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[/] [sdr_ctrl/] [trunk/] [verif/] [model/] [mt48lc4m32b2.v] - Blame information for rev 58

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1 7 dinesha
//////////////////////////////////////////////////////////////////////////////
2
//  File name : mt48lc4m32b2.v
3
//////////////////////////////////////////////////////////////////////////////
4
//  Copyright (C) 2006 Free Model Foundry; http://www.freemodelfoundry.com
5
//
6
//  This program is free software; you can redistribute it and/or modify
7
//  it under the terms of the GNU General Public License version 2 as
8
//  published by the Free Software Foundation.
9
//
10
//  MODIFICATION HISTORY:
11
//
12
//  version: |  author:       |  mod date:  | changes made:
13
//    V1.0     I.Milutinovic     06 Apr 18    Initial release
14
//
15
//////////////////////////////////////////////////////////////////////////////
16
//  PART DESCRIPTION:
17
//
18
//  Library:    RAM
19
//  Technology: LVTTL
20
//  Part:       MT48LC4M32B2
21
//
22
//  Description: 1M x 32 x 4Banks SDRAM
23
//
24
//////////////////////////////////////////////////////////////////////////////
25
//  Known Bugs:
26
//
27
//////////////////////////////////////////////////////////////////////////////
28
 
29
//////////////////////////////////////////////////////////////////////////////
30
// MODULE DECLARATION                                                       //
31
//////////////////////////////////////////////////////////////////////////////
32
`timescale 1 ns/100 ps
33
 
34
module mt48lc4m32b2
35
    (
36
     A11      ,
37
     A10      ,
38
     A9       ,
39
     A8       ,
40
     A7       ,
41
     A6       ,
42
     A5       ,
43
     A4       ,
44
     A3       ,
45
     A2       ,
46
     A1       ,
47
     A0       ,
48
 
49
     DQ31      ,
50
     DQ30      ,
51
     DQ29      ,
52
     DQ28      ,
53
     DQ27      ,
54
     DQ26      ,
55
     DQ25      ,
56
     DQ24      ,
57
     DQ23      ,
58
     DQ22      ,
59
     DQ21      ,
60
     DQ20      ,
61
     DQ19      ,
62
     DQ18      ,
63
     DQ17      ,
64
     DQ16      ,
65
     DQ15      ,
66
     DQ14      ,
67
     DQ13      ,
68
     DQ12      ,
69
     DQ11      ,
70
     DQ10      ,
71
     DQ9       ,
72
     DQ8       ,
73
     DQ7       ,
74
     DQ6       ,
75
     DQ5       ,
76
     DQ4       ,
77
     DQ3       ,
78
     DQ2       ,
79
     DQ1       ,
80
     DQ0       ,
81
 
82
     BA0  ,
83
     BA1  ,
84
     DQM3 ,
85
     DQM2 ,
86
     DQM1 ,
87
     DQM0 ,
88
     CLK  ,
89
     CKE  ,
90
     WENeg  ,
91
     RASNeg ,
92
     CSNeg  ,
93
     CASNeg );
94
 
95
    ////////////////////////////////////////////////////////////////////////
96
    // Port / Part Pin Declarations
97
    ////////////////////////////////////////////////////////////////////////
98
    input  A11  ;
99
    input  A10  ;
100
    input  A9   ;
101
    input  A8   ;
102
    input  A7   ;
103
    input  A6   ;
104
    input  A5   ;
105
    input  A4   ;
106
    input  A3   ;
107
    input  A2   ;
108
    input  A1   ;
109
    input  A0   ;
110
 
111
    inout  DQ31   ;
112
    inout  DQ30   ;
113
    inout  DQ29   ;
114
    inout  DQ28   ;
115
    inout  DQ27   ;
116
    inout  DQ26   ;
117
    inout  DQ25   ;
118
    inout  DQ24   ;
119
    inout  DQ23   ;
120
    inout  DQ22   ;
121
    inout  DQ21   ;
122
    inout  DQ20   ;
123
    inout  DQ19   ;
124
    inout  DQ18   ;
125
    inout  DQ17   ;
126
    inout  DQ16   ;
127
    inout  DQ15   ;
128
    inout  DQ14   ;
129
    inout  DQ13   ;
130
    inout  DQ12   ;
131
    inout  DQ11   ;
132
    inout  DQ10   ;
133
    inout  DQ9   ;
134
    inout  DQ8   ;
135
    inout  DQ7   ;
136
    inout  DQ6   ;
137
    inout  DQ5   ;
138
    inout  DQ4   ;
139
    inout  DQ3   ;
140
    inout  DQ2   ;
141
    inout  DQ1   ;
142
    inout  DQ0   ;
143
 
144
    input  BA0   ;
145
    input  BA1   ;
146
    input  DQM3  ;
147
    input  DQM2  ;
148
    input  DQM1  ;
149
    input  DQM0  ;
150
    input  CLK   ;
151
    input  CKE   ;
152
    input  WENeg  ;
153
    input  RASNeg ;
154
    input  CSNeg  ;
155
    input  CASNeg ;
156
 
157
    // interconnect path delay signals
158
    wire   A11_ipd  ;
159
    wire   A10_ipd  ;
160
    wire   A9_ipd   ;
161
    wire   A8_ipd   ;
162
    wire   A7_ipd   ;
163
    wire   A6_ipd   ;
164
    wire   A5_ipd   ;
165
    wire   A4_ipd   ;
166
    wire   A3_ipd   ;
167
    wire   A2_ipd   ;
168
    wire   A1_ipd   ;
169
    wire   A0_ipd   ;
170
 
171
    wire [11 : 0] A;
172
    assign        A = {A11_ipd,
173
                               A10_ipd,
174
                               A9_ipd,
175
                               A8_ipd,
176
                               A7_ipd,
177
                               A6_ipd,
178
                               A5_ipd,
179
                               A4_ipd,
180
                               A3_ipd,
181
                               A2_ipd,
182
                               A1_ipd,
183
                               A0_ipd };
184
 
185
    wire          DQ31_ipd   ;
186
    wire          DQ30_ipd   ;
187
    wire          DQ29_ipd   ;
188
    wire          DQ28_ipd   ;
189
    wire          DQ27_ipd   ;
190
    wire          DQ26_ipd   ;
191
    wire          DQ25_ipd   ;
192
    wire          DQ24_ipd   ;
193
    wire          DQ23_ipd   ;
194
    wire          DQ22_ipd   ;
195
    wire          DQ21_ipd   ;
196
    wire          DQ20_ipd   ;
197
    wire          DQ19_ipd   ;
198
    wire          DQ18_ipd   ;
199
    wire          DQ17_ipd   ;
200
    wire          DQ16_ipd   ;
201
    wire          DQ15_ipd   ;
202
    wire          DQ14_ipd   ;
203
    wire          DQ13_ipd   ;
204
    wire          DQ12_ipd   ;
205
    wire          DQ11_ipd   ;
206
    wire          DQ10_ipd   ;
207
    wire          DQ9_ipd   ;
208
    wire          DQ8_ipd   ;
209
    wire          DQ7_ipd   ;
210
    wire          DQ6_ipd   ;
211
    wire          DQ5_ipd   ;
212
    wire          DQ4_ipd   ;
213
    wire          DQ3_ipd   ;
214
    wire          DQ2_ipd   ;
215
    wire          DQ1_ipd   ;
216
    wire          DQ0_ipd   ;
217
 
218
    wire [31 : 0 ] DQIn;
219
    assign      DQIn = { DQ31_ipd,
220
                         DQ30_ipd,
221
                         DQ29_ipd,
222
                         DQ28_ipd,
223
                         DQ27_ipd,
224
                         DQ26_ipd,
225
                         DQ25_ipd,
226
                         DQ24_ipd,
227
                         DQ23_ipd,
228
                         DQ22_ipd,
229
                         DQ21_ipd,
230
                         DQ20_ipd,
231
                         DQ19_ipd,
232
                         DQ18_ipd,
233
                         DQ17_ipd,
234
                         DQ16_ipd,
235
                         DQ15_ipd,
236
                         DQ14_ipd,
237
                         DQ13_ipd,
238
                         DQ12_ipd,
239
                         DQ11_ipd,
240
                         DQ10_ipd,
241
                         DQ9_ipd,
242
                         DQ8_ipd,
243
                         DQ7_ipd,
244
                         DQ6_ipd,
245
                         DQ5_ipd,
246
                         DQ4_ipd,
247
                         DQ3_ipd,
248
                         DQ2_ipd,
249
                         DQ1_ipd,
250
                         DQ0_ipd };
251
 
252
    wire [31 : 0] DQOut;
253
    assign      DQOut = { DQ31,
254
                          DQ30,
255
                          DQ29,
256
                          DQ28,
257
                          DQ27,
258
                          DQ26,
259
                          DQ25,
260
                          DQ24,
261
                          DQ23,
262
                          DQ22,
263
                          DQ21,
264
                          DQ20,
265
                          DQ19,
266
                          DQ18,
267
                          DQ17,
268
                          DQ16,
269
                          DQ15,
270
                          DQ14,
271
                          DQ13,
272
                          DQ12,
273
                          DQ11,
274
                          DQ10,
275
                          DQ9,
276
                          DQ8,
277
                          DQ7,
278
                          DQ6,
279
                          DQ5,
280
                          DQ4,
281
                          DQ3,
282
                          DQ2,
283
                          DQ1,
284
                          DQ0 };
285
 
286
    wire  BA0_ipd   ;
287
    wire  BA1_ipd   ;
288
    wire  DQM3_ipd  ;
289
    wire  DQM2_ipd  ;
290
    wire  DQM1_ipd  ;
291
    wire  DQM0_ipd  ;
292
    wire  CLK_ipd   ;
293
    wire  CKE_ipd   ;
294
    wire  WENeg_ipd  ;
295
    wire  RASNeg_ipd ;
296
    wire  CSNeg_ipd  ;
297
    wire  CASNeg_ipd ;
298
 
299
    integer bank;
300
    integer bank_tmp;
301
 
302
    //  internal delays
303
    reg rct_in ;
304
    reg rct_out;
305
    reg [3:0] rcdt_in ;
306
    reg [3:0] rcdt_out;
307
    reg pre_in        ;
308
    reg pre_out       ;
309
    reg refreshed_in  ;
310
    reg refreshed_out ;
311
    reg rcar_out      ;
312
    reg rcar_in       ;
313
    reg wrt_in        ;
314
    reg wrt_out       ;
315
    reg [3:0] ras_in  = 1'b0;
316
    reg [3:0] ras_out = 1'b0;
317
 
318
    reg [31 : 0] DQ_zd = 32'bz;
319
    assign {DQ31_zd,
320
            DQ30_zd,
321
            DQ29_zd,
322
            DQ28_zd,
323
            DQ27_zd,
324
            DQ26_zd,
325
            DQ25_zd,
326
            DQ24_zd,
327
            DQ23_zd,
328
            DQ22_zd,
329
            DQ21_zd,
330
            DQ20_zd,
331
            DQ19_zd,
332
            DQ18_zd,
333
            DQ17_zd,
334
            DQ16_zd,
335
            DQ15_zd,
336
            DQ14_zd,
337
            DQ13_zd,
338
            DQ12_zd,
339
            DQ11_zd,
340
            DQ10_zd,
341
            DQ9_zd,
342
            DQ8_zd,
343
            DQ7_zd,
344
            DQ6_zd,
345
            DQ5_zd,
346
            DQ4_zd,
347
            DQ3_zd,
348
            DQ2_zd,
349
            DQ1_zd,
350
            DQ0_zd } = DQ_zd;
351
 
