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1 37 diegovalve
/**********************************************************************************
2
Theaia, Ray Cast Programable graphic Processing Unit.
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Copyright (C) 2009  Diego Valverde (diego.valverde.g@gmail.com)
4
 
5
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
8
of the License, or (at your option) any later version.
9
 
10
This program is distributed in the hope that it will be useful,
11
but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
13
GNU General Public License for more details.
14
 
15
You should have received a copy of the GNU General Public License
16
along with this program; if not, write to the Free Software
17
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301, USA.
18
 
19
***********************************************************************************/
20
 
21
 
22
/*******************************************************************************
23
Module Description:
24
 
25
        This module defines constants that are going to be used
26 120 diegovalve
        all over the code. By now you have may noticed that all
27 37 diegovalve
        constants are pre-compilation define directives. This is
28
        for simulation perfomance reasons mainly.
29
*******************************************************************************/
30
 
31 137 diegovalve
`define MAX_CORES 16            //The number of cores, make sure you update MAX_CORE_BITS!
32
`define MAX_CORE_BITS 4                 // 2 ^ MAX_CORE_BITS = MAX_CORES
33
`define MAX_TMEM_BANKS 16               //The number of memory banks for TMEM
34
`define SELECT_ALL_CORES `MAX_CORES'b1111111111111111           //XXX: Change for more cores
35 37 diegovalve
//---------------------------------------------------------------------------------
36
//Verilog provides a `default_nettype none compiler directive.  When
37
//this directive is set, implicit data types are disabled, which will make any
38
//undeclared signal name a syntax error.This is very usefull to avoid annoying
39
//automatic 1 bit long wire declaration where you don't want them to be!
40
`default_nettype none
41 60 diegovalve
 
42
//The clock cycle
43 119 diegovalve
`define CLOCK_CYCLE  5
44 60 diegovalve
`define CLOCK_PERIOD 10
45 37 diegovalve
//---------------------------------------------------------------------------------
46 120 diegovalve
//Defines the Scale. This very important because it sets the fixed point precision.
47 37 diegovalve
//The Scale defines the number bits that are used as the decimal part of the number.
48
//The code has been written in such a way that allows you to change the value of the
49 120 diegovalve
//Scale, so that it is possible to experiment with different scenarios. SCALE can be
50 37 diegovalve
//no smaller that 1 and no bigger that WIDTH.
51 119 diegovalve
`define SCALE        17
52 37 diegovalve
 
53 120 diegovalve
//The next section defines the length of the registers, buses and other structures, 
54 37 diegovalve
//do not change this valued unless you really know what you are doing (seriously!)
55 119 diegovalve
`define WIDTH        32
56 37 diegovalve
`define WB_WIDTH     32  //width of wish-bone buses             
57 119 diegovalve
`define LONG_WIDTH   64
58 37 diegovalve
 
59 119 diegovalve
`define WB_SIMPLE_READ_CYCLE  0
60 37 diegovalve
`define WB_SIMPLE_WRITE_CYCLE 1
61
//---------------------------------------------------------------------------------
62
//Next are the constants that define the size of the instructions.
63
//instructions are formed like this:
64
// Tupe I:
65 120 diegovalve
// Operand         (of size INSTRUCTION_OP_LENGTH )
66 37 diegovalve
// DestinationAddr (of size DATA_ADDRESS_WIDTH )
67 120 diegovalve
// SourceAddrr1    (of size DATA_ADDRESS_WIDTH )
68
// SourceAddrr2    (of size DATA_ADDRESS_WIDTH )        
69 37 diegovalve
//Type II:
70 120 diegovalve
// Operand         (of size INSTRUCTION_OP_LENGTH )
71 37 diegovalve
// DestinationAddr (of size DATA_ADDRESS_WIDTH )
72 120 diegovalve
// InmeadiateValue (of size WIDTH = DATA_ADDRESS_WIDTH * 2 )
73
//
74 37 diegovalve
//You can play around with the size of instuctions, but keep
75
//in mind that Bits 3 and 4 of the Operand have a special meaning
76
//that is used for the jump familiy of instructions (see Documentation).
77
//Also the MSB of Operand is used by the decoder to distinguish 
78
//between Type I and Type II instructions.
79 119 diegovalve
`define INSTRUCTION_WIDTH       64
80
`define INSTRUCTION_OP_LENGTH   16
81
`define INSTRUCTION_IMM_BITPOS  54
82
`define INSTRUCTION_IMM_BIT     6       //don't change this!
83 37 diegovalve
 
