📄 targ32_wrp_netlist.vhd
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end component;
component OR2
port(
Y : out std_logic;
A : in std_logic;
B : in std_logic );
end component;
component AND2
port(
Y : out std_logic;
A : in std_logic;
B : in std_logic );
end component;
component VCC
port(
Y : out std_logic );
end component;
component GND
port(
Y : out std_logic );
end component;
begin
II_MAKE_MX2_2: MX2 port map (
Y => CLK_GATE(19),
A => Y_0,
B => Y_1,
S => S1);
II_MAKE_MX2_1: MX2 port map (
Y => Y_1,
A => NN_1,
B => NN_2,
S => S0);
II_MAKE_MX2_0: MX2 port map (
Y => Y_0,
A => NN_1,
B => NN_1,
S => S0);
II_MAKE_OR2: OR2 port map (
Y => S1,
A => TRDYN_OUT,
B => IRDYN_CLK);
II_MAKE_AND2: AND2 port map (
Y => S0,
A => P_BUS_EN_SIG(5),
B => N_103_0);
II_VCC_i: VCC port map (
Y => NN_2);
II_GND_i: GND port map (
Y => NN_1);
NN_3 <= '0';
NN_4 <= '1';
end beh;
--
library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
library synplify;
use synplify.components.all;
library proasic3;
use proasic3.components.all;
entity CM8_25 is
port(
P_BUS_EN_SIG : in std_logic_vector (5 downto 5);
CLK_GATE : out std_logic_vector (21 downto 21);
N_103_0 : in std_logic;
IRDYN_CLK : in std_logic;
TRDYN_OUT : in std_logic);
end CM8_25;
architecture beh of CM8_25 is
signal Y_0 : std_logic ;
signal Y_1 : std_logic ;
signal S1 : std_logic ;
signal NN_1 : std_logic ;
signal NN_2 : std_logic ;
signal S0 : std_logic ;
signal NN_3 : std_logic ;
signal NN_4 : std_logic ;
component MX2
port(
Y : out std_logic;
A : in std_logic;
B : in std_logic;
S : in std_logic );
end component;
component OR2
port(
Y : out std_logic;
A : in std_logic;
B : in std_logic );
end component;
component AND2
port(
Y : out std_logic;
A : in std_logic;
B : in std_logic );
end component;
component VCC
port(
Y : out std_logic );
end component;
component GND
port(
Y : out std_logic );
end component;
begin
II_MAKE_MX2_2: MX2 port map (
Y => CLK_GATE(21),
A => Y_0,
B => Y_1,
S => S1);
II_MAKE_MX2_1: MX2 port map (
Y => Y_1,
A => NN_1,
B => NN_2,
S => S0);
II_MAKE_MX2_0: MX2 port map (
Y => Y_0,
A => NN_1,
B => NN_1,
S => S0);
II_MAKE_OR2: OR2 port map (
Y => S1,
A => TRDYN_OUT,
B => IRDYN_CLK);
II_MAKE_AND2: AND2 port map (
Y => S0,
A => P_BUS_EN_SIG(5),
B => N_103_0);
II_VCC_i: VCC port map (
Y => NN_2);
II_GND_i: GND port map (
Y => NN_1);
NN_3 <= '0';
NN_4 <= '1';
end beh;
--
library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
library synplify;
use synplify.components.all;
library proasic3;
use proasic3.components.all;
entity CM8_24 is
port(
P_BUS_EN_SIG : in std_logic_vector (5 downto 5);
CLK_GATE : out std_logic_vector (23 downto 23);
N_103_0 : in std_logic;
IRDYN_CLK : in std_logic;
TRDYN_OUT : in std_logic);
end CM8_24;
architecture beh of CM8_24 is
signal Y_0 : std_logic ;
signal Y_1 : std_logic ;
signal S1 : std_logic ;
signal NN_1 : std_logic ;
signal NN_2 : std_logic ;
signal S0 : std_logic ;
signal NN_3 : std_logic ;
signal NN_4 : std_logic ;
component MX2
port(
Y : out std_logic;
A : in std_logic;
B : in std_logic;
S : in std_logic );
end component;
component OR2
port(
Y : out std_logic;
A : in std_logic;
B : in std_logic );
end component;
component AND2
port(
Y : out std_logic;
A : in std_logic;
B : in std_logic );
end component;
component VCC
port(
Y : out std_logic );
end component;
component GND
port(
Y : out std_logic );
end component;
begin
II_MAKE_MX2_2: MX2 port map (
Y => CLK_GATE(23),
A => Y_0,
B => Y_1,
S => S1);
II_MAKE_MX2_1: MX2 port map (
Y => Y_1,
A => NN_1,
B => NN_2,
S => S0);
