view modules/bluespec/Pygar/core/Processor.bsv @ 74:31fef269ae58 pygar svn.75

[svn r75] presentation for wednesdaty
author rlm
date Wed, 12 May 2010 02:25:34 -0400
parents 44cc00df1168
children
line wrap: on
line source
1 // The MIT License
3 // Copyright (c) 2009 Massachusetts Institute of Technology
5 // Permission is hereby granted, free of charge, to any person obtaining a copy
6 // of this software and associated documentation files (the "Software"), to deal
7 // in the Software without restriction, including without limitation the rights
8 // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
9 // copies of the Software, and to permit persons to whom the Software is
10 // furnished to do so, subject to the following conditions:
12 // The above copyright notice and this permission notice shall be included in
13 // all copies or substantial portions of the Software.
15 // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
16 // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
17 // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
18 // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
19 // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
20 // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
21 // THE SOFTWARE.
24 import Connectable::*;
25 import GetPut::*;
26 import ClientServer::*;
27 import RegFile::*;
29 import FIFO::*;
30 import FIFOF::*;
31 import SFIFO::*;
32 import RWire::*;
34 import Trace::*;
35 import BFIFO::*;
36 import MemTypes::*;
37 import ProcTypes::*;
38 import BRegFile::*;
39 import BranchPred::*;
41 //AWB includes
42 `include "asim/provides/low_level_platform_interface.bsh"
43 `include "asim/provides/soft_connections.bsh"
44 `include "asim/provides/common_services.bsh"
46 // Local includes
47 //`include "asim/provides/processor_library.bsh" (included above directly)
49 `include "asim/provides/common_services.bsh"
50 `include "asim/provides/processor_library.bsh"
52 // Local includes. Look for the correspondingly named .awb files
53 // workspace/labs/src/mit-6.375/modules/bluespec/mit-6.375/common/
54 // to find the actual Bluespec files which are used to generate
55 // these includes. These files are specific to this audio processing
56 // pipeline
58 `include "asim/provides/audio_pipe_types.bsh"
59 `include "asim/provides/path_types.bsh"
61 //interface CPUToHost;
62 // method Bit#(32) cpuToHost(int req);
63 //endinterface
65 interface Proc;
67 // Interface from processor to caches
68 interface Client#(DataReq,DataResp) dmem_client;
69 interface Client#(InstReq,InstResp) imem_client;
71 // Interface for enabling/disabling statistics on the rest of the core
72 interface Get#(Bool) statsEn_get;
74 // Interface to host
75 interface Get#(Bit#(32)) pcCount;
77 // Interface to Audio Pipeline
78 interface Get#(AudioStream) sampleOutput;
79 interface Put#(AudioStream) sampleInput;
81 endinterface
83 typedef enum { PCgen, Exec, Writeback } Stage deriving(Eq,Bits);
85 //-----------------------------------------------------------
86 // Helper functions
87 //-----------------------------------------------------------
89 function Bit#(32) slt( Bit#(32) val1, Bit#(32) val2 );
90 return zeroExtend( pack( signedLT(val1,val2) ) );
91 endfunction
93 function Bit#(32) sltu( Bit#(32) val1, Bit#(32) val2 );
94 return zeroExtend( pack( val1 < val2 ) );
95 endfunction
97 function Bit#(32) rshft( Bit#(32) val );
98 return zeroExtend(val[4:0]);
99 endfunction
102 //-----------------------------------------------------------
103 // Find funct for wbQ
104 //-----------------------------------------------------------
105 function Bool findwbf(Rindx fVal, WBResult cmpVal);
106 case (cmpVal) matches
107 tagged WB_ALU {data:.res, dest:.rd} :
