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[/] [sparc64soc/] [trunk/] [T1-common/] [srams/] [bw_r_dcd.v] - Blame information for rev 7

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1 2 dmitryr
// ========== Copyright Header Begin ==========================================
2
// 
3
// OpenSPARC T1 Processor File: bw_r_dcd.v
4
// Copyright (c) 2006 Sun Microsystems, Inc.  All Rights Reserved.
5
// DO NOT ALTER OR REMOVE COPYRIGHT NOTICES.
6
// 
7
// The above named program is free software; you can redistribute it and/or
8
// modify it under the terms of the GNU General Public
9
// License version 2 as published by the Free Software Foundation.
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// 
11
// The above named program is distributed in the hope that it will be 
12
// useful, but WITHOUT ANY WARRANTY; without even the implied warranty of
13
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
14
// General Public License for more details.
15
// 
16
// You should have received a copy of the GNU General Public
17
// License along with this work; if not, write to the Free Software
18
// Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA.
19
// 
20
// ========== Copyright Header End ============================================
21
////////////////////////////////////////////////////////////////////////
22
/*
23
//  Module Name:
24
//  Description:  LSU Data Cache.
25
//      - Physically-Indexed Physically Tagged (PIPT)
26
//      - 8KB
27
//      - 4 way set-associative.
28
//      - 16B lines
29
//      - 2:1 column select by choosing either lower
30
//      or upper half of 16B line.
31
//      - Parity protected on a byte basis.
32
//      - Byte enables for byte-wide stores.
33
//
34
*/
35
////////////////////////////////////////////////////////////////////////
36
// Global header file includes
37
////////////////////////////////////////////////////////////////////////
38
//`include  "sys.h" // system level definition file which contains the 
39
                  // time scale definition
40
 
41
//`include "iop.h"
42
//`include "fabric.h"
43
 
44
//FPGA_SYN enables all FPGA related modifications
45
`ifdef FPGA_SYN
46
`define FPGA_SYN_DCD
47
`endif
48
 
49
////////////////////////////////////////////////////////////////////////
50
// Local header file includes / local defines
51
////////////////////////////////////////////////////////////////////////
52
 
53
module bw_r_dcd ( /*AUTOARG*/
54
   // Outputs
55
   so, dcache_rdata_wb, dcache_rparity_wb, dcache_rparity_err_wb,
56
   dcache_rdata_msb_w0_m, dcache_rdata_msb_w1_m,
57
   dcache_rdata_msb_w2_m, dcache_rdata_msb_w3_m,
58
   dcd_fuse_repair_value, dcd_fuse_repair_en,
59
   // Inputs
60
   dcache_rd_addr_e, dcache_alt_addr_e, dcache_rvld_e, dcache_wvld_e,
61
   dcache_wdata_e, dcache_wr_rway_e, dcache_byte_wr_en_e,
62
   dcache_alt_rsel_way_e, dcache_rsel_way_wb, dcache_alt_mx_sel_e,
63
   si, se, sehold, rst_tri_en, arst_l, rclk, dcache_alt_data_w0_m,
64
   dcache_arry_data_sel_m, efc_spc_fuse_clk1, fuse_dcd_wren,
65
   fuse_dcd_rid, fuse_dcd_repair_value, fuse_dcd_repair_en
66
   ) ;
67
 
68
input [10:3]    dcache_rd_addr_e;     // read cache index [10:4] + bit [3] offset
69
input [10:3]    dcache_alt_addr_e;    // write/bist/diagnostic read cache index + offset 
70
 
71
input           dcache_rvld_e;        // read accesses d$.
72
input           dcache_wvld_e;        // valid write setup to m-stage.
73
 
74
input [143:0]   dcache_wdata_e;       // write data - 16Bx8 + 8b parity.
75
input [3:0]     dcache_wr_rway_e;     // replacement way for load miss/store.
76
input [15:0]    dcache_byte_wr_en_e;  // 16b byte wr enable for stores.
77
 
78
input [3:0]     dcache_alt_rsel_way_e ; // bist/diagnostic read way select
79
input [3:0]     dcache_rsel_way_wb;     // load way select, connect to cache_way_hit
80
input           dcache_alt_mx_sel_e;
81
 
82
input           si;
83
input           se;
84
input           sehold;
85
 
86
output          so;
87
 
88
input           rst_tri_en ;
89
 
90
input           arst_l; // used for redundancy flops - do not reset on wrm reset.
91
 