84
//Defines the Lenght of Memory blocks
85 119 diegovalve
`define DATA_ROW_WIDTH        96
86
`define DATA_ADDRESS_WIDTH    16
87
`define ROM_ADDRESS_WIDTH     16
88 60 diegovalve
`define ROM_ADDRESS_SEL_MASK  `ROM_ADDRESS_WIDTH'h8000
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90
//---------------------------------------------------------------------------------
91 120 diegovalve
//The next section defines the code memory entry point for the various code routines
92 63 diegovalve
//Please keep this syntax ENTRYPOINT_ADDR_* because the perl script that
93
//parses the user code expects this pattern in order to read in the tokens
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95 63 diegovalve
//Internal Entry points (default ROM Address)
96 118 diegovalve
`define ENTRYPOINT_ADRR_INITIAL                 `ROM_ADDRESS_WIDTH'd0   //0 - This should always be zero
97
`define ENTRYPOINT_ADRR_CPPU                    `ROM_ADDRESS_WIDTH'd44
98
`define ENTRYPOINT_ADRR_RGU                     `ROM_ADDRESS_WIDTH'd47
99
`define ENTRYPOINT_ADRR_AABBIU                  `ROM_ADDRESS_WIDTH'd69
100
`define ENTRYPOINT_ADRR_BIU                     `ROM_ADDRESS_WIDTH'd157
101
`define ENTRYPOINT_ADRR_PSU                     `ROM_ADDRESS_WIDTH'd232
102
`define ENTRYPOINT_ADRR_PSU2                    `ROM_ADDRESS_WIDTH'd248
103
`define ENTRYPOINT_ADRR_TCC                     `ROM_ADDRESS_WIDTH'd190
104
`define ENTRYPOINT_ADRR_NPG                     `ROM_ADDRESS_WIDTH'd55
105 63 diegovalve
//User Entry points (default ROM Address)
106 118 diegovalve
`define ENTRYPOINT_ADRR_USERCONSTANTS           `ROM_ADDRESS_WIDTH'd276
107
`define ENTRYPOINT_ADRR_PIXELSHADER             `ROM_ADDRESS_WIDTH'd278
108
`define ENTRYPOINT_ADRR_MAIN                    `ROM_ADDRESS_WIDTH'd37
109 60 diegovalve
 
110 63 diegovalve
//Please keep this syntax ENTRYPOINT_INDEX_* because the perl script that
111
//parses the user code expects this pattern in order to read in the tokens
112
//Internal subroutines
113 118 diegovalve
`define ENTRYPOINT_INDEX_INITIAL                `ROM_ADDRESS_WIDTH'h8000
114
`define ENTRYPOINT_INDEX_CPPU                   `ROM_ADDRESS_WIDTH'h8001
115
`define ENTRYPOINT_INDEX_RGU                    `ROM_ADDRESS_WIDTH'h8002
116
`define ENTRYPOINT_INDEX_AABBIU                 `ROM_ADDRESS_WIDTH'h8003
117
`define ENTRYPOINT_INDEX_BIU                    `ROM_ADDRESS_WIDTH'h8004
118
`define ENTRYPOINT_INDEX_PSU                    `ROM_ADDRESS_WIDTH'h8005
119
`define ENTRYPOINT_INDEX_PSU2                   `ROM_ADDRESS_WIDTH'h8006
120
`define ENTRYPOINT_INDEX_TCC                    `ROM_ADDRESS_WIDTH'h8007
121
`define ENTRYPOINT_INDEX_NPG                    `ROM_ADDRESS_WIDTH'h8008
122 63 diegovalve
//User defined subroutines
123
`define ENTRYPOINT_INDEX_USERCONSTANTS          `ROM_ADDRESS_WIDTH'h8009
124 104 diegovalve
`define ENTRYPOINT_INDEX_PIXELSHADER            `ROM_ADDRESS_WIDTH'h800A
125
`define ENTRYPOINT_INDEX_MAIN                   `ROM_ADDRESS_WIDTH'h800B
126 60 diegovalve
 