108 return (fVal == rd);
109 tagged WB_Load .rd :
110 return (fVal == rd);
111 tagged WB_Store .st :
112 return False;
113 tagged WB_Host .x :
114 return False;
115 endcase
116 endfunction
119 //-----------------------------------------------------------
120 // Stall funct for wbQ
121 //-----------------------------------------------------------
122 function Bool stall(Instr inst, SFIFO#(WBResult, Rindx) f);
123 case (inst) matches
124 // -- Memory Ops ------------------------------------------------
125 tagged LW .it :
126 return f.find(it.rbase);
127 tagged SW {rsrc:.dreg, rbase:.addr, offset:.o} :
128 return (f.find(addr) || f.find2(dreg));
130 // -- Simple Ops ------------------------------------------------
131 tagged ADDIU .it : return f.find(it.rsrc);
132 tagged SLTI .it : return f.find(it.rsrc);
133 tagged SLTIU .it : return f.find(it.rsrc);
134 tagged ANDI .it : return f.find(it.rsrc);
135 tagged ORI .it : return f.find(it.rsrc);
136 tagged XORI .it : return f.find(it.rsrc);
138 tagged LUI .it : return f.find(it.rdst); //this rds/wrs itself
139 tagged SLL .it : return f.find(it.rsrc);
140 tagged SRL .it : return f.find(it.rsrc);
141 tagged SRA .it : return f.find(it.rsrc);
142 tagged SLLV .it : return (f.find(it.rsrc) || f.find(it.rshamt));
143 tagged SRLV .it : return (f.find(it.rsrc) || f.find(it.rshamt));
144 tagged SRAV .it : return (f.find(it.rsrc) || f.find(it.rshamt));
145 tagged ADDU .it : return (f.find(it.rsrc1) || f.find2(it.rsrc2));
146 tagged SUBU .it : return (f.find(it.rsrc1) || f.find2(it.rsrc2));
147 tagged AND .it : return (f.find(it.rsrc1) || f.find2(it.rsrc2));
148 tagged OR .it : return (f.find(it.rsrc1) || f.find2(it.rsrc2));
149 tagged XOR .it : return (f.find(it.rsrc1) || f.find2(it.rsrc2));
150 tagged NOR .it : return (f.find(it.rsrc1) || f.find2(it.rsrc2));
151 tagged SLT .it : return (f.find(it.rsrc1) || f.find2(it.rsrc2));
152 tagged SLTU .it : return (f.find(it.rsrc1) || f.find2(it.rsrc2));
155 // -- Branches --------------------------------------------------
157 tagged BLEZ .it : return (f.find(it.rsrc));
158 tagged BGTZ .it : return (f.find(it.rsrc));
159 tagged BLTZ .it : return (f.find(it.rsrc));
160 tagged BGEZ .it : return (f.find(it.rsrc));
161 tagged BEQ .it : return (f.find(it.rsrc1) || f.find2(it.rsrc2));
162 tagged BNE .it : return (f.find(it.rsrc1) || f.find2(it.rsrc2));
164 // -- Jumps -----------------------------------------------------
166 tagged J .it : return False;
167 tagged JR .it : return f.find(it.rsrc);
168 tagged JALR .it : return f.find(it.rsrc);
169 tagged JAL .it : return False;
171 // -- Cop0 ------------------------------------------------------
173 tagged MTC0 .it : return f.find(it.rsrc);
174 tagged MFC0 .it : return False;
176 // -- Illegal ---------------------------------------------------
178 default : return False;
180 endcase
181 endfunction
184 //-----------------------------------------------------------
185 // Reference processor
186 //-----------------------------------------------------------
189 //(* doc = "synthesis attribute ram_style mkProc distributed;" *)
190 //(* synthesize *)
192 module mkProc( Proc );
194 //-----------------------------------------------------------
195 // State
197 // Standard processor state
199 Reg#(Addr) pc <- mkReg(32'h00001000);
200 Reg#(Epoch) epoch <- mkReg(0);
201 Reg#(Stage) stage <- mkReg(PCgen);
202 BRegFile rf <- mkBRegFile;
204 // Branch Prediction
205 BranchPred bp <- mkBranchPred();
206 FIFO#(PCStat) execpc <- mkLFIFO();
208 // Pipelines
209 FIFO#(PCStat) pcQ <-mkSizedFIFO(3);
210 SFIFO#(WBResult, Rindx) wbQ <-mkSFIFO(findwbf);
212 // NEED TO ADD CAPABILITY FOR RESET (should be able to just say if I get valid in and these are flagged, clear them.
