\ = (\Div0|auto_generated|divider|divider|add_sub_2_result_int[3]~6_combout\ & (((\a[1]~input_o\)))) # (!\Div0|auto_generated|divider|divider|add_sub_2_result_int[3]~6_combout\ & ((\b[3]~input_o\ &
-- ((\a[1]~input_o\))) # (!\b[3]~input_o\ & (\Div0|auto_generated|divider|divider|add_sub_2_result_int[0]~0_combout\))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1111000011100100",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \Div0|auto_generated|divider|divider|add_sub_2_result_int[3]~6_combout\,
datab => \Div0|auto_generated|divider|divider|add_sub_2_result_int[0]~0_combout\,
datac => \a[1]~input_o\,
datad => \b[3]~input_o\,
combout => \Div0|auto_generated|divider|divider|StageOut[8]~2_combout\);
-- Location: LCCOMB_X66_Y71_N10
\Div0|auto_generated|divider|divider|add_sub_3_result_int[0]~1\ : cycloneive_lcell_comb
-- Equation(s):
-- \Div0|auto_generated|divider|divider|add_sub_3_result_int[0]~1_cout\ = CARRY((\a[0]~input_o\) # (!\b[0]~input_o\))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0000000010111011",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \a[0]~input_o\,
datab => \b[0]~input_o\,
datad => VCC,
cout => \Div0|auto_generated|divider|divider|add_sub_3_result_int[0]~1_cout\);
-- Location: LCCOMB_X66_Y71_N12
\Div0|auto_generated|divider|divider|add_sub_3_result_int[1]~3\ : cycloneive_lcell_comb
-- Equation(s):
-- \Div0|auto_generated|divider|divider|add_sub_3_result_int[1]~3_cout\ = CARRY((\b[1]~input_o\ & ((!\Div0|auto_generated|divider|divider|add_sub_3_result_int[0]~1_cout\) # (!\Div0|auto_generated|divider|divider|StageOut[8]~2_combout\))) # (!\b[1]~input_o\ &
-- (!\Div0|auto_generated|divider|divider|StageOut[8]~2_combout\ & !\Div0|auto_generated|divider|divider|add_sub_3_result_int[0]~1_cout\)))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0000000000101011",
sum_lutc_input => "cin")
-- pragma translate_on
PORT MAP (
dataa => \b[1]~input_o\,
datab => \Div0|auto_generated|divider|divider|StageOut[8]~2_combout\,
datad => VCC,
cin => \Div0|auto_generated|divider|divider|add_sub_3_result_int[0]~1_cout\,
cout => \Div0|auto_generated|divider|divider|add_sub_3_result_int[1]~3_cout\);
-- Location: LCCOMB_X66_Y71_N14
\Div0|auto_generated|divider|divider|add_sub_3_result_int[2]~5\ : cycloneive_lcell_comb
-- Equation(s):
-- \Div0|auto_generated|divider|divider|add_sub_3_result_int[2]~5_cout\ = CARRY((\Div0|auto_generated|divider|divider|StageOut[9]~1_combout\ & ((!\Div0|auto_generated|divider|divider|add_sub_3_result_int[1]~3_cout\) # (!\b[2]~input_o\))) #
-- (!\Div0|auto_generated|divider|divider|StageOut[9]~1_combout\ & (!\b[2]~input_o\ & !\Div0|auto_generated|divider|divider|add_sub_3_result_int[1]~3_cout\)))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0000000000101011",
sum_lutc_input => "cin")
-- pragma translate_on
PORT MAP (
dataa => \Div0|auto_generated|divider|divider|StageOut[9]~1_combout\,
datab => \b[2]~input_o\,
datad => VCC,
cin => \Div0|auto_generated|divider|divider|add_sub_3_result_int[1]~3_cout\,
cout => \Div0|auto_generated|divider|divider|add_sub_3_result_int[2]~5_cout\);
-- Location: LCCOMB_X66_Y71_N16
\Div0|auto_generated|divider|divider|add_sub_3_result_int[3]~7\ : cycloneive_lcell_comb
-- Equation(s):
-- \Div0|auto_generated|divider|divider|add_sub_3_result_int[3]~7_cout\ = CARRY((\Div0|auto_generated|divider|divider|StageOut[10]~0_combout\ & (\b[3]~input_o\ & !\Div0|auto_generated|divider|divider|add_sub_3_result_int[2]~5_cout\)) #
-- (!\Div0|auto_generated|divider|divider|StageOut[10]~0_combout\ & ((\b[3]~input_o\) # (!\Div0|auto_generated|divider|divider|add_sub_3_result_int[2]~5_cout\))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0000000001001101",
sum_lutc_input => "cin")
-- pragma translate_on
PORT MAP (
dataa => \Div0|auto_generated|divider|divider|StageOut[10]~0_combout\,
datab => \b[3]~input_o\,
datad => VCC,
cin => \Div0|auto_generated|divider|divider|add_sub_3_result_int[2]~5_cout\,
cout => \Div0|auto_generated|divider|divider|add_sub_3_result_int[3]~7_cout\);
-- Location: LCCOMB_X66_Y71_N18
\Div0|auto_generated|divider|divider|add_sub_3_result_int[4]~8\ : cycloneive_lcell_comb
-- Equation(s):
-- \Div0|auto_generated|divider|divider|add_sub_3_result_int[4]~8_combout\ = \Div0|auto_generated|divider|divider|add_sub_3_result_int[3]~7_cout\
-- pragma translate_off
GENERIC MAP (
lut_mask => "1111000011110000",
sum_lutc_input => "cin")
-- pragma translate_on
PORT MAP (
cin => \Div0|auto_generated|divider|divider|add_sub_3_result_int[3]~7_cout\,
combout => \Div0|auto_generated|divider|divider|add_sub_3_result_int[4]~8_combout\);
-- Location: LCCOMB_X66_Y71_N20
\Mod0|auto_generated|divider|divider|add_sub_3_result_int[0]~0\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mod0|auto_generated|divider|divider|add_sub_3_result_int[0]~0_combout\ = (\a[0]~input_o\ & ((GND) # (!\b[0]~input_o\))) # (!\a[0]~input_o\ & (\b[0]~input_o\ $ (GND)))
-- \Mod0|auto_generated|divider|divider|add_sub_3_result_int[0]~1\ = CARRY((\a[0]~input_o\) # (!\b[0]~input_o\))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0110011010111011",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \a[0]~input_o\,
datab => \b[0]~input_o\,
datad => VCC,
combout => \Mod0|auto_generated|divider|divider|add_sub_3_result_int[0]~0_combout\,
cout => \Mod0|auto_generated|divider|divider|add_sub_3_result_int[0]~1\);
-- Location: LCCOMB_X65_Y71_N6
\Mod0|auto_generated|divider|divider|add_sub_2_result_int[0]~0\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mod0|auto_generated|divider|divider|add_sub_2_result_int[0]~0_combout\ = (\b[0]~input_o\ & (\a[1]~input_o\ $ (VCC))) # (!\b[0]~input_o\ & ((\a[1]~input_o\) # (GND)))
-- \Mod0|auto_generated|divider|divider|add_sub_2_result_int[0]~1\ = CARRY((\a[1]~input_o\) # (!\b[0]~input_o\))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0110011011011101",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \b[0]~input_o\,
datab => \a[1]~input_o\,
datad => VCC,
combout => \Mod0|auto_generated|divider|divider|add_sub_2_result_int[0]~0_combout\,
cout => \Mod0|auto_generated|divider|divider|add_sub_2_result_int[0]~1\);
-- Location: LCCOMB_X65_Y71_N8
\Mod0|auto_generated|divider|divider|add_sub_2_result_int[1]~2\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mod0|auto_generated|divider|divider|add_sub_2_result_int[1]~2_combout\ = (\Mod0|auto_generated|divider|divider|StageOut[4]~2_combout\ & ((\b[1]~input_o\ & (!\Mod0|auto_generated|divider|divider|add_sub_2_result_int[0]~1\)) # (!\b[1]~input_o\ &
-- (\Mod0|auto_generated|divider|divider|add_sub_2_result_int[0]~1\ & VCC)))) # (!\Mod0|auto_generated|divider|divider|StageOut[4]~2_combout\ & ((\b[1]~input_o\ & ((\Mod0|auto_generated|divider|divider|add_sub_2_result_int[0]~1\) # (GND))) # (!\b[1]~input_o\
-- & (!\Mod0|auto_generated|divider|divider|add_sub_2_result_int[0]~1\))))
-- \Mod0|auto_generated|divider|divider|add_sub_2_result_int[1]~3\ = CARRY((\Mod0|auto_generated|divider|divider|StageOut[4]~2_combout\ & (\b[1]~input_o\ & !\Mod0|auto_generated|divider|divider|add_sub_2_result_int[0]~1\)) #
