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[/] [openrisc/] [trunk/] [or1200/] [rtl/] [verilog/] [or1200_xcv_ram32x8d.v] - Blame information for rev 168

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Line No. Rev Author Line
1 10 unneback
//////////////////////////////////////////////////////////////////////
2
////                                                              ////
3
////  Xilinx Virtex RAM 32x8D                                     ////
4
////                                                              ////
5
////  This file is part of the OpenRISC 1200 project              ////
6
////  http://www.opencores.org/cores/or1k/                        ////
7
////                                                              ////
8
////  Description                                                 ////
9
////  Virtex dual-port memory                                     ////
10
////                                                              ////
11
////  To Do:                                                      ////
12
////   - make it smaller and faster                               ////
13
////                                                              ////
14
////  Author(s):                                                  ////
15
////      - Damjan Lampret, lampret@opencores.org                 ////
16
////                                                              ////
17
//////////////////////////////////////////////////////////////////////
18
////                                                              ////
19
//// Copyright (C) 2000 Authors and OPENCORES.ORG                 ////
20
////                                                              ////
21
//// This source file may be used and distributed without         ////
22
//// restriction provided that this copyright statement is not    ////
23
//// removed from the file and that any derivative work contains  ////
24
//// the original copyright notice and the associated disclaimer. ////
25
////                                                              ////
26
//// This source file is free software; you can redistribute it   ////
27
//// and/or modify it under the terms of the GNU Lesser General   ////
28
//// Public License as published by the Free Software Foundation; ////
29
//// either version 2.1 of the License, or (at your option) any   ////
30
//// later version.                                               ////
31
////                                                              ////
32
//// This source is distributed in the hope that it will be       ////
33
//// useful, but WITHOUT ANY WARRANTY; without even the implied   ////
34
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR      ////
35
//// PURPOSE.  See the GNU Lesser General Public License for more ////
36
//// details.                                                     ////
37
////                                                              ////
38
//// You should have received a copy of the GNU Lesser General    ////
39
//// Public License along with this source; if not, download it   ////
40
//// from http://www.opencores.org/lgpl.shtml                     ////
41
////                                                              ////
42
//////////////////////////////////////////////////////////////////////
43
//
44
// CVS Revision History
45
//
46 142 marcus.erl
// $Log: or1200_xcv_ram32x8d.v,v $
47
// Revision 2.0  2010/06/30 11:00:00  ORSoC
48
// No update 
49
//
50
// Revision 1.2  2002/07/14 22:17:17  lampret
51
// Added simple trace buffer [only for Xilinx Virtex target]. Fixed instruction fetch abort when new exception is recognized.
52
//
53 10 unneback
// Revision 1.1  2002/01/03 08:16:15  lampret
54
// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
55
//
56
// Revision 1.7  2001/10/21 17:57:16  lampret
57
// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
58
//
59
// Revision 1.6  2001/10/14 13:12:10  lampret
60
// MP3 version.
61
//
62
// Revision 1.1.1.1  2001/10/06 10:18:36  igorm
63
// no message
64
//
65
// Revision 1.1  2001/08/09 13:39:33  lampret
66
// Major clean-up.
67
//
68
//
69
 
70
// synopsys translate_off
71
`include "timescale.v"
72
// synopsys translate_on
73
`include "or1200_defines.v"
74
 
75
`ifdef OR1200_XILINX_RAM32X1D
76
`ifdef OR1200_USE_RAM16X1D_FOR_RAM32X1D
77
module or1200_xcv_ram32x8d
78
(
79
    DPO,
80
    SPO,
81
    A,
82
    D,
83
    DPRA,
84
    WCLK,
85
    WE
86
);
87
output  [7:0]   DPO;
88
output  [7:0]   SPO;
89
input   [4:0]   A;
90
input   [4:0]   DPRA;
91
input   [7:0]   D;
92
input           WCLK;
93
input           WE;
94
 
95
wire    [7:0]   DPO_0;
96
wire    [7:0]   SPO_0;
97
 
98
wire    [7:0]   DPO_1;
99
wire    [7:0]   SPO_1;
100
 
101
wire            WE_0 ;
102
wire            WE_1 ;
103
 
104
assign DPO = DPRA[4] ? DPO_1 : DPO_0 ;
105
assign SPO = A[4] ? SPO_1 : SPO_0 ;
106
 
