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[/] [openrisc/] [trunk/] [orpsocv2/] [boards/] [xilinx/] [ml501/] [rtl/] [verilog/] [xilinx_ddr2/] [ddr2_phy_io.v] - Blame information for rev 502

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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
5
// 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_io.v
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// /___/   /\     Date Last Modified: $Date: 2009/01/15 14:22:14 $
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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
52
//Purpose:
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//   This module instantiates calibration logic, data, data strobe and the
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//   data mask iobs.
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//Reference:
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//Revision History:
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//   Rev 1.1 - DM_IOB instance made based on USE_DM_PORT value . PK. 25/6/08
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//   Rev 1.2 - Parameter HIGH_PERFORMANCE_MODE added. PK. 7/10/08
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//   Rev 1.3 - Parameter IODELAY_GRP added. PK. 11/27/08
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//*****************************************************************************
61
 
62
`timescale 1ns/1ps
63
 
64
module ddr2_phy_io #
65
  (
66
   // 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
68
   // are passed from design top module ddr2_mig module. Please refer to
69
   // the ddr2_mig module for actual values.
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   parameter CLK_WIDTH             = 1,
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   parameter USE_DM_PORT           = 1,
72
   parameter DM_WIDTH              = 9,
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   parameter DQ_WIDTH              = 72,
74
   parameter DQ_BITS               = 7,
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   parameter DQ_PER_DQS            = 8,
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   parameter DQS_BITS              = 4,
77
   parameter DQS_WIDTH             = 9,
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   parameter HIGH_PERFORMANCE_MODE = "TRUE",
79
   parameter IODELAY_GRP           = "IODELAY_MIG",
80
   parameter ODT_WIDTH             = 1,
81
   parameter ADDITIVE_LAT          = 0,
82
   parameter CAS_LAT               = 5,
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   parameter REG_ENABLE            = 1,
84
   parameter CLK_PERIOD            = 3000,
85
   parameter DDR_TYPE              = 1,
86
   parameter SIM_ONLY              = 0,
87
   parameter DEBUG_EN              = 0,
88
   parameter FPGA_SPEED_GRADE      = 2
89
   )
90
  (
91
   input                                clk0,
92
   input                                clk90,
93
   input                                clkdiv0,
94
   input                                rst0,
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   input                                rst90,
96
   input                                rstdiv0,
97
   input                                dm_ce,
98
   input [1:0]                          dq_oe_n,
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   input                                dqs_oe_n,
100
   input                                dqs_rst_n,
101
   input [3:0]                          calib_start,
102
   input                                ctrl_rden,
103
   input                                phy_init_rden,
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   input                                calib_ref_done,
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   output [3:0]                         calib_done,
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   output                               calib_ref_req,
107
   output [DQS_WIDTH-1:0]               calib_rden,
108
   output [DQS_WIDTH-1:0]               calib_rden_sel,
109
   input [DQ_WIDTH-1:0]                 wr_data_rise,
110
   input [DQ_WIDTH-1:0]                 wr_data_fall,
111
   input [(DQ_WIDTH/8)-1:0]             mask_data_rise,
112
   input [(DQ_WIDTH/8)-1:0]             mask_data_fall,
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   output [(DQ_WIDTH)-1:0]              rd_data_rise,
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   output [(DQ_WIDTH)-1:0]              rd_data_fall,
115
   output [CLK_WIDTH-1:0]               ddr_ck,
116
   output [CLK_WIDTH-1:0]               ddr_ck_n,
117
   output [DM_WIDTH-1:0]                ddr_dm,
118
   inout [DQS_WIDTH-1:0]                ddr_dqs,
119
   inout [DQS_WIDTH-1:0]                ddr_dqs_n,
120
   inout [DQ_WIDTH-1:0]                 ddr_dq,
121
   // Debug signals (optional use)
122
   input                                dbg_idel_up_all,
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   input                                dbg_idel_down_all,
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   input                                dbg_idel_up_dq,
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   input                                dbg_idel_down_dq,
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   input                                dbg_idel_up_dqs,
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   input                                dbg_idel_down_dqs,
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   input                                dbg_idel_up_gate,
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   input                                dbg_idel_down_gate,
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   input [DQ_BITS-1:0]                  dbg_sel_idel_dq,
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   input                                dbg_sel_all_idel_dq,
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   input [DQS_BITS:0]                   dbg_sel_idel_dqs,
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   input                                dbg_sel_all_idel_dqs,
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   input [DQS_BITS:0]                   dbg_sel_idel_gate,
135
   input                                dbg_sel_all_idel_gate,
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   output [3:0]                         dbg_calib_done,
137
   output [3:0]                         dbg_calib_err,
138
   output [(6*DQ_WIDTH)-1:0]            dbg_calib_dq_tap_cnt,
139
   output [(6*DQS_WIDTH)-1:0]           dbg_calib_dqs_tap_cnt,
140
   output [(6*DQS_WIDTH)-1:0]           dbg_calib_gate_tap_cnt,
141
   output [DQS_WIDTH-1:0]               dbg_calib_rd_data_sel,
142
   output [(5*DQS_WIDTH)-1:0]           dbg_calib_rden_dly,
143
   output [(5*DQS_WIDTH)-1:0]           dbg_calib_gate_dly
144
   );
145
 
