1 /*===--------------- amxintrin.h - AMX intrinsics -*- C/C++ -*---------------===
2  *
3  * Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4  * See https://llvm.org/LICENSE.txt for license information.
5  * SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6  *
7  *===------------------------------------------------------------------------===
8  */
9 
10 #ifndef __IMMINTRIN_H
11 #error "Never use <amxintrin.h> directly; include <immintrin.h> instead."
12 #endif /* __IMMINTRIN_H */
13 
14 #ifndef __AMXINTRIN_H
15 #define __AMXINTRIN_H
16 #ifdef __x86_64__
17 
18 /* Define the default attributes for the functions in this file. */
19 #define __DEFAULT_FN_ATTRS_TILE                                                \
20   __attribute__((__always_inline__, __nodebug__, __target__("amx-tile")))
21 #define __DEFAULT_FN_ATTRS_INT8                                                \
22   __attribute__((__always_inline__, __nodebug__, __target__("amx-int8")))
23 #define __DEFAULT_FN_ATTRS_BF16                                                \
24   __attribute__((__always_inline__, __nodebug__, __target__("amx-bf16")))
25 
26 /// Load tile configuration from a 64-byte memory location specified by
27 /// "mem_addr". The tile configuration includes the tile type palette, the
28 /// number of bytes per row, and the number of rows. If the specified
29 /// palette_id is zero, that signifies the init state for both the tile
30 /// config and the tile data, and the tiles are zeroed. Any invalid
31 /// configurations will result in #GP fault.
32 ///
33 /// \headerfile <immintrin.h>
34 ///
35 /// This intrinsic corresponds to the <c> LDTILECFG </c> instruction.
36 ///
37 /// \param __config
38 ///    A pointer to 512-bits configuration
39 static __inline__ void __DEFAULT_FN_ATTRS_TILE
_tile_loadconfig(const void * __config)40 _tile_loadconfig(const void *__config) {
41   __builtin_ia32_tile_loadconfig(__config);
42 }
43 
44 /// Stores the current tile configuration to a 64-byte memory location
45 /// specified by "mem_addr". The tile configuration includes the tile type
46 /// palette, the number of bytes per row, and the number of rows. If tiles
47 /// are not configured, all zeroes will be stored to memory.
48 ///
49 /// \headerfile <immintrin.h>
50 ///
51 /// This intrinsic corresponds to the <c> STTILECFG </c> instruction.
52 ///
53 /// \param __config
54 ///    A pointer to 512-bits configuration
55 static __inline__ void __DEFAULT_FN_ATTRS_TILE
_tile_storeconfig(void * __config)56 _tile_storeconfig(void *__config) {
57   __builtin_ia32_tile_storeconfig(__config);
58 }
59 
60 /// Release the tile configuration to return to the init state, which
61 /// releases all storage it currently holds.
62 ///
63 /// \headerfile <immintrin.h>
64 ///
65 /// This intrinsic corresponds to the <c> TILERELEASE </c> instruction.
_tile_release(void)66 static __inline__ void __DEFAULT_FN_ATTRS_TILE _tile_release(void) {
67   __builtin_ia32_tilerelease();
68 }
69 
70 /// Load tile rows from memory specifieid by "base" address and "stride" into
71 /// destination tile "dst" using the tile configuration previously configured
72 /// via "_tile_loadconfig".
73 ///
74 /// \headerfile <immintrin.h>
75 ///
76 /// This intrinsic corresponds to the <c> TILELOADD </c> instruction.
77 ///
78 /// \param dst
79 ///    A destination tile. Max size is 1024 Bytes.
80 /// \param base
81 ///    A pointer to base address.
82 /// \param stride
83 ///    The stride between the rows' data to be loaded in memory.
84 #define _tile_loadd(dst, base, stride)                                         \
85   __builtin_ia32_tileloadd64((dst), ((const void *)(base)),                    \
86                              (__SIZE_TYPE__)(stride))
87 
88 /// Load tile rows from memory specifieid by "base" address and "stride" into
89 /// destination tile "dst" using the tile configuration previously configured
90 /// via "_tile_loadconfig". This intrinsic provides a hint to the implementation
91 /// that the data will likely not be reused in the near future and the data
92 /// caching can be optimized accordingly.
93 ///
94 /// \headerfile <immintrin.h>
95 ///
96 /// This intrinsic corresponds to the <c> TILELOADDT1 </c> instruction.