107
assign WE_0 = !A[4] && WE ;
108
assign WE_1 =  A[4] && WE ;
109
 
110
RAM16X1D ram32x1d_0_0(
111
        .DPO(DPO_0[0]),
112
        .SPO(SPO_0[0]),
113
        .A0(A[0]),
114
        .A1(A[1]),
115
        .A2(A[2]),
116
        .A3(A[3]),
117
        .D(D[0]),
118
        .DPRA0(DPRA[0]),
119
        .DPRA1(DPRA[1]),
120
        .DPRA2(DPRA[2]),
121
        .DPRA3(DPRA[3]),
122
        .WCLK(WCLK),
123
        .WE(WE_0)
124
);
125
 
126
//
127
// Instantiation of block 1
128
//
129
RAM16X1D ram32x1d_0_1(
130
        .DPO(DPO_0[1]),
131
        .SPO(SPO_0[1]),
132
        .A0(A[0]),
133
        .A1(A[1]),
134
        .A2(A[2]),
135
        .A3(A[3]),
136
        .D(D[1]),
137
        .DPRA0(DPRA[0]),
138
        .DPRA1(DPRA[1]),
139
        .DPRA2(DPRA[2]),
140
        .DPRA3(DPRA[3]),
141
        .WCLK(WCLK),
142
        .WE(WE_0)
143
);
144
 
145
//
146
// Instantiation of block 2
147
//
148
RAM16X1D ram32x1d_0_2(
149
        .DPO(DPO_0[2]),
150
        .SPO(SPO_0[2]),
151
        .A0(A[0]),
152
        .A1(A[1]),
153
        .A2(A[2]),
154
        .A3(A[3]),
155
        .D(D[2]),
156
        .DPRA0(DPRA[0]),
157
        .DPRA1(DPRA[1]),
158
        .DPRA2(DPRA[2]),
159
        .DPRA3(DPRA[3]),
160
        .WCLK(WCLK),
161
        .WE(WE_0)
162
);
163
 
164
//
165
// Instantiation of block 3
166
//
167
RAM16X1D ram32x1d_0_3(
168
        .DPO(DPO_0[3]),
169
        .SPO(SPO_0[3]),
170
        .A0(A[0]),
171
        .A1(A[1]),
172
        .A2(A[2]),
173
        .A3(A[3]),
174
        .D(D[3]),
175
        .DPRA0(DPRA[0]),
176
        .DPRA1(DPRA[1]),
177
        .DPRA2(DPRA[2]),
178
        .DPRA3(DPRA[3]),
179
        .WCLK(WCLK),
180
        .WE(WE_0)
181
);
182
 
183
//
184
// Instantiation of block 4
185
//
186
RAM16X1D ram32x1d_0_4(
187
        .DPO(DPO_0[4]),
188
        .SPO(SPO_0[4]),
189
        .A0(A[0]),
190
        .A1(A[1]),
191
        .A2(A[2]),
192
        .A3(A[3]),
193
        .D(D[4]),
194
        .DPRA0(DPRA[0]),
195
        .DPRA1(DPRA[1]),
196
        .DPRA2(DPRA[2]),
197
        .DPRA3(DPRA[3]),
198
        .WCLK(WCLK),
199
        .WE(WE_0)
200
);
201
 
202
//
203
// Instantiation of block 5
204
//
205
RAM16X1D ram32x1d_0_5(
206
        .DPO(DPO_0[5]),
207
        .SPO(SPO_0[5]),
208
        .A0(A[0]),
209
        .A1(A[1]),
210
        .A2(A[2]),
211
        .A3(A[3]),
212
        .D(D[5]),
213
        .DPRA0(DPRA[0]),
214
        .DPRA1(DPRA[1]),
215
        .DPRA2(DPRA[2]),
216
        .DPRA3(DPRA[3]),
217
        .WCLK(WCLK),
218
        .WE(WE_0)
219
);
220
 