-- (!\Mod0|auto_generated|divider|divider|StageOut[4]~2_combout\ & ((\b[1]~input_o\) # (!\Mod0|auto_generated|divider|divider|add_sub_2_result_int[0]~1\))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0110100101001101",
sum_lutc_input => "cin")
-- pragma translate_on
PORT MAP (
dataa => \Mod0|auto_generated|divider|divider|StageOut[4]~2_combout\,
datab => \b[1]~input_o\,
datad => VCC,
cin => \Mod0|auto_generated|divider|divider|add_sub_2_result_int[0]~1\,
combout => \Mod0|auto_generated|divider|divider|add_sub_2_result_int[1]~2_combout\,
cout => \Mod0|auto_generated|divider|divider|add_sub_2_result_int[1]~3\);
-- Location: LCCOMB_X65_Y71_N10
\Mod0|auto_generated|divider|divider|add_sub_2_result_int[2]~4\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mod0|auto_generated|divider|divider|add_sub_2_result_int[2]~4_combout\ = ((\b[2]~input_o\ $ (\Mod0|auto_generated|divider|divider|StageOut[5]~1_combout\ $ (\Mod0|auto_generated|divider|divider|add_sub_2_result_int[1]~3\)))) # (GND)
-- \Mod0|auto_generated|divider|divider|add_sub_2_result_int[2]~5\ = CARRY((\b[2]~input_o\ & (\Mod0|auto_generated|divider|divider|StageOut[5]~1_combout\ & !\Mod0|auto_generated|divider|divider|add_sub_2_result_int[1]~3\)) # (!\b[2]~input_o\ &
-- ((\Mod0|auto_generated|divider|divider|StageOut[5]~1_combout\) # (!\Mod0|auto_generated|divider|divider|add_sub_2_result_int[1]~3\))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1001011001001101",
sum_lutc_input => "cin")
-- pragma translate_on
PORT MAP (
dataa => \b[2]~input_o\,
datab => \Mod0|auto_generated|divider|divider|StageOut[5]~1_combout\,
datad => VCC,
cin => \Mod0|auto_generated|divider|divider|add_sub_2_result_int[1]~3\,
combout => \Mod0|auto_generated|divider|divider|add_sub_2_result_int[2]~4_combout\,
cout => \Mod0|auto_generated|divider|divider|add_sub_2_result_int[2]~5\);
-- Location: LCCOMB_X65_Y71_N12
\Mod0|auto_generated|divider|divider|add_sub_2_result_int[3]~6\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mod0|auto_generated|divider|divider|add_sub_2_result_int[3]~6_combout\ = !\Mod0|auto_generated|divider|divider|add_sub_2_result_int[2]~5\
-- pragma translate_off
GENERIC MAP (
lut_mask => "0000111100001111",
sum_lutc_input => "cin")
-- pragma translate_on
PORT MAP (
cin => \Mod0|auto_generated|divider|divider|add_sub_2_result_int[2]~5\,
combout => \Mod0|auto_generated|divider|divider|add_sub_2_result_int[3]~6_combout\);
-- Location: LCCOMB_X65_Y71_N2
\Mod0|auto_generated|divider|divider|StageOut[10]~3\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mod0|auto_generated|divider|divider|StageOut[10]~3_combout\ = (\Mod0|auto_generated|divider|divider|add_sub_2_result_int[3]~6_combout\ & (((\Mod0|auto_generated|divider|divider|StageOut[5]~1_combout\)))) #
-- (!\Mod0|auto_generated|divider|divider|add_sub_2_result_int[3]~6_combout\ & ((\b[3]~input_o\ & ((\Mod0|auto_generated|divider|divider|StageOut[5]~1_combout\))) # (!\b[3]~input_o\ &
-- (\Mod0|auto_generated|divider|divider|add_sub_2_result_int[2]~4_combout\))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1100110011001010",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \Mod0|auto_generated|divider|divider|add_sub_2_result_int[2]~4_combout\,
datab => \Mod0|auto_generated|divider|divider|StageOut[5]~1_combout\,
datac => \Mod0|auto_generated|divider|divider|add_sub_2_result_int[3]~6_combout\,
datad => \b[3]~input_o\,
combout => \Mod0|auto_generated|divider|divider|StageOut[10]~3_combout\);
-- Location: LCCOMB_X65_Y71_N4
\Mod0|auto_generated|divider|divider|StageOut[9]~4\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mod0|auto_generated|divider|divider|StageOut[9]~4_combout\ = (\Mod0|auto_generated|divider|divider|add_sub_2_result_int[3]~6_combout\ & (((\Mod0|auto_generated|divider|divider|StageOut[4]~2_combout\)))) #
-- (!\Mod0|auto_generated|divider|divider|add_sub_2_result_int[3]~6_combout\ & ((\b[3]~input_o\ & ((\Mod0|auto_generated|divider|divider|StageOut[4]~2_combout\))) # (!\b[3]~input_o\ &
-- (\Mod0|auto_generated|divider|divider|add_sub_2_result_int[1]~2_combout\))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1111111000010000",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \Mod0|auto_generated|divider|divider|add_sub_2_result_int[3]~6_combout\,
datab => \b[3]~input_o\,
datac => \Mod0|auto_generated|divider|divider|add_sub_2_result_int[1]~2_combout\,
datad => \Mod0|auto_generated|divider|divider|StageOut[4]~2_combout\,
combout => \Mod0|auto_generated|divider|divider|StageOut[9]~4_combout\);
-- Location: LCCOMB_X65_Y71_N14
\Mod0|auto_generated|divider|divider|StageOut[8]~5\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mod0|auto_generated|divider|divider|StageOut[8]~5_combout\ = (\b[3]~input_o\ & (((\a[1]~input_o\)))) # (!\b[3]~input_o\ & ((\Mod0|auto_generated|divider|divider|add_sub_2_result_int[3]~6_combout\ & ((\a[1]~input_o\))) #
-- (!\Mod0|auto_generated|divider|divider|add_sub_2_result_int[3]~6_combout\ & (\Mod0|auto_generated|divider|divider|add_sub_2_result_int[0]~0_combout\))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1111000011100010",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \Mod0|auto_generated|divider|divider|add_sub_2_result_int[0]~0_combout\,
datab => \b[3]~input_o\,
datac => \a[1]~input_o\,
datad => \Mod0|auto_generated|divider|divider|add_sub_2_result_int[3]~6_combout\,
combout => \Mod0|auto_generated|divider|divider|StageOut[8]~5_combout\);
-- Location: LCCOMB_X66_Y71_N22
\Mod0|auto_generated|divider|divider|add_sub_3_result_int[1]~2\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mod0|auto_generated|divider|divider|add_sub_3_result_int[1]~2_combout\ = (\Mod0|auto_generated|divider|divider|StageOut[8]~5_combout\ & ((\b[1]~input_o\ & (!\Mod0|auto_generated|divider|divider|add_sub_3_result_int[0]~1\)) # (!\b[1]~input_o\ &
-- (\Mod0|auto_generated|divider|divider|add_sub_3_result_int[0]~1\ & VCC)))) # (!\Mod0|auto_generated|divider|divider|StageOut[8]~5_combout\ & ((\b[1]~input_o\ & ((\Mod0|auto_generated|divider|divider|add_sub_3_result_int[0]~1\) # (GND))) # (!\b[1]~input_o\
-- & (!\Mod0|auto_generated|divider|divider|add_sub_3_result_int[0]~1\))))
-- \Mod0|auto_generated|divider|divider|add_sub_3_result_int[1]~3\ = CARRY((\Mod0|auto_generated|divider|divider|StageOut[8]~5_combout\ & (\b[1]~input_o\ & !\Mod0|auto_generated|divider|divider|add_sub_3_result_int[0]~1\)) #
-- (!\Mod0|auto_generated|divider|divider|StageOut[8]~5_combout\ & ((\b[1]~input_o\) # (!\Mod0|auto_generated|divider|divider|add_sub_3_result_int[0]~1\))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0110100101001101",
sum_lutc_input => "cin")
-- pragma translate_on
PORT MAP (
dataa => \Mod0|auto_generated|divider|divider|StageOut[8]~5_combout\,
datab => \b[1]~input_o\,
datad => VCC,
cin => \Mod0|auto_generated|divider|divider|add_sub_3_result_int[0]~1\,