146
  // ratio of # of physical DM outputs to bytes in data bus
147
  // may be different - e.g. if using x4 components
148
  localparam DM_TO_BYTE_RATIO = DM_WIDTH / (DQ_WIDTH/8);
149
 
150
  wire [CLK_WIDTH-1:0]                     ddr_ck_q;
151
  wire [DQS_WIDTH-1:0]                     delayed_dqs;
152
  wire [DQ_WIDTH-1:0]                      dlyce_dq;
153
  wire [DQS_WIDTH-1:0]                     dlyce_dqs;
154
  wire [DQS_WIDTH-1:0]                     dlyce_gate;
155
  wire [DQ_WIDTH-1:0]                      dlyinc_dq;
156
  wire [DQS_WIDTH-1:0]                     dlyinc_dqs;
157
  wire [DQS_WIDTH-1:0]                     dlyinc_gate;
158
  wire                                     dlyrst_dq;
159
  wire                                     dlyrst_dqs;
160
  wire [DQS_WIDTH-1:0]                     dlyrst_gate;
161
  wire [DQS_WIDTH-1:0]                     dq_ce;
162
  (* KEEP = "TRUE" *) wire [DQS_WIDTH-1:0] en_dqs /* synthesis syn_keep = 1 */;
163
  wire [DQS_WIDTH-1:0]                     rd_data_sel;
164
 
165
  //***************************************************************************
166
 