127 37 diegovalve
`define USER_AABBIU_UCODE_ADDRESS `ROM_ADDRESS_WIDTH'b1000000000000000
128
//---------------------------------------------------------------------------------
129
//This handy little macro allows me to print stuff either to STDOUT or a file.
130
//Notice that the compilation vairable DUMP_CODE must be set if you want to print
131
//to a file. In XILINX right click 'Simulate Beahvioral Model' -> Properties and
132 120 diegovalve
//under 'Specify `define macro name and value' type 'DEBUG=1|DUMP_CODE=1|DEBUG_CORE=<core you want to dump>'
133 37 diegovalve
`ifdef DUMP_CODE
134
 
135
        `define LOGME  $fwrite(ucode_file,
136
`else
137
        `define LOGME  $write(
138
`endif
139 104 diegovalve
//---------------------------------------------------------------------------------     
140 119 diegovalve
`define TRUE     32'h1
141
`define FALSE    32'h0
142
`define RT_TRUE  48'b1
143 37 diegovalve
`define RT_FALSE 48'b0
144
//---------------------------------------------------------------------------------     
145 70 diegovalve
 
146
`define GENERAL_PURPOSE_REG_ADDR_MASK  `DATA_ADDRESS_WIDTH'h1F
147 119 diegovalve
`define VOID                           `DATA_ADDRESS_WIDTH'd0   //0000
148 37 diegovalve
//** Control register bits **//
149
`define CR_EN_LIGHTS   0
150
`define CR_EN_TEXTURE  1
151
`define CR_USER_AABBIU 2
152 70 diegovalve
/** Swapping registers **/
153
//** Configuration Registers **//
154 119 diegovalve
`define CREG_LIGHT_INFO                   `DATA_ADDRESS_WIDTH'd0
155
`define CREG_CAMERA_POSITION              `DATA_ADDRESS_WIDTH'd1
156
`define CREG_PROJECTION_WINDOW_MIN        `DATA_ADDRESS_WIDTH'd2
157
`define CREG_PROJECTION_WINDOW_MAX        `DATA_ADDRESS_WIDTH'd3
158
`define CREG_RESOLUTION                   `DATA_ADDRESS_WIDTH'd4
159
`define CREG_TEXTURE_SIZE                 `DATA_ADDRESS_WIDTH'd5
160
`define CREG_PIXEL_2D_INITIAL_POSITION    `DATA_ADDRESS_WIDTH'd6
161
`define CREG_PIXEL_2D_FINAL_POSITION      `DATA_ADDRESS_WIDTH'd7
162
`define CREG_FIRST_LIGTH                  `DATA_ADDRESS_WIDTH'd8
163
`define CREG_FIRST_LIGTH_DIFFUSE          `DATA_ADDRESS_WIDTH'd8
164 37 diegovalve
//OK, so from address 0x06 to 0x0F is where the lights are,watch out values are harcoded
165
//for now!! (look in ROM.v for hardcoded values!!!)
166
 
167
 
168 70 diegovalve
//Don't change the order of the registers. CREG_V* and CREG_UV* registers
169
//need to be in that specific order for the triangle fetcher to work 
170
//correctly!
171 37 diegovalve
 