213 Reg#(Bit#(32)) cp0_tohost <- mkReg(0);
214 Reg#(Bit#(32)) cp0_fromhost <- mkReg(0);
215 Reg#(Bool) cp0_statsEn <- mkReg(False);
216 Reg#(Bool) cp0_audioEOF <- mkReg(False); // Register to let code that EOF is reached
217 Reg#(Bool) cp0_progComp <- mkReg(False); // Register to let processor know that the program is complete (as this terminates)
219 Reg#(Bool) code_bypass <- mkReg(True); // Register to enable passing invalid packets once all valid ones are passed OUT
220 // (this becomes false at first valid packet)
222 // Memory request/response state
224 FIFO#(InstReq) instReqQ <- mkBFIFO1();
225 FIFO#(InstResp) instRespQ <- mkFIFO();
227 FIFO#(DataReq) dataReqQ <- mkBFIFO1();
228 FIFO#(DataResp) dataRespQ <- mkFIFO();
230 // Audio I/O
231 FIFO#(AudioStream) inAudioFifo <- mkSizedFIFO(512);
232 FIFO#(AudioStream) outAudioFifo <- mkFIFO;
233 Reg#(VoiceId) channel <-mkReg(0); // Set based on the reading the incoming data. Not entirely sure I like this. What if the program generates samples?
235 // Statistics state (2010)
236 // Reg#(Stat) num_cycles <- mkReg(0);
237 // Reg#(Stat) num_inst <- mkReg(0);
239 //Or:
240 // Statistics state
242 //rlm: removing these to avoid their broken stupidness.
243 //STAT num_cycles <- mkStatCounter(`STATS_PROCESSOR_CYCLE_COUNT);
244 //STAT num_inst <- mkStatCounter(`STATS_PROCESSOR_INST_COUNT);
246 //-----------------------------------------------------------
247 // Internal Functions
249 function Bool stallMTCO_MFCO(Instr inst);
250 case(inst) matches
251 tagged MTC0 .it :
252 begin
253 case (it.cop0dst)
254 5'd26 : return cp0_progComp; // If true, processor service sendEnd which clears it.
255 endcase
256 end
257 endcase
258 endfunction
260 //-----------------------------------------------------------
261 // Rules
263 (* descending_urgency = "exec, pcgen" *)
264 rule pcgen; //( stage == PCgen );
265 let pc_plus4 = pc + 4;
267 traceTiny("mkProc", "pc",pc);
268 traceTiny("mkProc", "pcgen","P");
269 instReqQ.enq( LoadReq{ addr:pc, tag:epoch} );
271 let next_pc = bp.get(pc);
272 if (next_pc matches tagged Valid .npc)
273 begin
274 pcQ.enq(PCStat {qpc:pc, qnxtpc:npc, qepoch:epoch});
275 pc <= npc;
276 end
277 else
278 begin
279 pcQ.enq(PCStat {qpc:pc, qnxtpc:pc_plus4, qepoch:epoch});
280 pc <= pc_plus4;
281 end
283 endrule
285 rule discard (instRespQ.first() matches tagged LoadResp .ld
286 &&& ld.tag != epoch);
287 traceTiny("mkProc", "stage", "D");
288 instRespQ.deq();
289 endrule
291 (* conflict_free = "exec, writeback" *)
292 rule exec (instRespQ.first() matches tagged LoadResp.ld
293 &&& (ld.tag == epoch)
294 &&& unpack(ld.data) matches .inst
295 &&& !stall(inst, wbQ)
296 &&& !stallMTCO_MFCO(inst));
298 // Some abbreviations
299 let sext = signExtend;
300 let zext = zeroExtend;
301 let sra = signedShiftRight;
303 // Get the instruction
305 instRespQ.deq();
306 Instr inst
307 = case ( instRespQ.first() ) matches
308 tagged LoadResp .ld : return unpack(ld.data);
309 tagged StoreResp .st : return ?;
310 endcase;
