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[/] [theia_gpu/] [branches/] [icarus_version/] [rtl/] [Module_ExecutionFSM.v] - Blame information for rev 186

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1 158 diegovalve
`timescale 1ns / 1ps
2
`include "aDefinitions.v"
3 174 diegovalve
`ifdef VERILATAOR
4
`endif
5 158 diegovalve
/**********************************************************************************
6
Theia, Ray Cast Programable graphic Processing Unit.
7
Copyright (C) 2010  Diego Valverde (diego.valverde.g@gmail.com)
8
 
9
This program is free software; you can redistribute it and/or
10
modify it under the terms of the GNU General Public License
11
as published by the Free Software Foundation; either version 2
12
of the License, or (at your option) any later version.
13
 
14
This program is distributed in the hope that it will be useful,
15
but WITHOUT ANY WARRANTY; without even the implied warranty of
16
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
17
GNU General Public License for more details.
18
 
19
You should have received a copy of the GNU General Public License
20
along with this program; if not, write to the Free Software
21
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301, USA.
22
 
23
***********************************************************************************/
24 175 diegovalve
`define EXEU_AFTER_RESET             0
25
`define EXEU_INITIAL_STATE           1
26
`define EXEU_WAIT_FOR_DECODE         2
27
`define EXEU_FETCH_DECODED_INST      3
28
`define EXEU_WAIT_FOR_ALU_EXECUTION  4
29
`define EXEU_WRITE_BACK_TO_RAM       5
30
`define EXEU_HANDLE_JUMP             7
31 158 diegovalve
 
32
 
33
 
34
module ExecutionFSM
35
(
36 175 diegovalve
input wire                              Clock,
37
input wire                              Reset,
38 158 diegovalve
 
39 175 diegovalve
input wire                              iDecodeDone,
40
input wire[`INSTRUCTION_OP_LENGTH-1:0]  iOperation,
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input wire[`DATA_ROW_WIDTH-1:0]         iSource0,iSource1,
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input wire[`DATA_ADDRESS_WIDTH-1:0]     iDestination,
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inout wire[`DATA_ROW_WIDTH-1:0]         RAMBus,
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output wire                             oJumpFlag    ,
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output  wire [`ROM_ADDRESS_WIDTH-1:0]   oJumpIp     ,
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output  wire                            oRAMWriteEnable  ,
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output  wire [`DATA_ADDRESS_WIDTH-1:0]  oRAMWriteAddress  ,
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output  wire                            oExeLatchedValues,
49
output  reg                             oBusy ,
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51
//ALU ports and control signals
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output  wire [`INSTRUCTION_OP_LENGTH-1:0]    oALUOperation,
53
output  wire [`WIDTH-1:0]                    oALUChannelX1,
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output  wire [`WIDTH-1:0]                    oALUChannelY1,
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output  wire [`WIDTH-1:0]                    oALUChannelZ1,
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output  wire [`WIDTH-1:0]                    oALUChannelX2,
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output  wire [`WIDTH-1:0]                    oALUChannelY2,
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output  wire [`WIDTH-1:0]                    oALUChannelZ2,
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output  wire                                 oTriggerALU,
60 158 diegovalve
 
61 175 diegovalve
input  wire   [`WIDTH-1:0]                   iALUResultX,
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input  wire   [`WIDTH-1:0]                   iALUResultY,
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input wire   [`WIDTH-1:0]                    iALUResultZ,
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input wire                                   iALUOutputReady,
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input wire                                   iBranchTaken,
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input wire                                   iBranchNotTaken,
67 158 diegovalve
 
68
 
69
`ifdef DEBUG
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 input wire[`ROM_ADDRESS_WIDTH-1:0]  iDebug_CurrentIP,
71
 input wire [`MAX_CORES-1:0]         iDebug_CoreID,
72 158 diegovalve
`endif
73
//Data forward Signals
74
output wire [`DATA_ADDRESS_WIDTH-1:0] oLastDestination
75
 
76
 
77
);
78
 
79
wire wLatchNow;
80
reg rInputLatchesEnabled;
81
 
82
//If ALU says jump, just pass along
83
assign oJumpFlag = iBranchTaken;
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//JumpIP is the instruction destination (= oRAMWriteAddress)
85
assign oJumpIp = oRAMWriteAddress;
86
 
87
assign wLatchNow = iDecodeDone & rInputLatchesEnabled;
88
assign oExeLatchedValues = wLatchNow;
89
assign oTriggerALU = wLatchNow;
90
 