172 119 diegovalve
`define CREG_AABBMIN                   `DATA_ADDRESS_WIDTH'd42
173
`define CREG_AABBMAX                   `DATA_ADDRESS_WIDTH'd43
174
`define CREG_V0                        `DATA_ADDRESS_WIDTH'd44
175
`define CREG_UV0                       `DATA_ADDRESS_WIDTH'd45
176
`define CREG_V1                        `DATA_ADDRESS_WIDTH'd46
177
`define CREG_UV1                       `DATA_ADDRESS_WIDTH'd47
178
`define CREG_V2                        `DATA_ADDRESS_WIDTH'd48
179
`define CREG_UV2                       `DATA_ADDRESS_WIDTH'd49
180
`define CREG_TRI_DIFFUSE               `DATA_ADDRESS_WIDTH'd50
181
`define CREG_TEX_COLOR1                `DATA_ADDRESS_WIDTH'd53
182
`define CREG_TEX_COLOR2                `DATA_ADDRESS_WIDTH'd54
183
`define CREG_TEX_COLOR3                `DATA_ADDRESS_WIDTH'd55
184
`define CREG_TEX_COLOR4                `DATA_ADDRESS_WIDTH'd56
185
`define CREG_TEX_COLOR5                `DATA_ADDRESS_WIDTH'd57
186
`define CREG_TEX_COLOR6                `DATA_ADDRESS_WIDTH'd58
187
`define CREG_TEX_COLOR7                `DATA_ADDRESS_WIDTH'd59
188 37 diegovalve
 
189
 
190 70 diegovalve
/** Non-Swapping registers **/
191 37 diegovalve
// ** User Registers **//
192
//General Purpose registers, the user may put what ever he/she
193
//wants in here...
194 70 diegovalve
`define C1     `DATA_ADDRESS_WIDTH'd64
195
`define C2     `DATA_ADDRESS_WIDTH'd65
196
`define C3     `DATA_ADDRESS_WIDTH'd66
197
`define C4     `DATA_ADDRESS_WIDTH'd67
198
`define C5     `DATA_ADDRESS_WIDTH'd68
199
`define C6     `DATA_ADDRESS_WIDTH'd69
200
`define C7     `DATA_ADDRESS_WIDTH'd70
201 119 diegovalve
`define R1              `DATA_ADDRESS_WIDTH'd71
202
`define R2              `DATA_ADDRESS_WIDTH'd72
203
`define R3              `DATA_ADDRESS_WIDTH'd73
204 70 diegovalve
`define R4              `DATA_ADDRESS_WIDTH'd74
205
`define R5              `DATA_ADDRESS_WIDTH'd75
206
`define R6              `DATA_ADDRESS_WIDTH'd76
207
`define R7              `DATA_ADDRESS_WIDTH'd77
208
`define R8              `DATA_ADDRESS_WIDTH'd78
209
`define R9              `DATA_ADDRESS_WIDTH'd79
210
`define R10             `DATA_ADDRESS_WIDTH'd80
211
`define R11             `DATA_ADDRESS_WIDTH'd81
212
`define R12             `DATA_ADDRESS_WIDTH'd82
213 37 diegovalve
 
214 70 diegovalve
//** Internal Registers **//
215 119 diegovalve
`define CREG_PROJECTION_WINDOW_SCALE   `DATA_ADDRESS_WIDTH'd83
216
`define CREG_UNORMALIZED_DIRECTION     `DATA_ADDRESS_WIDTH'd84
217
`define CREG_RAY_DIRECTION             `DATA_ADDRESS_WIDTH'd85
218
`define CREG_E1_LAST                   `DATA_ADDRESS_WIDTH'd86
219
`define CREG_E2_LAST                   `DATA_ADDRESS_WIDTH'd87
220
`define CREG_T                         `DATA_ADDRESS_WIDTH'd88
221
`define CREG_P                         `DATA_ADDRESS_WIDTH'd89
222
`define CREG_Q                         `DATA_ADDRESS_WIDTH'd90
223
`define CREG_UV0_LAST                  `DATA_ADDRESS_WIDTH'd91
224
`define CREG_UV1_LAST                  `DATA_ADDRESS_WIDTH'd92
225
`define CREG_UV2_LAST                  `DATA_ADDRESS_WIDTH'd93
226
`define CREG_TRI_DIFFUSE_LAST          `DATA_ADDRESS_WIDTH'd94
227
`define CREG_LAST_t                    `DATA_ADDRESS_WIDTH'd95
228
`define CREG_LAST_u                    `DATA_ADDRESS_WIDTH'd96
229
`define CREG_LAST_v                    `DATA_ADDRESS_WIDTH'd97
230
`define CREG_COLOR_ACC                 `DATA_ADDRESS_WIDTH'd98
231
`define CREG_t                         `DATA_ADDRESS_WIDTH'd99
232
`define CREG_E1                        `DATA_ADDRESS_WIDTH'd100
233
`define CREG_E2                        `DATA_ADDRESS_WIDTH'd101
234
`define CREG_DELTA                     `DATA_ADDRESS_WIDTH'd102
235
`define CREG_u                         `DATA_ADDRESS_WIDTH'd103
236
`define CREG_v                         `DATA_ADDRESS_WIDTH'd104
237
`define CREG_H1                        `DATA_ADDRESS_WIDTH'd105
238
`define CREG_H2                        `DATA_ADDRESS_WIDTH'd106
239
`define CREG_H3                        `DATA_ADDRESS_WIDTH'd107
240
`define CREG_PIXEL_PITCH               `DATA_ADDRESS_WIDTH'd108
241 76 diegovalve
 
