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[/] [openrisc/] [trunk/] [orpsocv2/] [boards/] [xilinx/] [ml501/] [rtl/] [verilog/] [xilinx_ddr2/] [ddr2_phy_dqs_iob.v] - Blame information for rev 628

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//*****************************************************************************
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// DISCLAIMER OF LIABILITY
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//
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// This file contains proprietary and confidential information of
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// Xilinx, Inc. ("Xilinx"), that is distributed under a license
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// from Xilinx, and may be used, copied and/or disclosed only
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// pursuant to the terms of a valid license agreement with Xilinx.
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//
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// XILINX IS PROVIDING THIS DESIGN, CODE, OR INFORMATION
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// ("MATERIALS") "AS IS" WITHOUT WARRANTY OF ANY KIND, EITHER
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// EXPRESSED, IMPLIED, OR STATUTORY, INCLUDING WITHOUT
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// LIMITATION, ANY WARRANTY WITH RESPECT TO NONINFRINGEMENT,
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// MERCHANTABILITY OR FITNESS FOR ANY PARTICULAR PURPOSE. Xilinx
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// does not warrant that functions included in the Materials will
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// meet the requirements of Licensee, or that the operation of the
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// Materials will be uninterrupted or error-free, or that defects
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// in the Materials will be corrected. Furthermore, Xilinx does
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// not warrant or make any representations regarding use, or the
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// results of the use, of the Materials in terms of correctness,
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// accuracy, reliability or otherwise.
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//
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// Xilinx products are not designed or intended to be fail-safe,
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// or for use in any application requiring fail-safe performance,
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// such as life-support or safety devices or systems, Class III
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// medical devices, nuclear facilities, applications related to
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// the deployment of airbags, or any other applications that could
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// lead to death, personal injury or severe property or
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// environmental damage (individually and collectively, "critical
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// applications"). Customer assumes the sole risk and liability
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// of any use of Xilinx products in critical applications,
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// subject only to applicable laws and regulations governing
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// limitations on product liability.
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//
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// Copyright 2006, 2007, 2008 Xilinx, Inc.
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// All rights reserved.
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//
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// This disclaimer and copyright notice must be retained as part
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// of this file at all times.
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//*****************************************************************************
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//   ____  ____
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//  /   /\/   /
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// /___/  \  /    Vendor: Xilinx
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// \   \   \/     Version: 3.0
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//  \   \         Application: MIG
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//  /   /         Filename: ddr2_phy_dqs_iob.v
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// /___/   /\     Date Last Modified: $Date: 2008/12/23 14:26:00 $
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// \   \  /  \    Date Created: Wed Aug 16 2006
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//  \___\/\___\
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//
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//Device: Virtex-5
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//Design Name: DDR2
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//Purpose:
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//   This module places the data strobes in the IOBs.
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//Reference:
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//Revision History:
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//   Rev 1.1 - Parameter HIGH_PERFORMANCE_MODE added. PK. 7/10/08
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//   Rev 1.2 - Parameter IODELAY_GRP added and constraint IODELAY_GROUP added
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//             on IODELAY primitives. PK. 11/27/08
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//*****************************************************************************
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`timescale 1ns/1ps
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module ddr2_phy_dqs_iob #
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  (
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   // Following parameters are for 72-bit RDIMM design (for ML561 Reference
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   // board design). Actual values may be different. Actual parameters values
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   // are passed from design top module ddr2_mig module. Please refer to
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   // the ddr2_mig module for actual values.
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   parameter DDR_TYPE              = 1,
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   parameter HIGH_PERFORMANCE_MODE = "TRUE",
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   parameter IODELAY_GRP           = "IODELAY_MIG"
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   )
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  (
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   input        clk0,
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   input        clkdiv0,
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   input        rst0,
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   input        dlyinc_dqs,
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   input        dlyce_dqs,
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   input        dlyrst_dqs,
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   input        dlyinc_gate,
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   input        dlyce_gate,
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   input        dlyrst_gate,
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   input        dqs_oe_n,
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   input        dqs_rst_n,
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   input        en_dqs,
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   inout        ddr_dqs,
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   inout        ddr_dqs_n,
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   output       dq_ce,
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   output       delayed_dqs
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   );
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  wire                     clk180;
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  wire                     dqs_bufio;
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  wire                     dqs_ibuf;
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  wire                     dqs_idelay;
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  wire                     dqs_oe_n_delay;
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  wire                     dqs_oe_n_r;
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  wire                     dqs_rst_n_delay;
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  reg                      dqs_rst_n_r /* synthesis syn_preserve = 1*/;
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  wire                     dqs_out;
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  wire                     en_dqs_sync /* synthesis syn_keep = 1 */;
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  // for simulation only. Synthesis should ignore this delay
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  localparam    DQS_NET_DELAY = 0.8;
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  assign        clk180 = ~clk0;
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  // add delta delay to inputs clocked by clk180 to avoid delta-delay
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  // simulation issues
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  assign dqs_rst_n_delay = dqs_rst_n;
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  assign dqs_oe_n_delay  = dqs_oe_n;
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  //***************************************************************************
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  // DQS input-side resources:
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  //  - IODELAY (pad -> IDELAY)
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  //  - BUFIO (IDELAY -> BUFIO)
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  //***************************************************************************
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  // Route DQS from PAD to IDELAY
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  (* IODELAY_GROUP = IODELAY_GRP *) IODELAY #
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    (
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     .DELAY_SRC("I"),
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     .IDELAY_TYPE("VARIABLE"),
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     .HIGH_PERFORMANCE_MODE(HIGH_PERFORMANCE_MODE),
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     .IDELAY_VALUE(0),
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     .ODELAY_VALUE(0)
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     )
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    u_idelay_dqs
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      (
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       .DATAOUT (dqs_idelay),
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       .C       (clkdiv0),
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       .CE      (dlyce_dqs),
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       .DATAIN  (),
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       .IDATAIN (dqs_ibuf),
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       .INC     (dlyinc_dqs),
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       .ODATAIN (),
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       .RST     (dlyrst_dqs),
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       .T       ()
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       );
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  // From IDELAY to BUFIO
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  BUFIO u_bufio_dqs
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    (
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     .I  (dqs_idelay),
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     .O  (dqs_bufio)
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     );
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  // To model additional delay of DQS BUFIO + gating network
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  // for behavioral simulation. Make sure to select a delay number smaller
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  // than half clock cycle (otherwise output will not track input changes
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  // because of inertial delay). Duplicate to avoid delta delay issues.