92
input           rclk;
93
 
94
output  [63:0]  dcache_rdata_wb;
95
output  [7:0]   dcache_rparity_wb;
96
output          dcache_rparity_err_wb;
97
 
98
//=================================
99
//    dc_fill critical path
100
//=================================  
101
   input [63:0] dcache_alt_data_w0_m; //from qdp1
102
   input        dcache_arry_data_sel_m;            //from dctl
103
 
104
   output [7:0] dcache_rdata_msb_w0_m;    //to dcdp
105
   output [7:0] dcache_rdata_msb_w1_m;    //to dcdp
106
   output [7:0] dcache_rdata_msb_w2_m;    //to dcdp
107
   output [7:0] dcache_rdata_msb_w3_m;    //to dcdp
108
 
109
//-----------------------------------------------------------------------------
110
// 32KB block fuse inputs
111
//-----------------------------------------------------------------------------
112
// efuse non ovl clks
113
input           efc_spc_fuse_clk1;
114
 
115
input           fuse_dcd_wren;          //redundancy register write enable, qualified
116
input [2:0]     fuse_dcd_rid;           //redundancy register id
117
input [7:0]     fuse_dcd_repair_value;  //data in for redundancy register
118
input [1:0]          fuse_dcd_repair_en;     //enable bits to turn on redundancy
119
output [7:0]    dcd_fuse_repair_value;  //data out for redundancy register
120
output [1:0]       dcd_fuse_repair_en;     //enable bits out 
121
 
122
// Memory declaration.
123
 
124
`ifdef DEFINE_0IN
125
wire [143:0]   temp_w0a;
126
wire [143:0]   temp_w1a;
127
wire [143:0]   temp_w2a;
128
wire [143:0]   temp_w3a;
129
`else
130
reg [143:0]   w0 [127:0]/* synthesis syn_ramstyle = block_ram  syn_ramstyle = no_rw_check */  ;   // way0, byte0. Data+Parity. 
131
reg [143:0]   w1 [127:0]/* synthesis syn_ramstyle = block_ram  syn_ramstyle = no_rw_check */  ;   // way0, byte0. Data+Parity.
132
reg [143:0]   w2 [127:0]/* synthesis syn_ramstyle = block_ram  syn_ramstyle = no_rw_check */  ;   // way0, byte0. Data+Parity.
133
reg [143:0]   w3 [127:0]/* synthesis syn_ramstyle = block_ram  syn_ramstyle = no_rw_check */  ;   // way0, byte0. Data+Parity.
134
 
135
reg [143:0]   temp_w0a_reg;
136
reg [143:0]   temp_w1a_reg;
137
reg [143:0]   temp_w2a_reg;
138
reg [143:0]   temp_w3a_reg;
139
 
140
wire [143:0]   temp_w0a;
141
wire [143:0]   temp_w1a;
142
wire [143:0]   temp_w2a;
143
wire [143:0]   temp_w3a;
144
 
145
reg [143:0]   temp_w0;
146
reg [143:0]   temp_w1;
147
reg [143:0]   temp_w2;
148
reg [143:0]   temp_w3;
149
`endif
150
reg [10:3]    dcache_rwaddr_m ;
151
reg [10:3]    dcache_raddr_m ;
152
reg           dcache_rvld_m ;
153
reg           wvld_m ;
154
reg [143:0]   dcache_wdata_m ;
155
reg [127:0]   rw_wdline ;
156
reg [3:0]     dcache_wr_rway_m ;
157
 
158
reg [63:0]    dcache_rdata_w0_wb;   // way0 64b data.
159
reg [63:0]    dcache_rdata_w1_wb;   // way1 64b data.
160
reg [63:0]    dcache_rdata_w2_wb;   // way2 64b data.
161
reg [63:0]    dcache_rdata_w3_wb;   // way3 64b data.
162
reg [15:0]    byte_wr_enable ;
163
reg [7:0]     ctr;
164
 
165
reg           dcache_alt_mx_sel_m, dcache_alt_mx_sel_wb;
166
reg [3:0]     dcache_alt_rsel_way_m, dcache_alt_rsel_way_wb;
167
 
