📄 phy_data_read.vhd
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-------------------------------------------------------------------------------
-- Copyright (c) 2006 Xilinx, Inc.
-- This design is confidential and proprietary of Xilinx, All Rights Reserved.
-------------------------------------------------------------------------------
-- ____ ____
-- / /\/ /
-- /___/ \ / Vendor: Xilinx
-- \ \ \/ Version: 1.1
-- \ \ Filename: phy_data_read.vhd
-- / / Date Last Modified: 5/10/06
-- /___/ /\ Date Created:
-- \ \ / \
-- \___\/\___\
--
--Device: Virtex-5
--Purpose: Top-level for read capture logic. One copy instantiated at phy_top
-- for each DQS strobe. This module itself instantiates: (1) data read
-- calibration and capture logic (2) read enable calibration and
-- control logic.
--Reference:
-- XAPP851
--Revision History:
-- Rev 1.0 - Internal release. Author: Toshihiko Moriyama. 4/29/06.
-- Rev 1.1 - External release. Added header. 5/10/06.
-------------------------------------------------------------------------------
library IEEE;
use IEEE.std_logic_1164.all;
use IEEE.std_logic_arith.all;
use IEEE.std_logic_unsigned.all;
library unisim ;
use unisim.vcomponents.all ;
library work;
use work.ddr1_parameters.all;
entity phy_data_read is
port(
rst : in std_logic;
clk0 : in std_logic;
-- internal interface
rd_data : out std_logic_vector(dq_per_dqs*2 - 1 downto 0);
rd_lat : out std_logic_vector(5 downto 0);
latency : in std_logic_vector(3 downto 0); -- Fixed latency
rd_en_in : in std_logic; -- from controller
calib_start0 : in std_logic; -- calibration phase 1 starts
calib_start1 : in std_logic; -- calibration phase 2 starts
calib_done0 : out std_logic; -- calibration phase 1 done
calib_done1 : out std_logic; -- calibration phase 2 done
error : out std_logic;
-- Memory interface
DQ : in std_logic_vector(dq_per_dqs - 1 downto 0);
DQS : in std_logic
);
end phy_data_read;
-----------------------------------------------
architecture rtl of phy_data_read is
component phy_dq_align is
port(
rst : in std_logic;
clk0 : in std_logic;
DQS : in std_logic;
DQ : in std_logic_vector(dq_per_dqs - 1 downto 0);
rd_data : out std_logic_vector(dq_per_dqs*2 - 1 downto 0);
calib_start : in std_logic;
calib_done : out std_logic
);
end component;
component phy_rden_align is
port(
rst : in std_logic;
clk0 : in std_logic;
rd_en_i : in std_logic; -- From controller
rd_data_i : in std_logic_vector(dq_per_dqs*2 - 1 downto 0); -- From the read data capture logic
rd_data_o : out std_logic_vector(dq_per_dqs*2 - 1 downto 0); -- To UI
rd_lat_o : out std_logic_vector(5 downto 0); -- To UI
latency : in std_logic_vector(3 downto 0); -- Fixed latency
calib_start : in std_logic; -- From controller
calib_done : out std_logic; -- To controller. When 1, second calibration done
error : out std_logic
);
end component;
signal rd_data_aligned : std_logic_vector(dq_per_dqs*2 - 1 downto 0);
begin
PHY_DQ_ALIGN_I : phy_dq_align
port map (
rst => rst,
clk0 => clk0,
DQS => DQS,
DQ => DQ,
rd_data => rd_data_aligned,
calib_start => calib_start0,
calib_done => calib_done0
);
PHY_RDEN_ALIGN_I : phy_rden_align
port map(
rst => rst,
clk0 => clk0,
rd_en_i => rd_en_in,
rd_data_i => rd_data_aligned,
rd_data_o => rd_data,
rd_lat_o => rd_lat,
latency => latency,
calib_start => calib_start1,
calib_done => calib_done1,
error => error
);
end rtl;
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