352
    parameter UserPreload   = 1'b1;
353
    parameter mem_file_name = "none";  //"mt48lc4m32b2.mem";
354
    parameter TimingModel   = "DefaultTimingModel";
355
    parameter PartID        = "mt48lc4m32b2";
356
    parameter hi_bank       = 3;
357
    parameter depth         = 25'h100000;
358
 
359
    reg PoweredUp = 1'b0;
360
    reg CKEreg    = 1'b0;
361
    reg CAS_Lat ;
362
    reg CAS_Lat2;
363
    reg [31:0] DataDrive = 32'bz ;
364
 
365
    // Memory array declaration
366
    integer Mem [0:(hi_bank+1)*depth*4-1];
367
 
368
    // Type definition for state machine
369
    parameter pwron           = 5'd0;
370
    parameter precharge       = 5'd1;
371
    parameter idle            = 5'd2;
372
    parameter mode_set        = 5'd3;
373
    parameter self_refresh    = 5'd4;
374
    parameter auto_refresh    = 5'd5;
375
    parameter pwrdwn          = 5'd6;
376
    parameter bank_act        = 5'd7;
377
    parameter bank_act_pwrdwn = 5'd8;
378
    parameter write           = 5'd9;
379
    parameter write_suspend   = 5'd10;
380
    parameter read            = 5'd11;
381
    parameter read_suspend    = 5'd12;
382
    parameter write_auto_pre  = 5'd13;
383
    parameter read_auto_pre   = 5'd14;
384
 
385
    reg [4:0] statebank [hi_bank:0];
386
 
387
    // Type definition for commands
388
    parameter desl = 4'd0;
389
    parameter nop  = 4'd1;
390
    parameter bst  = 4'd2;
391
    parameter rd   = 4'd3;
392
    parameter writ = 4'd4;
393
    parameter act  = 4'd5;
394
    parameter pre  = 4'd6;
395
    parameter mrs  = 4'd7;
396
    parameter ref  = 4'd8;
397
 
398
    reg [3:0] command = desl;
399
 
400
    // burst type
401
    parameter sequential = 1'b0;
402
    parameter interleave = 1'b1;
403
    reg Burst ;
404
 
405
    // write burst mode
406
    parameter programmed = 1'b0;
407
    parameter single     = 1'b1;
408
    reg WB ;
409
 
410
    //burst sequences
411
    integer  intab [0:63];
412
 
413
    reg [19:0] MemAddr [hi_bank:0];
414
    integer BurstCnt   [hi_bank:0];
415
    integer StartAddr  [hi_bank:0];
416
    integer BurstInc   [hi_bank:0];
417
    integer BaseLoc    [hi_bank:0];
418
 
419
    integer Loc;
420
    integer BurstLen;
421
    integer Burst_Bits;
422
 
423
    reg written = 1'b0;
424
    reg chip_en = 1'b0;
425
 
426
    integer cur_bank;
427
    reg [11:0] ModeReg ;
428
    integer Ref_Cnt = 0;
429
 
430
    time Next_Ref = 0;
431
    reg [8*8:1] BankString ;
432
 
433
    reg Viol = 1'b0;
434
    reg [31:0] DataDriveOut = 32'bz;
435
    reg [31:0] DataDrive1 = 32'bz;
436
    reg [31:0] DataDrive2 = 32'bz;
437
    reg [31:0] DataDrive3 = 32'bz;
438
 
439
    reg DQM0_reg0 ;
440
    reg DQM0_reg1 ;
441
    reg DQM0_reg2 ;
442
    reg DQM1_reg0 ;
443
    reg DQM1_reg1 ;
444
    reg DQM1_reg2 ;
445
    reg DQM2_reg0 ;
446
    reg DQM2_reg1 ;
447
    reg DQM2_reg2 ;
448
    reg DQM3_reg0 ;
449
    reg DQM3_reg1 ;
450
    reg DQM3_reg2 ;
451
 
452
    // tdevice values: values for internal delays
453
    time tdevice_TRC   = 0;
454
    time tdevice_TRCAR = 0;
455
    time tdevice_TRCD  = 0;
456
    time tdevice_TRP   = 0;
457
    time tdevice_TWR   = 0;
458
 
459
    ///////////////////////////////////////////////////////////////////////////
460
    //Interconnect Path Delay Section
461
    ///////////////////////////////////////////////////////////////////////////
462
    buf   (A11_ipd, A11);
463
    buf   (A10_ipd, A10);
464
    buf   (A9_ipd , A9 );
465
    buf   (A8_ipd , A8 );
466
    buf   (A7_ipd , A7 );
467
    buf   (A6_ipd , A6 );
468
    buf   (A5_ipd , A5 );
469
    buf   (A4_ipd , A4 );
470
    buf   (A3_ipd , A3 );
471
    buf   (A2_ipd , A2 );
472
    buf   (A1_ipd , A1 );
473
    buf   (A0_ipd , A0 );
474
 
475
    buf   (DQ31_ipd , DQ31 );
476
    buf   (DQ30_ipd , DQ30 );
477
    buf   (DQ29_ipd , DQ29 );
478
    buf   (DQ28_ipd , DQ28 );
479
    buf   (DQ27_ipd , DQ27 );
480
    buf   (DQ26_ipd , DQ26 );
481
    buf   (DQ25_ipd , DQ25 );
482
    buf   (DQ24_ipd , DQ24 );
483
    buf   (DQ23_ipd , DQ23 );
484
    buf   (DQ22_ipd , DQ22 );
485
    buf   (DQ21_ipd , DQ21 );
486
    buf   (DQ20_ipd , DQ20 );
487
    buf   (DQ19_ipd , DQ19 );
488
    buf   (DQ18_ipd , DQ18 );
489
    buf   (DQ17_ipd , DQ17 );
490
    buf   (DQ16_ipd , DQ16 );
491
    buf   (DQ15_ipd , DQ15 );
492
    buf   (DQ14_ipd , DQ14 );
493
    buf   (DQ13_ipd , DQ13 );
494
    buf   (DQ12_ipd , DQ12 );
495
    buf   (DQ11_ipd , DQ11 );
496
    buf   (DQ10_ipd , DQ10 );
497
    buf   (DQ9_ipd  , DQ9 );
498
    buf   (DQ8_ipd  , DQ8 );
499
    buf   (DQ7_ipd  , DQ7 );
500
    buf   (DQ6_ipd  , DQ6 );
501
    buf   (DQ5_ipd  , DQ5 );
502
    buf   (DQ4_ipd  , DQ4 );
503
    buf   (DQ3_ipd  , DQ3 );
504
    buf   (DQ2_ipd  , DQ2 );
505
    buf   (DQ1_ipd  , DQ1 );
506
    buf   (DQ0_ipd  , DQ0 );
507
 
508
    buf   (CASNeg_ipd, CASNeg);
509
    buf   (RASNeg_ipd, RASNeg);
510
    buf   (BA0_ipd   , BA0   );
511
    buf   (BA1_ipd   , BA1   );
512
    buf   (DQM0_ipd  , DQM0  );
513
    buf   (DQM1_ipd  , DQM1  );
514
    buf   (DQM2_ipd  , DQM2  );
515
    buf   (DQM3_ipd  , DQM3  );
516
    buf   (CLK_ipd   , CLK   );
517
    buf   (CKE_ipd   , CKE   );
518
    buf   (WENeg_ipd , WENeg );
519
    buf   (CSNeg_ipd , CSNeg );
520
 
521
    ///////////////////////////////////////////////////////////////////////////
522
    // Propagation  delay Section
523
    ///////////////////////////////////////////////////////////////////////////
524
    nmos   (DQ31 ,   DQ31_zd  , 1);
525
    nmos   (DQ30 ,   DQ30_zd  , 1);
526
    nmos   (DQ29 ,   DQ29_zd  , 1);
527
    nmos   (DQ28 ,   DQ28_zd  , 1);
528
    nmos   (DQ27 ,   DQ27_zd  , 1);
529
    nmos   (DQ26 ,   DQ26_zd  , 1);
530
    nmos   (DQ25 ,   DQ25_zd  , 1);
531
    nmos   (DQ24 ,   DQ24_zd  , 1);
532
    nmos   (DQ23 ,   DQ23_zd  , 1);
533
    nmos   (DQ22 ,   DQ22_zd  , 1);
534
    nmos   (DQ21 ,   DQ21_zd  , 1);
535
    nmos   (DQ20 ,   DQ20_zd  , 1);
536
    nmos   (DQ19 ,   DQ19_zd  , 1);
537
    nmos   (DQ18 ,   DQ18_zd  , 1);
538
    nmos   (DQ17 ,   DQ17_zd  , 1);
539
    nmos   (DQ16 ,   DQ16_zd  , 1);
540
    nmos   (DQ15 ,   DQ15_zd  , 1);
541
    nmos   (DQ14 ,   DQ14_zd  , 1);
542
    nmos   (DQ13 ,   DQ13_zd  , 1);
543
    nmos   (DQ12 ,   DQ12_zd  , 1);
544
    nmos   (DQ11 ,   DQ11_zd  , 1);
545
    nmos   (DQ10 ,   DQ10_zd  , 1);
546
    nmos   (DQ9  ,   DQ9_zd   , 1);
547
    nmos   (DQ8  ,   DQ8_zd   , 1);
548
    nmos   (DQ7  ,   DQ7_zd   , 1);
549
    nmos   (DQ6  ,   DQ6_zd   , 1);
550
    nmos   (DQ5  ,   DQ5_zd   , 1);
551
    nmos   (DQ4  ,   DQ4_zd   , 1);
552
    nmos   (DQ3  ,   DQ3_zd   , 1);
553
    nmos   (DQ2  ,   DQ2_zd   , 1);
554
    nmos   (DQ1  ,   DQ1_zd   , 1);
555
    nmos   (DQ0  ,   DQ0_zd   , 1);
556
 
557
    wire deg;
558
    wire chip_act;
559
    assign chip_act = chip_en;
560
 
561
    wire chip_act_deg;
562
    assign chip_act_deg = chip_act && deg;
563
 
564
    wire cas_latency1;
565
    wire cas_latency2;
566
    wire cas_latency3;
567
 
568
    assign cas_latency1 = CAS_Lat && ~CAS_Lat2;
569
    assign cas_latency2 = ~CAS_Lat && CAS_Lat2;
570
    assign cas_latency3 = CAS_Lat && CAS_Lat2;
571
 
572
    specify
573
        // tipd delays: interconnect path delays, mapped to input port delays.
574
        // In Verilog it is not necessary to declare any tipd delay variables,
575
        // they can be taken from SDF file
576
        // With all the other delays real delays would be taken from SDF file
577
 
578
        // tpd delays
579
        specparam   tpd_CLK_DQ1    = 1;
580
        specparam   tpd_CLK_DQ2    = 1;
581
        specparam   tpd_CLK_DQ3    = 1;
582
 
583
        // tpw values: pulse widths
584
        specparam   tpw_CLK_posedge = 1;
585
        specparam   tpw_CLK_negedge = 1;
586
 
587
        // tsetup values: setup times
588
        specparam   tsetup_DQ0_CLK  = 1;  // tDS
589
 
590
        // thold values: hold times
591
        specparam   thold_DQ0_CLK   = 1;  // tDH
592
 
