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[/] [openmsp430/] [trunk/] [fpga/] [xilinx_diligent_s3board/] [rtl/] [verilog/] [openmsp430/] [omsp_register_file.v] - Blame information for rev 204

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1 2 olivier.gi
//----------------------------------------------------------------------------
2 132 olivier.gi
// Copyright (C) 2009 , Olivier Girard
3 2 olivier.gi
//
4 132 olivier.gi
// Redistribution and use in source and binary forms, with or without
5
// modification, are permitted provided that the following conditions
6
// are met:
7
//     * Redistributions of source code must retain the above copyright
8
//       notice, this list of conditions and the following disclaimer.
9
//     * Redistributions in binary form must reproduce the above copyright
10
//       notice, this list of conditions and the following disclaimer in the
11
//       documentation and/or other materials provided with the distribution.
12
//     * Neither the name of the authors nor the names of its contributors
13
//       may be used to endorse or promote products derived from this software
14
//       without specific prior written permission.
15 2 olivier.gi
//
16 132 olivier.gi
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
17
// AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
18
// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
19
// ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
20
// LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY,
21
// OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
22
// SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
23
// INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
24
// CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
25
// ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
26
// THE POSSIBILITY OF SUCH DAMAGE
27 2 olivier.gi
//
28
//----------------------------------------------------------------------------
29
//
30 34 olivier.gi
// *File Name: omsp_register_file.v
31 202 olivier.gi
//
32 2 olivier.gi
// *Module Description:
33
//                       openMSP430 Register files
34
//
35
// *Author(s):
36
//              - Olivier Girard,    olgirard@gmail.com
37
//
38
//----------------------------------------------------------------------------
39 17 olivier.gi
// $Rev: 202 $
40
// $LastChangedBy: olivier.girard $
41
// $LastChangedDate: 2015-07-01 23:13:32 +0200 (Wed, 01 Jul 2015) $
42
//----------------------------------------------------------------------------
43 104 olivier.gi
`ifdef OMSP_NO_INCLUDE
44
`else
45 23 olivier.gi
`include "openMSP430_defines.v"
46 104 olivier.gi
`endif
47 2 olivier.gi
 
48 34 olivier.gi
module  omsp_register_file (
49 2 olivier.gi
 
50
// OUTPUTs
51
    cpuoff,                       // Turns off the CPU
52
    gie,                          // General interrupt enable
53
    oscoff,                       // Turns off LFXT1 clock input
54
    pc_sw,                        // Program counter software value
55
    pc_sw_wr,                     // Program counter software write
56
    reg_dest,                     // Selected register destination content
57
    reg_src,                      // Selected register source content
58 136 olivier.gi
    scg0,                         // System clock generator 1. Turns off the DCO
59 2 olivier.gi
    scg1,                         // System clock generator 1. Turns off the SMCLK
60
    status,                       // R2 Status {V,N,Z,C}
61
 
62
// INPUTs
63
    alu_stat,                     // ALU Status {V,N,Z,C}
64
    alu_stat_wr,                  // ALU Status write {V,N,Z,C}
65
    inst_bw,                      // Decoded Inst: byte width
66
    inst_dest,                    // Register destination selection
67
    inst_src,                     // Register source selection
68
    mclk,                         // Main system clock
69
    pc,                           // Program counter
70 111 olivier.gi
    puc_rst,                      // Main system reset
71 2 olivier.gi
    reg_dest_val,                 // Selected register destination value
72
    reg_dest_wr,                  // Write selected register destination
73
    reg_pc_call,                  // Trigger PC update for a CALL instruction
74
    reg_sp_val,                   // Stack Pointer next value
75
    reg_sp_wr,                    // Stack Pointer write
76
    reg_sr_wr,                    // Status register update for RETI instruction
77
    reg_sr_clr,                   // Status register clear for interrupts
78 136 olivier.gi
    reg_incr,                     // Increment source register
79
    scan_enable                   // Scan enable (active during scan shifting)
80 2 olivier.gi
);
81
 