221
//
222
// Instantiation of block 6
223
//
224
RAM16X1D ram32x1d_0_6(
225
        .DPO(DPO_0[6]),
226
        .SPO(SPO_0[6]),
227
        .A0(A[0]),
228
        .A1(A[1]),
229
        .A2(A[2]),
230
        .A3(A[3]),
231
        .D(D[6]),
232
        .DPRA0(DPRA[0]),
233
        .DPRA1(DPRA[1]),
234
        .DPRA2(DPRA[2]),
235
        .DPRA3(DPRA[3]),
236
        .WCLK(WCLK),
237
        .WE(WE_0)
238
);
239
 
240
//
241
// Instantiation of block 7
242
//
243
RAM16X1D ram32x1d_0_7(
244
        .DPO(DPO_0[7]),
245
        .SPO(SPO_0[7]),
246
        .A0(A[0]),
247
        .A1(A[1]),
248
        .A2(A[2]),
249
        .A3(A[3]),
250
        .D(D[7]),
251
        .DPRA0(DPRA[0]),
252
        .DPRA1(DPRA[1]),
253
        .DPRA2(DPRA[2]),
254
        .DPRA3(DPRA[3]),
255
        .WCLK(WCLK),
256
        .WE(WE_0)
257
);
258
 
259
RAM16X1D ram32x1d_1_0(
260
        .DPO(DPO_1[0]),
261
        .SPO(SPO_1[0]),
262
        .A0(A[0]),
263
        .A1(A[1]),
264
        .A2(A[2]),
265
        .A3(A[3]),
266
        .D(D[0]),
267
        .DPRA0(DPRA[0]),
268
        .DPRA1(DPRA[1]),
269
        .DPRA2(DPRA[2]),
270
        .DPRA3(DPRA[3]),
271
        .WCLK(WCLK),
272
        .WE(WE_1)
273
);
274
 
275
//
276
// Instantiation of block 1
277
//
278
RAM16X1D ram32x1d_1_1(
279
        .DPO(DPO_1[1]),
280
        .SPO(SPO_1[1]),
281
        .A0(A[0]),
282
        .A1(A[1]),
283
        .A2(A[2]),
284
        .A3(A[3]),
285
        .D(D[1]),
286
        .DPRA0(DPRA[0]),
287
        .DPRA1(DPRA[1]),
288
        .DPRA2(DPRA[2]),
289
        .DPRA3(DPRA[3]),
290
        .WCLK(WCLK),
291
        .WE(WE_1)
292
);
293
 
294
//
295
// Instantiation of block 2
296
//
297
RAM16X1D ram32x1d_1_2(
298
        .DPO(DPO_1[2]),
299
        .SPO(SPO_1[2]),
300
        .A0(A[0]),
301
        .A1(A[1]),
302
        .A2(A[2]),
303
        .A3(A[3]),
304
        .D(D[2]),
305
        .DPRA0(DPRA[0]),
306
        .DPRA1(DPRA[1]),
307
        .DPRA2(DPRA[2]),
308
        .DPRA3(DPRA[3]),
309
        .WCLK(WCLK),
310
        .WE(WE_1)
311
);
312
 
313
//
314
// Instantiation of block 3
315
//
316
RAM16X1D ram32x1d_1_3(
317
        .DPO(DPO_1[3]),
318
        .SPO(SPO_1[3]),
319
        .A0(A[0]),
320
        .A1(A[1]),
321
        .A2(A[2]),
322
        .A3(A[3]),
323
        .D(D[3]),
324
        .DPRA0(DPRA[0]),
325
        .DPRA1(DPRA[1]),
326
        .DPRA2(DPRA[2]),
327
        .DPRA3(DPRA[3]),
328
        .WCLK(WCLK),
329
        .WE(WE_1)
330
);
331
 
332
//
333
// Instantiation of block 4
334
//
335
RAM16X1D ram32x1d_1_4(
336
        .DPO(DPO_1[4]),
337
        .SPO(SPO_1[4]),
338
        .A0(A[0]),
339
        .A1(A[1]),
340
        .A2(A[2]),
341
        .A3(A[3]),
342
        .D(D[4]),
343
        .DPRA0(DPRA[0]),
344
        .DPRA1(DPRA[1]),
345
        .DPRA2(DPRA[2]),
346
        .DPRA3(DPRA[3]),
347
        .WCLK(WCLK),
348
        .WE(WE_1)
349
);
350
 