593
        // tperiod_min: minimum clock period = 1/max freq
594
        specparam    tperiod_CLK_cl0_eq_1_posedge        = 1; //tCK
595
        specparam    tperiod_CLK_cl1_eq_1_posedge        = 1;
596
        specparam    tperiod_CLK_cl2_eq_1_posedge        = 1;
597
 
598
        // tdevice values: values for internal delays
599
        specparam         tdevice_REF      = 15625 ;
600
        specparam         tdevice_TRASmin  = 42;
601
        specparam         tdevice_TRASmax  = 120000;
602
 
603
        ///////////////////////////////////////////////////////////////////////
604
        // Input Port Delays don't require Verilog description
605
        ///////////////////////////////////////////////////////////////////////
606
        // Path delays                                                       //
607
        ///////////////////////////////////////////////////////////////////////
608
        if (CAS_Lat && ~CAS_Lat2) (CLK *> DQ0) = tpd_CLK_DQ1;
609
        if (CAS_Lat && ~CAS_Lat2) (CLK *> DQ1) = tpd_CLK_DQ1;
610
        if (CAS_Lat && ~CAS_Lat2) (CLK *> DQ2) = tpd_CLK_DQ1;
611
        if (CAS_Lat && ~CAS_Lat2) (CLK *> DQ3) = tpd_CLK_DQ1;
612
        if (CAS_Lat && ~CAS_Lat2) (CLK *> DQ4) = tpd_CLK_DQ1;
613
        if (CAS_Lat && ~CAS_Lat2) (CLK *> DQ5) = tpd_CLK_DQ1;
614
        if (CAS_Lat && ~CAS_Lat2) (CLK *> DQ6) = tpd_CLK_DQ1;
615
        if (CAS_Lat && ~CAS_Lat2) (CLK *> DQ7) = tpd_CLK_DQ1;
616
        if (CAS_Lat && ~CAS_Lat2) (CLK *> DQ8) = tpd_CLK_DQ1;
617
        if (CAS_Lat && ~CAS_Lat2) (CLK *> DQ9) = tpd_CLK_DQ1;
618
        if (CAS_Lat && ~CAS_Lat2) (CLK *> DQ10) = tpd_CLK_DQ1;
619
        if (CAS_Lat && ~CAS_Lat2) (CLK *> DQ11) = tpd_CLK_DQ1;
620
        if (CAS_Lat && ~CAS_Lat2) (CLK *> DQ12) = tpd_CLK_DQ1;
621
        if (CAS_Lat && ~CAS_Lat2) (CLK *> DQ13) = tpd_CLK_DQ1;
622
        if (CAS_Lat && ~CAS_Lat2) (CLK *> DQ14) = tpd_CLK_DQ1;
623
        if (CAS_Lat && ~CAS_Lat2) (CLK *> DQ15) = tpd_CLK_DQ1;
624
        if (CAS_Lat && ~CAS_Lat2) (CLK *> DQ16) = tpd_CLK_DQ1;
625
        if (CAS_Lat && ~CAS_Lat2) (CLK *> DQ17) = tpd_CLK_DQ1;
626
        if (CAS_Lat && ~CAS_Lat2) (CLK *> DQ18) = tpd_CLK_DQ1;
627
        if (CAS_Lat && ~CAS_Lat2) (CLK *> DQ19) = tpd_CLK_DQ1;
628
        if (CAS_Lat && ~CAS_Lat2) (CLK *> DQ20) = tpd_CLK_DQ1;
629
        if (CAS_Lat && ~CAS_Lat2) (CLK *> DQ21) = tpd_CLK_DQ1;
630
        if (CAS_Lat && ~CAS_Lat2) (CLK *> DQ22) = tpd_CLK_DQ1;
631
        if (CAS_Lat && ~CAS_Lat2) (CLK *> DQ23) = tpd_CLK_DQ1;
632
        if (CAS_Lat && ~CAS_Lat2) (CLK *> DQ24) = tpd_CLK_DQ1;
633
        if (CAS_Lat && ~CAS_Lat2) (CLK *> DQ25) = tpd_CLK_DQ1;
634
        if (CAS_Lat && ~CAS_Lat2) (CLK *> DQ26) = tpd_CLK_DQ1;
635
        if (CAS_Lat && ~CAS_Lat2) (CLK *> DQ27) = tpd_CLK_DQ1;
636
        if (CAS_Lat && ~CAS_Lat2) (CLK *> DQ28) = tpd_CLK_DQ1;
637
        if (CAS_Lat && ~CAS_Lat2) (CLK *> DQ29) = tpd_CLK_DQ1;
638
        if (CAS_Lat && ~CAS_Lat2) (CLK *> DQ30) = tpd_CLK_DQ1;
639
        if (CAS_Lat && ~CAS_Lat2) (CLK *> DQ31) = tpd_CLK_DQ1;
640
 
641
        if (~CAS_Lat && CAS_Lat2) (CLK *> DQ0) = tpd_CLK_DQ2;
642
        if (~CAS_Lat && CAS_Lat2) (CLK *> DQ1) = tpd_CLK_DQ2;
643
        if (~CAS_Lat && CAS_Lat2) (CLK *> DQ2) = tpd_CLK_DQ2;
644
        if (~CAS_Lat && CAS_Lat2) (CLK *> DQ3) = tpd_CLK_DQ2;
645
        if (~CAS_Lat && CAS_Lat2) (CLK *> DQ4) = tpd_CLK_DQ2;
646
        if (~CAS_Lat && CAS_Lat2) (CLK *> DQ5) = tpd_CLK_DQ2;
647
        if (~CAS_Lat && CAS_Lat2) (CLK *> DQ6) = tpd_CLK_DQ2;
648
        if (~CAS_Lat && CAS_Lat2) (CLK *> DQ7) = tpd_CLK_DQ2;
649
        if (~CAS_Lat && CAS_Lat2) (CLK *> DQ8) = tpd_CLK_DQ2;
650
        if (~CAS_Lat && CAS_Lat2) (CLK *> DQ9) = tpd_CLK_DQ2;
651
        if (~CAS_Lat && CAS_Lat2) (CLK *> DQ10) = tpd_CLK_DQ2;
652
        if (~CAS_Lat && CAS_Lat2) (CLK *> DQ11) = tpd_CLK_DQ2;
653
        if (~CAS_Lat && CAS_Lat2) (CLK *> DQ12) = tpd_CLK_DQ2;
654
        if (~CAS_Lat && CAS_Lat2) (CLK *> DQ13) = tpd_CLK_DQ2;
655
        if (~CAS_Lat && CAS_Lat2) (CLK *> DQ14) = tpd_CLK_DQ2;
656
        if (~CAS_Lat && CAS_Lat2) (CLK *> DQ15) = tpd_CLK_DQ2;
657
        if (~CAS_Lat && CAS_Lat2) (CLK *> DQ16) = tpd_CLK_DQ2;
658
        if (~CAS_Lat && CAS_Lat2) (CLK *> DQ17) = tpd_CLK_DQ2;
659
        if (~CAS_Lat && CAS_Lat2) (CLK *> DQ18) = tpd_CLK_DQ2;
660
        if (~CAS_Lat && CAS_Lat2) (CLK *> DQ19) = tpd_CLK_DQ2;
661
        if (~CAS_Lat && CAS_Lat2) (CLK *> DQ20) = tpd_CLK_DQ2;
662
        if (~CAS_Lat && CAS_Lat2) (CLK *> DQ21) = tpd_CLK_DQ2;
663
        if (~CAS_Lat && CAS_Lat2) (CLK *> DQ22) = tpd_CLK_DQ2;
664
        if (~CAS_Lat && CAS_Lat2) (CLK *> DQ23) = tpd_CLK_DQ2;
665
        if (~CAS_Lat && CAS_Lat2) (CLK *> DQ24) = tpd_CLK_DQ2;
666
        if (~CAS_Lat && CAS_Lat2) (CLK *> DQ25) = tpd_CLK_DQ2;
667
        if (~CAS_Lat && CAS_Lat2) (CLK *> DQ26) = tpd_CLK_DQ2;
668
        if (~CAS_Lat && CAS_Lat2) (CLK *> DQ27) = tpd_CLK_DQ2;
669
        if (~CAS_Lat && CAS_Lat2) (CLK *> DQ28) = tpd_CLK_DQ2;
670
        if (~CAS_Lat && CAS_Lat2) (CLK *> DQ29) = tpd_CLK_DQ2;
671
        if (~CAS_Lat && CAS_Lat2) (CLK *> DQ30) = tpd_CLK_DQ2;
672
        if (~CAS_Lat && CAS_Lat2) (CLK *> DQ31) = tpd_CLK_DQ2;
673
 
674
        if (CAS_Lat && CAS_Lat2) (CLK *> DQ0) = tpd_CLK_DQ3;
675
        if (CAS_Lat && CAS_Lat2) (CLK *> DQ1) = tpd_CLK_DQ3;
676
        if (CAS_Lat && CAS_Lat2) (CLK *> DQ2) = tpd_CLK_DQ3;
677
        if (CAS_Lat && CAS_Lat2) (CLK *> DQ3) = tpd_CLK_DQ3;
678
        if (CAS_Lat && CAS_Lat2) (CLK *> DQ4) = tpd_CLK_DQ3;
679
        if (CAS_Lat && CAS_Lat2) (CLK *> DQ5) = tpd_CLK_DQ3;
680
        if (CAS_Lat && CAS_Lat2) (CLK *> DQ6) = tpd_CLK_DQ3;
681
        if (CAS_Lat && CAS_Lat2) (CLK *> DQ7) = tpd_CLK_DQ3;
682
        if (CAS_Lat && CAS_Lat2) (CLK *> DQ8) = tpd_CLK_DQ3;
683
        if (CAS_Lat && CAS_Lat2) (CLK *> DQ9) = tpd_CLK_DQ3;
684
        if (CAS_Lat && CAS_Lat2) (CLK *> DQ10) = tpd_CLK_DQ3;
685
        if (CAS_Lat && CAS_Lat2) (CLK *> DQ11) = tpd_CLK_DQ3;
686
        if (CAS_Lat && CAS_Lat2) (CLK *> DQ12) = tpd_CLK_DQ3;
687
        if (CAS_Lat && CAS_Lat2) (CLK *> DQ13) = tpd_CLK_DQ3;
688
        if (CAS_Lat && CAS_Lat2) (CLK *> DQ14) = tpd_CLK_DQ3;
689
        if (CAS_Lat && CAS_Lat2) (CLK *> DQ15) = tpd_CLK_DQ3;
690
        if (CAS_Lat && CAS_Lat2) (CLK *> DQ16) = tpd_CLK_DQ3;
691
        if (CAS_Lat && CAS_Lat2) (CLK *> DQ17) = tpd_CLK_DQ3;
692
        if (CAS_Lat && CAS_Lat2) (CLK *> DQ18) = tpd_CLK_DQ3;
693
        if (CAS_Lat && CAS_Lat2) (CLK *> DQ19) = tpd_CLK_DQ3;
694
        if (CAS_Lat && CAS_Lat2) (CLK *> DQ20) = tpd_CLK_DQ3;
695
        if (CAS_Lat && CAS_Lat2) (CLK *> DQ21) = tpd_CLK_DQ3;
696
        if (CAS_Lat && CAS_Lat2) (CLK *> DQ22) = tpd_CLK_DQ3;
697
        if (CAS_Lat && CAS_Lat2) (CLK *> DQ23) = tpd_CLK_DQ3;
698
        if (CAS_Lat && CAS_Lat2) (CLK *> DQ24) = tpd_CLK_DQ3;
699
        if (CAS_Lat && CAS_Lat2) (CLK *> DQ25) = tpd_CLK_DQ3;
700
        if (CAS_Lat && CAS_Lat2) (CLK *> DQ26) = tpd_CLK_DQ3;
701
        if (CAS_Lat && CAS_Lat2) (CLK *> DQ27) = tpd_CLK_DQ3;
702
        if (CAS_Lat && CAS_Lat2) (CLK *> DQ28) = tpd_CLK_DQ3;
703
        if (CAS_Lat && CAS_Lat2) (CLK *> DQ29) = tpd_CLK_DQ3;
704
        if (CAS_Lat && CAS_Lat2) (CLK *> DQ30) = tpd_CLK_DQ3;
705
        if (CAS_Lat && CAS_Lat2) (CLK *> DQ31) = tpd_CLK_DQ3;
706
 
