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1 174 diegovalve
`ifndef COLLATERALS_V
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`define COLLATERALS_V
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4 158 diegovalve
`timescale 1ns / 1ps
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`include "aDefinitions.v"
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/**********************************************************************************
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Theia, Ray Cast Programable graphic Processing Unit.
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Copyright (C) 2010  Diego Valverde (diego.valverde.g@gmail.com)
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10
This program is free software; you can redistribute it and/or
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modify it under the terms of the GNU General Public License
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as published by the Free Software Foundation; either version 2
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of the License, or (at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
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GNU General Public License for more details.
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20
You should have received a copy of the GNU General Public License
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along with this program; if not, write to the Free Software
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Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301, USA.
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***********************************************************************************/
25 175 diegovalve
 
26 158 diegovalve
//----------------------------------------------------
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module FFD_POSEDGE_SYNCRONOUS_RESET # ( parameter SIZE=`WIDTH )
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(
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        input wire                              Clock,
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        input wire                              Reset,
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        input wire                              Enable,
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        input wire [SIZE-1:0]    D,
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        output reg [SIZE-1:0]    Q
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);
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36
 
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always @ (posedge Clock)
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begin
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        if ( Reset )
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                Q <= {SIZE{1'b0}};
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        else
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        begin
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                if (Enable)
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                        Q <= D;
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        end
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end//always
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endmodule
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//------------------------------------------------
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module UPCOUNTER_POSEDGE # (parameter SIZE=`WIDTH)
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(
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input wire Clock, Reset,
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input wire [SIZE-1:0] Initial,
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input wire Enable,
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output reg [SIZE-1:0] Q
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);
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59
 
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  always @(posedge Clock )
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  begin
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      if (Reset)
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        Q <= Initial;
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      else
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                begin
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                if (Enable)
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                        Q <= Q + 1;
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69
                end
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  end
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72
endmodule
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//----------------------------------------------------------------------
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module SELECT_1_TO_N # ( parameter SEL_WIDTH=4, parameter OUTPUT_WIDTH=16 )
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 (
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 input wire [SEL_WIDTH-1:0] Sel,
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 input wire  En,
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 output wire [OUTPUT_WIDTH-1:0] O
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 );
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reg[OUTPUT_WIDTH-1:0] shift;
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always @ ( * )
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begin
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        if (~En)
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                shift = 1;
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        else
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                shift = (1 <<   Sel);
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92
 
93
end
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assign O = ( ~En ) ? 0 : shift ;
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//assign O = En & (1 << Sel);
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99
endmodule
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101 176 diegovalve
//----------------------------------------------------------------------
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module MUXFULLPARALELL_GENERIC #(parameter  WIDTH = `WIDTH, parameter  CHANNELS = 4, parameter SELBITS = 2)
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(
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    input wire   [(CHANNELS*WIDTH)-1:0]      in_bus,
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    input wire   [SELBITS-1:0]    sel,
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108
    output wire [WIDTH-1:0]                 out
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    );
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111
genvar ig;
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113
wire    [WIDTH-1:0] input_array [0:CHANNELS-1];
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115
assign  out = input_array[sel];
116
 
117
generate
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    for(ig=0; ig<CHANNELS; ig=ig+1)
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         begin: array_assignments
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        assign  input_array[ig] = in_bus[(ig*WIDTH)+:WIDTH];
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    end
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endgenerate
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124
 
125
 
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endmodule
127 158 diegovalve
//----------------------------------------------------------------------
128
module MUXFULLPARALELL_2SEL_GENERIC # ( parameter SIZE=`WIDTH )
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 (
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 input wire [1:0] Sel,
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 input wire [SIZE-1:0]I1, I2, I3,I4,
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 output reg [SIZE-1:0] O1
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 );
134
 
135
always @( * )
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  begin
138
 
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    case (Sel)
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      2'b00: O1 = I1;
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      2'b01: O1 = I2;
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                2'b10: O1 = I3;
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                2'b11: O1 = I4;
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                default: O1 = SIZE;
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    endcase
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  end
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endmodule
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//--------
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module CIRCULAR_SHIFTLEFT_POSEDGE_EX # ( parameter SIZE=`WIDTH )
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( input wire Clock,
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  input wire Reset,
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  input wire[SIZE-1:0] Initial,
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  input wire      Enable,
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  output wire[SIZE-1:0] O
160
);
161
 
162
reg [SIZE-1:0] tmp;
163
 
164
 
165
  always @(posedge Clock)
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  begin
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  if (Reset)
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                tmp <= Initial;
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        else
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        begin
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                if (Enable)
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                begin
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                        if (tmp[SIZE-1])
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                        begin
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                                tmp <= Initial;
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                        end
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                        else
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                        begin
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                                tmp <= tmp << 1;
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                        end
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                end
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        end
183
  end
184
 