combout => \Mod0|auto_generated|divider|divider|add_sub_3_result_int[1]~2_combout\,
cout => \Mod0|auto_generated|divider|divider|add_sub_3_result_int[1]~3\);
-- Location: LCCOMB_X66_Y71_N24
\Mod0|auto_generated|divider|divider|add_sub_3_result_int[2]~4\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mod0|auto_generated|divider|divider|add_sub_3_result_int[2]~4_combout\ = ((\Mod0|auto_generated|divider|divider|StageOut[9]~4_combout\ $ (\b[2]~input_o\ $ (\Mod0|auto_generated|divider|divider|add_sub_3_result_int[1]~3\)))) # (GND)
-- \Mod0|auto_generated|divider|divider|add_sub_3_result_int[2]~5\ = CARRY((\Mod0|auto_generated|divider|divider|StageOut[9]~4_combout\ & ((!\Mod0|auto_generated|divider|divider|add_sub_3_result_int[1]~3\) # (!\b[2]~input_o\))) #
-- (!\Mod0|auto_generated|divider|divider|StageOut[9]~4_combout\ & (!\b[2]~input_o\ & !\Mod0|auto_generated|divider|divider|add_sub_3_result_int[1]~3\)))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1001011000101011",
sum_lutc_input => "cin")
-- pragma translate_on
PORT MAP (
dataa => \Mod0|auto_generated|divider|divider|StageOut[9]~4_combout\,
datab => \b[2]~input_o\,
datad => VCC,
cin => \Mod0|auto_generated|divider|divider|add_sub_3_result_int[1]~3\,
combout => \Mod0|auto_generated|divider|divider|add_sub_3_result_int[2]~4_combout\,
cout => \Mod0|auto_generated|divider|divider|add_sub_3_result_int[2]~5\);
-- Location: LCCOMB_X66_Y71_N26
\Mod0|auto_generated|divider|divider|add_sub_3_result_int[3]~6\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mod0|auto_generated|divider|divider|add_sub_3_result_int[3]~6_combout\ = (\Mod0|auto_generated|divider|divider|StageOut[10]~3_combout\ & ((\b[3]~input_o\ & (!\Mod0|auto_generated|divider|divider|add_sub_3_result_int[2]~5\)) # (!\b[3]~input_o\ &
-- (\Mod0|auto_generated|divider|divider|add_sub_3_result_int[2]~5\ & VCC)))) # (!\Mod0|auto_generated|divider|divider|StageOut[10]~3_combout\ & ((\b[3]~input_o\ & ((\Mod0|auto_generated|divider|divider|add_sub_3_result_int[2]~5\) # (GND))) #
-- (!\b[3]~input_o\ & (!\Mod0|auto_generated|divider|divider|add_sub_3_result_int[2]~5\))))
-- \Mod0|auto_generated|divider|divider|add_sub_3_result_int[3]~7\ = CARRY((\Mod0|auto_generated|divider|divider|StageOut[10]~3_combout\ & (\b[3]~input_o\ & !\Mod0|auto_generated|divider|divider|add_sub_3_result_int[2]~5\)) #
-- (!\Mod0|auto_generated|divider|divider|StageOut[10]~3_combout\ & ((\b[3]~input_o\) # (!\Mod0|auto_generated|divider|divider|add_sub_3_result_int[2]~5\))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0110100101001101",
sum_lutc_input => "cin")
-- pragma translate_on
PORT MAP (
dataa => \Mod0|auto_generated|divider|divider|StageOut[10]~3_combout\,
datab => \b[3]~input_o\,
datad => VCC,
cin => \Mod0|auto_generated|divider|divider|add_sub_3_result_int[2]~5\,
combout => \Mod0|auto_generated|divider|divider|add_sub_3_result_int[3]~6_combout\,
cout => \Mod0|auto_generated|divider|divider|add_sub_3_result_int[3]~7\);
-- Location: LCCOMB_X66_Y71_N28
\Mod0|auto_generated|divider|divider|add_sub_3_result_int[4]~8\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mod0|auto_generated|divider|divider|add_sub_3_result_int[4]~8_combout\ = \Mod0|auto_generated|divider|divider|add_sub_3_result_int[3]~7\
-- pragma translate_off
GENERIC MAP (
lut_mask => "1111000011110000",
sum_lutc_input => "cin")
-- pragma translate_on
PORT MAP (
cin => \Mod0|auto_generated|divider|divider|add_sub_3_result_int[3]~7\,
combout => \Mod0|auto_generated|divider|divider|add_sub_3_result_int[4]~8_combout\);
-- Location: LCCOMB_X67_Y71_N24
\Mux3~0\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mux3~0_combout\ = (\op[0]~input_o\ & (((\a[0]~input_o\)))) # (!\op[0]~input_o\ & ((\Mod0|auto_generated|divider|divider|add_sub_3_result_int[4]~8_combout\ & ((\a[0]~input_o\))) # (!\Mod0|auto_generated|divider|divider|add_sub_3_result_int[4]~8_combout\ &
-- (\Mod0|auto_generated|divider|divider|add_sub_3_result_int[0]~0_combout\))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1111111000000100",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \op[0]~input_o\,
datab => \Mod0|auto_generated|divider|divider|add_sub_3_result_int[0]~0_combout\,
datac => \Mod0|auto_generated|divider|divider|add_sub_3_result_int[4]~8_combout\,
datad => \a[0]~input_o\,
combout => \Mux3~0_combout\);
-- Location: LCCOMB_X67_Y71_N26
\Mux3~1\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mux3~1_combout\ = (\op[1]~input_o\ & (\op[0]~input_o\)) # (!\op[1]~input_o\ & (\Mux3~0_combout\ & ((\b[0]~input_o\) # (!\op[0]~input_o\))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1010110010100100",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \op[0]~input_o\,
datab => \Mux3~0_combout\,
datac => \op[1]~input_o\,
datad => \b[0]~input_o\,
combout => \Mux3~1_combout\);
-- Location: LCCOMB_X67_Y71_N4
\Mux3~2\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mux3~2_combout\ = (\op[1]~input_o\ & ((\a[0]~input_o\ & ((!\b[0]~input_o\) # (!\Mux3~1_combout\))) # (!\a[0]~input_o\ & ((\b[0]~input_o\))))) # (!\op[1]~input_o\ & (\Mux3~1_combout\))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0111101011001010",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \Mux3~1_combout\,
datab => \a[0]~input_o\,
datac => \op[1]~input_o\,
datad => \b[0]~input_o\,
combout => \Mux3~2_combout\);
-- Location: LCCOMB_X67_Y71_N8
\Mux3~6\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mux3~6_combout\ = (\Mux3~5_combout\ & (((!\Mux3~3_combout\)) # (!\Div0|auto_generated|divider|divider|add_sub_3_result_int[4]~8_combout\))) # (!\Mux3~5_combout\ & (((\Mux3~2_combout\ & \Mux3~3_combout\))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0111001010101010",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \Mux3~5_combout\,
datab => \Div0|auto_generated|divider|divider|add_sub_3_result_int[4]~8_combout\,
datac => \Mux3~2_combout\,
datad => \Mux3~3_combout\,
combout => \Mux3~6_combout\);
-- Location: LCCOMB_X66_Y72_N30
\Mult0|auto_generated|le3a[1]\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mult0|auto_generated|le3a\(1) = LCELL((\b[0]~input_o\ & ((\b[1]~input_o\ $ (\a[1]~input_o\)))) # (!\b[0]~input_o\ & (!\a[0]~input_o\ & (\b[1]~input_o\))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0011010011000100",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \a[0]~input_o\,
datab => \b[1]~input_o\,
datac => \b[0]~input_o\,
datad => \a[1]~input_o\,
combout => \Mult0|auto_generated|le3a\(1));
-- Location: LCCOMB_X66_Y72_N14
\Mult0|auto_generated|op_3~2\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mult0|auto_generated|op_3~2_combout\ = (\Mult0|auto_generated|le3a\(1) & (!\Mult0|auto_generated|op_3~1\)) # (!\Mult0|auto_generated|le3a\(1) & ((\Mult0|auto_generated|op_3~1\) # (GND)))
-- \Mult0|auto_generated|op_3~3\ = CARRY((!\Mult0|auto_generated|op_3~1\) # (!\Mult0|auto_generated|le3a\(1)))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0101101001011111",