707
        ////////////////////////////////////////////////////////////////////////
708
        // Timing Check Section
709
        ////////////////////////////////////////////////////////////////////////
710
        $setup (BA0 , posedge CLK &&& chip_act, tsetup_DQ0_CLK, Viol);
711
        $setup (BA1 , posedge CLK &&& chip_act, tsetup_DQ0_CLK, Viol);
712
        $setup (DQM0, posedge CLK &&& chip_act, tsetup_DQ0_CLK, Viol);
713
        $setup (DQM1, posedge CLK &&& chip_act, tsetup_DQ0_CLK, Viol);
714
        $setup (DQM2, posedge CLK &&& chip_act, tsetup_DQ0_CLK, Viol);
715
        $setup (DQM3, posedge CLK &&& chip_act, tsetup_DQ0_CLK, Viol);
716
        $setup (CKE  , posedge CLK &&& chip_act, tsetup_DQ0_CLK, Viol);
717
        $setup (WENeg, posedge CLK &&& chip_act, tsetup_DQ0_CLK, Viol);
718
        $setup (CSNeg, posedge CLK &&& chip_act, tsetup_DQ0_CLK, Viol);
719
        $setup (CASNeg, posedge CLK &&& chip_act, tsetup_DQ0_CLK, Viol);
720
        $setup (RASNeg, posedge CLK &&& chip_act, tsetup_DQ0_CLK, Viol);
721
 
722
        $setup (DQ0 ,posedge CLK &&& chip_act_deg, tsetup_DQ0_CLK, Viol);
723
        $setup (DQ1 ,posedge CLK &&& chip_act_deg, tsetup_DQ0_CLK, Viol);
724
        $setup (DQ2 ,posedge CLK &&& chip_act_deg, tsetup_DQ0_CLK, Viol);
725
        $setup (DQ3 ,posedge CLK &&& chip_act_deg, tsetup_DQ0_CLK, Viol);
726
        $setup (DQ4 ,posedge CLK &&& chip_act_deg, tsetup_DQ0_CLK, Viol);
727
        $setup (DQ5 ,posedge CLK &&& chip_act_deg, tsetup_DQ0_CLK, Viol);
728
        $setup (DQ6 ,posedge CLK &&& chip_act_deg, tsetup_DQ0_CLK, Viol);
729
        $setup (DQ7 ,posedge CLK &&& chip_act_deg, tsetup_DQ0_CLK, Viol);
730
        $setup (DQ8 ,posedge CLK &&& chip_act_deg, tsetup_DQ0_CLK, Viol);
731
        $setup (DQ9 ,posedge CLK &&& chip_act_deg, tsetup_DQ0_CLK, Viol);
732
        $setup (DQ10 ,posedge CLK &&& chip_act_deg, tsetup_DQ0_CLK, Viol);
733
        $setup (DQ11 ,posedge CLK &&& chip_act_deg, tsetup_DQ0_CLK, Viol);
734
        $setup (DQ12 ,posedge CLK &&& chip_act_deg, tsetup_DQ0_CLK, Viol);
735
        $setup (DQ13 ,posedge CLK &&& chip_act_deg, tsetup_DQ0_CLK, Viol);
736
        $setup (DQ14 ,posedge CLK &&& chip_act_deg, tsetup_DQ0_CLK, Viol);
737
        $setup (DQ15 ,posedge CLK &&& chip_act_deg, tsetup_DQ0_CLK, Viol);
738
        $setup (DQ16 ,posedge CLK &&& chip_act_deg, tsetup_DQ0_CLK, Viol);
739
        $setup (DQ17 ,posedge CLK &&& chip_act_deg, tsetup_DQ0_CLK, Viol);
740
        $setup (DQ18 ,posedge CLK &&& chip_act_deg, tsetup_DQ0_CLK, Viol);
741
        $setup (DQ19 ,posedge CLK &&& chip_act_deg, tsetup_DQ0_CLK, Viol);
742
        $setup (DQ20 ,posedge CLK &&& chip_act_deg, tsetup_DQ0_CLK, Viol);
743
        $setup (DQ21 ,posedge CLK &&& chip_act_deg, tsetup_DQ0_CLK, Viol);
744
        $setup (DQ22 ,posedge CLK &&& chip_act_deg, tsetup_DQ0_CLK, Viol);
745
        $setup (DQ23 ,posedge CLK &&& chip_act_deg, tsetup_DQ0_CLK, Viol);
746
        $setup (DQ24 ,posedge CLK &&& chip_act_deg, tsetup_DQ0_CLK, Viol);
747
        $setup (DQ25 ,posedge CLK &&& chip_act_deg, tsetup_DQ0_CLK, Viol);
748
        $setup (DQ26 ,posedge CLK &&& chip_act_deg, tsetup_DQ0_CLK, Viol);
749
        $setup (DQ27 ,posedge CLK &&& chip_act_deg, tsetup_DQ0_CLK, Viol);
750
        $setup (DQ28 ,posedge CLK &&& chip_act_deg, tsetup_DQ0_CLK, Viol);
751
        $setup (DQ29 ,posedge CLK &&& chip_act_deg, tsetup_DQ0_CLK, Viol);
752
        $setup (DQ30 ,posedge CLK &&& chip_act_deg, tsetup_DQ0_CLK, Viol);
753
        $setup (DQ31 ,posedge CLK &&& chip_act_deg, tsetup_DQ0_CLK, Viol);
754
 
755
        $setup (A0, posedge CLK &&& chip_act, tsetup_DQ0_CLK, Viol);
756
        $setup (A1, posedge CLK &&& chip_act, tsetup_DQ0_CLK, Viol);
757
        $setup (A2, posedge CLK &&& chip_act, tsetup_DQ0_CLK, Viol);
758
        $setup (A3, posedge CLK &&& chip_act, tsetup_DQ0_CLK, Viol);
759
        $setup (A4, posedge CLK &&& chip_act, tsetup_DQ0_CLK, Viol);
760
        $setup (A5, posedge CLK &&& chip_act, tsetup_DQ0_CLK, Viol);
761
        $setup (A6, posedge CLK &&& chip_act, tsetup_DQ0_CLK, Viol);
762
        $setup (A7, posedge CLK &&& chip_act, tsetup_DQ0_CLK, Viol);
763
        $setup (A8, posedge CLK &&& chip_act, tsetup_DQ0_CLK, Viol);
764
        $setup (A9, posedge CLK &&& chip_act, tsetup_DQ0_CLK, Viol);
765
        $setup (A10, posedge CLK &&& chip_act, tsetup_DQ0_CLK, Viol);
766
        $setup (A11, posedge CLK &&& chip_act, tsetup_DQ0_CLK, Viol);
767
 
768
        $hold (posedge CLK &&& chip_act, BA0, thold_DQ0_CLK, Viol);
769
        $hold (posedge CLK &&& chip_act, BA1, thold_DQ0_CLK, Viol);
770
        $hold (posedge CLK &&& chip_act, DQM0, thold_DQ0_CLK, Viol);
771
        $hold (posedge CLK &&& chip_act, DQM1, thold_DQ0_CLK, Viol);
772
        $hold (posedge CLK &&& chip_act, DQM2, thold_DQ0_CLK, Viol);
773
        $hold (posedge CLK &&& chip_act, DQM3, thold_DQ0_CLK, Viol);
774
        $hold (posedge CLK &&& chip_act, CKE , thold_DQ0_CLK, Viol);
775
        $hold (posedge CLK &&& chip_act, CASNeg, thold_DQ0_CLK, Viol);
776
        $hold (posedge CLK &&& chip_act, RASNeg, thold_DQ0_CLK, Viol);
777
        $hold (posedge CLK &&& chip_act, WENeg, thold_DQ0_CLK, Viol);
778
        $hold (posedge CLK &&& chip_act, CSNeg, thold_DQ0_CLK, Viol);
779
 
780
        $hold (posedge CLK &&& chip_act, A0, thold_DQ0_CLK, Viol);
781
        $hold (posedge CLK &&& chip_act, A1, thold_DQ0_CLK, Viol);
782
        $hold (posedge CLK &&& chip_act, A2, thold_DQ0_CLK, Viol);
783
        $hold (posedge CLK &&& chip_act, A3, thold_DQ0_CLK, Viol);
784
        $hold (posedge CLK &&& chip_act, A4, thold_DQ0_CLK, Viol);
785
        $hold (posedge CLK &&& chip_act, A5, thold_DQ0_CLK, Viol);
786
        $hold (posedge CLK &&& chip_act, A6, thold_DQ0_CLK, Viol);
787
        $hold (posedge CLK &&& chip_act, A7, thold_DQ0_CLK, Viol);
788
        $hold (posedge CLK &&& chip_act, A8, thold_DQ0_CLK, Viol);
789
        $hold (posedge CLK &&& chip_act, A9, thold_DQ0_CLK, Viol);
790
        $hold (posedge CLK &&& chip_act, A10, thold_DQ0_CLK, Viol);
791
        $hold (posedge CLK &&& chip_act, A11, thold_DQ0_CLK, Viol);
792
 