185
 
186
    assign O  = tmp;
187
endmodule
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//------------------------------------------------
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module MUXFULLPARALELL_3SEL_WALKINGONE # ( parameter SIZE=`WIDTH )
190
 (
191
 input wire [2:0] Sel,
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 input wire [SIZE-1:0]I1, I2, I3,
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 output reg [SIZE-1:0] O1
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 );
195
 
196
always @( * )
197
 
198
  begin
199
 
200
    case (Sel)
201
 
202
      3'b001: O1 = I1;
203
      3'b010: O1 = I2;
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      3'b100: O1 = I3;
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      default: O1 = SIZE;
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207
    endcase
208
 
209
  end
210
 
211
endmodule
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//------------------------------------------------
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module SHIFTLEFT_POSEDGE # ( parameter SIZE=`WIDTH )
214
( input wire Clock,
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  input wire Reset,
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  input wire[SIZE-1:0] Initial,
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  input wire      Enable,
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  output wire[SIZE-1:0] O
219
);
220
 
221
reg [SIZE-1:0] tmp;
222
 
223
 
224
  always @(posedge Clock)
225
  begin
226
  if (Reset)
227
                tmp <= Initial;
228
        else
229
        begin
230
                if (Enable)
231
                        tmp <= tmp << 1;
232
        end
233
  end
234
 
235
 
236
    assign O  = tmp;
237
endmodule
238
//------------------------------------------------
239
//------------------------------------------------
240
module CIRCULAR_SHIFTLEFT_POSEDGE # ( parameter SIZE=`WIDTH )
241
( input wire Clock,
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  input wire Reset,
243
  input wire[SIZE-1:0] Initial,
244
  input wire      Enable,
245
  output wire[SIZE-1:0] O
246
);
247
 
248
reg [SIZE-1:0] tmp;
249
 
250
 
251
  always @(posedge Clock)
252
  begin
253
  if (Reset || tmp[SIZE-1])
254
                tmp <= Initial;
255
        else
256
        begin
257
                if (Enable)
258
                        tmp <= tmp << 1;
259
        end
260
  end
261
 
262
 
263
    assign O  = tmp;
264
endmodule
265
//-----------------------------------------------------------
266
/*
267
        Sorry forgot how this flop is called.
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        Any way Truth table is this
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270
        Q       S       Q_next R
271
 
272
 
273
        1       0        1                0
274
        1       1       1                0
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        X       X       0                 1
276
 
277
        The idea is that it toggles from 0 to 1 when S = 1, but if it
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        gets another S = 1, it keeps the output to 1.
279
*/
280
module FFToggleOnce_1Bit
281
(
282
        input wire Clock,
283
        input wire Reset,
284
        input wire Enable,
285
        input wire S,
286
        output reg Q
287
 
288
);
289
 
290
 
291
reg Q_next;
292
 
293
always @ (negedge Clock)
294
begin
295
        Q <= Q_next;
296
end
297
 
298
always @ ( posedge Clock )
299
begin
300
        if (Reset)
301
                Q_next <= 0;
302
        else if (Enable)
303
                Q_next <= (S && !Q) || Q;
304
        else
305
                Q_next <= Q;
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end
307
endmodule
308
 
309
//-----------------------------------------------------------
310
 
311
 
312
module FFD32_POSEDGE
313
(
314
        input wire Clock,
315
        input wire[31:0] D,
316
        output reg[31:0] Q
317
);
318
 
319
        always @ (posedge Clock)
320
                Q <= D;
321
 
322
endmodule
323
 
324
//------------------------------------------------
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module MUXFULLPARALELL_96bits_2SEL
326
 (
327
 input wire Sel,
328
 input wire [95:0]I1, I2,
329
 output reg [95:0] O1
330
 );
331
 
332
 
333
 
334
always @( * )
335
 
336
  begin
337
 
338
    case (Sel)
339
 
340
      1'b0: O1 = I1;
341
      1'b1: O1 = I2;
342
 
343
    endcase
344
 
345
  end
346
 
347
endmodule
348
 
349
//------------------------------------------------
350
module MUXFULLPARALELL_16bits_2SEL
351
 (
352
 input wire Sel,
353
 input wire [15:0]I1, I2,
354
 output reg [15:0] O1
355
 );
356
 
357
 
358
 
359
always @( * )
360
 
361
  begin
362
 
363
    case (Sel)
364
 
365
      1'b0: O1 = I1;
366
      1'b1: O1 = I2;
367
 
368
    endcase
369
 
370
  end
371
 
372
endmodule
373
 
374
//--------------------------------------------------------------
375
 
376
  module FFT1
377
  (
378
   input wire D,
379
   input wire Clock,
380
   input wire Reset ,
381
   output reg Q
382
 );
383
 
384
  always @ ( posedge Clock or posedge Reset )
385
  begin
386
 
387
        if (Reset)
388
        begin
389
    Q <= 1'b0;
390
   end
391
        else
392
        begin
393
                if (D)
394
                        Q <=  ! Q;
395
        end
396
 
397
  end//always
398
 
399
 endmodule
400
//--------------------------------------------------------------
401 174 diegovalve
 
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`endif

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