97 ///
98 /// \param dst
99 ///    A destination tile. Max size is 1024 Bytes.
100 /// \param base
101 ///    A pointer to base address.
102 /// \param stride
103 ///    The stride between the rows' data to be loaded in memory.
104 #define _tile_stream_loadd(dst, base, stride)                                  \
105   __builtin_ia32_tileloaddt164((dst), ((const void *)(base)),                  \
106                                (__SIZE_TYPE__)(stride))
107 
108 /// Store the tile specified by "src" to memory specifieid by "base" address and
109 /// "stride" using the tile configuration previously configured via
110 /// "_tile_loadconfig".
111 ///
112 /// \headerfile <immintrin.h>
113 ///
114 /// This intrinsic corresponds to the <c> TILESTORED </c> instruction.
115 ///
116 /// \param dst
117 ///    A destination tile. Max size is 1024 Bytes.
118 /// \param base
119 ///    A pointer to base address.
120 /// \param stride
121 ///    The stride between the rows' data to be stored in memory.
122 #define _tile_stored(dst, base, stride)                                        \
123   __builtin_ia32_tilestored64((dst), ((void *)(base)), (__SIZE_TYPE__)(stride))
124 
125 /// Zero the tile specified by "tdest".
126 ///
127 /// \headerfile <immintrin.h>
128 ///
129 /// This intrinsic corresponds to the <c> TILEZERO </c> instruction.
130 ///
131 /// \param tile
132 ///    The destination tile to be zero. Max size is 1024 Bytes.
133 #define _tile_zero(tile) __builtin_ia32_tilezero((tile))
134 
135 /// Compute dot-product of bytes in tiles with a source/destination accumulator.
136 /// Multiply groups of 4 adjacent pairs of signed 8-bit integers in src0 with
137 /// corresponding signed 8-bit integers in src1, producing 4 intermediate 32-bit
138 /// results. Sum these 4 results with the corresponding 32-bit integer in "dst",
139 /// and store the 32-bit result back to tile "dst".
140 ///
141 /// \headerfile <immintrin.h>
142 ///
143 /// This intrinsic corresponds to the <c> TDPBSSD </c> instruction.
144 ///
145 /// \param dst
146 ///    The destination tile. Max size is 1024 Bytes.
147 /// \param src0
148 ///    The 1st source tile. Max size is 1024 Bytes.
149 /// \param src1
150 ///    The 2nd source tile. Max size is 1024 Bytes.
151 #define _tile_dpbssd(dst, src0, src1)                                          \
152   __builtin_ia32_tdpbssd((dst), (src0), (src1))
153 
154 /// Compute dot-product of bytes in tiles with a source/destination accumulator.
155 /// Multiply groups of 4 adjacent pairs of signed 8-bit integers in src0 with
156 /// corresponding unsigned 8-bit integers in src1, producing 4 intermediate
157 /// 32-bit results. Sum these 4 results with the corresponding 32-bit integer
158 /// in "dst", and store the 32-bit result back to tile "dst".
159 ///
160 /// \headerfile <immintrin.h>
161 ///
162 /// This intrinsic corresponds to the <c> TDPBSUD </c> instruction.
163 ///
164 /// \param dst
165 ///    The destination tile. Max size is 1024 Bytes.
166 /// \param src0
167 ///    The 1st source tile. Max size is 1024 Bytes.
168 /// \param src1
169 ///    The 2nd source tile. Max size is 1024 Bytes.
170 #define _tile_dpbsud(dst, src0, src1)                                          \
171   __builtin_ia32_tdpbsud((dst), (src0), (src1))
172 
173 /// Compute dot-product of bytes in tiles with a source/destination accumulator.
174 /// Multiply groups of 4 adjacent pairs of unsigned 8-bit integers in src0 with
175 /// corresponding signed 8-bit integers in src1, producing 4 intermediate 32-bit
176 /// results. Sum these 4 results with the corresponding 32-bit integer in "dst",
177 /// and store the 32-bit result back to tile "dst".
178 ///
179 /// \headerfile <immintrin.h>
180 ///
181 /// This intrinsic corresponds to the <c> TDPBUSD </c> instruction.
182 ///
183 /// \param dst
184 ///    The destination tile. Max size is 1024 Bytes.
185 /// \param src0
186 ///    The 1st source tile. Max size is 1024 Bytes.
187 /// \param src1
188 ///    The 2nd source tile. Max size is 1024 Bytes.