sum_lutc_input => "cin")
-- pragma translate_on
PORT MAP (
dataa => \Mult0|auto_generated|le3a\(1),
datad => VCC,
cin => \Mult0|auto_generated|op_3~1\,
combout => \Mult0|auto_generated|op_3~2_combout\,
cout => \Mult0|auto_generated|op_3~3\);
-- Location: LCCOMB_X67_Y72_N10
\Mux2~2\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mux2~2_combout\ = (\b[1]~input_o\ & ((\a[1]~input_o\ $ (\op[1]~input_o\)) # (!\op[0]~input_o\))) # (!\b[1]~input_o\ & ((\op[1]~input_o\ & (\a[1]~input_o\)) # (!\op[1]~input_o\ & ((!\op[0]~input_o\)))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0110111010001111",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \b[1]~input_o\,
datab => \a[1]~input_o\,
datac => \op[0]~input_o\,
datad => \op[1]~input_o\,
combout => \Mux2~2_combout\);
-- Location: LCCOMB_X66_Y71_N4
\Mod0|auto_generated|divider|divider|StageOut[13]~6\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mod0|auto_generated|divider|divider|StageOut[13]~6_combout\ = (\Mod0|auto_generated|divider|divider|add_sub_3_result_int[4]~8_combout\ & (\Mod0|auto_generated|divider|divider|StageOut[8]~5_combout\)) #
-- (!\Mod0|auto_generated|divider|divider|add_sub_3_result_int[4]~8_combout\ & ((\Mod0|auto_generated|divider|divider|add_sub_3_result_int[1]~2_combout\)))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1010101011110000",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \Mod0|auto_generated|divider|divider|StageOut[8]~5_combout\,
datac => \Mod0|auto_generated|divider|divider|add_sub_3_result_int[1]~2_combout\,
datad => \Mod0|auto_generated|divider|divider|add_sub_3_result_int[4]~8_combout\,
combout => \Mod0|auto_generated|divider|divider|StageOut[13]~6_combout\);
-- Location: LCCOMB_X67_Y72_N12
\Mux2~3\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mux2~3_combout\ = (\Mux2~2_combout\ & ((\Mod0|auto_generated|divider|divider|StageOut[13]~6_combout\) # ((\op[0]~input_o\) # (\op[1]~input_o\))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1010101010101000",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \Mux2~2_combout\,
datab => \Mod0|auto_generated|divider|divider|StageOut[13]~6_combout\,
datac => \op[0]~input_o\,
datad => \op[1]~input_o\,
combout => \Mux2~3_combout\);
-- Location: LCCOMB_X68_Y71_N2
\Add0~5\ : cycloneive_lcell_comb
-- Equation(s):
-- \Add0~5_combout\ = \op[0]~input_o\ $ (\b[1]~input_o\)
-- pragma translate_off
GENERIC MAP (
lut_mask => "0011001111001100",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
datab => \op[0]~input_o\,
datad => \b[1]~input_o\,
combout => \Add0~5_combout\);
-- Location: LCCOMB_X67_Y71_N14
\Add0~6\ : cycloneive_lcell_comb
-- Equation(s):
-- \Add0~6_combout\ = ((\Add0~5_combout\ $ (\a[1]~input_o\ $ (!\Add0~4\)))) # (GND)
-- \Add0~7\ = CARRY((\Add0~5_combout\ & ((\a[1]~input_o\) # (!\Add0~4\))) # (!\Add0~5_combout\ & (\a[1]~input_o\ & !\Add0~4\)))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0110100110001110",
sum_lutc_input => "cin")
-- pragma translate_on
PORT MAP (
dataa => \Add0~5_combout\,
datab => \a[1]~input_o\,
datad => VCC,
cin => \Add0~4\,
combout => \Add0~6_combout\,
cout => \Add0~7\);
-- Location: LCCOMB_X67_Y72_N20
\Mux2~0\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mux2~0_combout\ = (\Mux3~4_combout\ & (((\Mux3~3_combout\)))) # (!\Mux3~4_combout\ & ((\Mux3~3_combout\ & (\Mux2~3_combout\)) # (!\Mux3~3_combout\ & ((\Add0~6_combout\)))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1110111000110000",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \Mux2~3_combout\,
datab => \Mux3~4_combout\,
datac => \Add0~6_combout\,
datad => \Mux3~3_combout\,
combout => \Mux2~0_combout\);
-- Location: LCCOMB_X65_Y71_N30
\Div0|auto_generated|divider|divider|selnose[10]\ : cycloneive_lcell_comb
-- Equation(s):
-- \Div0|auto_generated|divider|divider|selnose\(10) = (\Div0|auto_generated|divider|divider|add_sub_2_result_int[3]~6_combout\) # (\b[3]~input_o\)
-- pragma translate_off
GENERIC MAP (
lut_mask => "1111111111110000",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
datac => \Div0|auto_generated|divider|divider|add_sub_2_result_int[3]~6_combout\,
datad => \b[3]~input_o\,
combout => \Div0|auto_generated|divider|divider|selnose\(10));
-- Location: LCCOMB_X67_Y72_N14
\Mux2~1\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mux2~1_combout\ = (\Mux2~0_combout\ & (((!\Mux3~4_combout\) # (!\Div0|auto_generated|divider|divider|selnose\(10))))) # (!\Mux2~0_combout\ & (\Mult0|auto_generated|op_3~2_combout\ & ((\Mux3~4_combout\))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0010111011001100",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \Mult0|auto_generated|op_3~2_combout\,
datab => \Mux2~0_combout\,
datac => \Div0|auto_generated|divider|divider|selnose\(10),
datad => \Mux3~4_combout\,
combout => \Mux2~1_combout\);
-- Location: LCCOMB_X67_Y71_N20
\Mux1~2\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mux1~2_combout\ = (\b[2]~input_o\ & ((\op[1]~input_o\ $ (\a[2]~input_o\)) # (!\op[0]~input_o\))) # (!\b[2]~input_o\ & ((\op[1]~input_o\ & ((\a[2]~input_o\))) # (!\op[1]~input_o\ & (!\op[0]~input_o\))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0111110111000101",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \op[0]~input_o\,
datab => \b[2]~input_o\,
datac => \op[1]~input_o\,
datad => \a[2]~input_o\,
combout => \Mux1~2_combout\);
-- Location: LCCOMB_X66_Y71_N6
\Mod0|auto_generated|divider|divider|StageOut[14]~7\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mod0|auto_generated|divider|divider|StageOut[14]~7_combout\ = (\Mod0|auto_generated|divider|divider|add_sub_3_result_int[4]~8_combout\ & ((\Mod0|auto_generated|divider|divider|StageOut[9]~4_combout\))) #
-- (!\Mod0|auto_generated|divider|divider|add_sub_3_result_int[4]~8_combout\ & (\Mod0|auto_generated|divider|divider|add_sub_3_result_int[2]~4_combout\))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1111000011001100",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
datab => \Mod0|auto_generated|divider|divider|add_sub_3_result_int[2]~4_combout\,
datac => \Mod0|auto_generated|divider|divider|StageOut[9]~4_combout\,
datad => \Mod0|auto_generated|divider|divider|add_sub_3_result_int[4]~8_combout\,
combout => \Mod0|auto_generated|divider|divider|StageOut[14]~7_combout\);
-- Location: LCCOMB_X67_Y71_N6
\Mux1~3\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mux1~3_combout\ = (\Mux1~2_combout\ & ((\op[1]~input_o\) # ((\op[0]~input_o\) # (\Mod0|auto_generated|divider|divider|StageOut[14]~7_combout\))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1100110011001000",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \op[1]~input_o\,
datab => \Mux1~2_combout\,
datac => \op[0]~input_o\,
datad => \Mod0|auto_generated|divider|divider|StageOut[14]~7_combout\,
combout => \Mux1~3_combout\);
-- Location: LCCOMB_X67_Y71_N0