793
        $hold (posedge CLK &&& chip_act_deg, DQ0, thold_DQ0_CLK, Viol);
794
        $hold (posedge CLK &&& chip_act_deg, DQ1, thold_DQ0_CLK, Viol);
795
        $hold (posedge CLK &&& chip_act_deg, DQ2, thold_DQ0_CLK, Viol);
796
        $hold (posedge CLK &&& chip_act_deg, DQ3, thold_DQ0_CLK, Viol);
797
        $hold (posedge CLK &&& chip_act_deg, DQ4, thold_DQ0_CLK, Viol);
798
        $hold (posedge CLK &&& chip_act_deg, DQ5, thold_DQ0_CLK, Viol);
799
        $hold (posedge CLK &&& chip_act_deg, DQ6, thold_DQ0_CLK, Viol);
800
        $hold (posedge CLK &&& chip_act_deg, DQ7, thold_DQ0_CLK, Viol);
801
        $hold (posedge CLK &&& chip_act_deg, DQ8, thold_DQ0_CLK, Viol);
802
        $hold (posedge CLK &&& chip_act_deg, DQ9, thold_DQ0_CLK, Viol);
803
        $hold (posedge CLK &&& chip_act_deg, DQ10, thold_DQ0_CLK, Viol);
804
        $hold (posedge CLK &&& chip_act_deg, DQ11, thold_DQ0_CLK, Viol);
805
        $hold (posedge CLK &&& chip_act_deg, DQ12, thold_DQ0_CLK, Viol);
806
        $hold (posedge CLK &&& chip_act_deg, DQ13, thold_DQ0_CLK, Viol);
807
        $hold (posedge CLK &&& chip_act_deg, DQ14, thold_DQ0_CLK, Viol);
808
        $hold (posedge CLK &&& chip_act_deg, DQ15, thold_DQ0_CLK, Viol);
809
        $hold (posedge CLK &&& chip_act_deg, DQ16, thold_DQ0_CLK, Viol);
810
        $hold (posedge CLK &&& chip_act_deg, DQ17, thold_DQ0_CLK, Viol);
811
        $hold (posedge CLK &&& chip_act_deg, DQ18, thold_DQ0_CLK, Viol);
812
        $hold (posedge CLK &&& chip_act_deg, DQ19, thold_DQ0_CLK, Viol);
813
        $hold (posedge CLK &&& chip_act_deg, DQ20, thold_DQ0_CLK, Viol);
814
        $hold (posedge CLK &&& chip_act_deg, DQ21, thold_DQ0_CLK, Viol);
815
        $hold (posedge CLK &&& chip_act_deg, DQ22, thold_DQ0_CLK, Viol);
816
        $hold (posedge CLK &&& chip_act_deg, DQ23, thold_DQ0_CLK, Viol);
817
        $hold (posedge CLK &&& chip_act_deg, DQ24, thold_DQ0_CLK, Viol);
818
        $hold (posedge CLK &&& chip_act_deg, DQ25, thold_DQ0_CLK, Viol);
819
        $hold (posedge CLK &&& chip_act_deg, DQ26, thold_DQ0_CLK, Viol);
820
        $hold (posedge CLK &&& chip_act_deg, DQ27, thold_DQ0_CLK, Viol);
821
        $hold (posedge CLK &&& chip_act_deg, DQ28, thold_DQ0_CLK, Viol);
822
        $hold (posedge CLK &&& chip_act_deg, DQ29, thold_DQ0_CLK, Viol);
823
        $hold (posedge CLK &&& chip_act_deg, DQ30, thold_DQ0_CLK, Viol);
824
        $hold (posedge CLK &&& chip_act_deg, DQ31, thold_DQ0_CLK, Viol);
825
 
826
        $width (posedge CLK &&& chip_act, tpw_CLK_posedge);
827
        $width (negedge CLK &&& chip_act, tpw_CLK_negedge);
828
 
829
        $period (posedge CLK &&& cas_latency1, tperiod_CLK_cl0_eq_1_posedge);
830
        $period (posedge CLK &&& cas_latency2, tperiod_CLK_cl1_eq_1_posedge);
831
        $period (posedge CLK &&& cas_latency3, tperiod_CLK_cl2_eq_1_posedge);
832
 
833
    endspecify
834
 
835
    task generate_out ;
836
        output [31:0] DataDrive;
837
        input Bank;
838
        integer Bank;
839
        integer location;
840
    begin
841
        location = Bank * depth * 4 + Loc;
842
 
843
        DataDrive[7:0] = 8'bx;
844
        if (Mem[location] > -1)
845
            DataDrive[7:0] = Mem[location];
846
 
847
        DataDrive[15:8] = 8'bx;
848
        if (Mem[location+1] > -1)
849
            DataDrive[15:8] = Mem[location+1];
850
 
851
        DataDrive[23:16] = 8'bx;
852
        if (Mem[location+2] > -1)
853
            DataDrive[23:16] = Mem[location+2];
854
 
855
        DataDrive[31:24] = 8'bx;
856
        if (Mem[location+3] > -1)
857
            DataDrive[31:24] = Mem[location+3];
858
    end
859
    endtask
860
 
861
    task MemWrite;
862
        input Bank;
863
        integer Bank;
864
        integer location;
865
    begin
866
        location = Bank * depth * 4 + Loc;
867
 
868
        if (~DQM0_ipd)
869
        begin
870
            Mem[location] = -1;
871
            if (~Viol)
872
                Mem[location] = DQIn[7:0];
873
        end
874
 
875
        if (~DQM1_ipd)
876
        begin
877
            Mem[location+1] = -1;
878
            if (~Viol)
879
                Mem[location+1] = DQIn[15:8];
880
        end
881
 
882
        if (~DQM2_ipd)
883
        begin
884
            Mem[location+2] = -1;
885
            if (~Viol)
886
                Mem[location+2] = DQIn[23:16];
887
        end
888
 
889
        if (~DQM3_ipd)
890
        begin
891
            Mem[location+3] = -1;
892
            if (~Viol)
893
                Mem[location+3] = DQIn[31:24];
894
        end
895
    end
896
    endtask
897
 
898
    task BurstIncProc;
899
        input Bank;
900
        integer Bank;
901
    begin
902
        BurstInc[Bank] = 0;
903
        if (Burst_Bits == 1)
904
            BurstInc[Bank] = A[0:0];
905
        if (Burst_Bits == 2)
906
            BurstInc[Bank] = A[1:0];
907
        if (Burst_Bits == 3)
908
            BurstInc[Bank] = A[2:0];
909
        if (Burst_Bits == 7)
910
            BurstInc[Bank] = A[6:0];
911
    end
912
    endtask
913
 
914
    task NextStateAuto;
915
        input Bank;
916
        input state;
917
        integer Bank;
918
        reg [4:0] state;
919
    begin
920
        if (~A[10])
921
            statebank[Bank] = state;
922
        else if (A[10])
923
            if (state == write)
924
                statebank[Bank] = write_auto_pre;
925
            else
926
                statebank[Bank] = read_auto_pre;
927
    end
928
    endtask
929
 
930
    //////////////////////////////////////////////////////////////////////////
931
    // Main Behavior Block                                                  //
932
    //////////////////////////////////////////////////////////////////////////
933
 
934
    // chech when data is generated from model to avoid setup/hold check in
935
    // those occasion
936
    reg   deq;
937
    always @(DQIn, DQOut)
938
        begin
939
            if (DQIn==DQOut)
940
                deq=1'b1;
941
            else
942
                deq=1'b0;
943
        end
944
    assign deg=deq;
945
 
946
    // initialize burst sequences
947
    initial
948
    begin
949
        intab[0] = 0;
950
        intab[1] = 1;
951
        intab[2] = 2;
952
        intab[3] = 3;
953
        intab[4] = 4;
954
        intab[5] = 5;
955
        intab[6] = 6;
956
        intab[7] = 7;
957
        intab[8] = 1;
958
        intab[9] = 0;
959
        intab[10] = 3;
960
        intab[11] = 2;
961
        intab[12] = 5;
962
        intab[13] = 4;
963
        intab[14] = 7;
964
        intab[15] = 6;
965
        intab[16] = 2;
966
        intab[17] = 3;
967
        intab[18] = 0;
968
        intab[19] = 1;
969
        intab[20] = 6;
970
        intab[21] = 7;
971
        intab[22] = 4;
972
        intab[23] = 5;
973
        intab[24] = 3;
974
        intab[25] = 2;
975
        intab[26] = 1;
976
        intab[27] = 0;
977
        intab[28] = 7;
978
        intab[29] = 6;
979
        intab[30] = 5;
980
        intab[31] = 4;
981
        intab[32] = 4;
982
        intab[33] = 5;
983
        intab[34] = 6;
984
        intab[35] = 7;
985
        intab[36] = 0;
986
        intab[37] = 1;
987
        intab[38] = 2;
988
        intab[39] = 3;
989
        intab[40] = 5;
990
        intab[41] = 4;
991
        intab[42] = 7;
992
        intab[43] = 6;
993
        intab[44] = 1;
994
        intab[45] = 0;
995
        intab[46] = 3;
996
        intab[47] = 2;
997
        intab[48] = 6;
998
        intab[49] = 7;
999
        intab[50] = 4;
1000
        intab[51] = 5;
1001
        intab[52] = 2;
1002
        intab[53] = 3;
1003
        intab[54] = 0;
1004
        intab[55] = 1;
1005
        intab[56] = 7;
1006
        intab[57] = 6;
1007
        intab[58] = 5;
1008
        intab[59] = 4;
1009
        intab[60] = 3;
1010
        intab[61] = 2;
1011
        intab[62] = 1;
1012
        intab[63] = 0;
1013
    end
1014
 
1015
    // initialize memory and load preload files if any
1016
    initial
1017
    begin: InitMemory
1018
    integer i;
1019
        for (i=0; i<=((hi_bank+1)*depth*4 - 1); i=i+1)
1020
        begin
1021
            Mem[i] = -1;
1022
        end
1023
        // Memory preload file
1024
        // mt48lc4m32b2.mem file
1025
        //   @bbbbbb - <bbbbbb> stands for address within memory,
1026
        //   dd      - <dd> is word to be written at Mem(bbbbbb++)
1027
        //              (bbbbbb is incremented at every load)
1028
        if (UserPreload && !(mem_file_name == "none"))
1029
            $readmemh(mem_file_name,Mem);
1030
    end
1031
 
1032
    //Power Up time 100 us;
1033
    initial
1034
    begin
1035
        PoweredUp = 1'b0;
1036
        statebank[0] = pwron;
1037
        statebank[1] = pwron;
1038
        statebank[2] = pwron;
1039
        statebank[3] = pwron;
1040
        #100000 PoweredUp = 1'b1;
1041
    end
1042
 
1043
    always @(posedge wrt_in)
1044
    begin:TWRrise
1045
        #tdevice_TWR wrt_out = wrt_in;
1046
    end
1047
 
1048
    always @(negedge wrt_in)
1049
    begin:TWRfall
1050
        #1 wrt_out = wrt_in;
1051
    end
1052
 
1053
    always @(posedge ras_in[0])
1054
    begin:TRASrise0
1055
        ras_out[0] <= #tdevice_TRASmin ras_in[0];
1056
    end
1057
 
1058
    always @(negedge ras_in[0])
1059
    begin:TRASfall0
1060
        ras_out[0] <= #tdevice_TRASmax ras_in[0];
1061
    end
1062
 
1063
    always @(posedge ras_in[1])
1064
    begin:TRASrise1
1065
        ras_out[1] <= #tdevice_TRASmin ras_in[1];
1066
    end
1067
 
1068
    always @(negedge ras_in[1])
1069
    begin:TRASfall1
1070
        ras_out[1] <= #tdevice_TRASmax ras_in[1];
1071
    end
1072
 
1073
    always @(posedge ras_in[2])
1074
    begin:TRASrise2
1075
        ras_out[2] <= #tdevice_TRASmin ras_in[2];
1076
    end
1077
    always @(negedge ras_in[2])
1078
    begin:TRASfall2
1079
        ras_out[2] <= #tdevice_TRASmax ras_in[2];
1080
    end
1081
 
1082
    always @(posedge ras_in[3])
1083
    begin:TRASrise3
1084
        ras_out[3] <= #tdevice_TRASmin ras_in[3];
1085
    end
1086
 
1087
    always @(negedge ras_in[3])
1088
    begin:TRASfall3
1089
        ras_out[3] <= #tdevice_TRASmax ras_in[3];
1090
    end
1091
 
1092
    always @(posedge rcdt_in[0])
1093
    begin:TRCDrise0
1094
        rcdt_out[0] <= #5 1'b1;
1095
    end
1096
    always @(negedge rcdt_in[0])
1097
    begin:TRCDfall0
1098
        rcdt_out[0] <= #tdevice_TRCD 1'b0;
1099
    end
1100
 