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  assign #(DQS_NET_DELAY) i_delayed_dqs = dqs_bufio;
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  assign #(DQS_NET_DELAY) delayed_dqs   = dqs_bufio;
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  //***************************************************************************
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  // DQS gate circuit (not supported for all controllers)
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  //***************************************************************************
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  // Gate routing:
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  //   en_dqs -> IDELAY -> en_dqs_sync -> IDDR.S -> dq_ce ->
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  //   capture IDDR.CE
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  // Delay CE control so that it's in phase with delayed DQS
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  (* IODELAY_GROUP = IODELAY_GRP *) IODELAY #
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    (
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     .DELAY_SRC             ("DATAIN"),
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     .IDELAY_TYPE           ("VARIABLE"),
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     .HIGH_PERFORMANCE_MODE (HIGH_PERFORMANCE_MODE),
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     .IDELAY_VALUE          (0),
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     .ODELAY_VALUE          (0)
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     )
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    u_iodelay_dq_ce
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      (
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       .DATAOUT (en_dqs_sync),
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       .C       (clkdiv0),
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       .CE      (dlyce_gate),
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       .DATAIN  (en_dqs),
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       .IDATAIN (),
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       .INC     (dlyinc_gate),
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       .ODATAIN (),
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       .RST     (dlyrst_gate),
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       .T       ()
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       );
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  // Generate sync'ed CE to DQ IDDR's using an IDDR clocked by DQS
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  // We could also instantiate a negative-edge SDR flop here
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  IDDR #
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    (
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     .DDR_CLK_EDGE ("OPPOSITE_EDGE"),
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     .INIT_Q1      (1'b0),
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     .INIT_Q2      (1'b0),
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     .SRTYPE       ("ASYNC")
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     )
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    u_iddr_dq_ce
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      (
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       .Q1 (),
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       .Q2 (dq_ce),           // output on falling edge
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       .C  (i_delayed_dqs),
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       .CE (1'b1),
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       .D  (en_dqs_sync),
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       .R  (1'b0),
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       .S  (en_dqs_sync)
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       );
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  //***************************************************************************
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  // DQS output-side resources
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  //***************************************************************************
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  // synthesis attribute keep of dqs_rst_n_r is "true"
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  always @(posedge clk180)
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    dqs_rst_n_r <= dqs_rst_n_delay;
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  ODDR #
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    (
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     .SRTYPE("SYNC"),
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     .DDR_CLK_EDGE("OPPOSITE_EDGE")
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     )
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    u_oddr_dqs
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      (
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       .Q  (dqs_out),
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       .C  (clk180),
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       .CE (1'b1),
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       .D1 (dqs_rst_n_r),      // keep output deasserted for write preamble
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       .D2 (1'b0),
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       .R  (1'b0),
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       .S  (1'b0)
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       );
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  (* IOB = "FORCE" *) FDP u_tri_state_dqs
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    (
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     .D   (dqs_oe_n_delay),
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     .Q   (dqs_oe_n_r),
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     .C   (clk180),
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     .PRE (rst0)
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     ) /* synthesis syn_useioff = 1 */;
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  //***************************************************************************
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  // use either single-ended (for DDR1) or differential (for DDR2) DQS input
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  generate
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    if (DDR_TYPE > 0) begin: gen_dqs_iob_ddr2
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      IOBUFDS u_iobuf_dqs
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        (
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         .O   (dqs_ibuf),
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         .IO  (ddr_dqs),
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         .IOB (ddr_dqs_n),
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         .I   (dqs_out),
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         .T   (dqs_oe_n_r)
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         );
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    end else begin: gen_dqs_iob_ddr1
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      IOBUF u_iobuf_dqs
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        (
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         .O   (dqs_ibuf),
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         .IO  (ddr_dqs),
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         .I   (dqs_out),
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         .T   (dqs_oe_n_r)
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         );
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    end
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  endgenerate
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endmodule

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