\Mod0|auto_generated|divider|divider|selnose[5]~1\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mod0|auto_generated|divider|divider|selnose[5]~1_combout\ = (\Mod0|auto_generated|divider|divider|selnose[5]~0_combout\) # ((!\a[2]~input_o\ & \b[0]~input_o\))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1010111110101010",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \Mod0|auto_generated|divider|divider|selnose[5]~0_combout\,
datac => \a[2]~input_o\,
datad => \b[0]~input_o\,
combout => \Mod0|auto_generated|divider|divider|selnose[5]~1_combout\);
-- Location: LCCOMB_X66_Y72_N10
\Mult0|auto_generated|le4a[0]\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mult0|auto_generated|le4a\(0) = LCELL(\b[3]~input_o\ $ (((\b[2]~input_o\ & ((\b[1]~input_o\) # (\a[0]~input_o\))) # (!\b[2]~input_o\ & (\b[1]~input_o\ & \a[0]~input_o\)))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0001011111101000",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \b[2]~input_o\,
datab => \b[1]~input_o\,
datac => \a[0]~input_o\,
datad => \b[3]~input_o\,
combout => \Mult0|auto_generated|le4a\(0));
-- Location: LCCOMB_X66_Y72_N0
\Mult0|auto_generated|le3a[2]\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mult0|auto_generated|le3a\(2) = LCELL((\b[0]~input_o\ & ((\a[2]~input_o\ $ (\b[1]~input_o\)))) # (!\b[0]~input_o\ & (!\a[1]~input_o\ & ((\b[1]~input_o\)))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0011010111000000",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \a[1]~input_o\,
datab => \a[2]~input_o\,
datac => \b[0]~input_o\,
datad => \b[1]~input_o\,
combout => \Mult0|auto_generated|le3a\(2));
-- Location: LCCOMB_X65_Y72_N0
\Mult0|auto_generated|le4a[5]\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mult0|auto_generated|le4a\(5) = LCELL(\b[3]~input_o\ $ (((\b[2]~input_o\ & \b[1]~input_o\))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0101111110100000",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \b[2]~input_o\,
datac => \b[1]~input_o\,
datad => \b[3]~input_o\,
combout => \Mult0|auto_generated|le4a\(5));
-- Location: LCCOMB_X65_Y72_N10
\Mult0|auto_generated|op_1~0\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mult0|auto_generated|op_1~0_combout\ = (\Mult0|auto_generated|le3a\(2) & (\Mult0|auto_generated|le4a\(5) $ (VCC))) # (!\Mult0|auto_generated|le3a\(2) & (\Mult0|auto_generated|le4a\(5) & VCC))
-- \Mult0|auto_generated|op_1~1\ = CARRY((\Mult0|auto_generated|le3a\(2) & \Mult0|auto_generated|le4a\(5)))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0110011010001000",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \Mult0|auto_generated|le3a\(2),
datab => \Mult0|auto_generated|le4a\(5),
datad => VCC,
combout => \Mult0|auto_generated|op_1~0_combout\,
cout => \Mult0|auto_generated|op_1~1\);
-- Location: LCCOMB_X66_Y72_N16
\Mult0|auto_generated|op_3~4\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mult0|auto_generated|op_3~4_combout\ = ((\Mult0|auto_generated|le4a\(0) $ (\Mult0|auto_generated|op_1~0_combout\ $ (!\Mult0|auto_generated|op_3~3\)))) # (GND)
-- \Mult0|auto_generated|op_3~5\ = CARRY((\Mult0|auto_generated|le4a\(0) & ((\Mult0|auto_generated|op_1~0_combout\) # (!\Mult0|auto_generated|op_3~3\))) # (!\Mult0|auto_generated|le4a\(0) & (\Mult0|auto_generated|op_1~0_combout\ &
-- !\Mult0|auto_generated|op_3~3\)))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0110100110001110",
sum_lutc_input => "cin")
-- pragma translate_on
PORT MAP (
dataa => \Mult0|auto_generated|le4a\(0),
datab => \Mult0|auto_generated|op_1~0_combout\,
datad => VCC,
cin => \Mult0|auto_generated|op_3~3\,
combout => \Mult0|auto_generated|op_3~4_combout\,
cout => \Mult0|auto_generated|op_3~5\);
-- Location: LCCOMB_X67_Y71_N28
\Add0~8\ : cycloneive_lcell_comb
-- Equation(s):
-- \Add0~8_combout\ = \op[0]~input_o\ $ (\b[2]~input_o\)
-- pragma translate_off
GENERIC MAP (
lut_mask => "0101101001011010",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \op[0]~input_o\,
datac => \b[2]~input_o\,
combout => \Add0~8_combout\);
-- Location: LCCOMB_X67_Y71_N16
\Add0~9\ : cycloneive_lcell_comb
-- Equation(s):
-- \Add0~9_combout\ = (\a[2]~input_o\ & ((\Add0~8_combout\ & (\Add0~7\ & VCC)) # (!\Add0~8_combout\ & (!\Add0~7\)))) # (!\a[2]~input_o\ & ((\Add0~8_combout\ & (!\Add0~7\)) # (!\Add0~8_combout\ & ((\Add0~7\) # (GND)))))
-- \Add0~10\ = CARRY((\a[2]~input_o\ & (!\Add0~8_combout\ & !\Add0~7\)) # (!\a[2]~input_o\ & ((!\Add0~7\) # (!\Add0~8_combout\))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1001011000010111",
sum_lutc_input => "cin")
-- pragma translate_on
PORT MAP (
dataa => \a[2]~input_o\,
datab => \Add0~8_combout\,
datad => VCC,
cin => \Add0~7\,
combout => \Add0~9_combout\,
cout => \Add0~10\);
-- Location: LCCOMB_X67_Y71_N30
\Mux1~0\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mux1~0_combout\ = (\Mux3~4_combout\ & ((\Mult0|auto_generated|op_3~4_combout\) # ((\Mux3~3_combout\)))) # (!\Mux3~4_combout\ & (((\Add0~9_combout\ & !\Mux3~3_combout\))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1111000010101100",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \Mult0|auto_generated|op_3~4_combout\,
datab => \Add0~9_combout\,
datac => \Mux3~4_combout\,
datad => \Mux3~3_combout\,
combout => \Mux1~0_combout\);
-- Location: LCCOMB_X67_Y71_N2
\Mux1~1\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mux1~1_combout\ = (\Mux1~0_combout\ & (((!\Mux3~3_combout\) # (!\Mod0|auto_generated|divider|divider|selnose[5]~1_combout\)))) # (!\Mux1~0_combout\ & (\Mux1~3_combout\ & ((\Mux3~3_combout\))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0011101011110000",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \Mux1~3_combout\,
datab => \Mod0|auto_generated|divider|divider|selnose[5]~1_combout\,
datac => \Mux1~0_combout\,
datad => \Mux3~3_combout\,
combout => \Mux1~1_combout\);
-- Location: LCCOMB_X65_Y72_N26
\Mult0|auto_generated|le3a[3]\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mult0|auto_generated|le3a\(3) = LCELL((\b[0]~input_o\ & ((\a[3]~input_o\ $ (\b[1]~input_o\)))) # (!\b[0]~input_o\ & (!\a[2]~input_o\ & ((\b[1]~input_o\)))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0011110001010000",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \a[2]~input_o\,
datab => \a[3]~input_o\,
datac => \b[1]~input_o\,
datad => \b[0]~input_o\,
combout => \Mult0|auto_generated|le3a\(3));
-- Location: LCCOMB_X65_Y72_N12
\Mult0|auto_generated|op_1~2\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mult0|auto_generated|op_1~2_combout\ = (\Mult0|auto_generated|le3a\(3) & (!\Mult0|auto_generated|op_1~1\)) # (!\Mult0|auto_generated|le3a\(3) & ((\Mult0|auto_generated|op_1~1\) # (GND)))
-- \Mult0|auto_generated|op_1~3\ = CARRY((!\Mult0|auto_generated|op_1~1\) # (!\Mult0|auto_generated|le3a\(3)))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0101101001011111",
sum_lutc_input => "cin")
-- pragma translate_on
PORT MAP (
dataa => \Mult0|auto_generated|le3a\(3),
datad => VCC,
cin => \Mult0|auto_generated|op_1~1\,
combout => \Mult0|auto_generated|op_1~2_combout\,
cout => \Mult0|auto_generated|op_1~3\);