1101
    always @(posedge rcdt_in[1])
1102
    begin:TRCDrise1
1103
        rcdt_out[1] <= #5 1'b1;
1104
    end
1105
    always @(negedge rcdt_in[1])
1106
    begin:TRCDfall1
1107
        rcdt_out[1] <= #tdevice_TRCD 1'b0;
1108
    end
1109
 
1110
    always @(posedge rcdt_in[2])
1111
    begin:TRCDrise2
1112
        rcdt_out[2] <= #5 1'b1;
1113
    end
1114
    always @(negedge rcdt_in[2])
1115
    begin:TRCDfall2
1116
        rcdt_out[2] <= #tdevice_TRCD 1'b0;
1117
    end
1118
 
1119
    always @(posedge rcdt_in[3])
1120
    begin:TRCDrise3
1121
        rcdt_out[3] <= #5 1'b1;
1122
    end
1123
    always @(negedge rcdt_in[3])
1124
    begin:TRCDfall3
1125
        rcdt_out[3] <= #tdevice_TRCD 1'b0;
1126
    end
1127
 
1128
    /////////////////////////////////////////////////////////////////////////
1129
    // Functional Section
1130
    /////////////////////////////////////////////////////////////////////////
1131
    always @(posedge CLK)
1132
    begin
1133
        if ($time > Next_Ref && PoweredUp && Ref_Cnt > 0)
1134
        begin
1135
            Ref_Cnt = Ref_Cnt - 1;
1136
            Next_Ref = $time + tdevice_REF;
1137
        end
1138
        if (CKEreg)
1139
        begin
1140
            if (~CSNeg_ipd)
1141
                chip_en = 1;
1142
            else
1143
                chip_en = 0;
1144
        end
1145
 
1146
        if (CKEreg && ~CSNeg_ipd)
1147
        begin
1148
            if (DQM0_ipd == 1'bx)
1149
                $display(" Unusable value for DQM0 ");
1150
            if (DQM1_ipd == 1'bx)
1151
                $display(" Unusable value for DQM1 ");
1152
            if (DQM2_ipd == 1'bx)
1153
                $display(" Unusable value for DQM2 ");
1154
            if (DQM3_ipd == 1'bx)
1155
                $display(" Unusable value for DQM3 ");
1156
            if (WENeg_ipd == 1'bx)
1157
                $display(" Unusable value for WENeg ");
1158
            if (RASNeg_ipd == 1'bx)
1159
                $display(" Unusable value for RASNeg ");
1160
            if (CASNeg_ipd == 1'bx)
1161
                $display(" Unusable value for CASNeg ");
1162
 
1163
            // Command Decode
1164
            if (RASNeg_ipd && CASNeg_ipd && WENeg_ipd)
1165
                command = nop;
1166
            else if (~RASNeg_ipd && CASNeg_ipd && WENeg_ipd)
1167
                command = act;
1168
            else if (RASNeg_ipd && ~CASNeg_ipd && WENeg_ipd)
1169
                command = rd;
1170
            else if (RASNeg_ipd && ~CASNeg_ipd && ~WENeg_ipd)
1171
                command = writ;
1172
            else if (RASNeg_ipd && CASNeg_ipd && ~WENeg_ipd)
1173
                command = bst;
1174
            else if (~RASNeg_ipd && CASNeg_ipd && ~WENeg_ipd)
1175
                command = pre;
1176
            else if (~RASNeg_ipd && ~CASNeg_ipd && WENeg_ipd)
1177
                command = ref;
1178
            else if (~RASNeg_ipd && ~CASNeg_ipd && ~WENeg_ipd)
1179
                command = mrs;
1180
 
1181
            //  PowerUp Check
1182
            if (~(PoweredUp) && command != nop)
1183
            begin
1184
                $display (" Incorrect power up. Command issued before ");
1185
                $display (" power up complete. ");
1186
            end
1187
 
1188
            //  Bank Decode
1189
            if (~BA0_ipd && ~BA1_ipd)
1190
                cur_bank = 0;
1191
            else if (BA0_ipd && ~BA1_ipd)
1192
                cur_bank = 1;
1193
            else if (~BA0_ipd && BA1_ipd)
1194
                cur_bank = 2;
1195
            else if (BA0_ipd && BA1_ipd)
1196
                cur_bank = 3;
1197
            else
1198
            begin
1199
                $display ("Could not decode bank selection - results");
1200
                $display ("may be incorrect.");
1201
            end
1202
        end
1203
 
1204
        // The Big State Machine
1205
        if (CKEreg)
1206
        begin
1207
            if (CSNeg_ipd == 1'bx)
1208
                $display ("Unusable value for CSNeg");
1209
 
1210
            if (CSNeg_ipd)
1211
                command = nop;
1212
 
1213
            // DQM pipeline
1214
            DQM0_reg2 = DQM0_reg1;
1215
            DQM0_reg1 = DQM0_reg0;
1216
            DQM0_reg0 = DQM0_ipd;
1217
            DQM1_reg2 = DQM1_reg1;
1218
            DQM1_reg1 = DQM1_reg0;
1219
            DQM1_reg0 = DQM1_ipd;
1220
            DQM2_reg2 = DQM2_reg1;
1221
            DQM2_reg1 = DQM2_reg0;
1222
            DQM2_reg0 = DQM2_ipd;
1223
            DQM3_reg2 = DQM3_reg1;
1224
            DQM3_reg1 = DQM3_reg0;
1225
            DQM3_reg0 = DQM3_ipd;
1226
 
1227
            // by default data drive is Z, might get over written in one
1228
            // of the passes below
1229
            DataDrive = 32'bz;
1230
 
1231
            for (bank = 0; bank <= hi_bank; bank = bank + 1)
1232
            begin
1233
                case (statebank[bank])
1234
                pwron :
1235
                begin
1236
                    if (~DQM0_ipd)
1237
                    begin
1238
                        $display ("DQM0 must be held high during");
1239
                        $display ("initialization.");
1240
                    end
1241
                    if (~DQM1_ipd)
1242
                    begin
1243
                        $display ("DQM1 must be held high during");
1244
                        $display ("initialization.");
1245
                    end
1246
                    if (~DQM2_ipd)
1247
                    begin
1248
                        $display ("DQM2 must be held high during");
1249
                        $display ("initialization.");
1250
                    end
1251
                    if (~DQM3_ipd)
1252
                    begin
1253
                        $display ("DQM3 must be held high during");
1254
                        $display ("initialization.");
1255
                    end
1256
 
1257
                    if (~PoweredUp)
1258
                    begin
1259
                        if (command != nop)
1260
                            $display ("Only NOPs allowed during power up.");
1261
                        DataDrive = 32'bz;
1262
                    end
1263
                    else if (command == pre && (cur_bank == bank || A[10]))
1264
                    begin
1265
                        statebank[bank] = precharge;
1266
                        statebank[bank] <= #tdevice_TRP idle;
1267
                    end
1268
                end
1269
 
1270
                precharge :
1271
                begin
1272
                    if (cur_bank == bank)
1273
                    // It is only an error if this bank is selected
1274
                        if (command != nop && command != pre)
1275
                        begin
1276
                            $display ("Illegal command received ");
1277
                            $display ("during precharge.",$time);
1278
                        end
1279
                end
1280
 
1281
                idle :
1282
                begin
1283
                    if (command == nop || command == bst || command == pre
1284
                        || cur_bank != bank)
1285
                    begin
1286
                    end
1287
                    else if (command == mrs)
1288
                    begin
1289
                        if (statebank[0] == idle && statebank[1] == idle &&
1290
                            statebank[2] == idle && statebank[3] == idle)
1291
                        begin
1292
                            ModeReg = A;
1293
                            statebank[bank] = mode_set;
1294
                        end
1295
                    end
1296
                    else if (command == ref)
1297
                    begin
1298
                        if (statebank[0] == idle && statebank[1] == idle &&
1299
                            statebank[2] == idle && statebank[3] == idle)
1300
                            if (CKE)
1301
                            begin
1302
                                statebank[bank] = auto_refresh;
1303
                                statebank[bank] <= #tdevice_TRCAR idle;
1304
                            end
1305
                            else
1306
                            begin
1307
                                statebank[0] = self_refresh;
1308
                                statebank[1] = self_refresh;
1309
                                statebank[2] = self_refresh;
1310
                                statebank[3] = self_refresh;
1311
                            end
1312
                    end
1313
                    else if (command == act)
1314
                    begin
1315
                        statebank[bank] = bank_act;
1316
                        ras_in[bank] = 1'b1;
1317
                        ras_in [bank] <= #70 1'b0;
1318
                        rct_in = 1'b1;
1319
                        rct_in <= #1 1'b0;
1320
                        rcdt_in[bank] = 1'b1;
1321
                        rcdt_in[bank] <= #1 1'b0;
1322
                        MemAddr[bank][19:8] = A; // latch row addr
1323
                    end
1324
                    else
1325
               $display ("Illegal command received in idle state.",$time);
1326
                end
1327
 
1328
                mode_set :
1329
                begin
1330
                    if (ModeReg[7] != 0 || ModeReg[8] != 0)
1331
                        $display ("Illegal operating mode set.");
1332
                    if (command != nop)
1333
                    begin
1334
                        $display ("Illegal command received during mode");
1335
                        $display ("set.",$time);
1336
                    end
1337
 
1338
                    // read burst length
1339
                    if (ModeReg[2:0] == 3'b000)
1340
                    begin
1341
                        BurstLen = 1;
1342
                        Burst_Bits = 0;
1343
                    end
1344
                    else if (ModeReg[2:0] == 3'b001)
1345
                    begin
1346
                        BurstLen = 2;
1347
                        Burst_Bits = 1;
1348
                    end
1349
                    else if (ModeReg[2:0] == 3'b010)
1350
                    begin
1351
                        BurstLen = 4;
1352
                        Burst_Bits = 2;
1353
                    end
1354
                    else if (ModeReg[2:0] == 3'b011)
1355
                    begin
1356
                        BurstLen = 8;
1357
                        Burst_Bits = 3;
1358
                    end
1359
                    else if (ModeReg[2:0] == 3'b111)
1360
                    begin
1361
                        BurstLen = 256;
1362
                        Burst_Bits = 7;
1363
                    end
1364
                    else
1365
                        $display ("Invalid burst length specified.");
1366
 
1367
                    // read burst type
1368
                    if (~ModeReg[3])
1369
                        Burst = sequential;
1370
                    else if (ModeReg[3])
1371
                        Burst = interleave;
1372
                    else
1373
                        $display ("Invalid burst type specified.");
1374
 
1375
                    // read CAS latency
1376
                    if (ModeReg[6:4] == 3'b001)
1377
                    begin
1378
                        CAS_Lat = 1'b1;
1379
                        CAS_Lat2 = 1'b0;
1380
                    end
1381
                    else if (ModeReg[6:4] == 3'b010)
1382
                    begin
1383
                        CAS_Lat = 1'b0;
1384
                        CAS_Lat2 = 1'b1;
1385
                    end
1386
                    else if (ModeReg[6:4] == 3'b011)
1387
                    begin
1388
                        CAS_Lat = 1'b1;
1389
                        CAS_Lat2 = 1'b1;
1390
                    end
1391
                    else
1392
                        $display ("CAS Latency set incorrecty");
1393
 
1394
                    // write burst mode
1395
                    if (~ModeReg[9])
1396
                        WB = programmed;
1397
                    else if (ModeReg[9])
1398
                        WB = single;
1399
                    else
1400
                        $display ("Invalid burst type specified.");
1401
 