189 #define _tile_dpbusd(dst, src0, src1)                                          \
190   __builtin_ia32_tdpbusd((dst), (src0), (src1))
191 
192 /// Compute dot-product of bytes in tiles with a source/destination accumulator.
193 /// Multiply groups of 4 adjacent pairs of unsigned 8-bit integers in src0 with
194 /// corresponding unsigned 8-bit integers in src1, producing 4 intermediate
195 /// 32-bit results. Sum these 4 results with the corresponding 32-bit integer in
196 /// "dst", and store the 32-bit result back to tile "dst".
197 ///
198 /// \headerfile <immintrin.h>
199 ///
200 /// This intrinsic corresponds to the <c> TDPBUUD </c> instruction.
201 ///
202 /// \param dst
203 ///    The destination tile. Max size is 1024 Bytes.
204 /// \param src0
205 ///    The 1st source tile. Max size is 1024 Bytes.
206 /// \param src1
207 ///    The 2nd source tile. Max size is 1024 Bytes.
208 #define _tile_dpbuud(dst, src0, src1)                                          \
209   __builtin_ia32_tdpbuud((dst), (src0), (src1))
210 
211 /// Compute dot-product of BF16 (16-bit) floating-point pairs in tiles src0 and
212 /// src1, accumulating the intermediate single-precision (32-bit) floating-point
213 /// elements with elements in "dst", and store the 32-bit result back to tile
214 /// "dst".
215 ///
216 /// \headerfile <immintrin.h>
217 ///
218 /// This intrinsic corresponds to the <c> TDPBF16PS </c> instruction.
219 ///
220 /// \param dst
221 ///    The destination tile. Max size is 1024 Bytes.
222 /// \param src0
223 ///    The 1st source tile. Max size is 1024 Bytes.
224 /// \param src1
225 ///    The 2nd source tile. Max size is 1024 Bytes.
226 #define _tile_dpbf16ps(dst, src0, src1)                                        \
227   __builtin_ia32_tdpbf16ps((dst), (src0), (src1))
228 
229 /// AMX tile register size can be configured, the maximum size is 16x64=1024
230 /// bytes. Since there is no 2D type in llvm IR, we use vector type to
231 /// represent 2D tile and the fixed size is maximum amx tile register size.
232 typedef int _tile1024i __attribute__((__vector_size__(1024), __aligned__(64)));
233 
234 /// This is internal intrinsic. C/C++ user should avoid calling it directly.
235 static __inline__ _tile1024i __DEFAULT_FN_ATTRS_INT8
_tile_loadd_internal(unsigned short m,unsigned short n,const void * base,__SIZE_TYPE__ stride)236 _tile_loadd_internal(unsigned short m, unsigned short n, const void *base,
237                      __SIZE_TYPE__ stride) {
238   return __builtin_ia32_tileloadd64_internal(m, n, base,
239                                              (__SIZE_TYPE__)(stride));
240 }
241 
242 /// This is internal intrinsic. C/C++ user should avoid calling it directly.
243 static __inline__ _tile1024i __DEFAULT_FN_ATTRS_INT8
_tile_loaddt1_internal(unsigned short m,unsigned short n,const void * base,__SIZE_TYPE__ stride)244 _tile_loaddt1_internal(unsigned short m, unsigned short n, const void *base,
245                        __SIZE_TYPE__ stride) {
246   return __builtin_ia32_tileloaddt164_internal(m, n, base,
247                                                (__SIZE_TYPE__)(stride));
248 }
249 
250 /// This is internal intrinsic. C/C++ user should avoid calling it directly.
251 static __inline__ _tile1024i __DEFAULT_FN_ATTRS_INT8
_tile_dpbssd_internal(unsigned short m,unsigned short n,unsigned short k,_tile1024i dst,_tile1024i src1,_tile1024i src2)252 _tile_dpbssd_internal(unsigned short m, unsigned short n, unsigned short k,
253                       _tile1024i dst, _tile1024i src1, _tile1024i src2) {
254   return __builtin_ia32_tdpbssd_internal(m, n, k, dst, src1, src2);
255 }
256 
257 /// This is internal intrinsic. C/C++ user should avoid calling it directly.