168
integer       i,j;
169
 
170
wire            dcache_wvld_m ;
171
wire  [63:0]    dcache_rdata_w0_m;    // way0 64b data.
172
wire  [63:0]    dcache_rdata_w1_m;    // way1 64b data.
173
wire  [63:0]    dcache_rdata_w2_m;    // way2 64b data.
174
wire  [63:0]    dcache_rdata_w3_m;    // way3 64b data.
175
wire  [7:0]     dcache_rparity_w0_m;  // way0 8b parity.
176
wire  [7:0]     dcache_rparity_w1_m;  // way1 8b parity.
177
wire  [7:0]     dcache_rparity_w2_m;  // way2 8b parity.
178
wire  [7:0]     dcache_rparity_w3_m;  // way3 8b parity.
179
 
180
   wire [7:0]   rd_parity_err_w0_m;
181
   wire [7:0]   rd_parity_err_w1_m;
182
   wire [7:0]   rd_parity_err_w2_m;
183
   wire [7:0]   rd_parity_err_w3_m;
184
 
185
 
186
wire  [143:0]   way_mask ;
187
wire  [143:0]   way_mask_inv ;
188
 
189
wire  [10:3]    dcache_rwaddr_e ;
190
wire  [10:3]    dcache_raddr_e ;
191
 
192
//calculated parity based on read-out data
193
wire [7:0]  gen_dcache_parity_w0_m;
194
wire [7:0]  gen_dcache_parity_w1_m;
195
wire [7:0]  gen_dcache_parity_w2_m;
196
wire [7:0]  gen_dcache_parity_w3_m;
197
 
198
   wire     clk;
199
   assign   clk = rclk;
200
 
201
//=========================================================================================
202
//  Staging
203
//=========================================================================================
204
 
205
// BIST Rd used fill address port.
206
assign  dcache_rwaddr_e[10:3] =
207
  (dcache_alt_mx_sel_e) ? dcache_alt_addr_e[10:3] : dcache_rd_addr_e[10:3] ;
208
 
209
assign  dcache_raddr_e[10:3] =
210
  (dcache_alt_mx_sel_e) ? dcache_alt_addr_e[10:3] : dcache_rd_addr_e[10:3] ;
211
 
212
always @(posedge clk)
213
  begin
214
    dcache_alt_mx_sel_m   <= sehold ? dcache_alt_mx_sel_m : dcache_alt_mx_sel_e;
215
 
216
    dcache_alt_rsel_way_m <= sehold ? dcache_alt_rsel_way_m : dcache_alt_rsel_way_e;
217
 
218
    dcache_rwaddr_m[10:3] <= sehold ? dcache_rwaddr_m[10:3] : dcache_rwaddr_e[10:3] ;
219
 
220
    dcache_raddr_m[10:3] <= sehold ? dcache_raddr_m[10:3] : dcache_raddr_e[10:3] ;
221
 
222
    dcache_rvld_m         <= sehold ? dcache_rvld_m  : dcache_rvld_e ;
223
 
224
    wvld_m                <= sehold ?  wvld_m : dcache_wvld_e ;
225
 
226
    dcache_wdata_m[143:0] <= sehold ?  dcache_wdata_m[143:0] : dcache_wdata_e[143:0] ;
227
 
228
    dcache_wr_rway_m[3:0] <= sehold ?  dcache_wr_rway_m[3:0] : dcache_wr_rway_e[3:0] ;
229
 
230
    byte_wr_enable[15:0]  <= sehold ? byte_wr_enable[15:0] : dcache_byte_wr_en_e[15:0] ;
231
 
232
  end
233
 
234
always @ (posedge clk)
235
  begin
236
// JC modified begin
237
//    dcache_alt_mx_sel_wb <= dcache_alt_mx_sel_m;
238
//    dcache_alt_rsel_way_wb  <= dcache_alt_rsel_way_m;
239
    dcache_alt_mx_sel_wb <= sehold ? dcache_alt_mx_sel_wb :dcache_alt_mx_sel_m;
240
    dcache_alt_rsel_way_wb  <= sehold ? dcache_alt_rsel_way_wb :dcache_alt_rsel_way_m;
241
// JC modified end
242
  end
243
 
244
assign  dcache_wvld_m = wvld_m & ~rst_tri_en ;
245
 
246
 
247
`ifdef DEFINE_0IN
248
wire [3:0] dc_we = dcache_wvld_m ? dcache_wr_rway_m : 4'b0;
249
 