-- Location: LCCOMB_X65_Y72_N4
\Mult0|auto_generated|cs2a[1]~0\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mult0|auto_generated|cs2a[1]~0_combout\ = \b[1]~input_o\ $ (\b[2]~input_o\)
-- pragma translate_off
GENERIC MAP (
lut_mask => "0000111111110000",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
datac => \b[1]~input_o\,
datad => \b[2]~input_o\,
combout => \Mult0|auto_generated|cs2a[1]~0_combout\);
-- Location: LCCOMB_X66_Y72_N28
\Mult0|auto_generated|le4a[1]\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mult0|auto_generated|le4a\(1) = LCELL((\Mult0|auto_generated|cs2a[1]~0_combout\ & ((\a[1]~input_o\ $ (\Mult0|auto_generated|le4a\(5))))) # (!\Mult0|auto_generated|cs2a[1]~0_combout\ & (!\a[0]~input_o\ & ((\Mult0|auto_generated|le4a\(5))))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0001110111000000",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \a[0]~input_o\,
datab => \Mult0|auto_generated|cs2a[1]~0_combout\,
datac => \a[1]~input_o\,
datad => \Mult0|auto_generated|le4a\(5),
combout => \Mult0|auto_generated|le4a\(1));
-- Location: LCCOMB_X66_Y72_N18
\Mult0|auto_generated|op_3~6\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mult0|auto_generated|op_3~6_combout\ = (\Mult0|auto_generated|op_1~2_combout\ & ((\Mult0|auto_generated|le4a\(1) & (\Mult0|auto_generated|op_3~5\ & VCC)) # (!\Mult0|auto_generated|le4a\(1) & (!\Mult0|auto_generated|op_3~5\)))) #
-- (!\Mult0|auto_generated|op_1~2_combout\ & ((\Mult0|auto_generated|le4a\(1) & (!\Mult0|auto_generated|op_3~5\)) # (!\Mult0|auto_generated|le4a\(1) & ((\Mult0|auto_generated|op_3~5\) # (GND)))))
-- \Mult0|auto_generated|op_3~7\ = CARRY((\Mult0|auto_generated|op_1~2_combout\ & (!\Mult0|auto_generated|le4a\(1) & !\Mult0|auto_generated|op_3~5\)) # (!\Mult0|auto_generated|op_1~2_combout\ & ((!\Mult0|auto_generated|op_3~5\) #
-- (!\Mult0|auto_generated|le4a\(1)))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1001011000010111",
sum_lutc_input => "cin")
-- pragma translate_on
PORT MAP (
dataa => \Mult0|auto_generated|op_1~2_combout\,
datab => \Mult0|auto_generated|le4a\(1),
datad => VCC,
cin => \Mult0|auto_generated|op_3~5\,
combout => \Mult0|auto_generated|op_3~6_combout\,
cout => \Mult0|auto_generated|op_3~7\);
-- Location: LCCOMB_X66_Y71_N8
\Mod0|auto_generated|divider|divider|StageOut[15]~8\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mod0|auto_generated|divider|divider|StageOut[15]~8_combout\ = (\Mod0|auto_generated|divider|divider|add_sub_3_result_int[4]~8_combout\ & (\Mod0|auto_generated|divider|divider|StageOut[10]~3_combout\)) #
-- (!\Mod0|auto_generated|divider|divider|add_sub_3_result_int[4]~8_combout\ & ((\Mod0|auto_generated|divider|divider|add_sub_3_result_int[3]~6_combout\)))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1010101011110000",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \Mod0|auto_generated|divider|divider|StageOut[10]~3_combout\,
datac => \Mod0|auto_generated|divider|divider|add_sub_3_result_int[3]~6_combout\,
datad => \Mod0|auto_generated|divider|divider|add_sub_3_result_int[4]~8_combout\,
combout => \Mod0|auto_generated|divider|divider|StageOut[15]~8_combout\);
-- Location: LCCOMB_X67_Y72_N30
\Mux0~2\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mux0~2_combout\ = (\a[3]~input_o\ & ((\b[3]~input_o\ $ (\op[1]~input_o\)) # (!\op[0]~input_o\))) # (!\a[3]~input_o\ & ((\op[1]~input_o\ & ((\b[3]~input_o\))) # (!\op[1]~input_o\ & (!\op[0]~input_o\))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0111101010110011",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \a[3]~input_o\,
datab => \op[0]~input_o\,
datac => \b[3]~input_o\,
datad => \op[1]~input_o\,
combout => \Mux0~2_combout\);
-- Location: LCCOMB_X67_Y72_N24
\Mux0~3\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mux0~3_combout\ = (\Mux0~2_combout\ & ((\Mod0|auto_generated|divider|divider|StageOut[15]~8_combout\) # ((\op[0]~input_o\) # (\op[1]~input_o\))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1111000011100000",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \Mod0|auto_generated|divider|divider|StageOut[15]~8_combout\,
datab => \op[0]~input_o\,
datac => \Mux0~2_combout\,
datad => \op[1]~input_o\,
combout => \Mux0~3_combout\);
-- Location: LCCOMB_X68_Y71_N4
\Add0~11\ : cycloneive_lcell_comb
-- Equation(s):
-- \Add0~11_combout\ = \op[0]~input_o\ $ (\b[3]~input_o\)
-- pragma translate_off
GENERIC MAP (
lut_mask => "0011001111001100",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
datab => \op[0]~input_o\,
datad => \b[3]~input_o\,
combout => \Add0~11_combout\);
-- Location: LCCOMB_X67_Y71_N18
\Add0~12\ : cycloneive_lcell_comb
-- Equation(s):
-- \Add0~12_combout\ = \a[3]~input_o\ $ (\Add0~10\ $ (!\Add0~11_combout\))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0011110011000011",
sum_lutc_input => "cin")
-- pragma translate_on
PORT MAP (
datab => \a[3]~input_o\,
datad => \Add0~11_combout\,
cin => \Add0~10\,
combout => \Add0~12_combout\);
-- Location: LCCOMB_X67_Y72_N16
\Mux0~0\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mux0~0_combout\ = (\Mux3~3_combout\ & ((\Mux0~3_combout\) # ((\Mux3~4_combout\)))) # (!\Mux3~3_combout\ & (((\Add0~12_combout\ & !\Mux3~4_combout\))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1010101011011000",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \Mux3~3_combout\,
datab => \Mux0~3_combout\,
datac => \Add0~12_combout\,
datad => \Mux3~4_combout\,
combout => \Mux0~0_combout\);
-- Location: LCCOMB_X66_Y72_N2
\Mod0|auto_generated|divider|divider|selnose[0]~2\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mod0|auto_generated|divider|divider|selnose[0]~2_combout\ = (!\b[2]~input_o\ & !\b[3]~input_o\)
-- pragma translate_off
GENERIC MAP (
lut_mask => "0000000001010101",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \b[2]~input_o\,
datad => \b[3]~input_o\,
combout => \Mod0|auto_generated|divider|divider|selnose[0]~2_combout\);
-- Location: LCCOMB_X67_Y72_N26
\Mod0|auto_generated|divider|divider|selnose[0]\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mod0|auto_generated|divider|divider|selnose\(0) = ((\b[1]~input_o\) # ((!\a[3]~input_o\ & \b[0]~input_o\))) # (!\Mod0|auto_generated|divider|divider|selnose[0]~2_combout\)
-- pragma translate_off
GENERIC MAP (
lut_mask => "1111111101110101",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \Mod0|auto_generated|divider|divider|selnose[0]~2_combout\,
datab => \a[3]~input_o\,
datac => \b[0]~input_o\,
datad => \b[1]~input_o\,
combout => \Mod0|auto_generated|divider|divider|selnose\(0));
-- Location: LCCOMB_X67_Y72_N4
\Mux0~1\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mux0~1_combout\ = (\Mux0~0_combout\ & (((!\Mux3~4_combout\) # (!\Mod0|auto_generated|divider|divider|selnose\(0))))) # (!\Mux0~0_combout\ & (\Mult0|auto_generated|op_3~6_combout\ & ((\Mux3~4_combout\))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0010111011001100",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \Mult0|auto_generated|op_3~6_combout\,