82
// OUTPUTs
83
//=========
84 202 olivier.gi
output              cpuoff;       // Turns off the CPU
85
output              gie;          // General interrupt enable
86
output              oscoff;       // Turns off LFXT1 clock input
87 2 olivier.gi
output       [15:0] pc_sw;        // Program counter software value
88
output              pc_sw_wr;     // Program counter software write
89
output       [15:0] reg_dest;     // Selected register destination content
90
output       [15:0] reg_src;      // Selected register source content
91 136 olivier.gi
output              scg0;         // System clock generator 1. Turns off the DCO
92 2 olivier.gi
output              scg1;         // System clock generator 1. Turns off the SMCLK
93
output        [3:0] status;       // R2 Status {V,N,Z,C}
94
 
95
// INPUTs
96
//=========
97
input         [3:0] alu_stat;     // ALU Status {V,N,Z,C}
98
input         [3:0] alu_stat_wr;  // ALU Status write {V,N,Z,C}
99
input               inst_bw;      // Decoded Inst: byte width
100
input        [15:0] inst_dest;    // Register destination selection
101
input        [15:0] inst_src;     // Register source selection
102
input               mclk;         // Main system clock
103
input        [15:0] pc;           // Program counter
104 111 olivier.gi
input               puc_rst;      // Main system reset
105 2 olivier.gi
input        [15:0] reg_dest_val; // Selected register destination value
106
input               reg_dest_wr;  // Write selected register destination
107
input               reg_pc_call;  // Trigger PC update for a CALL instruction
108
input        [15:0] reg_sp_val;   // Stack Pointer next value
109
input               reg_sp_wr;    // Stack Pointer write
110
input               reg_sr_wr;    // Status register update for RETI instruction
111
input               reg_sr_clr;   // Status register clear for interrupts
112
input               reg_incr;     // Increment source register
113 136 olivier.gi
input               scan_enable;  // Scan enable (active during scan shifting)
114 2 olivier.gi
 
115
 
116
//=============================================================================
117
// 1)  AUTOINCREMENT UNIT
118
//=============================================================================
119
 
120 132 olivier.gi
wire [15:0] inst_src_in;
121
wire [15:0] incr_op         = (inst_bw & ~inst_src_in[1]) ? 16'h0001 : 16'h0002;
122 2 olivier.gi
wire [15:0] reg_incr_val    = reg_src+incr_op;
123
 
124
wire [15:0] reg_dest_val_in = inst_bw ? {8'h00,reg_dest_val[7:0]} : reg_dest_val;
125
 
126
 
127
//=============================================================================
128
// 2)  SPECIAL REGISTERS (R1/R2/R3)
129
//=============================================================================
130
 
131
// Source input selection mask (for interrupt support)
132
//-----------------------------------------------------
133
 
134 132 olivier.gi
assign inst_src_in = reg_sr_clr ? 16'h0004 : inst_src;
135 2 olivier.gi
 
136
 
137
// R0: Program counter
138
//---------------------
139
 
140
wire [15:0] r0       = pc;
141
 
142
wire [15:0] pc_sw    = reg_dest_val_in;
143
wire        pc_sw_wr = (inst_dest[0] & reg_dest_wr) | reg_pc_call;
144
 
145
 
146
// R1: Stack pointer
147
//-------------------
148
reg [15:0] r1;
149
wire       r1_wr  = inst_dest[1] & reg_dest_wr;
150
wire       r1_inc = inst_src_in[1]  & reg_incr;
151
 
152 136 olivier.gi
`ifdef CLOCK_GATING
153
wire       r1_en  = r1_wr | reg_sp_wr | r1_inc;
154
wire       mclk_r1;
155
omsp_clock_gate clock_gate_r1 (.gclk(mclk_r1),
156
                               .clk (mclk), .enable(r1_en), .scan_enable(scan_enable));
157
`else
158 202 olivier.gi
wire       UNUSED_scan_enable = scan_enable;
159
wire       mclk_r1            = mclk;
160 136 olivier.gi
`endif
161
 