91
wire wOperationIsJump;
92
assign wOperationIsJump = iBranchTaken || iBranchNotTaken;
93
 
94
//Don't allow me to write back back if the operation is a NOP
95
`ifdef DEBUG
96 178 diegovalve
 assign oRAMWriteEnable = iALUOutputReady && (!wOperationIsJump || oALUOperation == `RET ) &&
97 175 diegovalve
  (oALUOperation != `NOP) && oALUOperation != `DEBUG_PRINT;
98 158 diegovalve
`else
99 178 diegovalve
 assign oRAMWriteEnable = iALUOutputReady && (!wOperationIsJump || oALUOperation == `RET) && oALUOperation != `NOP;
100 175 diegovalve
`endif
101 158 diegovalve
 
102
 
103
assign RAMBus = ( oRAMWriteEnable ) ? {iALUResultX,iALUResultY,iALUResultZ} : `DATA_ROW_WIDTH'bz;
104
 
105
assign oALUChannelX1 = iSource1[95:64];
106
assign oALUChannelY1 = iSource1[63:32];
107
assign oALUChannelZ1 = iSource1[31:0];
108
 
109
assign oALUChannelX2 = iSource0[95:64];
110
assign oALUChannelY2 = iSource0[63:32];
111
assign oALUChannelZ2 = iSource0[31:0];
112
 
113
assign oALUOperation = iOperation;
114
 
115
FFD_POSEDGE_SYNCRONOUS_RESET # ( `DATA_ADDRESS_WIDTH ) PSRegDestination
116
(
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 .Clock( Clock ),//wLatchNow ),
118
 .Reset( Reset),
119
 .Enable( wLatchNow ),//1'b1 ),
120
 .D( iDestination ),
121
 .Q(oRAMWriteAddress)
122 158 diegovalve
);
123
 
124
//Data forwarding
125
assign oLastDestination = oRAMWriteAddress;
126
 
127
reg [7:0] CurrentState;
128
reg [7:0] NextState;
129
 
130
 
131
//------------------------------------------------
132
  always @(posedge Clock or posedge Reset)
133
  begin
134
 
135 175 diegovalve
 
136
 
137 158 diegovalve
    if (Reset)
138 175 diegovalve
  CurrentState <= `EXEU_AFTER_RESET;
139 158 diegovalve
    else
140 175 diegovalve
  CurrentState <= NextState;
141
 
142 158 diegovalve
  end
143
//------------------------------------------------
144
 
145
 
146
always @( * )
147
   begin
148
        case (CurrentState)
149 175 diegovalve
    //------------------------------------------
150
    `EXEU_AFTER_RESET:
151
    begin
152
    //ReadyForNextInstruction = 1;
153
    oBusy       = 0;
154
    rInputLatchesEnabled  = 1;
155
 
156
 
157
    NextState  = `EXEU_WAIT_FOR_DECODE;
158
    end
159
    //------------------------------------------
160
    /**
161
   At the same time iDecodeDone goes to 1, our Flops
162
   will store the value, so next clock cycle we can
163
   tell IDU to go ahead and decode the next instruction
164
   in the pipeline.
165
    */
166
    `EXEU_WAIT_FOR_DECODE:
167
    begin
168
 
169 158 diegovalve
 
170 175 diegovalve
    //ReadyForNextInstruction = 1;
171
    oBusy       = 0;
172
    rInputLatchesEnabled  = 1;
173
 
174
 
175
   if ( iDecodeDone ) //This same thing triggers the ALU
176
    NextState = `EXEU_WAIT_FOR_ALU_EXECUTION;
177
   else
178
    NextState = `EXEU_WAIT_FOR_DECODE;
179
    end
180
    //------------------------------------------
181
    /*
182
    If the instruction is aritmetic then pass the parameters
183
    the ALU, else if it store iOperation then...
184
    */
185
    `EXEU_WAIT_FOR_ALU_EXECUTION:
186
    begin
187 158 diegovalve
 
188 175 diegovalve
    //ReadyForNextInstruction = 0;      //*
189
    oBusy       = 1;
190
    rInputLatchesEnabled  = 0;  //NO INTERRUPTIONS WHILE WE WAIT!!
191
 