datab => \Mux0~0_combout\,
datac => \Mod0|auto_generated|divider|divider|selnose\(0),
datad => \Mux3~4_combout\,
combout => \Mux0~1_combout\);
-- Location: LCCOMB_X65_Y72_N30
\Mult0|auto_generated|le3a[4]\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mult0|auto_generated|le3a\(4) = LCELL((\b[1]~input_o\ & ((\b[0]~input_o\) # (!\a[3]~input_o\))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1111000000110000",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
datab => \a[3]~input_o\,
datac => \b[1]~input_o\,
datad => \b[0]~input_o\,
combout => \Mult0|auto_generated|le3a\(4));
-- Location: LCCOMB_X65_Y72_N24
\Mult0|auto_generated|le4a[2]\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mult0|auto_generated|le4a\(2) = LCELL((\Mult0|auto_generated|cs2a[1]~0_combout\ & (\Mult0|auto_generated|le4a\(5) $ ((\a[2]~input_o\)))) # (!\Mult0|auto_generated|cs2a[1]~0_combout\ & (\Mult0|auto_generated|le4a\(5) & ((!\a[1]~input_o\)))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0010100001101100",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \Mult0|auto_generated|cs2a[1]~0_combout\,
datab => \Mult0|auto_generated|le4a\(5),
datac => \a[2]~input_o\,
datad => \a[1]~input_o\,
combout => \Mult0|auto_generated|le4a\(2));
-- Location: LCCOMB_X65_Y72_N14
\Mult0|auto_generated|op_1~4\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mult0|auto_generated|op_1~4_combout\ = ((\Mult0|auto_generated|le3a\(4) $ (\Mult0|auto_generated|le4a\(2) $ (!\Mult0|auto_generated|op_1~3\)))) # (GND)
-- \Mult0|auto_generated|op_1~5\ = CARRY((\Mult0|auto_generated|le3a\(4) & ((\Mult0|auto_generated|le4a\(2)) # (!\Mult0|auto_generated|op_1~3\))) # (!\Mult0|auto_generated|le3a\(4) & (\Mult0|auto_generated|le4a\(2) & !\Mult0|auto_generated|op_1~3\)))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0110100110001110",
sum_lutc_input => "cin")
-- pragma translate_on
PORT MAP (
dataa => \Mult0|auto_generated|le3a\(4),
datab => \Mult0|auto_generated|le4a\(2),
datad => VCC,
cin => \Mult0|auto_generated|op_1~3\,
combout => \Mult0|auto_generated|op_1~4_combout\,
cout => \Mult0|auto_generated|op_1~5\);
-- Location: LCCOMB_X65_Y72_N6
\Mult0|auto_generated|le5a[0]\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mult0|auto_generated|le5a\(0) = LCELL((\a[0]~input_o\ & ((\b[3]~input_o\) # ((\b[2]~input_o\ & \b[1]~input_o\)))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1100110010000000",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \b[2]~input_o\,
datab => \a[0]~input_o\,
datac => \b[1]~input_o\,
datad => \b[3]~input_o\,
combout => \Mult0|auto_generated|le5a\(0));
-- Location: LCCOMB_X66_Y72_N20
\Mult0|auto_generated|op_3~8\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mult0|auto_generated|op_3~8_combout\ = ((\Mult0|auto_generated|op_1~4_combout\ $ (\Mult0|auto_generated|le5a\(0) $ (!\Mult0|auto_generated|op_3~7\)))) # (GND)
-- \Mult0|auto_generated|op_3~9\ = CARRY((\Mult0|auto_generated|op_1~4_combout\ & ((\Mult0|auto_generated|le5a\(0)) # (!\Mult0|auto_generated|op_3~7\))) # (!\Mult0|auto_generated|op_1~4_combout\ & (\Mult0|auto_generated|le5a\(0) &
-- !\Mult0|auto_generated|op_3~7\)))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0110100110001110",
sum_lutc_input => "cin")
-- pragma translate_on
PORT MAP (
dataa => \Mult0|auto_generated|op_1~4_combout\,
datab => \Mult0|auto_generated|le5a\(0),
datad => VCC,
cin => \Mult0|auto_generated|op_3~7\,
combout => \Mult0|auto_generated|op_3~8_combout\,
cout => \Mult0|auto_generated|op_3~9\);
-- Location: LCCOMB_X67_Y72_N6
\m~8\ : cycloneive_lcell_comb
-- Equation(s):
-- \m~8_combout\ = (!\op[2]~input_o\ & (\Mult0|auto_generated|op_3~8_combout\ & (!\op[0]~input_o\ & \op[1]~input_o\)))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0000010000000000",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \op[2]~input_o\,
datab => \Mult0|auto_generated|op_3~8_combout\,
datac => \op[0]~input_o\,
datad => \op[1]~input_o\,
combout => \m~8_combout\);
-- Location: LCCOMB_X66_Y72_N6
\Mult0|auto_generated|le5a[1]\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mult0|auto_generated|le5a\(1) = LCELL((\a[1]~input_o\ & ((\b[3]~input_o\) # ((\b[2]~input_o\ & \b[1]~input_o\)))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1111000010000000",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \b[2]~input_o\,
datab => \b[1]~input_o\,
datac => \a[1]~input_o\,
datad => \b[3]~input_o\,
combout => \Mult0|auto_generated|le5a\(1));
-- Location: LCCOMB_X65_Y72_N8
\Mult0|auto_generated|le4a[3]\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mult0|auto_generated|le4a\(3) = LCELL((\Mult0|auto_generated|cs2a[1]~0_combout\ & (\Mult0|auto_generated|le4a\(5) $ (((\a[3]~input_o\))))) # (!\Mult0|auto_generated|cs2a[1]~0_combout\ & (\Mult0|auto_generated|le4a\(5) & (!\a[2]~input_o\))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0010011010001100",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \Mult0|auto_generated|cs2a[1]~0_combout\,
datab => \Mult0|auto_generated|le4a\(5),
datac => \a[2]~input_o\,
datad => \a[3]~input_o\,
combout => \Mult0|auto_generated|le4a\(3));
-- Location: LCCOMB_X65_Y72_N16
\Mult0|auto_generated|op_1~6\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mult0|auto_generated|op_1~6_combout\ = (\Mult0|auto_generated|le5a\(1) & ((\Mult0|auto_generated|le4a\(3) & (\Mult0|auto_generated|op_1~5\ & VCC)) # (!\Mult0|auto_generated|le4a\(3) & (!\Mult0|auto_generated|op_1~5\)))) # (!\Mult0|auto_generated|le5a\(1)
-- & ((\Mult0|auto_generated|le4a\(3) & (!\Mult0|auto_generated|op_1~5\)) # (!\Mult0|auto_generated|le4a\(3) & ((\Mult0|auto_generated|op_1~5\) # (GND)))))
-- \Mult0|auto_generated|op_1~7\ = CARRY((\Mult0|auto_generated|le5a\(1) & (!\Mult0|auto_generated|le4a\(3) & !\Mult0|auto_generated|op_1~5\)) # (!\Mult0|auto_generated|le5a\(1) & ((!\Mult0|auto_generated|op_1~5\) # (!\Mult0|auto_generated|le4a\(3)))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1001011000010111",
sum_lutc_input => "cin")
-- pragma translate_on
PORT MAP (
dataa => \Mult0|auto_generated|le5a\(1),
datab => \Mult0|auto_generated|le4a\(3),
datad => VCC,
cin => \Mult0|auto_generated|op_1~5\,
combout => \Mult0|auto_generated|op_1~6_combout\,
cout => \Mult0|auto_generated|op_1~7\);
-- Location: LCCOMB_X67_Y72_N22
\Mult0|auto_generated|le3a[5]\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mult0|auto_generated|le3a\(5) = LCELL(\b[1]~input_o\)
-- pragma translate_off
GENERIC MAP (
lut_mask => "1111111100000000",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
datad => \b[1]~input_o\,
combout => \Mult0|auto_generated|le3a\(5));
-- Location: LCCOMB_X66_Y72_N22
\Mult0|auto_generated|op_3~10\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mult0|auto_generated|op_3~10_combout\ = (\Mult0|auto_generated|op_1~6_combout\ & ((\Mult0|auto_generated|le3a\(5) & (\Mult0|auto_generated|op_3~9\ & VCC)) # (!\Mult0|auto_generated|le3a\(5) & (!\Mult0|auto_generated|op_3~9\)))) #