162
always @(posedge mclk_r1 or posedge puc_rst)
163 111 olivier.gi
  if (puc_rst)        r1 <= 16'h0000;
164 2 olivier.gi
  else if (r1_wr)     r1 <= reg_dest_val_in & 16'hfffe;
165
  else if (reg_sp_wr) r1 <= reg_sp_val      & 16'hfffe;
166 136 olivier.gi
`ifdef CLOCK_GATING
167
  else                r1 <= reg_incr_val    & 16'hfffe;
168
`else
169 2 olivier.gi
  else if (r1_inc)    r1 <= reg_incr_val    & 16'hfffe;
170 136 olivier.gi
`endif
171 2 olivier.gi
 
172 202 olivier.gi
wire UNUSED_reg_sp_val_0  = reg_sp_val[0];
173 2 olivier.gi
 
174 202 olivier.gi
 
175 2 olivier.gi
// R2: Status register
176
//---------------------
177
reg  [15:0] r2;
178
wire        r2_wr  = (inst_dest[2] & reg_dest_wr) | reg_sr_wr;
179
 
180 136 olivier.gi
`ifdef CLOCK_GATING                                                              //      -- WITH CLOCK GATING --
181
wire        r2_c   = alu_stat_wr[0] ? alu_stat[0]          : reg_dest_val_in[0]; // C
182 2 olivier.gi
 
183 136 olivier.gi
wire        r2_z   = alu_stat_wr[1] ? alu_stat[1]          : reg_dest_val_in[1]; // Z
184 2 olivier.gi
 
185 136 olivier.gi
wire        r2_n   = alu_stat_wr[2] ? alu_stat[2]          : reg_dest_val_in[2]; // N
186 2 olivier.gi
 
187
wire  [7:3] r2_nxt = r2_wr          ? reg_dest_val_in[7:3] : r2[7:3];
188
 
189 136 olivier.gi
wire        r2_v   = alu_stat_wr[3] ? alu_stat[3]          : reg_dest_val_in[8]; // V
190 2 olivier.gi
 
191 136 olivier.gi
wire        r2_en  = |alu_stat_wr | r2_wr | reg_sr_clr;
192
wire        mclk_r2;
193
omsp_clock_gate clock_gate_r2 (.gclk(mclk_r2),
194
                               .clk (mclk), .enable(r2_en), .scan_enable(scan_enable));
195 2 olivier.gi
 
196 136 olivier.gi
`else                                                                            //      -- WITHOUT CLOCK GATING --
197
wire        r2_c   = alu_stat_wr[0] ? alu_stat[0]          :
198
                     r2_wr          ? reg_dest_val_in[0]   : r2[0];              // C
199
 
200
wire        r2_z   = alu_stat_wr[1] ? alu_stat[1]          :
201
                     r2_wr          ? reg_dest_val_in[1]   : r2[1];              // Z
202
 
203
wire        r2_n   = alu_stat_wr[2] ? alu_stat[2]          :
204
                     r2_wr          ? reg_dest_val_in[2]   : r2[2];              // N
205
 
206
wire  [7:3] r2_nxt = r2_wr          ? reg_dest_val_in[7:3] : r2[7:3];
207
 
208
wire        r2_v   = alu_stat_wr[3] ? alu_stat[3]          :
209
                     r2_wr          ? reg_dest_val_in[8]   : r2[8];              // V
210
 
211
 
212
wire        mclk_r2 = mclk;
213
`endif
214
 
215 181 olivier.gi
`ifdef ASIC_CLOCKING
216 136 olivier.gi
   `ifdef CPUOFF_EN
217
   wire [15:0] cpuoff_mask = 16'h0010;
218
   `else
219
   wire [15:0] cpuoff_mask = 16'h0000;
220
   `endif
221
   `ifdef OSCOFF_EN
222
   wire [15:0] oscoff_mask = 16'h0020;
223
   `else
224
   wire [15:0] oscoff_mask = 16'h0000;
225
   `endif
226
   `ifdef SCG0_EN
227
   wire [15:0] scg0_mask   = 16'h0040;
228
   `else
229
   wire [15:0] scg0_mask   = 16'h0000;
230
   `endif
231
   `ifdef SCG1_EN
232
   wire [15:0] scg1_mask   = 16'h0080;
233
   `else
234
   wire [15:0] scg1_mask   = 16'h0000;
235
   `endif
236
`else
237
   wire [15:0] cpuoff_mask = 16'h0010; // For the FPGA version: - the CPUOFF mode is emulated
238
   wire [15:0] oscoff_mask = 16'h0020; //                       - the SCG1 mode is emulated
239
   wire [15:0] scg0_mask   = 16'h0000; //                       - the SCG0 is not supported
240
   wire [15:0] scg1_mask   = 16'h0080; //                       - the SCG1 mode is emulated
241
`endif
242 202 olivier.gi
 