258 static __inline__ _tile1024i __DEFAULT_FN_ATTRS_INT8
_tile_dpbsud_internal(unsigned short m,unsigned short n,unsigned short k,_tile1024i dst,_tile1024i src1,_tile1024i src2)259 _tile_dpbsud_internal(unsigned short m, unsigned short n, unsigned short k,
260                       _tile1024i dst, _tile1024i src1, _tile1024i src2) {
261   return __builtin_ia32_tdpbsud_internal(m, n, k, dst, src1, src2);
262 }
263 
264 /// This is internal intrinsic. C/C++ user should avoid calling it directly.
265 static __inline__ _tile1024i __DEFAULT_FN_ATTRS_INT8
_tile_dpbusd_internal(unsigned short m,unsigned short n,unsigned short k,_tile1024i dst,_tile1024i src1,_tile1024i src2)266 _tile_dpbusd_internal(unsigned short m, unsigned short n, unsigned short k,
267                       _tile1024i dst, _tile1024i src1, _tile1024i src2) {
268   return __builtin_ia32_tdpbusd_internal(m, n, k, dst, src1, src2);
269 }
270 
271 /// This is internal intrinsic. C/C++ user should avoid calling it directly.
272 static __inline__ _tile1024i __DEFAULT_FN_ATTRS_INT8
_tile_dpbuud_internal(unsigned short m,unsigned short n,unsigned short k,_tile1024i dst,_tile1024i src1,_tile1024i src2)273 _tile_dpbuud_internal(unsigned short m, unsigned short n, unsigned short k,
274                       _tile1024i dst, _tile1024i src1, _tile1024i src2) {
275   return __builtin_ia32_tdpbuud_internal(m, n, k, dst, src1, src2);
276 }
277 
278 /// This is internal intrinsic. C/C++ user should avoid calling it directly.
279 static __inline__ void __DEFAULT_FN_ATTRS_INT8
_tile_stored_internal(unsigned short m,unsigned short n,void * base,__SIZE_TYPE__ stride,_tile1024i tile)280 _tile_stored_internal(unsigned short m, unsigned short n, void *base,
281                       __SIZE_TYPE__ stride, _tile1024i tile) {
282   return __builtin_ia32_tilestored64_internal(m, n, base,
283                                               (__SIZE_TYPE__)(stride), tile);
284 }
285 
286 /// This is internal intrinsic. C/C++ user should avoid calling it directly.
287 static __inline__ _tile1024i __DEFAULT_FN_ATTRS_BF16
_tile_dpbf16ps_internal(unsigned short m,unsigned short n,unsigned short k,_tile1024i dst,_tile1024i src1,_tile1024i src2)288 _tile_dpbf16ps_internal(unsigned short m, unsigned short n, unsigned short k,
289                         _tile1024i dst, _tile1024i src1, _tile1024i src2) {
290   return __builtin_ia32_tdpbf16ps_internal(m, n, k, dst, src1, src2);
291 }
292 
293 /// This struct pack the shape and tile data together for user. We suggest
294 /// initializing the struct as early as possible, because compiler depends
295 /// on the shape information to do configure. The constant value is preferred
296 /// for optimization by compiler.
297 typedef struct __tile1024i_str {
298   const unsigned short row;
299   const unsigned short col;
300   _tile1024i tile;
301 } __tile1024i;
302 
303 /// Load tile rows from memory specifieid by "base" address and "stride" into
304 /// destination tile "dst".
305 ///
306 /// \headerfile <immintrin.h>
307 ///
308 /// This intrinsic corresponds to the <c> TILELOADD </c> instruction.
309 ///
310 /// \param dst
311 ///    A destination tile. Max size is 1024 Bytes.
312 /// \param base
313 ///    A pointer to base address.
314 /// \param stride
315 ///    The stride between the rows' data to be loaded in memory.
316 __DEFAULT_FN_ATTRS_TILE
__tile_loadd(__tile1024i * dst,const void * base,__SIZE_TYPE__ stride)317 static __inline__ void __tile_loadd(__tile1024i *dst, const void *base,
318                                     __SIZE_TYPE__ stride) {
319   dst->tile = _tile_loadd_internal(dst->row, dst->col, base, stride);
320 }
321 
322 /// Load tile rows from memory specifieid by "base" address and "stride" into
323 /// destination tile "dst". This intrinsic provides a hint to the implementation
324 /// that the data will likely not be reused in the near future and the data
325 /// caching can be optimized accordingly.
326 ///
327 /// \headerfile <immintrin.h>
328 ///
329 /// This intrinsic corresponds to the <c> TILELOADDT1 </c> instruction.