242 119 diegovalve
`define CREG_LAST_COL                  `DATA_ADDRESS_WIDTH'd109 //the last valid column, simply CREG_RESOLUTIONX - 1
243 70 diegovalve
`define CREG_TEXTURE_COLOR             `DATA_ADDRESS_WIDTH'd110
244 119 diegovalve
`define CREG_PIXEL_2D_POSITION         `DATA_ADDRESS_WIDTH'd111
245
`define CREG_TEXWEIGHT1                `DATA_ADDRESS_WIDTH'd112
246
`define CREG_TEXWEIGHT2                `DATA_ADDRESS_WIDTH'd113
247
`define CREG_TEXWEIGHT3                `DATA_ADDRESS_WIDTH'd114
248
`define CREG_TEXWEIGHT4                `DATA_ADDRESS_WIDTH'd115
249 104 diegovalve
`define CREG_TEX_COORD1                `DATA_ADDRESS_WIDTH'd116
250
`define CREG_TEX_COORD2                `DATA_ADDRESS_WIDTH'd117
251
`define R99                            `DATA_ADDRESS_WIDTH'd118
252
`define CREG_ZERO                      `DATA_ADDRESS_WIDTH'd119
253 119 diegovalve
`define CREG_CURRENT_OUTPUT_PIXEL      `DATA_ADDRESS_WIDTH'd120
254
`define CREG_3                         `DATA_ADDRESS_WIDTH'd121
255 115 diegovalve
`define CREG_012                       `DATA_ADDRESS_WIDTH'd122
256 37 diegovalve
 
257 70 diegovalve
//** Ouput registers **//
258 37 diegovalve
 
259 119 diegovalve
`define OREG_PIXEL_COLOR               `DATA_ADDRESS_WIDTH'd128
260
`define OREG_TEX_COORD1                `DATA_ADDRESS_WIDTH'd129
261
`define OREG_TEX_COORD2                `DATA_ADDRESS_WIDTH'd130
262
`define OREG_ADDR_O                    `DATA_ADDRESS_WIDTH'd131
263 37 diegovalve
//-------------------------------------------------------------
264
//*** Instruction Set ***
265 120 diegovalve
//The order of the instructions is important here!. Don't change
266
//it unless you know what you are doing. For example all the 'SET'
267 37 diegovalve
//family of instructions have the MSB bit in 1. This means that
268
//if you add an instruction and the MSB=1, this instruction will treated
269
//as type II (see manual) meaning the second 32bit argument is expected to be
270
//an inmediate value instead of a register address!
271
//Another example is that in the JUMP family Bits 3 and 4 have a special
272
//meaning: b4b3 = 01 => X jump type, b4b3 = 10 => Y jump type, finally 
273
//b4b3 = 11 means Z jump type.
274
//All this is just to tell you: Don't play with these values!
275
 