243 136 olivier.gi
   wire [15:0] r2_mask     = cpuoff_mask | oscoff_mask | scg0_mask | scg1_mask | 16'h010f;
244 202 olivier.gi
 
245 136 olivier.gi
always @(posedge mclk_r2 or posedge puc_rst)
246 111 olivier.gi
  if (puc_rst)         r2 <= 16'h0000;
247 2 olivier.gi
  else if (reg_sr_clr) r2 <= 16'h0000;
248 136 olivier.gi
  else                 r2 <= {7'h00, r2_v, r2_nxt, r2_n, r2_z, r2_c} & r2_mask;
249 2 olivier.gi
 
250
assign status = {r2[8], r2[2:0]};
251
assign gie    =  r2[3];
252 136 olivier.gi
assign cpuoff =  r2[4] | (r2_nxt[4] & r2_wr & cpuoff_mask[4]);
253 2 olivier.gi
assign oscoff =  r2[5];
254 136 olivier.gi
assign scg0   =  r2[6];
255 2 olivier.gi
assign scg1   =  r2[7];
256
 
257
 
258
// R3: Constant generator
259 136 olivier.gi
//-------------------------------------------------------------
260
// Note: the auto-increment feature is not implemented for R3
261
//       because the @R3+ addressing mode is used for constant
262
//       generation (#-1).
263 2 olivier.gi
reg [15:0] r3;
264
wire       r3_wr  = inst_dest[3] & reg_dest_wr;
265
 
266 136 olivier.gi
`ifdef CLOCK_GATING
267
wire       r3_en   = r3_wr;
268
wire       mclk_r3;
269
omsp_clock_gate clock_gate_r3 (.gclk(mclk_r3),
270
                               .clk (mclk), .enable(r3_en), .scan_enable(scan_enable));
271
`else
272
wire       mclk_r3 = mclk;
273
`endif
274
 
275
always @(posedge mclk_r3 or posedge puc_rst)
276 111 olivier.gi
  if (puc_rst)     r3 <= 16'h0000;
277 136 olivier.gi
`ifdef CLOCK_GATING
278
  else             r3 <= reg_dest_val_in;
279
`else
280 2 olivier.gi
  else if (r3_wr)  r3 <= reg_dest_val_in;
281 136 olivier.gi
`endif
282 2 olivier.gi
 
283
 
284
//=============================================================================
285
// 4)  GENERAL PURPOSE REGISTERS (R4...R15)
286
//=============================================================================
287
 
288
// R4
289 136 olivier.gi
//------------
290 2 olivier.gi
reg [15:0] r4;
291
wire       r4_wr  = inst_dest[4] & reg_dest_wr;
292
wire       r4_inc = inst_src_in[4]  & reg_incr;
293 136 olivier.gi
 
294
`ifdef CLOCK_GATING
295
wire       r4_en  = r4_wr | r4_inc;
296
wire       mclk_r4;
297
omsp_clock_gate clock_gate_r4 (.gclk(mclk_r4),
298
                               .clk (mclk), .enable(r4_en), .scan_enable(scan_enable));
299
`else
300
wire       mclk_r4 = mclk;
301
`endif
302
 