II_MAKE_MX2_0: MX2 port map (
Y => Y_0,
A => NN_1,
B => NN_1,
S => S0);
II_MAKE_OR2: OR2 port map (
Y => S1,
A => TRDYN_OUT,
B => IRDYN_CLK);
II_MAKE_AND2: AND2 port map (
Y => S0,
A => P_BUS_EN_SIG(5),
B => N_103_0);
II_VCC_i: VCC port map (
Y => NN_2);
II_GND_i: GND port map (
Y => NN_1);
NN_3 <= '0';
NN_4 <= '1';
end beh;
--
library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
library synplify;
use synplify.components.all;
library proasic3;
use proasic3.components.all;
entity CM8_23 is
port(
P_BUS_EN_SIG : in std_logic_vector (7 downto 7);
CLK_GATE : out std_logic_vector (3 downto 3);
N_103_0 : in std_logic;
IRDYN_CLK : in std_logic;
TRDYN_OUT : in std_logic);
end CM8_23;
architecture beh of CM8_23 is
signal Y_0 : std_logic ;
signal Y_1 : std_logic ;
signal S1 : std_logic ;
signal NN_1 : std_logic ;
signal NN_2 : std_logic ;
signal S0 : std_logic ;
signal NN_3 : std_logic ;
signal NN_4 : std_logic ;
component MX2
port(
Y : out std_logic;
A : in std_logic;
B : in std_logic;
S : in std_logic );
end component;
component OR2
port(
Y : out std_logic;
A : in std_logic;
B : in std_logic );
end component;
component AND2
port(
Y : out std_logic;
A : in std_logic;
B : in std_logic );
end component;
component VCC
port(
Y : out std_logic );
end component;
component GND
port(
Y : out std_logic );
end component;
begin
II_MAKE_MX2_2: MX2 port map (
Y => CLK_GATE(3),
A => Y_0,
B => Y_1,
S => S1);
II_MAKE_MX2_1: MX2 port map (
Y => Y_1,
A => NN_1,
B => NN_2,
S => S0);
II_MAKE_MX2_0: MX2 port map (
Y => Y_0,
A => NN_1,
B => NN_1,
S => S0);
II_MAKE_OR2: OR2 port map (
Y => S1,
A => TRDYN_OUT,
B => IRDYN_CLK);
II_MAKE_AND2: AND2 port map (
Y => S0,
A => P_BUS_EN_SIG(7),
B => N_103_0);
II_VCC_i: VCC port map (
Y => NN_2);
II_GND_i: GND port map (
Y => NN_1);
NN_3 <= '0';
NN_4 <= '1';
end beh;
--
library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
library synplify;
use synplify.components.all;
library proasic3;
use proasic3.components.all;
entity CM8_22 is
port(
P_BUS_EN_SIG : in std_logic_vector (4 downto 4);
CLK_GATE : out std_logic_vector (25 downto 25);
N_103_0 : in std_logic;
IRDYN_CLK : in std_logic;
TRDYN_OUT : in std_logic);
end CM8_22;
architecture beh of CM8_22 is
signal Y_0 : std_logic ;
signal Y_1 : std_logic ;
signal S1 : std_logic ;
signal NN_1 : std_logic ;
signal NN_2 : std_logic ;
signal S0 : std_logic ;
signal NN_3 : std_logic ;
signal NN_4 : std_logic ;
component MX2
port(
Y : out std_logic;
A : in std_logic;
B : in std_logic;
S : in std_logic );
end component;
component OR2
port(
Y : out std_logic;
A : in std_logic;
B : in std_logic );
end component;
component AND2
port(
Y : out std_logic;
A : in std_logic;
B : in std_logic );
end component;
component VCC
port(
Y : out std_logic );
end component;
component GND
port(
Y : out std_logic );
end component;
begin
II_MAKE_MX2_2: MX2 port map (
Y => CLK_GATE(25),
A => Y_0,
B => Y_1,
S => S1);
II_MAKE_MX2_1: MX2 port map (
Y => Y_1,
A => NN_1,
B => NN_2,
S => S0);
II_MAKE_MX2_0: MX2 port map (
Y => Y_0,
A => NN_1,
B => NN_1,
S => S0);
II_MAKE_OR2: OR2 port map (
Y => S1,
A => TRDYN_OUT,
B => IRDYN_CLK);
II_MAKE_AND2: AND2 port map (
Y => S0,
A => P_BUS_EN_SIG(4),
B => N_103_0);
II_VCC_i: VCC port map (
Y => NN_2);
II_GND_i: GND port map (
Y => NN_1);
NN_3 <= '0';
NN_4 <= '1';
end beh;
--
library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
library synplify;
use synplify.components.all;
library proasic3;
use proasic3.components.all;
entity CM8_21 is
port(
P_BUS_EN_SIG : in std_logic_vector (5 downto 5);
