cg_eth_1gmac_gmii_axi_sync

--------------------------------------------------------------------------------
-- Title      : CDC Sync Block
-- Project    : Tri-Mode Ethernet MAC
--------------------------------------------------------------------------------
-- File       : cg_eth_1gmac_gmii_axi_sync_block.vhd
-- Author     : Xilinx Inc.
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-- Description: Used on signals crossing from one clock domain to
--              another, this is a flip-flop pair, with both flops
--              placed together with RLOCs into the same slice.  Thus
--              the routing delay between the two is minimum to safe-
--              guard against metastability issues.
-- -----------------------------------------------------------------------------
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library ieee;
use ieee.std_logic_1164.all;

library unisim;
use unisim.vcomponents.all;

entity cg_eth_1gmac_gmii_axi_sync_block is
  generic (
    INITIALISE : bit_vector(1 downto 0) := "00"
  );
  port (
    clk         : in  std_logic;          -- clock to be sync'ed to
    data_in     : in  std_logic;          -- Data to be 'synced'
    data_out    : out std_logic           -- synced data
    );

end cg_eth_1gmac_gmii_axi_sync_block;


architecture structural of cg_eth_1gmac_gmii_axi_sync_block is


  -- Internal Signals
  signal data_sync1 : std_logic;
  signal data_sync2 : std_logic;

  -- These attributes will stop timing errors being reported in back annotated
  -- SDF simulation.
  attribute ASYNC_REG               : string;
  attribute ASYNC_REG of data_sync1 : signal is "TRUE";
  attribute ASYNC_REG of data_sync2 : signal is "TRUE";

  attribute RLOC                    : string;
  attribute RLOC      of data_sync1 : signal is "X0Y0";
  attribute RLOC      of data_sync2 : signal is "X0Y0";

  attribute SHREG_EXTRACT               : string;
  attribute SHREG_EXTRACT of data_sync1 : signal is "NO";
  attribute SHREG_EXTRACT of data_sync2 : signal is "NO";


begin

  data_sync : FD
  generic map (
    INIT => INITIALISE(0)
  )
  port map (
    C    => clk,
    D    => data_in,
    Q    => data_sync1
  );


  data_sync_reg : FD
  generic map (
    INIT => INITIALISE(1)
  )
  port map (
    C    => clk,
    D    => data_sync1,
    Q    => data_sync2
  );

  data_out <= data_sync2;


end structural;