303
always @(posedge mclk_r4 or posedge puc_rst)
304 111 olivier.gi
  if (puc_rst)      r4  <= 16'h0000;
305 2 olivier.gi
  else if (r4_wr)   r4  <= reg_dest_val_in;
306 136 olivier.gi
`ifdef CLOCK_GATING
307
  else              r4  <= reg_incr_val;
308
`else
309 2 olivier.gi
  else if (r4_inc)  r4  <= reg_incr_val;
310 136 olivier.gi
`endif
311 2 olivier.gi
 
312
// R5
313 136 olivier.gi
//------------
314 2 olivier.gi
reg [15:0] r5;
315
wire       r5_wr  = inst_dest[5] & reg_dest_wr;
316
wire       r5_inc = inst_src_in[5]  & reg_incr;
317 136 olivier.gi
 
318
`ifdef CLOCK_GATING
319
wire       r5_en  = r5_wr | r5_inc;
320
wire       mclk_r5;
321
omsp_clock_gate clock_gate_r5 (.gclk(mclk_r5),
322
                               .clk (mclk), .enable(r5_en), .scan_enable(scan_enable));
323
`else
324
wire       mclk_r5 = mclk;
325
`endif
326
 
327
always @(posedge mclk_r5 or posedge puc_rst)
328 111 olivier.gi
  if (puc_rst)      r5  <= 16'h0000;
329 2 olivier.gi
  else if (r5_wr)   r5  <= reg_dest_val_in;
330 136 olivier.gi
`ifdef CLOCK_GATING
331
  else              r5  <= reg_incr_val;
332
`else
333 2 olivier.gi
  else if (r5_inc)  r5  <= reg_incr_val;
334 136 olivier.gi
`endif
335 2 olivier.gi
 
336
// R6
337 136 olivier.gi
//------------
338 2 olivier.gi
reg [15:0] r6;
339
wire       r6_wr  = inst_dest[6] & reg_dest_wr;
340
wire       r6_inc = inst_src_in[6]  & reg_incr;
341 136 olivier.gi
 
342
`ifdef CLOCK_GATING
343
wire       r6_en  = r6_wr | r6_inc;
344
wire       mclk_r6;
345
omsp_clock_gate clock_gate_r6 (.gclk(mclk_r6),
346
                               .clk (mclk), .enable(r6_en), .scan_enable(scan_enable));
347
`else
348
wire       mclk_r6 = mclk;
349
`endif
350
 
351
always @(posedge mclk_r6 or posedge puc_rst)
352 111 olivier.gi
  if (puc_rst)      r6  <= 16'h0000;
353 2 olivier.gi
  else if (r6_wr)   r6  <= reg_dest_val_in;
354 136 olivier.gi
`ifdef CLOCK_GATING
355
  else              r6  <= reg_incr_val;
356
`else
357 2 olivier.gi
  else if (r6_inc)  r6  <= reg_incr_val;
358 136 olivier.gi
`endif
359 2 olivier.gi
 
360
// R7
361 136 olivier.gi
//------------
362 2 olivier.gi
reg [15:0] r7;
363
wire       r7_wr  = inst_dest[7] & reg_dest_wr;
364
wire       r7_inc = inst_src_in[7]  & reg_incr;
365 136 olivier.gi
 
366
`ifdef CLOCK_GATING
367
wire       r7_en  = r7_wr | r7_inc;
368
wire       mclk_r7;
369
omsp_clock_gate clock_gate_r7 (.gclk(mclk_r7),
370
                               .clk (mclk), .enable(r7_en), .scan_enable(scan_enable));
371
`else
372
wire       mclk_r7 = mclk;
373
`endif
374
 
375
always @(posedge mclk_r7 or posedge puc_rst)
376 111 olivier.gi
  if (puc_rst)      r7  <= 16'h0000;
377 2 olivier.gi
  else if (r7_wr)   r7  <= reg_dest_val_in;
378 136 olivier.gi
`ifdef CLOCK_GATING
379
  else              r7  <= reg_incr_val;
380
`else
381 2 olivier.gi
  else if (r7_inc)  r7  <= reg_incr_val;
382 136 olivier.gi
`endif
383 2 olivier.gi
 
