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------------------------------------------------------------------------------
-- Copyright (c) 2018 by Paul Scherrer Institute, Switzerland
-- All rights reserved.
-- Authors: Oliver Bruendler
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-- Description
------------------------------------------------------------------------------
-- This is a very basic clock crossing that allows passing multple independent
-- single-bit signals from one clock domain to another one.
-- Double stage synchronizers are implemeted for each bit, including then
-- required attributes.
--
------------------------------------------------------------------------------
-- Libraries
------------------------------------------------------------------------------
library ieee ;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
------------------------------------------------------------------------------
-- Entity Declaration
------------------------------------------------------------------------------
entity psi_common_bit_cc is
generic (
NumBits_g : positive := 1
);
port (
-- Clock Domain A
BitsA : in std_logic_vector(NumBits_g-1 downto 0);
-- Clock Domain B
ClkB : in std_logic;
BitsB : out std_logic_vector(NumBits_g-1 downto 0)
);
end entity;
------------------------------------------------------------------------------
-- Architecture Declaration
------------------------------------------------------------------------------
architecture rtl of psi_common_bit_cc is
signal Reg0 : std_logic_vector(NumBits_g-1 downto 0) := (others => '0');
signal Reg1 : std_logic_vector(NumBits_g-1 downto 0) := (others => '0');
attribute syn_srlstyle : string;
attribute syn_srlstyle of Reg0 : signal is "registers";
attribute syn_srlstyle of Reg1 : signal is "registers";
attribute shreg_extract : string;
attribute shreg_extract of Reg0 : signal is "no";
attribute shreg_extract of Reg1 : signal is "no";
attribute ASYNC_REG : string;
attribute ASYNC_REG of Reg0 : signal is "TRUE";
attribute ASYNC_REG of Reg1 : signal is "TRUE";
begin
-- Process
p : process(ClkB)
begin
if rising_edge(ClkB) then
Reg0 <= BitsA;
Reg1 <= Reg0;
end if;
end process;
BitsB <= Reg1;
end;
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