167
  ddr2_phy_calib #
168
    (
169
     .DQ_WIDTH      (DQ_WIDTH),
170
     .DQ_BITS       (DQ_BITS),
171
     .DQ_PER_DQS    (DQ_PER_DQS),
172
     .DQS_BITS      (DQS_BITS),
173
     .DQS_WIDTH     (DQS_WIDTH),
174
     .ADDITIVE_LAT  (ADDITIVE_LAT),
175
     .CAS_LAT       (CAS_LAT),
176
     .REG_ENABLE    (REG_ENABLE),
177
     .CLK_PERIOD    (CLK_PERIOD),
178
     .SIM_ONLY      (SIM_ONLY),
179
     .DEBUG_EN      (DEBUG_EN)
180
     )
181
    u_phy_calib
182
      (
183
       .clk                    (clk0),
184
       .clkdiv                 (clkdiv0),
185
       .rstdiv                 (rstdiv0),
186
       .calib_start            (calib_start),
187
       .ctrl_rden              (ctrl_rden),
188
       .phy_init_rden          (phy_init_rden),
189
       .rd_data_rise           (rd_data_rise),
190
       .rd_data_fall           (rd_data_fall),
191
       .calib_ref_done         (calib_ref_done),
192
       .calib_done             (calib_done),
193
       .calib_ref_req          (calib_ref_req),
194
       .calib_rden             (calib_rden),
195
       .calib_rden_sel         (calib_rden_sel),
196
       .dlyrst_dq              (dlyrst_dq),
197
       .dlyce_dq               (dlyce_dq),
198
       .dlyinc_dq              (dlyinc_dq),
199
       .dlyrst_dqs             (dlyrst_dqs),
200
       .dlyce_dqs              (dlyce_dqs),
201
       .dlyinc_dqs             (dlyinc_dqs),
202
       .dlyrst_gate            (dlyrst_gate),
203
       .dlyce_gate             (dlyce_gate),
204
       .dlyinc_gate            (dlyinc_gate),
205
       .en_dqs                 (en_dqs),
206
       .rd_data_sel            (rd_data_sel),
207
       .dbg_idel_up_all        (dbg_idel_up_all),
208
       .dbg_idel_down_all      (dbg_idel_down_all),
209
       .dbg_idel_up_dq         (dbg_idel_up_dq),
210
       .dbg_idel_down_dq       (dbg_idel_down_dq),
211
       .dbg_idel_up_dqs        (dbg_idel_up_dqs),
212
       .dbg_idel_down_dqs      (dbg_idel_down_dqs),
213
       .dbg_idel_up_gate       (dbg_idel_up_gate),
214
       .dbg_idel_down_gate     (dbg_idel_down_gate),
215
       .dbg_sel_idel_dq        (dbg_sel_idel_dq),
216
       .dbg_sel_all_idel_dq    (dbg_sel_all_idel_dq),
217
       .dbg_sel_idel_dqs       (dbg_sel_idel_dqs),
218
       .dbg_sel_all_idel_dqs   (dbg_sel_all_idel_dqs),
219
       .dbg_sel_idel_gate      (dbg_sel_idel_gate),
220
       .dbg_sel_all_idel_gate  (dbg_sel_all_idel_gate),
221
       .dbg_calib_done         (dbg_calib_done),
222
       .dbg_calib_err          (dbg_calib_err),
223
       .dbg_calib_dq_tap_cnt   (dbg_calib_dq_tap_cnt),
224
       .dbg_calib_dqs_tap_cnt  (dbg_calib_dqs_tap_cnt),
225
       .dbg_calib_gate_tap_cnt (dbg_calib_gate_tap_cnt),
226
       .dbg_calib_rd_data_sel  (dbg_calib_rd_data_sel),
227
       .dbg_calib_rden_dly     (dbg_calib_rden_dly),
228
       .dbg_calib_gate_dly     (dbg_calib_gate_dly)
229
       );
230
 
231
  //***************************************************************************
232
  // Memory clock generation
233
  //***************************************************************************
234
 
235
  genvar ck_i;
236
  generate
237
    for(ck_i = 0; ck_i < CLK_WIDTH; ck_i = ck_i+1) begin: gen_ck
238
      ODDR #
239
        (
240
         .SRTYPE       ("SYNC"),
241
         .DDR_CLK_EDGE ("OPPOSITE_EDGE")
242
         )
243
        u_oddr_ck_i
244
          (
245
           .Q   (ddr_ck_q[ck_i]),
246
           .C   (clk0),
247
           .CE  (1'b1),
248
           .D1  (1'b0),
249
           .D2  (1'b1),
250
           .R   (1'b0),
251
           .S   (1'b0)
252
           );
253
      // Can insert ODELAY here if required
254
      OBUFDS u_obuf_ck_i
255
        (
256
         .I   (ddr_ck_q[ck_i]),
257
         .O   (ddr_ck[ck_i]),
258
         .OB  (ddr_ck_n[ck_i])
259
         );
260
    end
261
  endgenerate
262
 
263
  //***************************************************************************
264
  // DQS instances
265
  //***************************************************************************
266
 