250
dc_data dc_data0 ( .nclk(~clk), .adr(dcache_rwaddr_m[10:4]),
251
                                 .we(dc_we           [0]  ), .wm(way_mask  [143:0]),
252
                                .din(dcache_wdata_m[143:0]), .dout(temp_w0a[143:0]) );
253
dc_data dc_data1 ( .nclk(~clk), .adr(dcache_rwaddr_m[10:4]),
254
                                 .we(dc_we           [1]  ), .wm(way_mask  [143:0]),
255
                                .din(dcache_wdata_m[143:0]), .dout(temp_w1a[143:0]) );
256
dc_data dc_data2 ( .nclk(~clk), .adr(dcache_rwaddr_m[10:4]),
257
                                 .we(dc_we           [2]  ), .wm(way_mask  [143:0]),
258
                                .din(dcache_wdata_m[143:0]), .dout(temp_w2a[143:0]) );
259
dc_data dc_data3 ( .nclk(~clk), .adr(dcache_rwaddr_m[10:4]),
260
                                 .we(dc_we           [3]  ), .wm(way_mask  [143:0]),
261
                                .din(dcache_wdata_m[143:0]), .dout(temp_w3a[143:0]) );
262
`else
263
//=========================================================================================
264
//  generate wordlines
265
//=========================================================================================
266
 
267
// Generate at posedge of clk.
268
// JC modified begin
269
/*
270
always @ (posedge clk)
271
  begin
272
    for (ctr=8'h00;ctr<128;ctr=ctr+1)
273
      begin
274
      if (clk & ({1'b0,dcache_rwaddr_e[10:4]} == ctr) &
275
         (dcache_rvld_e | dcache_wvld_e))
276
        rw_wdline[ctr]  = 1'b1;
277
      else
278
        rw_wdline[ctr]  = 1'b0;
279
      end
280
  end
281
*/
282
 
283
`ifdef FPGA_SYN_DCD
284
`else
285
always @ (clk or dcache_rwaddr_m or dcache_wvld_m or dcache_rvld_m)
286
  begin
287
   if (clk) begin
288
    for (ctr=8'h00;ctr<128;ctr=ctr+1)
289
      begin
290
      if (({1'b0,dcache_rwaddr_m[10:4]} == ctr) &
291
         (dcache_rvld_m | dcache_wvld_m))
292
        rw_wdline[ctr]  = 1'b1;
293
      else
294
        rw_wdline[ctr]  = 1'b0;
295
      end
296
   end
297
  end
298
// JC modified end
299
`endif
300
 
301
 
302
//=========================================================================================
303
//  Read from Memory.
304
//=========================================================================================
305
 
306
`ifdef FPGA_SYN_DCD
307
always @(posedge clk) begin
308
  temp_w0a_reg[143:0] = w0[dcache_raddr_e[10:4]];
309
  temp_w1a_reg[143:0] = w1[dcache_raddr_e[10:4]];
310
  temp_w2a_reg[143:0] = w2[dcache_raddr_e[10:4]];
311
  temp_w3a_reg[143:0] = w3[dcache_raddr_e[10:4]];
312
end
313
`else
314
// Read
315
always @ (negedge clk)
316
  begin
317
    for (i=0;i<128;i=i+1)
318
      begin
319
        if (rw_wdline[i] & dcache_rvld_m)
320
          begin
321
            temp_w0a_reg[143:0] <= w0[i];
322
            temp_w1a_reg[143:0] <= w1[i];
323
            temp_w2a_reg[143:0] <= w2[i];
324
            temp_w3a_reg[143:0] <= w3[i];
325
          end
326
      end
327
  end
328
`endif
329
 
330
//removed stablizer, zero out without read
331
assign  temp_w0a[143:0] = dcache_rvld_m? temp_w0a_reg[143:0]: 144'b0;
332
assign  temp_w1a[143:0] = dcache_rvld_m? temp_w1a_reg[143:0]: 144'b0;
333
assign  temp_w2a[143:0] = dcache_rvld_m? temp_w2a_reg[143:0]: 144'b0;
334
assign  temp_w3a[143:0] = dcache_rvld_m? temp_w3a_reg[143:0]: 144'b0;
335
 
336
`endif
337
 
338
// Prior to SA, column mux (64(D)+8(P))x4 bits. Assume parity is
339
// at the end of the 144b line. Entry is wX||Parity
340
 