351
//
352
// Instantiation of block 5
353
//
354
RAM16X1D ram32x1d_1_5(
355
        .DPO(DPO_1[5]),
356
        .SPO(SPO_1[5]),
357
        .A0(A[0]),
358
        .A1(A[1]),
359
        .A2(A[2]),
360
        .A3(A[3]),
361
        .D(D[5]),
362
        .DPRA0(DPRA[0]),
363
        .DPRA1(DPRA[1]),
364
        .DPRA2(DPRA[2]),
365
        .DPRA3(DPRA[3]),
366
        .WCLK(WCLK),
367
        .WE(WE_1)
368
);
369
 
370
//
371
// Instantiation of block 6
372
//
373
RAM16X1D ram32x1d_1_6(
374
        .DPO(DPO_1[6]),
375
        .SPO(SPO_1[6]),
376
        .A0(A[0]),
377
        .A1(A[1]),
378
        .A2(A[2]),
379
        .A3(A[3]),
380
        .D(D[6]),
381
        .DPRA0(DPRA[0]),
382
        .DPRA1(DPRA[1]),
383
        .DPRA2(DPRA[2]),
384
        .DPRA3(DPRA[3]),
385
        .WCLK(WCLK),
386
        .WE(WE_1)
387
);
388
 
389
//
390
// Instantiation of block 7
391
//
392
RAM16X1D ram32x1d_1_7(
393
        .DPO(DPO_1[7]),
394
        .SPO(SPO_1[7]),
395
        .A0(A[0]),
396
        .A1(A[1]),
397
        .A2(A[2]),
398
        .A3(A[3]),
399
        .D(D[7]),
400
        .DPRA0(DPRA[0]),
401
        .DPRA1(DPRA[1]),
402
        .DPRA2(DPRA[2]),
403
        .DPRA3(DPRA[3]),
404
        .WCLK(WCLK),
405
        .WE(WE_1)
406
);
407
endmodule
408
 
409
`else
410
 
411
module or1200_xcv_ram32x8d (DPO, SPO, A, D, DPRA, WCLK, WE);
412
 
413
//
414
// I/O
415
//
416
output [7:0]     DPO;
417
output [7:0]     SPO;
418
input [4:0]      A;
419
input [4:0]      DPRA;
420
input [7:0]      D;
421
input           WCLK;
422
input           WE;
423
 
424
//
425
// Instantiation of block 0
426
//
427
RAM32X1D ram32x1d_0(
428
        .DPO(DPO[0]),
429
        .SPO(SPO[0]),
430
        .A0(A[0]),
431
        .A1(A[1]),
432
        .A2(A[2]),
433
        .A3(A[3]),
434
        .A4(A[4]),
435
        .D(D[0]),
436
        .DPRA0(DPRA[0]),
437
        .DPRA1(DPRA[1]),
438
        .DPRA2(DPRA[2]),
439
        .DPRA3(DPRA[3]),
440
        .DPRA4(DPRA[4]),
441
        .WCLK(WCLK),
442
        .WE(WE)
443
);
444
 
445
//
446
// Instantiation of block 1
447
//
448
RAM32X1D ram32x1d_1(
449
        .DPO(DPO[1]),
450
        .SPO(SPO[1]),
451
        .A0(A[0]),
452
        .A1(A[1]),
453
        .A2(A[2]),
454
        .A3(A[3]),
455
        .A4(A[4]),
456
        .D(D[1]),
457
        .DPRA0(DPRA[0]),
458
        .DPRA1(DPRA[1]),
459
        .DPRA2(DPRA[2]),
460
        .DPRA3(DPRA[3]),
461
        .DPRA4(DPRA[4]),
462
        .WCLK(WCLK),
463
        .WE(WE)
464
);
465
 