312 // Get the PC info
313 let instrpc = pcQ.first().qpc;
314 let pc_plus4 = instrpc + 4;
316 Bool branchTaken = False;
317 Addr newPC = pc_plus4;
319 // Tracing
320 traceTiny("mkProc", "exec","X");
321 traceTiny("mkProc", "exInstTiny",inst);
322 traceFull("mkProc", "exInstFull",inst);
324 // $display("PROCESSOR: Exec Fires");
325 case ( inst ) matches
327 // -- Memory Ops ------------------------------------------------
329 tagged LW .it :
330 begin
331 let val_rbase <- rf.rd1(it.rbase);
332 Addr addr = val_rbase + sext(it.offset);
333 dataReqQ.enq( LoadReq{ addr:addr, tag:zeroExtend(it.rdst) } );
334 wbQ.enq(tagged WB_Load it.rdst);
335 end
337 tagged SW .it :
338 begin
339 let val_rbase <- rf.rd1(it.rbase);
340 let val_rsrc2 <- rf.rd2(it.rsrc);
341 Addr addr = val_rbase + sext(it.offset);
342 dataReqQ.enq( StoreReq{ tag:0, addr:addr, data:val_rsrc2 } );
343 wbQ.enq(tagged WB_Store);
344 end
346 // -- Simple Ops ------------------------------------------------
348 tagged ADDIU .it :
349 begin
350 let val_rsrc1 <- rf.rd1(it.rsrc);
351 Bit#(32) result = val_rsrc1 + sext(it.imm);
352 wbQ.enq(tagged WB_ALU {data:result, dest:it.rdst});
353 end
354 tagged SLTI .it :
355 begin
356 let val_rsrc1 <- rf.rd1(it.rsrc);
357 wbQ.enq(tagged WB_ALU {dest:it.rdst, data:slt( val_rsrc1, sext(it.imm) )});
358 end
359 tagged SLTIU .it :
360 begin
361 let val_rsrc1 <- rf.rd1(it.rsrc);
362 wbQ.enq(tagged WB_ALU {dest:it.rdst, data:sltu( val_rsrc1, sext(it.imm) ) });
363 end
364 tagged ANDI .it :
365 begin
366 let val_rsrc1 <- rf.rd1(it.rsrc);
367 Bit#(32) zext_it_imm = zext(it.imm);
368 wbQ.enq(tagged WB_ALU {dest:it.rdst, data:(val_rsrc1 & zext_it_imm)} );
369 end
370 tagged ORI .it :
371 begin
372 let val_rsrc1 <- rf.rd1(it.rsrc);
373 Bit#(32) zext_it_imm = zext(it.imm);
374 wbQ.enq(tagged WB_ALU {dest:it.rdst, data:(val_rsrc1 | zext_it_imm)} );
375 end
376 tagged XORI .it :
377 begin
378 let val_rsrc1 <- rf.rd1(it.rsrc);
379 Bit#(32) zext_it_imm = zext(it.imm);
380 wbQ.enq(tagged WB_ALU {dest: it.rdst, data:(val_rsrc1 ^ zext_it_imm )});
381 end
382 tagged LUI .it :
383 begin
384 Bit#(32) zext_it_imm = zext(it.imm);
385 wbQ.enq(tagged WB_ALU {dest: it.rdst, data:(zext_it_imm << 32'd16) });
386 end
388 tagged SLL .it :
389 begin
390 let val_rsrc1 <- rf.rd1(it.rsrc);
391 Bit#(32) zext_it_shamt = zext(it.shamt);
392 wbQ.enq(tagged WB_ALU {dest: it.rdst, data:(val_rsrc1 << zext_it_shamt )} );
393 end
394 tagged SRL .it :
395 begin
396 let val_rsrc1 <- rf.rd1(it.rsrc);
397 Bit#(32) zext_it_shamt = zext(it.shamt);
398 wbQ.enq(tagged WB_ALU {dest: it.rdst, data:(val_rsrc1 >> zext_it_shamt )});
399 end
400 tagged SRA .it :
401 begin
402 let val_rsrc1 <- rf.rd1(it.rsrc);
403 Bit#(32) zext_it_shamt = zext(it.shamt);
404 wbQ.enq(tagged WB_ALU {dest: it.rdst, data:sra( val_rsrc1, zext_it_shamt )});
405 end
406 tagged SLLV .it :
407 begin
408 let val_rsrc1 <- rf.rd1(it.rsrc);
409 let val_rshamt <- rf.rd2(it.rshamt);
410 wbQ.enq(tagged WB_ALU {dest: it.rdst, data:(val_rsrc1 << rshft(val_rshamt) )});