384
// R8
385 136 olivier.gi
//------------
386 2 olivier.gi
reg [15:0] r8;
387
wire       r8_wr  = inst_dest[8] & reg_dest_wr;
388
wire       r8_inc = inst_src_in[8]  & reg_incr;
389 136 olivier.gi
 
390
`ifdef CLOCK_GATING
391
wire       r8_en  = r8_wr | r8_inc;
392
wire       mclk_r8;
393
omsp_clock_gate clock_gate_r8 (.gclk(mclk_r8),
394
                               .clk (mclk), .enable(r8_en), .scan_enable(scan_enable));
395
`else
396
wire       mclk_r8 = mclk;
397
`endif
398
 
399
always @(posedge mclk_r8 or posedge puc_rst)
400 111 olivier.gi
  if (puc_rst)      r8  <= 16'h0000;
401 2 olivier.gi
  else if (r8_wr)   r8  <= reg_dest_val_in;
402 136 olivier.gi
`ifdef CLOCK_GATING
403
  else              r8  <= reg_incr_val;
404
`else
405 2 olivier.gi
  else if (r8_inc)  r8  <= reg_incr_val;
406 136 olivier.gi
`endif
407 2 olivier.gi
 
408
// R9
409 136 olivier.gi
//------------
410 2 olivier.gi
reg [15:0] r9;
411
wire       r9_wr  = inst_dest[9] & reg_dest_wr;
412
wire       r9_inc = inst_src_in[9]  & reg_incr;
413 136 olivier.gi
 
414
`ifdef CLOCK_GATING
415
wire       r9_en  = r9_wr | r9_inc;
416
wire       mclk_r9;
417
omsp_clock_gate clock_gate_r9 (.gclk(mclk_r9),
418
                               .clk (mclk), .enable(r9_en), .scan_enable(scan_enable));
419
`else
420
wire       mclk_r9 = mclk;
421
`endif
422
 
423
always @(posedge mclk_r9 or posedge puc_rst)
424 111 olivier.gi
  if (puc_rst)      r9  <= 16'h0000;
425 2 olivier.gi
  else if (r9_wr)   r9  <= reg_dest_val_in;
426 136 olivier.gi
`ifdef CLOCK_GATING
427
  else              r9  <= reg_incr_val;
428
`else
429 2 olivier.gi
  else if (r9_inc)  r9  <= reg_incr_val;
430 136 olivier.gi
`endif
431 2 olivier.gi
 
432
// R10
433 136 olivier.gi
//------------
434 2 olivier.gi
reg [15:0] r10;
435
wire       r10_wr  = inst_dest[10] & reg_dest_wr;
436
wire       r10_inc = inst_src_in[10]  & reg_incr;
437 136 olivier.gi
 
438
`ifdef CLOCK_GATING
439
wire       r10_en  = r10_wr | r10_inc;
440
wire       mclk_r10;
441
omsp_clock_gate clock_gate_r10 (.gclk(mclk_r10),
442
                                .clk (mclk), .enable(r10_en), .scan_enable(scan_enable));
443
`else
444
wire       mclk_r10 = mclk;
445
`endif
446
 
447
always @(posedge mclk_r10 or posedge puc_rst)
448 111 olivier.gi
  if (puc_rst)      r10 <= 16'h0000;
449 2 olivier.gi
  else if (r10_wr)  r10 <= reg_dest_val_in;
450 136 olivier.gi
`ifdef CLOCK_GATING
451
  else              r10 <= reg_incr_val;
452
`else
453 2 olivier.gi
  else if (r10_inc) r10 <= reg_incr_val;
454 136 olivier.gi
`endif
455 2 olivier.gi
 
456
// R11
457 136 olivier.gi
//------------
458 2 olivier.gi
reg [15:0] r11;
459
wire       r11_wr  = inst_dest[11] & reg_dest_wr;
460
wire       r11_inc = inst_src_in[11]  & reg_incr;
461 136 olivier.gi
 
462
`ifdef CLOCK_GATING
463
wire       r11_en  = r11_wr | r11_inc;
464
wire       mclk_r11;
465
omsp_clock_gate clock_gate_r11 (.gclk(mclk_r11),
466
                                .clk (mclk), .enable(r11_en), .scan_enable(scan_enable));
467
`else
468
wire       mclk_r11 = mclk;
469
`endif
470
 