330 ///
331 /// \param dst
332 ///    A destination tile. Max size is 1024 Bytes.
333 /// \param base
334 ///    A pointer to base address.
335 /// \param stride
336 ///    The stride between the rows' data to be loaded in memory.
337 __DEFAULT_FN_ATTRS_TILE
__tile_stream_loadd(__tile1024i * dst,const void * base,__SIZE_TYPE__ stride)338 static __inline__ void __tile_stream_loadd(__tile1024i *dst, const void *base,
339                                            __SIZE_TYPE__ stride) {
340   dst->tile = _tile_loaddt1_internal(dst->row, dst->col, base, stride);
341 }
342 
343 /// Compute dot-product of bytes in tiles with a source/destination accumulator.
344 /// Multiply groups of 4 adjacent pairs of signed 8-bit integers in src0 with
345 /// corresponding signed 8-bit integers in src1, producing 4 intermediate 32-bit
346 /// results. Sum these 4 results with the corresponding 32-bit integer in "dst",
347 /// and store the 32-bit result back to tile "dst".
348 ///
349 /// \headerfile <immintrin.h>
350 ///
351 /// This intrinsic corresponds to the <c> TDPBSSD </c> instruction.
352 ///
353 /// \param dst
354 ///    The destination tile. Max size is 1024 Bytes.
355 /// \param src0
356 ///    The 1st source tile. Max size is 1024 Bytes.
357 /// \param src1
358 ///    The 2nd source tile. Max size is 1024 Bytes.
359 __DEFAULT_FN_ATTRS_INT8
__tile_dpbssd(__tile1024i * dst,__tile1024i src0,__tile1024i src1)360 static __inline__ void __tile_dpbssd(__tile1024i *dst, __tile1024i src0,
361                                      __tile1024i src1) {
362   dst->tile = _tile_dpbssd_internal(src0.row, src1.col, src0.col, dst->tile,
363                                     src0.tile, src1.tile);
364 }
365 
366 /// Compute dot-product of bytes in tiles with a source/destination accumulator.
367 /// Multiply groups of 4 adjacent pairs of signed 8-bit integers in src0 with
368 /// corresponding unsigned 8-bit integers in src1, producing 4 intermediate
369 /// 32-bit results. Sum these 4 results with the corresponding 32-bit integer
370 /// in "dst", and store the 32-bit result back to tile "dst".
371 ///
372 /// \headerfile <immintrin.h>
373 ///
374 /// This intrinsic corresponds to the <c> TDPBSUD </c> instruction.
375 ///
376 /// \param dst
377 ///    The destination tile. Max size is 1024 Bytes.
378 /// \param src0
379 ///    The 1st source tile. Max size is 1024 Bytes.
380 /// \param src1
381 ///    The 2nd source tile. Max size is 1024 Bytes.
382 __DEFAULT_FN_ATTRS_INT8
__tile_dpbsud(__tile1024i * dst,__tile1024i src0,__tile1024i src1)383 static __inline__ void __tile_dpbsud(__tile1024i *dst, __tile1024i src0,
384                                      __tile1024i src1) {
385   dst->tile = _tile_dpbsud_internal(src0.row, src1.col, src0.col, dst->tile,
386                                     src0.tile, src1.tile);
387 }
388 
389 /// Compute dot-product of bytes in tiles with a source/destination accumulator.
390 /// Multiply groups of 4 adjacent pairs of unsigned 8-bit integers in src0 with
391 /// corresponding signed 8-bit integers in src1, producing 4 intermediate 32-bit
392 /// results. Sum these 4 results with the corresponding 32-bit integer in "dst",
393 /// and store the 32-bit result back to tile "dst".
394 ///
395 /// \headerfile <immintrin.h>
396 ///
397 /// This intrinsic corresponds to the <c> TDPBUSD </c> instruction.
398 ///
399 /// \param dst
400 ///    The destination tile. Max size is 1024 Bytes.
401 /// \param src0
402 ///    The 1st source tile. Max size is 1024 Bytes.
403 /// \param src1
404 ///    The 2nd source tile. Max size is 1024 Bytes.
405 __DEFAULT_FN_ATTRS_INT8
__tile_dpbusd(__tile1024i * dst,__tile1024i src0,__tile1024i src1)406 static __inline__ void __tile_dpbusd(__tile1024i *dst, __tile1024i src0,
407                                      __tile1024i src1) {
408   dst->tile = _tile_dpbusd_internal(src0.row, src1.col, src0.col, dst->tile,
409                                     src0.tile, src1.tile);
410 }
411 
412 /// Compute dot-product of bytes in tiles with a source/destination accumulator.