1402
                    statebank[bank] = idle;
1403
                end
1404
 
1405
                auto_refresh :
1406
                begin
1407
                    if (Ref_Cnt < 4096)
1408
                        Ref_Cnt = Ref_Cnt + 1;
1409
                    if (command != nop)
1410
                    begin
1411
                        $display ("Illegal command received during");
1412
                        $display ("auto_refresh.",$time);
1413
                    end
1414
                end
1415
 
1416
                bank_act :
1417
                begin
1418
                    if (command == pre && (cur_bank == bank || A[10]))
1419
                    begin
1420
                        if (~ras_out[bank])
1421
                        begin
1422
                            $display ("precharge command does not meet tRAS");
1423
                            $display ("time", $time);
1424
                        end
1425
                        statebank[bank] = precharge;
1426
                        statebank[bank] <= #tdevice_TRP idle;
1427
                    end
1428
                    else if (command == nop || command == bst
1429
                        || cur_bank != bank)
1430
                    begin
1431
                    end
1432
                    else if (command == rd)
1433
                    begin
1434
                        if (rcdt_out[bank])
1435
                        begin
1436
                            $display ("read command received too soon");
1437
                            $display ("after active",$time);
1438
                        end
1439
                        if (A[10] == 1'bx)
1440
                        begin
1441
                            $display ("A(10) = X during read command.");
1442
                            $display ("Next state unknown.");
1443
                        end
1444
                        MemAddr[bank][7:0] = 8'b0;// clr old addr
1445
                        // latch col addr
1446
                        if (Burst_Bits == 0)
1447
                            MemAddr[bank][7:0] = A[7:0];
1448
                        if (Burst_Bits == 1)
1449
                            MemAddr[bank][7:1] = A[7:1];
1450
                        if (Burst_Bits == 2)
1451
                            MemAddr[bank][7:2] = A[7:2];
1452
                        if (Burst_Bits == 3)
1453
                            MemAddr[bank][7:3] = A[7:3];
1454
                        if (Burst_Bits == 7)
1455
                            MemAddr[bank][7:7] = A[7:7];
1456
                        BurstIncProc(bank);
1457
                        StartAddr[bank] = BurstInc[bank] % 8;
1458
                        BaseLoc[bank] = MemAddr[bank];
1459
                        Loc = 4*(BaseLoc[bank] + BurstInc[bank]);
1460
                        generate_out(DataDrive,bank);
1461
                        BurstCnt[bank] = 1;
1462
                        NextStateAuto(bank, read);
1463
                        bank_tmp = bank;
1464
                    end
1465
                    else if (command == writ)
1466
                    begin
1467
                        if (rcdt_out[bank])
1468
                        begin
1469
                            $display ("write command received too soon");
1470
                            $display ("after active",$time);
1471
                        end
1472
                        if (A[10] == 1'bx)
1473
                        begin
1474
                            $display ("A(10) = X during write command.");
1475
                            $display ("Next state unknown.");
1476
                        end
1477
                        MemAddr[bank][7:0] = 8'b0; // clr old addr
1478
                        BurstIncProc(bank);
1479
                        // latch col addr
1480
                        if (Burst_Bits == 0)
1481
                            MemAddr[bank][7:0] = A[7:0];
1482
                        if (Burst_Bits == 1)
1483
                            MemAddr[bank][7:1] = A[7:1];
1484
                        if (Burst_Bits == 2)
1485
                            MemAddr[bank][7:2] = A[7:2];
1486
                        if (Burst_Bits == 3)
1487
                            MemAddr[bank][7:3] = A[7:3];
1488
                        if (Burst_Bits == 7)
1489
                            MemAddr[bank][7:7] = A[7:7];
1490
                        StartAddr[bank] = BurstInc[bank] % 8;
1491
                        BaseLoc[bank] = MemAddr[bank];
1492
                        Loc = 4*(BaseLoc[bank] + BurstInc[bank]);
1493
                        MemWrite(bank);
1494
                        BurstCnt[bank] = 1'b1;
1495
                        wrt_in = 1'b1;
1496
                        NextStateAuto(bank, write);
1497
                        written = 1'b1;
1498
                    end
1499
                    else if (cur_bank == bank || command == mrs)
1500
                    begin
1501
                        $display ("Illegal command received in");
1502
                        $display ("active state",$time);
1503
                    end
1504
                end
1505
 
1506
                write :
1507
                begin
1508
                    if (command == bst)
1509
                    begin
1510
                        statebank[bank] = bank_act;
1511
                        BurstCnt[bank] = 1'b0;
1512
                    end
1513
                    else if (command == rd)
1514
                        if (cur_bank == bank)
1515
                        begin
1516
                            MemAddr[bank][7:0] = 8'b0;// clr old addr
1517
                            BurstIncProc(bank);
1518
                            // latch col addr
1519
                            if (Burst_Bits == 0)
1520
                                MemAddr[bank][7:0] = A[7:0];
1521
                            if (Burst_Bits == 1)
1522
                                MemAddr[bank][7:1] = A[7:1];
1523
                            if (Burst_Bits == 2)
1524
                                MemAddr[bank][7:2] = A[7:2];
1525
                            if (Burst_Bits == 3)
1526
                                MemAddr[bank][7:3] = A[7:3];
1527
                            if (Burst_Bits == 7)
1528
                                MemAddr[bank][7:7] = A[7:7];
1529
                            StartAddr[bank] = BurstInc[bank] % 8;
1530
                            BaseLoc[bank] = MemAddr[bank];
1531
                            Loc = 4*(BaseLoc[bank] + BurstInc[bank]);
1532
                            generate_out(DataDrive, bank);
1533
                            BurstCnt[bank] = 1'b1;
1534
                            NextStateAuto(bank, read);
1535
                        end
1536
                        else
1537
                            statebank[bank] = bank_act;
1538
                    else if (command == writ)
1539
                        if (cur_bank == bank)
1540
                        begin
1541
                            MemAddr[bank][7:0] = 8'b0;// clr old addr
1542
                            BurstIncProc(bank);
1543
                            // latch col addr
1544
                            if (Burst_Bits == 0)
1545
                                MemAddr[bank][7:0] = A[7:0];
1546
                            if (Burst_Bits == 1)
1547
                                MemAddr[bank][7:1] = A[7:1];
1548
                            if (Burst_Bits == 2)
1549
                                MemAddr[bank][7:2] = A[7:2];
1550
                            if (Burst_Bits == 3)
1551
                                MemAddr[bank][7:3] = A[7:3];
1552
                            if (Burst_Bits == 7)
1553
                                MemAddr[bank][7:7] = A[7:7];
1554
                            StartAddr[bank] = BurstInc[bank] % 8;
1555
                            BaseLoc[bank] = MemAddr[bank];
1556
                            Loc = 4*(BaseLoc[bank] + BurstInc[bank]);
1557
                            MemWrite(bank);
1558
                            BurstCnt[bank] = 1'b1;
1559
                            wrt_in = 1'b1;
1560
                            if (A[10])
1561
                                statebank[bank] = write_auto_pre;
1562
                        end
1563
                        else
1564
                            statebank[bank] = bank_act;
1565
                    else if (command == pre && (cur_bank == bank || A[10]))
1566
                    begin
1567
                        if (~ras_out[bank])
1568
                        begin
1569
                $display ("precharge command does not meet tRAS time",$time);
1570
                        end
1571
                        if (~DQM0_ipd)
1572
                        begin
1573
                            $display ("DQM0 should be held high, data is");
1574
                            $display ("lost.",$time);
1575
                        end
1576
                        if (~DQM1_ipd)
1577
                        begin
1578
                            $display ("DQM1 should be held high, data is");
1579
                            $display ("lost.",$time);
1580
                        end
1581
                        if (~DQM2_ipd)
1582
                        begin
1583
                            $display ("DQM2 should be held high, data is");
1584
                            $display ("lost.",$time);
1585
                        end
1586
                        if (~DQM2_ipd)
1587
                        begin
1588
                            $display ("DQM2 should be held high, data is");
1589
                            $display ("lost.",$time);
1590
                        end
1591
                        wrt_in = 1'b0;
1592
                        statebank[bank] = precharge;
1593
                        statebank[bank] <= #tdevice_TRP idle;
1594
                    end
1595
                    else if (command == nop || cur_bank != bank)
1596
                        if (BurstCnt[bank] == BurstLen || WB == single)
1597
                        begin
1598
                            statebank[bank] = bank_act;
1599
                            BurstCnt[bank] = 1'b0;
1600
                            ras_in[bank] = 1'b1;
1601
                        end
1602
                        else
1603
                        begin
1604
                            if (Burst == sequential)
1605
                                BurstInc[bank] = (BurstInc[bank]+1) % BurstLen;
1606
                            else
1607
                                BurstInc[bank] =
1608
                                intab[StartAddr[bank]*8 + BurstCnt[bank]];
1609
                            Loc = 4*(BaseLoc[bank] + BurstInc[bank]);
1610
                            MemWrite(bank);
1611
                            BurstCnt[bank] = BurstCnt[bank] + 1;
1612
                            wrt_in = 1'b1;
1613
                        end
1614
                    else if (cur_bank == bank)
1615
                    $display ("Illegal command received in write state",$time);
1616
                end
1617
 
1618
                read :
1619
                begin
1620
                    if (command == bst)
1621
                    begin
1622
                        statebank[bank] = bank_act;
1623
                        BurstCnt[bank] = 1'b0;
1624
                    end
1625
                    else if (command == rd)
1626
                        if (cur_bank == bank)
1627
                        begin
1628
                            MemAddr[bank][7:0] = 8'b0;// clr old addr
1629
                            BurstIncProc(bank);
1630
                            // latch col addr
1631
                            if (Burst_Bits == 0)
1632
                                MemAddr[bank][7:0] = A[7:0];
1633
                            if (Burst_Bits == 1)
1634
                                MemAddr[bank][7:1] = A[7:1];
1635
                            if (Burst_Bits == 2)
1636
                                MemAddr[bank][7:2] = A[7:2];
1637
                            if (Burst_Bits == 3)
1638
                                MemAddr[bank][7:3] = A[7:3];
1639
                            if (Burst_Bits == 7)
1640
                                MemAddr[bank][7:7] = A[7:7];
1641
                            StartAddr[bank] = BurstInc[bank] % 8;
1642
                            BaseLoc[bank] = MemAddr[bank];
1643
                            Loc = 4*(BaseLoc[bank] + BurstInc[bank]);
1644
                            generate_out(DataDrive, bank);
1645
                            BurstCnt[bank] = 1'b1;
1646
                            NextStateAuto(bank, read);
1647
                        end
1648
                        else
1649
                            statebank[bank] = bank_act;
1650
                    else if (command == writ)
1651
                        if (cur_bank == bank)
1652
                        begin
1653
                            if (rcdt_out[bank])
1654
                            begin
1655
                $display ("write command received too soon after active",$time);
1656
                            end
1657
                            if (A[10] == 1'bx)
1658
                            begin
1659
                                $display ("A(10) = X during write command.");
1660
                                $display ("Next state unknown.");
1661
                            end
1662
 