471
always @(posedge mclk_r11 or posedge puc_rst)
472 111 olivier.gi
  if (puc_rst)      r11 <= 16'h0000;
473 2 olivier.gi
  else if (r11_wr)  r11 <= reg_dest_val_in;
474 136 olivier.gi
`ifdef CLOCK_GATING
475
  else              r11 <= reg_incr_val;
476
`else
477 2 olivier.gi
  else if (r11_inc) r11 <= reg_incr_val;
478 136 olivier.gi
`endif
479 2 olivier.gi
 
480
// R12
481 136 olivier.gi
//------------
482 2 olivier.gi
reg [15:0] r12;
483
wire       r12_wr  = inst_dest[12] & reg_dest_wr;
484
wire       r12_inc = inst_src_in[12]  & reg_incr;
485 136 olivier.gi
 
486
`ifdef CLOCK_GATING
487
wire       r12_en  = r12_wr | r12_inc;
488
wire       mclk_r12;
489
omsp_clock_gate clock_gate_r12 (.gclk(mclk_r12),
490
                                .clk (mclk), .enable(r12_en), .scan_enable(scan_enable));
491
`else
492
wire       mclk_r12 = mclk;
493
`endif
494
 
495
always @(posedge mclk_r12 or posedge puc_rst)
496 111 olivier.gi
  if (puc_rst)      r12 <= 16'h0000;
497 2 olivier.gi
  else if (r12_wr)  r12 <= reg_dest_val_in;
498 136 olivier.gi
`ifdef CLOCK_GATING
499
  else              r12 <= reg_incr_val;
500
`else
501 2 olivier.gi
  else if (r12_inc) r12 <= reg_incr_val;
502 136 olivier.gi
`endif
503 2 olivier.gi
 
504
// R13
505 136 olivier.gi
//------------
506 2 olivier.gi
reg [15:0] r13;
507
wire       r13_wr  = inst_dest[13] & reg_dest_wr;
508
wire       r13_inc = inst_src_in[13]  & reg_incr;
509 136 olivier.gi
 
510
`ifdef CLOCK_GATING
511
wire       r13_en  = r13_wr | r13_inc;
512
wire       mclk_r13;
513
omsp_clock_gate clock_gate_r13 (.gclk(mclk_r13),
514
                                .clk (mclk), .enable(r13_en), .scan_enable(scan_enable));
515
`else
516
wire       mclk_r13 = mclk;
517
`endif
518
 
519
always @(posedge mclk_r13 or posedge puc_rst)
520 111 olivier.gi
  if (puc_rst)      r13 <= 16'h0000;
521 2 olivier.gi
  else if (r13_wr)  r13 <= reg_dest_val_in;
522 136 olivier.gi
`ifdef CLOCK_GATING
523
  else              r13 <= reg_incr_val;
524
`else
525 2 olivier.gi
  else if (r13_inc) r13 <= reg_incr_val;
526 136 olivier.gi
`endif
527 2 olivier.gi
 
528
// R14
529 136 olivier.gi
//------------
530 2 olivier.gi
reg [15:0] r14;
531
wire       r14_wr  = inst_dest[14] & reg_dest_wr;
532
wire       r14_inc = inst_src_in[14]  & reg_incr;
533 136 olivier.gi
 
534
`ifdef CLOCK_GATING
535
wire       r14_en  = r14_wr | r14_inc;
536
wire       mclk_r14;
537
omsp_clock_gate clock_gate_r14 (.gclk(mclk_r14),
538
                                .clk (mclk), .enable(r14_en), .scan_enable(scan_enable));
539
`else
540
wire       mclk_r14 = mclk;
541
`endif
542
 
543
always @(posedge mclk_r14 or posedge puc_rst)
544 111 olivier.gi
  if (puc_rst)      r14 <= 16'h0000;
545 2 olivier.gi
  else if (r14_wr)  r14 <= reg_dest_val_in;
546 136 olivier.gi
`ifdef CLOCK_GATING
547
  else              r14 <= reg_incr_val;
548
`else
549 2 olivier.gi
  else if (r14_inc) r14 <= reg_incr_val;
550 136 olivier.gi
`endif
551 2 olivier.gi
 