267
  genvar dqs_i;
268
  generate
269
    for(dqs_i = 0; dqs_i < DQS_WIDTH; dqs_i = dqs_i+1) begin: gen_dqs
270
      ddr2_phy_dqs_iob #
271
        (
272
         .DDR_TYPE              (DDR_TYPE),
273
         .HIGH_PERFORMANCE_MODE (HIGH_PERFORMANCE_MODE),
274
         .IODELAY_GRP           (IODELAY_GRP)
275
         )
276
        u_iob_dqs
277
          (
278
           .clk0           (clk0),
279
           .clkdiv0        (clkdiv0),
280
           .rst0           (rst0),
281
           .dlyinc_dqs     (dlyinc_dqs[dqs_i]),
282
           .dlyce_dqs      (dlyce_dqs[dqs_i]),
283
           .dlyrst_dqs     (dlyrst_dqs),
284
           .dlyinc_gate    (dlyinc_gate[dqs_i]),
285
           .dlyce_gate     (dlyce_gate[dqs_i]),
286
           .dlyrst_gate    (dlyrst_gate[dqs_i]),
287
           .dqs_oe_n       (dqs_oe_n),
288
           .dqs_rst_n      (dqs_rst_n),
289
           .en_dqs         (en_dqs[dqs_i]),
290
           .ddr_dqs        (ddr_dqs[dqs_i]),
291
           .ddr_dqs_n      (ddr_dqs_n[dqs_i]),
292
           .dq_ce          (dq_ce[dqs_i]),
293
           .delayed_dqs    (delayed_dqs[dqs_i])
294
           );
295
    end
296
  endgenerate
297
 
298
  //***************************************************************************
299
  // DM instances
300
  //***************************************************************************
301
 
302
  genvar dm_i;
303
  generate
304
    if (USE_DM_PORT) begin: gen_dm_inst
305
      for(dm_i = 0; dm_i < DM_WIDTH; dm_i = dm_i+1) begin: gen_dm
306
        ddr2_phy_dm_iob u_iob_dm
307
          (
308
           .clk90           (clk90),
309
           .dm_ce           (dm_ce),
310
           .mask_data_rise  (mask_data_rise[dm_i/DM_TO_BYTE_RATIO]),
311
           .mask_data_fall  (mask_data_fall[dm_i/DM_TO_BYTE_RATIO]),
312
           .ddr_dm          (ddr_dm[dm_i])
313
           );
314
      end
315
    end
316
  endgenerate
317
 
318
  //***************************************************************************
319
  // DQ IOB instances
320
  //***************************************************************************
321
 
322
  genvar dq_i;
323
  generate
324
    for(dq_i = 0; dq_i < DQ_WIDTH; dq_i = dq_i+1) begin: gen_dq
325
      ddr2_phy_dq_iob #
326
        (
327
         .HIGH_PERFORMANCE_MODE (HIGH_PERFORMANCE_MODE),
328
         .IODELAY_GRP           (IODELAY_GRP),
329
         .FPGA_SPEED_GRADE      (FPGA_SPEED_GRADE)
330
         )
331
        u_iob_dq
332
        (
333
         .clk0         (clk0),
334
         .clk90        (clk90),
335
         .clkdiv0      (clkdiv0),
336
         .rst90        (rst90),
337
         .dlyinc       (dlyinc_dq[dq_i]),
338
         .dlyce        (dlyce_dq[dq_i]),
339
         .dlyrst       (dlyrst_dq),
340
         .dq_oe_n      (dq_oe_n),
341
         .dqs          (delayed_dqs[dq_i/DQ_PER_DQS]),
342
         .ce           (dq_ce[dq_i/DQ_PER_DQS]),
343
         .rd_data_sel  (rd_data_sel[dq_i/DQ_PER_DQS]),
344
         .wr_data_rise (wr_data_rise[dq_i]),
345
         .wr_data_fall (wr_data_fall[dq_i]),
346
         .rd_data_rise (rd_data_rise[dq_i]),
347
         .rd_data_fall (rd_data_fall[dq_i]),
348
         .ddr_dq       (ddr_dq[dq_i])
349
         );
350
    end
351
  endgenerate
352
 
353
endmodule

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