1663
                            MemAddr[bank][7:0] = 8'b0;// clr old addr
1664
                            BurstIncProc(bank);
1665
                            // latch col addr
1666
                            if (Burst_Bits == 0)
1667
                                MemAddr[bank][7:0] = A[7:0];
1668
                            if (Burst_Bits == 1)
1669
                                MemAddr[bank][7:1] = A[7:1];
1670
                            if (Burst_Bits == 2)
1671
                                MemAddr[bank][7:2] = A[7:2];
1672
                            if (Burst_Bits == 3)
1673
                                MemAddr[bank][7:3] = A[7:3];
1674
                            if (Burst_Bits == 7)
1675
                                MemAddr[bank][7:7] = A[7:7];
1676
                            StartAddr[bank] = BurstInc[bank] % 8;
1677
                            BaseLoc[bank] = MemAddr[bank];
1678
                            Loc = 4*(BaseLoc[bank] + BurstInc[bank]);
1679
                            MemWrite(bank);
1680
                            BurstCnt[bank] = 1'b1;
1681
                            wrt_in = 1'b1;
1682
                            NextStateAuto(bank,write);
1683
                        end
1684
                        else
1685
                            statebank[bank] = bank_act;
1686
 
1687
                    else if (command == pre && (cur_bank == bank || A[10]))
1688
                    begin
1689
                        if (~ras_out[bank])
1690
                        begin
1691
                  $display ("Precharge command does not meet tRAS time",$time);
1692
                        end
1693
                        statebank[bank] = precharge;
1694
                        statebank[bank] <= #tdevice_TRP idle;
1695
                    end
1696
 
1697
                    else if (command == nop || cur_bank != bank)
1698
                    begin
1699
                        if (BurstCnt[bank] == BurstLen)
1700
                        begin
1701
                            statebank[bank] = bank_act;
1702
                            BurstCnt[bank] = 1'b0;
1703
                            ras_in[bank] = 1'b1;
1704
                        end
1705
                        else
1706
                        begin
1707
                            if (Burst == sequential)
1708
                                BurstInc[bank] = (BurstInc[bank]+1) % BurstLen;
1709
                            else
1710
                                BurstInc[bank] =
1711
                                intab[StartAddr[bank]*8 + BurstCnt[bank]];
1712
 
1713
                            Loc = 4*(BaseLoc[bank] + BurstInc[bank]);
1714
                            generate_out(DataDrive, bank);
1715
                            BurstCnt[bank] = BurstCnt[bank] + 1;
1716
                        end
1717
                    end
1718
                    else if (cur_bank == bank)
1719
                    $display ("Illegal command received in read state",$time);
1720
                end
1721
 
1722
                write_auto_pre :
1723
                begin
1724
                    if (command == nop || cur_bank != bank)
1725
                        if (BurstCnt[bank] == BurstLen || WB == single)
1726
                        begin
1727
                            statebank[bank] = precharge;
1728
                            statebank[bank] <= #tdevice_TRP idle;
1729
                            BurstCnt[bank] = 1'b0;
1730
                            ras_in[bank] = 1'b1;
1731
                        end
1732
                        else
1733
                        begin
1734
                            if (Burst == sequential)
1735
                                BurstInc[bank] = (BurstInc[bank]+1) % BurstLen;
1736
                            else
1737
                                BurstInc[bank] =
1738
                                intab[StartAddr[bank]*8 + BurstCnt[bank]];
1739
                            Loc = 4*(BaseLoc[bank] + BurstInc[bank]);
1740
                            MemWrite(bank);
1741
                            BurstCnt[bank] = BurstCnt[bank] + 1;
1742
                            wrt_in = 1'b1;
1743
                        end
1744
                    else
1745
                    $display ("Illegal command received in write state.",$time);
1746
                end
1747
 
1748
                read_auto_pre :
1749
                begin
1750
                    if (command == nop || (cur_bank != bank && command != rd
1751
                        && command != writ))
1752
                        if (BurstCnt[bank] == BurstLen)
1753
                        begin
1754
                            statebank[bank] = precharge;
1755
                            statebank[bank] <= #tdevice_TRP idle;
1756
                            BurstCnt[bank] = 1'b0;
1757
                            ras_in[bank] = 1'b1;
1758
                        end
1759
                        else
1760
                        begin
1761
                            if (Burst == sequential)
1762
                                BurstInc[bank] = (BurstInc[bank]+1) % BurstLen;
1763
                            else
1764
                                BurstInc[bank] =
1765
                                intab[StartAddr[bank]*8 + BurstCnt[bank]];
1766
                            Loc = 4*(BaseLoc[bank] + BurstInc[bank]);
1767
                            generate_out(DataDrive, bank);
1768
                            BurstCnt[bank] = BurstCnt[bank] + 1;
1769
                        end
1770
                    else if ((command == rd || command == writ) && cur_bank
1771
                        != bank)
1772
                    begin
1773
                        statebank[bank] = precharge;
1774
                        statebank[bank] <= #tdevice_TRP idle;
1775
                    end
1776
                    else
1777
                    $display ("Illegal command received in read state",$time);
1778
                end
1779
                endcase
1780
            end
1781
 
1782
            // Check Refresh Status
1783
            if (written && (Ref_Cnt == 0))
1784
                $display ("memory not refreshed (by ref_cnt)", $time);
1785
 
1786
            DataDrive3 = DataDrive2;
1787
            DataDrive2 = DataDrive1;
1788
            DataDrive1 = DataDrive;
1789
 
1790
        end
1791
 
1792
        //  Latency adjustments and DQM read masking
1793
        if (~DQM0_reg1)
1794
            if (CAS_Lat && CAS_Lat2)
1795
                DataDriveOut[7:0] = DataDrive3[7:0];
1796
            else if (~CAS_Lat && CAS_Lat2)
1797
                DataDriveOut[7:0] = DataDrive2[7:0];
1798
            else
1799
                DataDriveOut[7:0] = DataDrive1[7:0];
1800
        else
1801
            DataDriveOut[7:0] = 8'bz;
1802
 
1803
        if (~DQM1_reg1)
1804
            if (CAS_Lat && CAS_Lat2)
1805
                DataDriveOut[15:8] = DataDrive3[15:8];
1806
            else if (~CAS_Lat && CAS_Lat2)
1807
                DataDriveOut[15:8] = DataDrive2[15:8];
1808
            else
1809
                DataDriveOut[15:8] = DataDrive1[15:8];
1810
        else
1811
            DataDriveOut[15:8] = 8'bz;
1812
 
1813
        if (~DQM2_reg1)
1814
            if (CAS_Lat && CAS_Lat2)
1815
                DataDriveOut[23:16] = DataDrive3[23:16];
1816
            else if (~CAS_Lat && CAS_Lat2)
1817
                DataDriveOut[23:16] = DataDrive2[23:16];
1818
            else
1819
                DataDriveOut[23:16] = DataDrive1[23:16];
1820
        else
1821
            DataDriveOut[23:16] = 8'bz;
1822
 
1823
        if (~DQM3_reg1)
1824
            if (CAS_Lat && CAS_Lat2)
1825
                DataDriveOut[31:24] = DataDrive3[31:24];
1826
            else if (~CAS_Lat && CAS_Lat2)
1827
                DataDriveOut[31:24] = DataDrive2[31:24];
1828
            else
1829
                DataDriveOut[31:24] = DataDrive1[31:24];
1830
        else
1831
            DataDriveOut[31:24] = 8'bz;
1832
 
1833
        // The Powering-up State Machine
1834
        if (~CKEreg && CKE_ipd)
1835
        begin
1836
            if (CSNeg_ipd == 1'bx)
1837
                $display ("Unusable value for CSNeg");
1838
            if (CSNeg_ipd)
1839
                command = nop;
1840
 
1841
            case (statebank[cur_bank])
1842
            write_suspend :
1843
            begin
1844
                statebank[cur_bank] = write;
1845
            end
1846
 
1847
            read_suspend :
1848
            begin
1849
                statebank[cur_bank] = read;
1850
            end
1851
 
1852
            self_refresh :
1853
            begin
1854
                statebank[0] <= #tdevice_TRP idle;
1855
                statebank[1] <= #tdevice_TRP idle;
1856
                statebank[2] <= #tdevice_TRP idle;
1857
                statebank[3] <= #tdevice_TRP idle;
1858
                Ref_Cnt = 4096;
1859
                if (command != nop)
1860
                begin
1861
                    $display ("Illegal command received during self");
1862
                    $display ("refresh",$time);
1863
                end
1864
            end
1865
 
1866
            pwrdwn :
1867
            begin
1868
                statebank[0] = idle;
1869
                statebank[1] = idle;
1870
                statebank[2] = idle;
1871
                statebank[3] = idle;
1872
            end
1873
 
1874
            bank_act_pwrdwn :
1875
            begin
1876
                statebank[cur_bank] = bank_act;
1877
            end
1878
            endcase
1879
        end
1880
 
1881
        // The Powering-down State Machine
1882
        if (CKEreg && ~CKE_ipd)
1883
        begin
1884
            if (CSNeg_ipd == 1'bx)
1885
                $display ("Unusable value for CSNeg");
1886
            if (CSNeg_ipd)
1887
                command = nop;
1888
 
1889
            case (statebank[cur_bank])
1890
            idle :
1891
            begin
1892
                if (command == nop)
1893
                begin
1894
                    statebank[0] = pwrdwn;
1895
                    statebank[1] = pwrdwn;
1896
                    statebank[2] = pwrdwn;
1897
                    statebank[3] = pwrdwn;
1898
                end
1899
            end
1900
 
1901
            write :
1902
            begin
1903
                statebank[cur_bank] = write_suspend;
1904
            end
1905
 
1906
            read :
1907
            begin
1908
                statebank[cur_bank] = read_suspend;
1909
            end
1910
 
1911
            bank_act :
1912
            begin
1913
                statebank[cur_bank] = bank_act_pwrdwn;
1914
            end
1915
            endcase
1916
        end
1917
 
1918
        CKEreg = CKE_ipd;
1919
    end
1920
 
1921
    always @(DataDriveOut)
1922
    begin
1923
        DQ_zd = DataDriveOut;
1924
    end
1925
 
1926
    reg TRC_In , TRCAR_In;
1927
    reg TRCD_In , TRP_In , TWR_In;
1928
    wire TRC_Out, TRCAR_Out, TRCD_Out, TRP_Out, TWR_Out;
1929
 
1930
    BUFFER    BUF_TRC    (TRC_Out  , TRC_In);
1931
    BUFFER    BUF_TRCAR  (TRCAR_Out, TRCAR_In);
1932
    BUFFER    BUF_TRCD   (TRCD_Out , TRCD_In);
1933
    BUFFER    BUF_TRP    (TRP_Out  , TRP_In);
1934
    BUFFER    BUF_TWR    (TWR_Out  , TWR_In);
1935
 
1936
    initial
1937
    begin
1938
        TRC_In   = 1;
1939
        TRCAR_In = 1;
1940
        TRCD_In  = 1'b1;
1941
        TRP_In   = 1;
1942
        TWR_In   = 1;
1943
    end
1944
 
1945
    always @(posedge TRC_Out)
1946
    begin
1947
        tdevice_TRC = $time;
1948
    end
1949
 
1950
    always @(posedge TRCAR_Out)
1951
    begin
1952
        tdevice_TRCAR = $time;
1953
    end
1954
 
1955
    always @(posedge TRCD_Out)
1956
    begin
1957
        tdevice_TRCD = $time;
1958
    end
1959
 
1960
    always @(posedge TRP_Out)
1961
    begin
1962
        tdevice_TRP = $time;
1963
    end
1964
 
1965
    always @(posedge TWR_Out)
1966
    begin
1967
        tdevice_TWR = $time;
1968
    end
1969
 
1970
endmodule
1971
 
1972
module BUFFER (OUT,IN);
1973
    input IN;
1974
    output OUT;
1975
        buf (OUT, IN);
1976
endmodule

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