552
// R15
553 136 olivier.gi
//------------
554 2 olivier.gi
reg [15:0] r15;
555
wire       r15_wr  = inst_dest[15] & reg_dest_wr;
556
wire       r15_inc = inst_src_in[15]  & reg_incr;
557 136 olivier.gi
 
558
`ifdef CLOCK_GATING
559
wire       r15_en  = r15_wr | r15_inc;
560
wire       mclk_r15;
561
omsp_clock_gate clock_gate_r15 (.gclk(mclk_r15),
562
                                .clk (mclk), .enable(r15_en), .scan_enable(scan_enable));
563
`else
564
wire       mclk_r15 = mclk;
565
`endif
566
 
567
always @(posedge mclk_r15 or posedge puc_rst)
568 111 olivier.gi
  if (puc_rst)      r15 <= 16'h0000;
569 2 olivier.gi
  else if (r15_wr)  r15 <= reg_dest_val_in;
570 136 olivier.gi
 `ifdef CLOCK_GATING
571
  else              r15 <= reg_incr_val;
572
`else
573 202 olivier.gi
  else if (r15_inc) r15 <= reg_incr_val;
574 136 olivier.gi
`endif
575 2 olivier.gi
 
576
 
577
//=============================================================================
578
// 5)  READ MUX
579
//=============================================================================
580
 
581 202 olivier.gi
assign reg_src  = (r0      & {16{inst_src_in[0]}})   |
582
                  (r1      & {16{inst_src_in[1]}})   |
583
                  (r2      & {16{inst_src_in[2]}})   |
584
                  (r3      & {16{inst_src_in[3]}})   |
585
                  (r4      & {16{inst_src_in[4]}})   |
586
                  (r5      & {16{inst_src_in[5]}})   |
587
                  (r6      & {16{inst_src_in[6]}})   |
588
                  (r7      & {16{inst_src_in[7]}})   |
589
                  (r8      & {16{inst_src_in[8]}})   |
590
                  (r9      & {16{inst_src_in[9]}})   |
591
                  (r10     & {16{inst_src_in[10]}})  |
592
                  (r11     & {16{inst_src_in[11]}})  |
593
                  (r12     & {16{inst_src_in[12]}})  |
594
                  (r13     & {16{inst_src_in[13]}})  |
595
                  (r14     & {16{inst_src_in[14]}})  |
596 2 olivier.gi
                  (r15     & {16{inst_src_in[15]}});
597
 
598 202 olivier.gi
assign reg_dest = (r0      & {16{inst_dest[0]}})  |
599
                  (r1      & {16{inst_dest[1]}})  |
600
                  (r2      & {16{inst_dest[2]}})  |
601
                  (r3      & {16{inst_dest[3]}})  |
602
                  (r4      & {16{inst_dest[4]}})  |
603
                  (r5      & {16{inst_dest[5]}})  |
604
                  (r6      & {16{inst_dest[6]}})  |
605
                  (r7      & {16{inst_dest[7]}})  |
606
                  (r8      & {16{inst_dest[8]}})  |
607
                  (r9      & {16{inst_dest[9]}})  |
608
                  (r10     & {16{inst_dest[10]}}) |
609
                  (r11     & {16{inst_dest[11]}}) |
610
                  (r12     & {16{inst_dest[12]}}) |
611
                  (r13     & {16{inst_dest[13]}}) |
612
                  (r14     & {16{inst_dest[14]}}) |
613 2 olivier.gi
                  (r15     & {16{inst_dest[15]}});
614
 
615
 
616 34 olivier.gi
endmodule // omsp_register_file
617 2 olivier.gi
 
618 104 olivier.gi
`ifdef OMSP_NO_INCLUDE
619
`else
620 33 olivier.gi
`include "openMSP430_undefines.v"
621 104 olivier.gi
`endif

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