411 end
412 tagged SRLV .it :
413 begin
414 let val_rsrc1 <- rf.rd1(it.rsrc);
415 let val_rshamt <- rf.rd2(it.rshamt);
416 wbQ.enq(tagged WB_ALU {dest: it.rdst, data:(val_rsrc1 >> rshft(val_rshamt) )} );
417 end
418 tagged SRAV .it :
419 begin
420 let val_rsrc1 <- rf.rd1(it.rsrc);
421 let val_rshamt <- rf.rd2(it.rshamt);
422 wbQ.enq(tagged WB_ALU {dest: it.rdst, data:sra( val_rsrc1, rshft(val_rshamt) ) });
423 end
424 tagged ADDU .it :
425 begin
426 let val_rsrc11 <- rf.rd1(it.rsrc1);
427 let val_rsrc22 <- rf.rd2(it.rsrc2);
428 wbQ.enq(tagged WB_ALU {dest: it.rdst, data:(val_rsrc11 + val_rsrc22 )} );
429 end
430 tagged SUBU .it :
431 begin
432 let val_rsrc11 <- rf.rd1(it.rsrc1);
433 let val_rsrc22 <- rf.rd2(it.rsrc2);
434 wbQ.enq(tagged WB_ALU {dest: it.rdst, data:(val_rsrc11 - val_rsrc22 )} );
435 end
436 tagged AND .it :
437 begin
438 let val_rsrc11 <- rf.rd1(it.rsrc1);
439 let val_rsrc22 <- rf.rd2(it.rsrc2);
440 wbQ.enq(tagged WB_ALU {dest: it.rdst, data:(val_rsrc11 & val_rsrc22 )} );
441 end
442 tagged OR .it :
443 begin
444 let val_rsrc11 <- rf.rd1(it.rsrc1);
445 let val_rsrc22 <- rf.rd2(it.rsrc2);
446 wbQ.enq(tagged WB_ALU {dest: it.rdst, data:(val_rsrc11 | val_rsrc22 )} );
447 end
448 tagged XOR .it :
449 begin
450 let val_rsrc11 <- rf.rd1(it.rsrc1);
451 let val_rsrc22 <- rf.rd2(it.rsrc2);
452 wbQ.enq(tagged WB_ALU {dest: it.rdst, data:(val_rsrc11 ^ val_rsrc22 )} );
453 end
454 tagged NOR .it :
455 begin
456 let val_rsrc11 <- rf.rd1(it.rsrc1);
457 let val_rsrc22 <- rf.rd2(it.rsrc2);
458 wbQ.enq(tagged WB_ALU {dest: it.rdst, data:(~(val_rsrc11 | val_rsrc22) )} );
459 end
460 tagged SLT .it :
461 begin
462 let val_rsrc11 <- rf.rd1(it.rsrc1);
463 let val_rsrc22 <- rf.rd2(it.rsrc2);
464 wbQ.enq(tagged WB_ALU {dest: it.rdst, data:slt( val_rsrc11, val_rsrc22 ) });
465 end
466 tagged SLTU .it :
467 begin
468 let val_rsrc11 <- rf.rd1(it.rsrc1);
469 let val_rsrc22 <- rf.rd2(it.rsrc2);
470 wbQ.enq(tagged WB_ALU {dest: it.rdst, data:sltu( val_rsrc11, val_rsrc22 ) });
471 end
473 // -- Branches --------------------------------------------------
475 tagged BLEZ .it :
476 begin
477 let val_rsrc1 <- rf.rd1(it.rsrc);
478 if ( signedLE( val_rsrc1, 0 ) )
479 begin
480 newPC = pc_plus4 + (sext(it.offset) << 2);
481 branchTaken = True;
482 end
483 end
485 tagged BGTZ .it :
486 begin
487 let val_rsrc1 <- rf.rd1(it.rsrc);
488 if ( signedGT( val_rsrc1, 0 ) )
489 begin
490 newPC = pc_plus4 + (sext(it.offset) << 2);
491 branchTaken = True;
492 end
493 end
495 tagged BLTZ .it :
496 begin
497 let val_rsrc1 <- rf.rd1(it.rsrc);
498 if ( signedLT( val_rsrc1, 0 ) )
499 begin
500 newPC = pc_plus4 + (sext(it.offset) << 2);
501 branchTaken = True;
502 end
503 end
505 tagged BGEZ .it :
506 begin
507 let val_rsrc1 <- rf.rd1(it.rsrc);
508 if ( signedGE( val_rsrc1, 0 ) )
509 begin
510 newPC = pc_plus4 + (sext(it.offset) << 2);
511 branchTaken = True;
512 end
513 end
515 tagged BEQ .it :
516 begin
517 let val_rsrc11 <- rf.rd1(it.rsrc1);
518 let val_rsrc22 <- rf.rd2(it.rsrc2);