CLK_GATE : out std_logic_vector (16 downto 16);
N_103_1 : in std_logic;
IRDYN_CLK : in std_logic;
TRDYN_OUT : in std_logic);
end CM8_21;
architecture beh of CM8_21 is
signal Y_0 : std_logic ;
signal Y_1 : std_logic ;
signal S1 : std_logic ;
signal NN_1 : std_logic ;
signal NN_2 : std_logic ;
signal S0 : std_logic ;
signal NN_3 : std_logic ;
signal NN_4 : std_logic ;
component MX2
port(
Y : out std_logic;
A : in std_logic;
B : in std_logic;
S : in std_logic );
end component;
component OR2
port(
Y : out std_logic;
A : in std_logic;
B : in std_logic );
end component;
component AND2
port(
Y : out std_logic;
A : in std_logic;
B : in std_logic );
end component;
component VCC
port(
Y : out std_logic );
end component;
component GND
port(
Y : out std_logic );
end component;
begin
II_MAKE_MX2_2: MX2 port map (
Y => CLK_GATE(16),
A => Y_0,
B => Y_1,
S => S1);
II_MAKE_MX2_1: MX2 port map (
Y => Y_1,
A => NN_1,
B => NN_2,
S => S0);
II_MAKE_MX2_0: MX2 port map (
Y => Y_0,
A => NN_1,
B => NN_1,
S => S0);
II_MAKE_OR2: OR2 port map (
Y => S1,
A => TRDYN_OUT,
B => IRDYN_CLK);
II_MAKE_AND2: AND2 port map (
Y => S0,
A => P_BUS_EN_SIG(5),
B => N_103_1);
II_VCC_i: VCC port map (
Y => NN_2);
II_GND_i: GND port map (
Y => NN_1);
NN_3 <= '0';
NN_4 <= '1';
end beh;
--
library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
library synplify;
use synplify.components.all;
library proasic3;
use proasic3.components.all;
entity CM8_20 is
port(
P_BUS_EN_SIG : in std_logic_vector (5 downto 5);
CLK_GATE : out std_logic_vector (18 downto 18);
N_103_1 : in std_logic;
IRDYN_CLK : in std_logic;
TRDYN_OUT : in std_logic);
end CM8_20;
architecture beh of CM8_20 is
signal Y_0 : std_logic ;
signal Y_1 : std_logic ;
signal S1 : std_logic ;
signal NN_1 : std_logic ;
signal NN_2 : std_logic ;
signal S0 : std_logic ;
signal NN_3 : std_logic ;
signal NN_4 : std_logic ;
component MX2
port(
Y : out std_logic;
A : in std_logic;
B : in std_logic;
S : in std_logic );
end component;
component OR2
port(
Y : out std_logic;
A : in std_logic;
B : in std_logic );
end component;
component AND2
port(
Y : out std_logic;
A : in std_logic;
B : in std_logic );
end component;
component VCC
port(
Y : out std_logic );
end component;
component GND
port(
Y : out std_logic );
end component;
begin
II_MAKE_MX2_2: MX2 port map (
Y => CLK_GATE(18),
A => Y_0,
B => Y_1,
S => S1);
II_MAKE_MX2_1: MX2 port map (
Y => Y_1,
A => NN_1,
B => NN_2,
S => S0);
II_MAKE_MX2_0: MX2 port map (
Y => Y_0,
A => NN_1,
B => NN_1,
S => S0);
II_MAKE_OR2: OR2 port map (
Y => S1,
A => TRDYN_OUT,
B => IRDYN_CLK);
II_MAKE_AND2: AND2 port map (
Y => S0,
A => P_BUS_EN_SIG(5),
B => N_103_1);
II_VCC_i: VCC port map (
Y => NN_2);
II_GND_i: GND port map (
Y => NN_1);
NN_3 <= '0';
NN_4 <= '1';
end beh;
--
library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
library synplify;
use synplify.components.all;
library proasic3;
use proasic3.components.all;
entity CM8_19 is
port(
P_BUS_EN_SIG : in std_logic_vector (5 downto 5);
CLK_GATE : out std_logic_vector (20 downto 20);
N_103_1 : in std_logic;
IRDYN_CLK : in std_logic;
TRDYN_OUT : in std_logic);
end CM8_19;
architecture beh of CM8_19 is
signal Y_0 : std_logic ;
signal Y_1 : std_logic ;
signal S1 : std_logic ;
signal NN_1 : std_logic ;
signal NN_2 : std_logic ;
signal S0 : std_logic ;
signal NN_3 : std_logic ;
signal NN_4 : std_logic ;
component MX2
port(
Y : out std_logic;
A : in std_logic;
B : in std_logic;
S : in std_logic );
end component;
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