413 /// Multiply groups of 4 adjacent pairs of unsigned 8-bit integers in src0 with
414 /// corresponding unsigned 8-bit integers in src1, producing 4 intermediate
415 /// 32-bit results. Sum these 4 results with the corresponding 32-bit integer in
416 /// "dst", and store the 32-bit result back to tile "dst".
417 ///
418 /// \headerfile <immintrin.h>
419 ///
420 /// This intrinsic corresponds to the <c> TDPBUUD </c> instruction.
421 ///
422 /// \param dst
423 ///    The destination tile. Max size is 1024 Bytes.
424 /// \param src0
425 ///    The 1st source tile. Max size is 1024 Bytes.
426 /// \param src1
427 ///    The 2nd source tile. Max size is 1024 Bytes.
428 __DEFAULT_FN_ATTRS_INT8
__tile_dpbuud(__tile1024i * dst,__tile1024i src0,__tile1024i src1)429 static __inline__ void __tile_dpbuud(__tile1024i *dst, __tile1024i src0,
430                                      __tile1024i src1) {
431   dst->tile = _tile_dpbuud_internal(src0.row, src1.col, src0.col, dst->tile,
432                                     src0.tile, src1.tile);
433 }
434 
435 /// Store the tile specified by "src" to memory specifieid by "base" address and
436 /// "stride".
437 ///
438 /// \headerfile <immintrin.h>
439 ///
440 /// This intrinsic corresponds to the <c> TILESTORED </c> instruction.
441 ///
442 /// \param dst
443 ///    A destination tile. Max size is 1024 Bytes.
444 /// \param base
445 ///    A pointer to base address.
446 /// \param stride
447 ///    The stride between the rows' data to be stored in memory.
448 __DEFAULT_FN_ATTRS_TILE
__tile_stored(void * base,__SIZE_TYPE__ stride,__tile1024i src)449 static __inline__ void __tile_stored(void *base, __SIZE_TYPE__ stride,
450                                      __tile1024i src) {
451   _tile_stored_internal(src.row, src.col, base, stride, src.tile);
452 }
453 
454 /// Zero the tile specified by "dst".
455 ///
456 /// \headerfile <immintrin.h>
457 ///
458 /// This intrinsic corresponds to the <c> TILEZERO </c> instruction.
459 ///
460 /// \param dst
461 ///    The destination tile to be zero. Max size is 1024 Bytes.
462 __DEFAULT_FN_ATTRS_TILE
__tile_zero(__tile1024i * dst)463 static __inline__ void __tile_zero(__tile1024i *dst) {
464   dst->tile = __builtin_ia32_tilezero_internal(dst->row, dst->col);
465 }
466 
467 /// Compute dot-product of BF16 (16-bit) floating-point pairs in tiles src0 and
468 /// src1, accumulating the intermediate single-precision (32-bit) floating-point
469 /// elements with elements in "dst", and store the 32-bit result back to tile
470 /// "dst".
471 ///
472 /// \headerfile <immintrin.h>
473 ///
474 /// This intrinsic corresponds to the <c> TDPBF16PS </c> instruction.
475 ///
476 /// \param dst
477 ///    The destination tile. Max size is 1024 Bytes.
478 /// \param src0
479 ///    The 1st source tile. Max size is 1024 Bytes.
480 /// \param src1
481 ///    The 2nd source tile. Max size is 1024 Bytes.
482 __DEFAULT_FN_ATTRS_BF16
__tile_dpbf16ps(__tile1024i * dst,__tile1024i src0,__tile1024i src1)483 static __inline__ void __tile_dpbf16ps(__tile1024i *dst, __tile1024i src0,
484                                        __tile1024i src1) {
485   dst->tile = _tile_dpbf16ps_internal(src0.row, src1.col, src0.col, dst->tile,
486                                       src0.tile, src1.tile);
487 }
488 
489 #undef __DEFAULT_FN_ATTRS_TILE
490 #undef __DEFAULT_FN_ATTRS_INT8
491 #undef __DEFAULT_FN_ATTRS_BF16
492 
493 #endif /* __x86_64__ */
494 #endif /* __AMXINTRIN_H */
495