341
// Select either upper or lower 64b from each of the 4 ways.
342
assign  dcache_rdata_w0_m[63:0] = ~dcache_rwaddr_m[3] ? temp_w0a[143:80] : temp_w0a[79:16] ;
343
assign  dcache_rdata_w1_m[63:0] = ~dcache_rwaddr_m[3] ? temp_w1a[143:80] : temp_w1a[79:16] ;
344
assign  dcache_rdata_w2_m[63:0] = ~dcache_rwaddr_m[3] ? temp_w2a[143:80] : temp_w2a[79:16] ;
345
assign  dcache_rdata_w3_m[63:0] = ~dcache_rwaddr_m[3] ? temp_w3a[143:80] : temp_w3a[79:16] ;
346
 
347
   wire [7:0] dcache_msb_w0_m;
348
   wire [7:0] dcache_alt_data_w0_msb_m;
349
 
350
//MSB sent out to dcdp in M stage   
351
assign dcache_msb_w0_m[7:0]=
352
    {dcache_rdata_w0_m[63],
353
     dcache_rdata_w0_m[55],
354
     dcache_rdata_w0_m[47],
355
     dcache_rdata_w0_m[39],
356
           dcache_rdata_w0_m[31],
357
     dcache_rdata_w0_m[23],
358
     dcache_rdata_w0_m[15],
359
     dcache_rdata_w0_m[07]} ;
360
 
361
assign dcache_alt_data_w0_msb_m [7:0]=
362
    {dcache_alt_data_w0_m[63],
363
     dcache_alt_data_w0_m[55],
364
     dcache_alt_data_w0_m[47],
365
     dcache_alt_data_w0_m[39],
366
           dcache_alt_data_w0_m[31],
367
     dcache_alt_data_w0_m[23],
368
     dcache_alt_data_w0_m[15],
369
     dcache_alt_data_w0_m[07]} ;
370
 
371
//2-to-1 mux   
372
assign dcache_rdata_msb_w0_m[7:0] = dcache_arry_data_sel_m ?
373
                                    dcache_msb_w0_m[7:0] :
374
                                    dcache_alt_data_w0_msb_m[7:0];
375
 
376
assign dcache_rdata_msb_w1_m[7:0]=
377
    {dcache_rdata_w1_m[63],
378
     dcache_rdata_w1_m[55],
379
     dcache_rdata_w1_m[47],
380
     dcache_rdata_w1_m[39],
381
           dcache_rdata_w1_m[31],
382
     dcache_rdata_w1_m[23],
383
     dcache_rdata_w1_m[15],
384
     dcache_rdata_w1_m[07]} ;
385
 
386
assign dcache_rdata_msb_w2_m[7:0]=
387
    {dcache_rdata_w2_m[63],
388
     dcache_rdata_w2_m[55],
389
     dcache_rdata_w2_m[47],
390
     dcache_rdata_w2_m[39],
391
           dcache_rdata_w2_m[31],
392
     dcache_rdata_w2_m[23],
393
     dcache_rdata_w2_m[15],
394
     dcache_rdata_w2_m[07]} ;
395
 
396
assign dcache_rdata_msb_w3_m[7:0]=
397
    {dcache_rdata_w3_m[63],
398
     dcache_rdata_w3_m[55],
399
     dcache_rdata_w3_m[47],
400
     dcache_rdata_w3_m[39],
401
           dcache_rdata_w3_m[31],
402
     dcache_rdata_w3_m[23],
403
     dcache_rdata_w3_m[15],
404
     dcache_rdata_w3_m[07]} ;
405
 
406
   wire [63:0] rdata_w0_m;
407
   wire [63:0] rdata_w1_m;
408
   wire [63:0] rdata_w2_m;
409
   wire [63:0] rdata_w3_m;
410
 
411
//2-to-1 mux   
412
//dcache_alt_mx_sel default 0001 (way 0) when not in MBIST mode (logic in qdp2)
413
assign rdata_w0_m[63:0] = dcache_arry_data_sel_m ?
414
                          dcache_rdata_w0_m[63:0] : dcache_alt_data_w0_m[63:0];
415
 
416
//assign rdata_w0_m[63:0] = dcache_rdata_w0_m[63:0];
417
assign rdata_w1_m[63:0] = dcache_rdata_w1_m[63:0];
418
assign rdata_w2_m[63:0] = dcache_rdata_w2_m[63:0];
419
assign rdata_w3_m[63:0] = dcache_rdata_w3_m[63:0];
420
 