519 if ( val_rsrc11 == val_rsrc22 )
520 begin
521 newPC = pc_plus4 + (sext(it.offset) << 2);
522 branchTaken = True;
523 end
524 end
526 tagged BNE .it :
527 begin
528 let val_rsrc11 <- rf.rd1(it.rsrc1);
529 let val_rsrc22 <- rf.rd2(it.rsrc2);
530 if ( val_rsrc11 != val_rsrc22 )
531 begin
532 newPC = pc_plus4 + (sext(it.offset) << 2);
533 branchTaken = True;
534 end
535 end
537 // -- Jumps -----------------------------------------------------
539 tagged J .it :
540 begin
541 newPC = { pc_plus4[31:28], it.target, 2'b0 };
542 branchTaken = True;
543 end
545 tagged JR .it :
546 begin
547 let val_rsrc1 <- rf.rd1(it.rsrc);
548 newPC = val_rsrc1;
549 branchTaken = True;
550 end
552 tagged JAL .it :
553 begin
554 wbQ.enq(tagged WB_ALU {dest:31, data:pc_plus4 });
555 newPC = { pc_plus4[31:28], it.target, 2'b0 };
556 branchTaken = True;
557 end
559 tagged JALR .it :
560 begin
561 let val_rsrc1 <- rf.rd1(it.rsrc);
562 wbQ.enq(tagged WB_ALU {dest:it.rdst, data:pc_plus4 });
563 newPC = val_rsrc1;
564 branchTaken = True;
565 end
567 // -- Cop0 ------------------------------------------------------
569 tagged MTC0 .it : //Recieve things from host computer
570 begin
571 let val_rsrc1 <- rf.rd1(it.rsrc);
572 // $display( " PROCESSOR MTC0 call\n");
573 case ( it.cop0dst )
574 5'd10 : cp0_statsEn <= unpack(truncate(val_rsrc1));
575 5'd21 : cp0_tohost <= truncate(val_rsrc1);
576 5'd26 : cp0_progComp <= unpack(truncate(val_rsrc1)); //states audio program completed and termination okay
577 5'd27 : outAudioFifo.enq(AudioStream {voice: channel, data: tagged Valid
578 tagged Sample unpack(truncate(val_rsrc1)) }); //Bit size is 16 not 32
579 default :
580 $display( " RTL-ERROR : %m : Illegal MTC0 cop0dst register!" );
581 endcase
582 wbQ.enq(tagged WB_Host 0); //no idea wwhat this actually should be.
583 end
585 //this is host stuff?
586 tagged MFC0 .it : //Things out
587 begin
588 case ( it.cop0src )
589 // not actually an ALU instruction but don't have the format otherwise
590 5'd10 : wbQ.enq(tagged WB_ALU {dest:it.rdst, data:zext(pack(cp0_statsEn)) });
591 5'd20 : wbQ.enq(tagged WB_ALU {dest:it.rdst, data:cp0_fromhost });
592 5'd21 : wbQ.enq(tagged WB_ALU {dest:it.rdst, data:cp0_tohost });
593 5'd25 : begin
594 // $display( "**** EOF Requested\n "); //Should never run if inAudioFifo.first not valid
595 let stream = inAudioFifo.first();
596 if (stream.data matches tagged Valid .sample)
597 begin
598 case (sample) matches
599 tagged EndOfFile :
600 begin
601 $display("PROCESSOR sent toC EOF");
602 wbQ.enq(tagged WB_ALU {dest:it.rdst, data:zext(pack(True)) }); // Reading clears bit
603 inAudioFifo.deq;
604 end
605 tagged Sample .audio:
606 wbQ.enq(tagged WB_ALU {dest:it.rdst, data:zext(pack(False)) }); // Reading clears bit
607 endcase
608 code_bypass <= False;
609 end
610 else $display("PROCESSOR code trying to read Invalid Audio Stream");
611 end
612 5'd28 : begin
613 $display( "***** Reqesting Sample");
614 let stream = inAudioFifo.first(); // is this going to cause perf. delay?