192 158 diegovalve
 
193 175 diegovalve
 
194
    if ( iALUOutputReady ) /////This same thing enables writing th results to RAM
195
     NextState = `EXEU_WAIT_FOR_DECODE;
196
    else
197
     NextState = `EXEU_WAIT_FOR_ALU_EXECUTION;
198
    end
199
    //------------------------------------------
200
    `EXEU_WRITE_BACK_TO_RAM:
201
    begin
202
 
203
    //ReadyForNextInstruction = 0;      
204
    oBusy       = 1;
205
    rInputLatchesEnabled  = 1;
206
 
207
   if ( iDecodeDone )
208
    NextState = `EXEU_WAIT_FOR_ALU_EXECUTION;
209
   else
210
    NextState = `EXEU_WAIT_FOR_DECODE;
211
 
212
    end
213
 
214
    //------------------------------------------
215
    default:
216
    begin
217
 
218
    //ReadyForNextInstruction = 1;
219
    oBusy       = 0;
220
    rInputLatchesEnabled  = 1;
221 158 diegovalve
 
222 175 diegovalve
    NextState = `EXEU_AFTER_RESET;
223
    end
224
    //------------------------------------------
225
 endcase
226 158 diegovalve
end
227
 
228
//-----------------------------------------------------------------------
229
`ifdef DUMP_CODE
230
integer ucode_file;
231
integer reg_log;
232
initial
233
begin
234
 
235 175 diegovalve
 $display("Opening ucode dump file....\n");
236
 ucode_file = $fopen("Code.log","w");
237
 $fwrite(ucode_file,"\n\n************ Theia UCODE DUMP *******\n\n\n\n");
238
 $display("Opening Register lof file...\n");
239
 reg_log = $fopen("Registers.log","w");
240
 
241 158 diegovalve
end
242
 
243
`endif //Ucode dump
244
 
245
//-----------------------------------------------------------------------
246
`ifdef DEBUG
247
wire [`WIDTH-1:0] wALUChannelX1,wALUChannelY1,wALUChannelZ1;
248
wire [`WIDTH-1:0] wALUChannelX2,wALUChannelY2,wALUChannelZ2;
249
 
250
FFD_POSEDGE_SYNCRONOUS_RESET # ( `WIDTH ) SourceX1
251
(
252 175 diegovalve
 .Clock( Clock ),
253
 .Reset( Reset),
254
 .Enable( wLatchNow ),
255
 .D( iSource1[95:64] ),
256
 .Q(wALUChannelX1)
257 158 diegovalve
);
258
FFD_POSEDGE_SYNCRONOUS_RESET # ( `WIDTH ) SourceY1
259
(
260 175 diegovalve
 .Clock( Clock ),
261
 .Reset( Reset),
262
 .Enable( wLatchNow ),
263
 .D( iSource1[63:32] ),
264
 .Q(wALUChannelY1)
265 158 diegovalve
);
266
FFD_POSEDGE_SYNCRONOUS_RESET # ( `WIDTH ) SourceZ1
267
(
268 175 diegovalve
 .Clock( Clock ),
269
 .Reset( Reset),
270
 .Enable( wLatchNow ),
271
 .D( iSource1[31:0] ),
272
 .Q(wALUChannelZ1)
273 158 diegovalve
);
274
 
275
 
276
FFD_POSEDGE_SYNCRONOUS_RESET # ( `WIDTH ) SourceX2
277
(
278 175 diegovalve
 .Clock( Clock ),
279
 .Reset( Reset),
280
 .Enable( wLatchNow ),
281
 .D( iSource0[95:64] ),
282
 .Q(wALUChannelX2)
283 158 diegovalve
);
284
FFD_POSEDGE_SYNCRONOUS_RESET # ( `WIDTH ) SourceY2
285
(
286 175 diegovalve
 .Clock( Clock ),
287
 .Reset( Reset),
288
 .Enable( wLatchNow ),
289
 .D( iSource0[63:32] ),
290
 .Q(wALUChannelY2)
291 158 diegovalve
);
292
FFD_POSEDGE_SYNCRONOUS_RESET # ( `WIDTH ) SourceZ2
293
(
294 175 diegovalve
 .Clock( Clock ),
295
 .Reset( Reset),
296
 .Enable( wLatchNow ),
297
 .D( iSource0[31:0] ),
298
 .Q(wALUChannelZ2)
299 158 diegovalve
);
300
 
301
 
302 175 diegovalve
 always @ (posedge iDecodeDone && iDebug_CoreID == `DEBUG_CORE)
303
 begin
304
  `LOGME"[CORE %d] IP:%d", iDebug_CoreID,iDebug_CurrentIP);
305
 end
306 158 diegovalve
 