421
// Select upper half or lower half of parity. 
422
assign  dcache_rparity_w0_m[7:0] = ~dcache_rwaddr_m[3] ? temp_w0a[15:8] : temp_w0a[7:0] ;
423
assign  dcache_rparity_w1_m[7:0] = ~dcache_rwaddr_m[3] ? temp_w1a[15:8] : temp_w1a[7:0] ;
424
assign  dcache_rparity_w2_m[7:0] = ~dcache_rwaddr_m[3] ? temp_w2a[15:8] : temp_w2a[7:0] ;
425
assign  dcache_rparity_w3_m[7:0] = ~dcache_rwaddr_m[3] ? temp_w3a[15:8] : temp_w3a[7:0] ;
426
 
427
   reg [7:0] dcache_rparity_w0_wb;
428
   reg [7:0] dcache_rparity_w1_wb;
429
   reg [7:0] dcache_rparity_w2_wb;
430
   reg [7:0] dcache_rparity_w3_wb;
431
 
432
   reg [7:0] rd_parity_err_w0_wb;
433
   reg [7:0] rd_parity_err_w1_wb;
434
   reg [7:0] rd_parity_err_w2_wb;
435
   reg [7:0] rd_parity_err_w3_wb;
436
 
437
 
438
// Stage to WB
439
always  @(posedge clk)
440
  begin
441
    dcache_rdata_w0_wb[63:0] <= rdata_w0_m[63:0] ;
442
    dcache_rdata_w1_wb[63:0] <= rdata_w1_m[63:0] ;
443
    dcache_rdata_w2_wb[63:0] <= rdata_w2_m[63:0] ;
444
    dcache_rdata_w3_wb[63:0] <= rdata_w3_m[63:0] ;
445
 
446
    dcache_rparity_w0_wb[7:0] <=  dcache_rparity_w0_m[7:0];
447
    dcache_rparity_w1_wb[7:0] <=  dcache_rparity_w1_m[7:0];
448
    dcache_rparity_w2_wb[7:0] <=  dcache_rparity_w2_m[7:0];
449
    dcache_rparity_w3_wb[7:0] <=  dcache_rparity_w3_m[7:0];
450
 
451
    rd_parity_err_w0_wb [7:0] <= rd_parity_err_w0_m[7:0];
452
    rd_parity_err_w1_wb [7:0] <= rd_parity_err_w1_m[7:0];
453
    rd_parity_err_w2_wb [7:0] <= rd_parity_err_w2_m[7:0];
454
    rd_parity_err_w3_wb [7:0] <= rd_parity_err_w3_m[7:0];
455
 
456
  end
457
 
458
//parity calculation and check are done in M stage for 4 way data   
459
   wire rd_parity_err_w0;
460
   wire rd_parity_err_w1;
461
   wire rd_parity_err_w2;
462
   wire rd_parity_err_w3;
463
 
464
lsu_dc_parity_gen #(8,8)  parity_gen_w0 (
465
                .data_in        (dcache_rdata_w0_m[63:0]),
466
                .parity_out     (gen_dcache_parity_w0_m[7:0])
467
        );
468
 
469
assign rd_parity_err_w0_m[7:0] = dcache_rvld_m ? (dcache_rparity_w0_m[7:0] ^ gen_dcache_parity_w0_m[7:0]) :
470
                                                  8'hff;
471
 
472
 
473
lsu_dc_parity_gen #(8,8)  parity_gen_w1 (
474
                .data_in        (dcache_rdata_w1_m[63:0]),
475
                .parity_out     (gen_dcache_parity_w1_m[7:0])
476
        );
477
 
478
assign rd_parity_err_w1_m[7:0] = dcache_rvld_m ? (dcache_rparity_w1_m[7:0] ^ gen_dcache_parity_w1_m[7:0]) :
479
                                                 8'hff;
480
 
481
lsu_dc_parity_gen #(8,8)  parity_gen_w2 (
482
                .data_in        (dcache_rdata_w2_m[63:0]),
483
                .parity_out     (gen_dcache_parity_w2_m[7:0])
484
        );
485
assign rd_parity_err_w2_m[7:0] = dcache_rvld_m ? (dcache_rparity_w2_m[7:0] ^ gen_dcache_parity_w2_m[7:0])  :
486
                                                   8'hff;
487
 