276
// *** Type I Instructions (OP DST REG1 REG2) ***
277 119 diegovalve
`define NOP    `INSTRUCTION_OP_LENGTH'b0_000000         //0
278 37 diegovalve
`define ADD     `INSTRUCTION_OP_LENGTH'b0_000001        //1
279
`define SUB             `INSTRUCTION_OP_LENGTH'b0_000010        //2
280
`define DIV             `INSTRUCTION_OP_LENGTH'b0_000011        //3
281
`define MUL     `INSTRUCTION_OP_LENGTH'b0_000100        //4
282
`define MAG             `INSTRUCTION_OP_LENGTH'b0_000101        //5
283
`define COPY    `INSTRUCTION_OP_LENGTH'b0_000111        //7
284
`define JGX             `INSTRUCTION_OP_LENGTH'b0_001_000       //8
285
`define JLX             `INSTRUCTION_OP_LENGTH'b0_001_001       //9
286 70 diegovalve
`define JEQX    `INSTRUCTION_OP_LENGTH'b0_001_010       //10 - A
287
`define JNEX    `INSTRUCTION_OP_LENGTH'b0_001_011       //11 - B
288
`define JGEX    `INSTRUCTION_OP_LENGTH'b0_001_100       //12 - C
289
`define JLEX    `INSTRUCTION_OP_LENGTH'b0_001_101       //13 - D
290
`define INC             `INSTRUCTION_OP_LENGTH'b0_001_110       //14 - E
291
`define ZERO    `INSTRUCTION_OP_LENGTH'b0_001_111       //15 - F
292 37 diegovalve
`define JGY             `INSTRUCTION_OP_LENGTH'b0_010_000       //16
293
`define JLY             `INSTRUCTION_OP_LENGTH'b0_010_001       //17
294
`define JEQY    `INSTRUCTION_OP_LENGTH'b0_010_010       //18
295
`define JNEY    `INSTRUCTION_OP_LENGTH'b0_010_011       //19
296
`define JGEY    `INSTRUCTION_OP_LENGTH'b0_010_100       //20
297
`define JLEY    `INSTRUCTION_OP_LENGTH'b0_010_101       //21
298
`define CROSS   `INSTRUCTION_OP_LENGTH'b0_010_110       //22
299
`define DOT             `INSTRUCTION_OP_LENGTH'b0_010_111       //23
300
`define JGZ             `INSTRUCTION_OP_LENGTH'b0_011_000       //24
301
`define JLZ             `INSTRUCTION_OP_LENGTH'b0_011_001       //25
302
`define JEQZ    `INSTRUCTION_OP_LENGTH'b0_011_010       //26
303
`define JNEZ    `INSTRUCTION_OP_LENGTH'b0_011_011       //27
304
`define JGEZ    `INSTRUCTION_OP_LENGTH'b0_011_100       //28
305
`define JLEZ    `INSTRUCTION_OP_LENGTH'b0_011_101       //29
306
 
307
//The next instruction is for simulation debug only
308
//not to be synthetized! Pretty much behaves the same
309
//as a NOP, only that prints the register value to
310
//a log file called 'Registers.log'
311
`ifdef DEBUG
312
`define DEBUG_PRINT `INSTRUCTION_OP_LENGTH'b0_011_110   //30
313
`endif
314
 