307 175 diegovalve
 always @ (negedge  Clock && iDebug_CoreID == `DEBUG_CORE)
308
 begin
309
 if ( iALUOutputReady )
310
 begin
311
 
312
 
313
  if (iBranchTaken)
314
   `LOGME"<BT>");
315
 
316
  if (iBranchNotTaken )
317
   `LOGME"<BNT>");
318
 
319
  if (oRAMWriteEnable)
320
   `LOGME"<WE>");
321
 
322
  `LOGME "(%dns ",$time);
323
     case ( oALUOperation )
324
     `RETURN: `LOGME"RETURN");
325
     `ADD:  `LOGME"ADD");
326
     `SUB:  `LOGME"SUB");
327
     `DIV:  `LOGME"DIV");
328
     `MUL:  `LOGME"MUL");
329
     `MAG:  `LOGME"MAG");
330
     `JGX:  `LOGME"JGX");
331
     `JLX:  `LOGME"JLX");
332
     `JGEX: `LOGME"JGEX");
333
     `JGEY: `LOGME"JGEY");
334
     `JGEZ: `LOGME"JGEZ");
335
     `JLEX: `LOGME"JLEX");
336
     `JLEY: `LOGME"JLEY");
337
     `JLEZ: `LOGME"JLEZ");
338
     `JMP:  `LOGME"JMP");
339
     `ZERO: `LOGME"ZERO");
340
     `JNEX: `LOGME"JNEX");
341
     `JNEY: `LOGME"JNEY");
342
     `JNEZ: `LOGME"JNEZ");
343
     `JEQX: `LOGME"JEQX");
344
     `JEQY: `LOGME"JEQY");
345
     `JEQZ: `LOGME"JEQZ");
346
     `CROSS: `LOGME"CROSS");
347
     `DOT:  `LOGME"DOT");
348
     `SETX: `LOGME"SETX");
349
     `SETY: `LOGME"SETY");
350
     `SETZ: `LOGME"SETZ");
351
     `NOP:  `LOGME"NOP");
352
     `COPY: `LOGME"COPY");
353
     `INC:  `LOGME"INC");
354
     `DEC:  `LOGME"DEC");
355
     `MOD:  `LOGME"MOD");
356
     `FRAC: `LOGME"FRAC");
357
     `NEG:    `LOGME"NEG");
358
     `SWIZZLE3D: `LOGME"SWIZZLE3D");
359
     `MULP:  `LOGME"MULP");
360
     `XCHANGEX:  `LOGME"XCHANGEX");
361
     `IMUL:      `LOGME"IMUL");
362 178 diegovalve
     `UNSCALE:   `LOGME"UNSCALE");
363
          `RESCALE:    `LOGME"UNSCALE");
364 175 diegovalve
     `INCX: `LOGME"INCX");
365
     `INCY: `LOGME"INCY");
366
     `INCZ: `LOGME"INCZ");
367
     `OMWRITE: `LOGME"OMWRITE");
368
     `TMREAD: `LOGME"TMREAD");
369
     `LEA:     `LOGME"LEA");
370
     `CALL:    `LOGME"CALL");
371
     `RET:     `LOGME"RET");
372
     `DEBUG_PRINT:
373
     begin
374
      `LOGME"DEBUG_PRINT");
375
 
376
     end
377
     default:
378
     begin
379
      `LOGME"**********ERROR UNKNOWN OP*********");
380
      $display("%dns EXE: Error Unknown Instruction : %d", $time,oALUOperation);
381
     // $stop();
382
     end
383
     endcase
384
 
385
     `LOGME"\t %h [ %h %h %h ][ %h %h %h ] = ",
386
     oRAMWriteAddress,
387
     wALUChannelX1,wALUChannelY1,wALUChannelZ1,
388
     wALUChannelX2,wALUChannelY2,wALUChannelZ2
389
 
390
     );
391
 
392
     if (oALUOperation == `RETURN)
393
      `LOGME"\n\n\n");
394
 
395
  end
396
 end //always
397
 
398
 always @ ( negedge Clock && iDebug_CoreID == `DEBUG_CORE )
399
 begin
400
 if ( iALUOutputReady )
401
  `LOGME" [ %h %h %h ])\n",iALUResultX,iALUResultY,iALUResultZ);
402
 end //always
403 158 diegovalve
`endif
404
 
405 174 diegovalve
endmodule

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