488
lsu_dc_parity_gen #(8,8)  parity_gen_w3 (
489
                .data_in        (dcache_rdata_w3_m[63:0]),
490
                .parity_out     (gen_dcache_parity_w3_m[7:0])
491
        );
492
assign rd_parity_err_w3_m[7:0] =  dcache_rvld_m ? (dcache_rparity_w3_m[7:0] ^ gen_dcache_parity_w3_m[7:0]) :
493
                                                  8'hff;
494
 
495
 
496
// way select mux on READ
497
// Select one of four ways from indexed cache set.
498
 
499
wire [3:0] dcache_rd_sel_way_wb;
500
assign dcache_rd_sel_way_wb[3:0] = dcache_alt_mx_sel_wb ? dcache_alt_rsel_way_wb[3:0] :
501
                                                          dcache_rsel_way_wb[3:0];
502
 
503
assign  dcache_rdata_wb[63:0]  =
504
 (dcache_rd_sel_way_wb[0] ? dcache_rdata_w0_wb[63:0] : 64'b0) |
505
 (dcache_rd_sel_way_wb[1] ? dcache_rdata_w1_wb[63:0] : 64'b0) |
506
 (dcache_rd_sel_way_wb[2] ? dcache_rdata_w2_wb[63:0] : 64'b0) |
507
 (dcache_rd_sel_way_wb[3] ? dcache_rdata_w3_wb[63:0] : 64'b0);
508
 
509
//parity err in W-stage, cache_way_hit may not be one-hot 
510
assign rd_parity_err_w0 =   |(rd_parity_err_w0_wb[7:0]);
511
assign rd_parity_err_w1 =   |(rd_parity_err_w1_wb[7:0]);
512
assign rd_parity_err_w2 =   |(rd_parity_err_w2_wb[7:0]);
513
assign rd_parity_err_w3 =   |(rd_parity_err_w3_wb[7:0]);
514
 
515
assign dcache_rparity_err_wb = rd_parity_err_w3 & dcache_rd_sel_way_wb[3] |
516
                               rd_parity_err_w2 & dcache_rd_sel_way_wb[2] |
517
                               rd_parity_err_w1 & dcache_rd_sel_way_wb[1] |
518
                               rd_parity_err_w0 & dcache_rd_sel_way_wb[0] ;
519
 
520
//mux4ds #(64) dcache_rdata_wb_mx (
521
//  .in0  (dcache_rdata_w0_wb[63:0]),
522
//  .in1  (dcache_rdata_w1_wb[63:0]),
523
//  .in2  (dcache_rdata_w2_wb[63:0]),
524
//  .in3  (dcache_rdata_w3_wb[63:0]),
525
//  .sel0 (dcache_rd_sel_way_wb[0]),
526
//  .sel1 (dcache_rd_sel_way_wb[1]),
527
//  .sel2 (dcache_rd_sel_way_wb[2]),
528
//  .sel3 (dcache_rd_sel_way_wb[3]),
529
//  .dout (dcache_rdata_wb[63:0])
530
//);
531
 
532
// dcache_rparity_wb only used by MBIST   
533
//mux4ds #(8) dcache_rparity_wb_mx (
534
//  .in0 (dcache_rparity_w0_wb[7:0]),                        
535
//  .in1 (dcache_rparity_w1_wb[7:0]),                        
536
//  .in2 (dcache_rparity_w2_wb[7:0]),                        
537
//  .in3 (dcache_rparity_w3_wb[7:0]),                        
538
//  .sel0(dcache_alt_rsel_way_wb[0]),
539
//  .sel1(dcache_alt_rsel_way_wb[1]),
540
//  .sel2(dcache_alt_rsel_way_wb[2]),
541
//  .sel3(dcache_alt_rsel_way_wb[3]),
542
//  .dout(dcache_rparity_wb[7:0])
543
//);
544
 
545
assign  dcache_rparity_wb[7:0] =
546
( dcache_rd_sel_way_wb[0] ? dcache_rparity_w0_wb[7:0] : 8'b0 ) |
547
( dcache_rd_sel_way_wb[1] ? dcache_rparity_w1_wb[7:0] : 8'b0 ) |
548
( dcache_rd_sel_way_wb[2] ? dcache_rparity_w2_wb[7:0] : 8'b0 ) |
549
( dcache_rd_sel_way_wb[3] ? dcache_rparity_w3_wb[7:0] : 8'b0 ) ;
550
 