-- (!\Mult0|auto_generated|op_1~6_combout\ & ((\Mult0|auto_generated|le3a\(5) & (!\Mult0|auto_generated|op_3~9\)) # (!\Mult0|auto_generated|le3a\(5) & ((\Mult0|auto_generated|op_3~9\) # (GND)))))
-- \Mult0|auto_generated|op_3~11\ = CARRY((\Mult0|auto_generated|op_1~6_combout\ & (!\Mult0|auto_generated|le3a\(5) & !\Mult0|auto_generated|op_3~9\)) # (!\Mult0|auto_generated|op_1~6_combout\ & ((!\Mult0|auto_generated|op_3~9\) #
-- (!\Mult0|auto_generated|le3a\(5)))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1001011000010111",
sum_lutc_input => "cin")
-- pragma translate_on
PORT MAP (
dataa => \Mult0|auto_generated|op_1~6_combout\,
datab => \Mult0|auto_generated|le3a\(5),
datad => VCC,
cin => \Mult0|auto_generated|op_3~9\,
combout => \Mult0|auto_generated|op_3~10_combout\,
cout => \Mult0|auto_generated|op_3~11\);
-- Location: LCCOMB_X67_Y72_N0
\m~9\ : cycloneive_lcell_comb
-- Equation(s):
-- \m~9_combout\ = (!\op[2]~input_o\ & (\Mult0|auto_generated|op_3~10_combout\ & (!\op[0]~input_o\ & \op[1]~input_o\)))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0000010000000000",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \op[2]~input_o\,
datab => \Mult0|auto_generated|op_3~10_combout\,
datac => \op[0]~input_o\,
datad => \op[1]~input_o\,
combout => \m~9_combout\);
-- Location: LCCOMB_X65_Y72_N2
\Mult0|auto_generated|le4a[4]\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mult0|auto_generated|le4a\(4) = LCELL((\a[3]~input_o\ & (\b[3]~input_o\ & (\b[2]~input_o\ $ (\b[1]~input_o\)))) # (!\a[3]~input_o\ & (\b[3]~input_o\ $ (((\b[2]~input_o\ & \b[1]~input_o\))))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0101101100100000",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \b[2]~input_o\,
datab => \a[3]~input_o\,
datac => \b[1]~input_o\,
datad => \b[3]~input_o\,
combout => \Mult0|auto_generated|le4a\(4));
-- Location: LCCOMB_X65_Y72_N28
\Mult0|auto_generated|le5a[2]\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mult0|auto_generated|le5a\(2) = LCELL((\a[2]~input_o\ & ((\b[3]~input_o\) # ((\b[1]~input_o\ & \b[2]~input_o\)))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1010100010100000",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \a[2]~input_o\,
datab => \b[1]~input_o\,
datac => \b[3]~input_o\,
datad => \b[2]~input_o\,
combout => \Mult0|auto_generated|le5a\(2));
-- Location: LCCOMB_X65_Y72_N18
\Mult0|auto_generated|op_1~8\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mult0|auto_generated|op_1~8_combout\ = ((\Mult0|auto_generated|le4a\(4) $ (\Mult0|auto_generated|le5a\(2) $ (!\Mult0|auto_generated|op_1~7\)))) # (GND)
-- \Mult0|auto_generated|op_1~9\ = CARRY((\Mult0|auto_generated|le4a\(4) & ((\Mult0|auto_generated|le5a\(2)) # (!\Mult0|auto_generated|op_1~7\))) # (!\Mult0|auto_generated|le4a\(4) & (\Mult0|auto_generated|le5a\(2) & !\Mult0|auto_generated|op_1~7\)))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0110100110001110",
sum_lutc_input => "cin")
-- pragma translate_on
PORT MAP (
dataa => \Mult0|auto_generated|le4a\(4),
datab => \Mult0|auto_generated|le5a\(2),
datad => VCC,
cin => \Mult0|auto_generated|op_1~7\,
combout => \Mult0|auto_generated|op_1~8_combout\,
cout => \Mult0|auto_generated|op_1~9\);
-- Location: LCCOMB_X66_Y72_N24
\Mult0|auto_generated|op_3~12\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mult0|auto_generated|op_3~12_combout\ = ((\Mult0|auto_generated|op_1~8_combout\ $ (\Mult0|auto_generated|le3a\(5) $ (!\Mult0|auto_generated|op_3~11\)))) # (GND)
-- \Mult0|auto_generated|op_3~13\ = CARRY((\Mult0|auto_generated|op_1~8_combout\ & ((\Mult0|auto_generated|le3a\(5)) # (!\Mult0|auto_generated|op_3~11\))) # (!\Mult0|auto_generated|op_1~8_combout\ & (\Mult0|auto_generated|le3a\(5) &
-- !\Mult0|auto_generated|op_3~11\)))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0110100110001110",
sum_lutc_input => "cin")
-- pragma translate_on
PORT MAP (
dataa => \Mult0|auto_generated|op_1~8_combout\,
datab => \Mult0|auto_generated|le3a\(5),
datad => VCC,
cin => \Mult0|auto_generated|op_3~11\,
combout => \Mult0|auto_generated|op_3~12_combout\,
cout => \Mult0|auto_generated|op_3~13\);
-- Location: LCCOMB_X67_Y72_N2
\m~10\ : cycloneive_lcell_comb
-- Equation(s):
-- \m~10_combout\ = (!\op[2]~input_o\ & (\Mult0|auto_generated|op_3~12_combout\ & (!\op[0]~input_o\ & \op[1]~input_o\)))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0000010000000000",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \op[2]~input_o\,
datab => \Mult0|auto_generated|op_3~12_combout\,
datac => \op[0]~input_o\,
datad => \op[1]~input_o\,
combout => \m~10_combout\);
-- Location: LCCOMB_X65_Y72_N22
\Mult0|auto_generated|le5a[3]\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mult0|auto_generated|le5a\(3) = LCELL((\a[3]~input_o\ & ((\b[3]~input_o\) # ((\b[2]~input_o\ & \b[1]~input_o\)))))
-- pragma translate_off
GENERIC MAP (
lut_mask => "1100110010000000",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \b[2]~input_o\,
datab => \a[3]~input_o\,
datac => \b[1]~input_o\,
datad => \b[3]~input_o\,
combout => \Mult0|auto_generated|le5a\(3));
-- Location: LCCOMB_X65_Y72_N20
\Mult0|auto_generated|op_1~10\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mult0|auto_generated|op_1~10_combout\ = \Mult0|auto_generated|le5a\(3) $ (\Mult0|auto_generated|op_1~9\ $ (!\Mult0|auto_generated|le4a\(5)))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0101101010100101",
sum_lutc_input => "cin")
-- pragma translate_on
PORT MAP (
dataa => \Mult0|auto_generated|le5a\(3),
datad => \Mult0|auto_generated|le4a\(5),
cin => \Mult0|auto_generated|op_1~9\,
combout => \Mult0|auto_generated|op_1~10_combout\);
-- Location: LCCOMB_X66_Y72_N26
\Mult0|auto_generated|op_3~14\ : cycloneive_lcell_comb
-- Equation(s):
-- \Mult0|auto_generated|op_3~14_combout\ = \Mult0|auto_generated|op_1~10_combout\ $ (\Mult0|auto_generated|op_3~13\ $ (!\Mult0|auto_generated|le3a\(5)))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0011110011000011",
sum_lutc_input => "cin")
-- pragma translate_on
PORT MAP (
datab => \Mult0|auto_generated|op_1~10_combout\,
datad => \Mult0|auto_generated|le3a\(5),
cin => \Mult0|auto_generated|op_3~13\,
combout => \Mult0|auto_generated|op_3~14_combout\);
-- Location: LCCOMB_X67_Y72_N28
\m~11\ : cycloneive_lcell_comb
-- Equation(s):
-- \m~11_combout\ = (\Mult0|auto_generated|op_3~14_combout\ & (\op[1]~input_o\ & (!\op[0]~input_o\ & !\op[2]~input_o\)))
-- pragma translate_off
GENERIC MAP (
lut_mask => "0000000000001000",
sum_lutc_input => "datac")
-- pragma translate_on
PORT MAP (
dataa => \Mult0|auto_generated|op_3~14_combout\,
datab => \op[1]~input_o\,
datac => \op[0]~input_o\,
datad => \op[2]~input_o\,
combout => \m~11_combout\);
ww_r(0) <= \r[0]~output_o\;
ww_r(1) <= \r[1]~output_o\;
ww_r(2) <= \r[2]~output_o\;
ww_r(3) <= \r[3]~output_o\;
ww_m(0) <= \m[0]~output_o\;
ww_m(1) <= \m[1]~output_o\;
ww_m(2) <= \m[2]~output_o\;
ww_m(3) <= \m[3]~output_o\;
END structure;