466
//
467
// Instantiation of block 2
468
//
469
RAM32X1D ram32x1d_2(
470
        .DPO(DPO[2]),
471
        .SPO(SPO[2]),
472
        .A0(A[0]),
473
        .A1(A[1]),
474
        .A2(A[2]),
475
        .A3(A[3]),
476
        .A4(A[4]),
477
        .D(D[2]),
478
        .DPRA0(DPRA[0]),
479
        .DPRA1(DPRA[1]),
480
        .DPRA2(DPRA[2]),
481
        .DPRA3(DPRA[3]),
482
        .DPRA4(DPRA[4]),
483
        .WCLK(WCLK),
484
        .WE(WE)
485
);
486
 
487
//
488
// Instantiation of block 3
489
//
490
RAM32X1D ram32x1d_3(
491
        .DPO(DPO[3]),
492
        .SPO(SPO[3]),
493
        .A0(A[0]),
494
        .A1(A[1]),
495
        .A2(A[2]),
496
        .A3(A[3]),
497
        .A4(A[4]),
498
        .D(D[3]),
499
        .DPRA0(DPRA[0]),
500
        .DPRA1(DPRA[1]),
501
        .DPRA2(DPRA[2]),
502
        .DPRA3(DPRA[3]),
503
        .DPRA4(DPRA[4]),
504
        .WCLK(WCLK),
505
        .WE(WE)
506
);
507
 
508
//
509
// Instantiation of block 4
510
//
511
RAM32X1D ram32x1d_4(
512
        .DPO(DPO[4]),
513
        .SPO(SPO[4]),
514
        .A0(A[0]),
515
        .A1(A[1]),
516
        .A2(A[2]),
517
        .A3(A[3]),
518
        .A4(A[4]),
519
        .D(D[4]),
520
        .DPRA0(DPRA[0]),
521
        .DPRA1(DPRA[1]),
522
        .DPRA2(DPRA[2]),
523
        .DPRA3(DPRA[3]),
524
        .DPRA4(DPRA[4]),
525
        .WCLK(WCLK),
526
        .WE(WE)
527
);
528
 
529
//
530
// Instantiation of block 5
531
//
532
RAM32X1D ram32x1d_5(
533
        .DPO(DPO[5]),
534
        .SPO(SPO[5]),
535
        .A0(A[0]),
536
        .A1(A[1]),
537
        .A2(A[2]),
538
        .A3(A[3]),
539
        .A4(A[4]),
540
        .D(D[5]),
541
        .DPRA0(DPRA[0]),
542
        .DPRA1(DPRA[1]),
543
        .DPRA2(DPRA[2]),
544
        .DPRA3(DPRA[3]),
545
        .DPRA4(DPRA[4]),
546
        .WCLK(WCLK),
547
        .WE(WE)
548
);
549
 
550
//
551
// Instantiation of block 6
552
//
553
RAM32X1D ram32x1d_6(
554
        .DPO(DPO[6]),
555
        .SPO(SPO[6]),
556
        .A0(A[0]),
557
        .A1(A[1]),
558
        .A2(A[2]),
559
        .A3(A[3]),
560
        .A4(A[4]),
561
        .D(D[6]),
562
        .DPRA0(DPRA[0]),
563
        .DPRA1(DPRA[1]),
564
        .DPRA2(DPRA[2]),
565
        .DPRA3(DPRA[3]),
566
        .DPRA4(DPRA[4]),
567
        .WCLK(WCLK),
568
        .WE(WE)
569
);
570
 
571
//
572
// Instantiation of block 7
573
//
574
RAM32X1D ram32x1d_7(
575
        .DPO(DPO[7]),
576
        .SPO(SPO[7]),
577
        .A0(A[0]),
578
        .A1(A[1]),
579
        .A2(A[2]),
580
        .A3(A[3]),
581
        .A4(A[4]),
582
        .D(D[7]),
583
        .DPRA0(DPRA[0]),
584
        .DPRA1(DPRA[1]),
585
        .DPRA2(DPRA[2]),
586
        .DPRA3(DPRA[3]),
587
        .DPRA4(DPRA[4]),
588
        .WCLK(WCLK),
589
        .WE(WE)
590
);
591
 
592
endmodule
593
`endif
594
`endif

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