551
 
552
//=========================================================================================
553
//  Write to Memory
554
//=========================================================================================
555
 
556
// Reads and writes are mutex as array is single-ported.
557
 
558
 
559
// Includes data(128b)+parity(16b).
560
assign way_mask[143:0]  =
561
    {{8{byte_wr_enable[15]}},{8{byte_wr_enable[14]}},{8{byte_wr_enable[13]}},
562
     {8{byte_wr_enable[12]}},{8{byte_wr_enable[11]}},{8{byte_wr_enable[10]}},
563
     {8{byte_wr_enable[9]}}, {8{byte_wr_enable[8]}}, {8{byte_wr_enable[7]}},
564
     {8{byte_wr_enable[6]}}, {8{byte_wr_enable[5]}}, {8{byte_wr_enable[4]}},
565
     {8{byte_wr_enable[3]}}, {8{byte_wr_enable[2]}}, {8{byte_wr_enable[1]}},
566
     {8{byte_wr_enable[0]}}, byte_wr_enable[15:0]} ;
567
 
568
assign way_mask_inv[143:0] =  ~way_mask[143:0];
569
 
570
 
571
always @ (negedge clk)
572
  begin
573
 
574
`ifdef FPGA_SYN_DCD
575
 
576
        if(dcache_wvld_m & dcache_wr_rway_m[0]) begin
577
                w0[dcache_rwaddr_m[10:4]] = (temp_w0a_reg[143:0] & way_mask_inv[143:0]) |
578
                                           (dcache_wdata_m[143:0] & way_mask[143:0]) ;
579
        end
580
        if(dcache_wvld_m & dcache_wr_rway_m[1]) begin
581
                w1[dcache_rwaddr_m[10:4]] = (temp_w1a_reg[143:0] & way_mask_inv[143:0]) |
582
                                           (dcache_wdata_m[143:0] & way_mask[143:0]) ;
583
        end
584
        if(dcache_wvld_m & dcache_wr_rway_m[2]) begin
585
                w2[dcache_rwaddr_m[10:4]] = (temp_w2a_reg[143:0] & way_mask_inv[143:0]) |
586
                                           (dcache_wdata_m[143:0] & way_mask[143:0]) ;
587
        end
588
        if(dcache_wvld_m & dcache_wr_rway_m[3]) begin
589
                w3[dcache_rwaddr_m[10:4]] = (temp_w3a_reg[143:0] & way_mask_inv[143:0]) |
590
                                           (dcache_wdata_m[143:0] & way_mask[143:0]) ;
591
        end
592
 
593
`else // !`ifdef FPGA_SYN_DCD
594
 
595
    for (j=0;j<128;j=j+1)
596
      begin
597
      if (rw_wdline[j] & dcache_wvld_m & dcache_wr_rway_m[0])
598
        begin
599
        // read 
600
        temp_w0[143:0] = w0[j];
601
        // modify & write
602
        w0[j] = (temp_w0[143:0] & way_mask_inv[143:0]) |
603
            (dcache_wdata_m[143:0] & way_mask[143:0]) ;
604
        end
605
      if (rw_wdline[j] & dcache_wvld_m & dcache_wr_rway_m[1])
606
        begin
607
        // read
608
                   temp_w1[143:0] = w1[j];
609
        // modify & write
610
        w1[j] = (temp_w1[143:0] & way_mask_inv[143:0]) |
611
            (dcache_wdata_m[143:0] & way_mask[143:0]) ;
612
        end
613
      if (rw_wdline[j] & dcache_wvld_m & dcache_wr_rway_m[2])
614
        begin
615
        // read 
616
        temp_w2[143:0] = w2[j];
617
        // modify & write
618
        w2[j] = (temp_w2[143:0] & way_mask_inv[143:0]) |
619
            (dcache_wdata_m[143:0] & way_mask[143:0]) ;
620
        end
621
      if (rw_wdline[j] & dcache_wvld_m & dcache_wr_rway_m[3])
622
        begin
623
        // read 
624
        temp_w3[143:0] = w3[j];
625
        // modify & write.
626
        w3[j] = (temp_w3[143:0] & way_mask_inv[143:0])  |
627
                            (dcache_wdata_m[143:0] & way_mask[143:0]) ;
628
        end
629
      end
630
`endif // !`ifdef FPGA_SYN_DCD
631
 
632
  end // always @ (negedge clk)
633
 
634
endmodule
635
 
636
 

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