--//////////////////////////////////////////////////////////////////////////////// --// ____ ____ --// / /\/ / --// /___/ \ / Vendor: Xilinx --// \ \ \/ Version : 3.6 --// \ \ Application : 7 Series FPGAs Transceivers Wizard --// / / Filename : amc_gtx5gpd_sync_block.vhd --// /___/ /\ --// \ \ / \ --// \___\/\___\ --// --// -- -- 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. -- -- -- Module amc_gtx5Gpd_sync_block -- Generated by Xilinx 7 Series FPGAs Transceivers Wizard -- -- -- (c) Copyright 2010-2012 Xilinx, Inc. All rights reserved. -- -- This file contains confidential and proprietary information -- of Xilinx, Inc. and is protected under U.S. and -- international copyright and other intellectual property -- laws. -- -- DISCLAIMER -- This disclaimer is not a license and does not grant any -- rights to the materials distributed herewith. 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Customer assumes the sole risk and -- liability of any use of Xilinx products in Critical -- Applications, subject only to applicable laws and -- regulations governing limitations on product liability. -- -- THIS COPYRIGHT NOTICE AND DISCLAIMER MUST BE RETAINED AS -- PART OF THIS FILE AT ALL TIMES. library ieee; use ieee.std_logic_1164.all; library unisim; use unisim.vcomponents.all; entity amc_gtx5Gpd_sync_block is generic ( INITIALISE : bit_vector(5 downto 0) := "000000" ); 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 ); -- attribute dont_touch : string; -- attribute dont_touch of amc_gtx5Gpd_sync_block : entity is "yes"; end amc_gtx5Gpd_sync_block; architecture structural of amc_gtx5Gpd_sync_block is -- Internal Signals signal data_sync1 : std_logic; signal data_sync2 : std_logic; signal data_sync3 : std_logic; signal data_sync4 : std_logic; signal data_sync5 : std_logic; -- These attributes will stop timing errors being reported in back annotated -- SDF simulation. attribute ASYNC_REG : string; attribute ASYNC_REG of data_sync_reg1 : label is "true"; attribute ASYNC_REG of data_sync_reg2 : label is "true"; attribute ASYNC_REG of data_sync_reg3 : label is "true"; attribute ASYNC_REG of data_sync_reg4 : label is "true"; attribute ASYNC_REG of data_sync_reg5 : label is "true"; attribute ASYNC_REG of data_sync_reg6 : label is "true"; -- These attributes will stop XST translating the desired flip-flops into an -- SRL based shift register. attribute shreg_extract : string; attribute shreg_extract of data_sync_reg1 : label is "no"; attribute shreg_extract of data_sync_reg2 : label is "no"; attribute shreg_extract of data_sync_reg3 : label is "no"; attribute shreg_extract of data_sync_reg4 : label is "no"; attribute shreg_extract of data_sync_reg5 : label is "no"; attribute shreg_extract of data_sync_reg6 : label is "no"; begin data_sync_reg1 : FD generic map ( INIT => INITIALISE(0) ) port map ( C => clk, D => data_in, Q => data_sync1 ); data_sync_reg2 : FD generic map ( INIT => INITIALISE(1) ) port map ( C => clk, D => data_sync1, Q => data_sync2 ); data_sync_reg3 : FD generic map ( INIT => INITIALISE(2) ) port map ( C => clk, D => data_sync2, Q => data_sync3 ); data_sync_reg4 : FD generic map ( INIT => INITIALISE(3) ) port map ( C => clk, D => data_sync3, Q => data_sync4 ); data_sync_reg5 : FD generic map ( INIT => INITIALISE(4) ) port map ( C => clk, D => data_sync4, Q => data_sync5 ); data_sync_reg6 : FD generic map ( INIT => INITIALISE(5) ) port map ( C => clk, D => data_sync5, Q => data_out ); end structural;