315 119 diegovalve
`define MULP     `INSTRUCTION_OP_LENGTH'b0_011_111                      //31    R1.z = S1.x * S1.y
316
`define MOD      `INSTRUCTION_OP_LENGTH'b0_100_000                      //32    R = MODULO( S1,S2 )
317
`define FRAC     `INSTRUCTION_OP_LENGTH'b0_100_001                      //33    R =FractionalPart( S1 )
318
`define INTP     `INSTRUCTION_OP_LENGTH'b0_100_010                      //34    R =IntergerPart( S1 )
319
`define NEG      `INSTRUCTION_OP_LENGTH'b0_100_011                      //35    R = -S1
320
`define DEC      `INSTRUCTION_OP_LENGTH'b0_100_100                      //36    R = S1--
321 37 diegovalve
`define XCHANGEX `INSTRUCTION_OP_LENGTH'b0_100_101              //              R.x = S2.x, R.y = S1.y, R.z = S1.z
322
`define XCHANGEY `INSTRUCTION_OP_LENGTH'b0_100_110              //              R.x = S1.x, R.y = S2.y, R.z = S1.z
323
`define XCHANGEZ `INSTRUCTION_OP_LENGTH'b0_100_111              //              R.x = S1.x, R.y = S1.y, R.z = S2.z
324
`define IMUL     `INSTRUCTION_OP_LENGTH'b0_101_000              //              R = INTEGER( S1 * S2 )
325
`define UNSCALE  `INSTRUCTION_OP_LENGTH'b0_101_001              //              R = S1 >> SCALE
326
`define RESCALE  `INSTRUCTION_OP_LENGTH'b0_101_010              //              R = S1 << SCALE
327
`define INCX     `INSTRUCTION_OP_LENGTH'b0_101_011         //    R.X = S1.X + 1
328
`define INCY     `INSTRUCTION_OP_LENGTH'b0_101_100         //    R.Y = S1.Y + 1
329 104 diegovalve
`define INCZ     `INSTRUCTION_OP_LENGTH'b0_101_101         //    R.Z = S1.Z + 1
330
`define OMWRITE  `INSTRUCTION_OP_LENGTH'b0_101_111         //47    IO write to O memory
331 119 diegovalve
`define TMREAD   `INSTRUCTION_OP_LENGTH'b0_110_000         //48    IO read from T memory
332 104 diegovalve
`define LEA      `INSTRUCTION_OP_LENGTH'b0_110_001         //49    Load effective address
333 37 diegovalve
 
334
//*** Type II Instructions (OP DST REG1 IMM) ***
335 60 diegovalve
`define RETURN          `INSTRUCTION_OP_LENGTH'b1_000000 //64  0x40
336 119 diegovalve
`define SETX            `INSTRUCTION_OP_LENGTH'b1_000001 //65  0x41
337
`define SETY            `INSTRUCTION_OP_LENGTH'b1_000010 //66
338
`define SETZ            `INSTRUCTION_OP_LENGTH'b1_000011 //67
339
`define SWIZZLE3D       `INSTRUCTION_OP_LENGTH'b1_000100 //68 
340
`define JMP             `INSTRUCTION_OP_LENGTH'b1_011000 //56
341 104 diegovalve
`define CALL            `INSTRUCTION_OP_LENGTH'b1_011001 //57
342
`define RET             `INSTRUCTION_OP_LENGTH'b1_011010 //58
343 60 diegovalve
 
344 37 diegovalve
//-------------------------------------------------------------
345
 
346 120 diegovalve
//All the posible values for the SWIZZLE3D instruction are defined next
347 37 diegovalve
`define SWIZZLE_XXX             32'd0
348
`define SWIZZLE_YYY             32'd1
349
`define SWIZZLE_ZZZ             32'd2
350
`define SWIZZLE_XYY             32'd3
351
`define SWIZZLE_XXY             32'd4
352
`define SWIZZLE_XZZ             32'd5
353
`define SWIZZLE_XXZ             32'd6
354
`define SWIZZLE_YXX             32'd7
355
`define SWIZZLE_YYX             32'd8
356
`define SWIZZLE_YZZ             32'd9
357
`define SWIZZLE_YYZ             32'd10
358
`define SWIZZLE_ZXX             32'd11
359
`define SWIZZLE_ZZX             32'd12
360
`define SWIZZLE_ZYY             32'd13
361
`define SWIZZLE_ZZY             32'd14
362
`define SWIZZLE_XZX             32'd15
363
`define SWIZZLE_XYX             32'd16
364
`define SWIZZLE_YXY             32'd17
365
`define SWIZZLE_YZY             32'd18
366
`define SWIZZLE_ZXZ             32'd19
367
`define SWIZZLE_ZYZ             32'd20
368
`define SWIZZLE_YXZ             32'd21
369
 
370
 
371 137 diegovalve
 

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