615 if (stream.data matches tagged Valid .sample)
616 begin
617 if (sample matches tagged Sample .audio) // if it is EOF another rule sets the cp0_audioEOF
618 wbQ.enq(tagged WB_ALU {dest:it.rdst, data:zext(pack(audio)) }); // do I need pack?
619 else $display ( "Audio File EOF Reached. Invalid sample request.");
620 inAudioFifo.deq();
621 end
622 else $display("PROCESSOR code trying to read Invalid Audio Stream");
623 end
624 default :
625 $display( " RTL-ERROR : %m : Illegal MFC0 cop0src register!" );
626 endcase
627 end
629 // -- Illegal ---------------------------------------------------
631 default :
632 $display( " RTL-ERROR : %m : Illegal instruction !" );
634 endcase
636 //evaluate branch prediction
637 Addr ppc = pcQ.first().qnxtpc; //predicted branch
638 if (ppc != newPC) //prediction wrong
639 begin
640 epoch <= pcQ.first().qepoch + 1;
641 bp.upd(instrpc, newPC); //update branch predictor
642 pcQ.clear();
643 pc <= newPC;
644 end
645 else
646 pcQ.deq();
647 //rlm: removing
648 // if ( cp0_statsEn )
649 // num_inst.incr();
651 endrule
653 rule writeback; // ( stage == Writeback );
654 traceTiny("mkProc", "writeback","W");
657 // get what to do off the writeback queue
658 wbQ.deq();
659 case (wbQ.first()) matches
660 tagged WB_ALU {data:.res, dest:.rdst} : rf.wr(rdst, res);
661 tagged WB_Load .regWr :
662 begin
663 dataRespQ.deq();
664 if (dataRespQ.first() matches tagged LoadResp .ld)
665 rf.wr(truncate(ld.tag), ld.data); // no need to use Rindx from queue? Duplicate?
666 end
667 tagged WB_Store : dataRespQ.deq();
668 tagged WB_Host .dat : noAction;
669 endcase
671 endrule
673 //rlm remove
674 // rule inc_num_cycles;
675 // if ( cp0_statsEn )
676 // num_cycles.incr();
677 // endrule
679 rule bypass (code_bypass &&&
680 !cp0_progComp &&& //never fires at the same time as sendEnd where it is enabled
681 inAudioFifo.first().data matches tagged Invalid) ;
682 outAudioFifo.enq(inAudioFifo.first());
683 inAudioFifo.deq;
684 endrule
686 /*
687 rule flagAudioEnd (inAudioFifo.first() matches tagged EndOfFile);
688 $display (" PROCESSOR End Audio Flag Set ");
689 cp0_audioEOF <= True;
690 inAudioFifo.deq;
691 endrule
692 */
693 (* descending_urgency = "sendProcEnd, exec" *)
694 rule sendProcEnd (cp0_progComp);
695 $display (" PROCESSOR Says Program Complete ");
696 outAudioFifo.enq(AudioStream {voice: channel, data: tagged Valid tagged EndOfFile }); // Only send one
697 cp0_progComp <= False; // And functions to reset
698 code_bypass <= True; // Enable Bypass so that invalids get thru
699 endrule
702 //-----------------------------------------------------------
703 // Methods
705 interface Client imem_client;
706 interface Get request = fifoToGet(instReqQ);
707 interface Put response = fifoToPut(instRespQ);
708 endinterface
710 interface Client dmem_client;
711 interface Get request = fifoToGet(dataReqQ);
712 interface Put response = fifoToPut(dataRespQ);
713 endinterface
715 interface Get statsEn_get = toGet(asReg(cp0_statsEn));
717 /*
718 interface CPUToHost tohost;
719 method Bit#(32) cpuToHost(int req);
720 return (case (req)
721 0: cp0_tohost;
722 1: pc;
723 2: zeroExtend(pack(stage));
724 endcase);
725 endmethod
726 endinterface
727 */
729 interface Get sampleOutput = fifoToGet(outAudioFifo);
730 interface Put sampleInput = fifoToPut(inAudioFifo);
731 interface Get pcCount = toGet(asReg(pc));
733 endmodule