gridwise_gemm_xdlops_v3r2.hpp Source File

gridwise_gemm_xdlops_v3r2.hpp Source File#

Composable Kernel: gridwise_gemm_xdlops_v3r2.hpp Source File
gridwise_gemm_xdlops_v3r2.hpp
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1// SPDX-License-Identifier: MIT
2// Copyright (c) 2018-2025, Advanced Micro Devices, Inc. All rights reserved.
3
4#pragma once
5
17
18namespace ck {
19
20template <typename GridwiseGemm,
21 typename FloatAB,
22 typename FloatC,
23 typename AGridDesc_K0_M_K1,
24 typename BGridDesc_K0_N_K1,
25 typename CGridDescriptor_MBlock_MXdlPerWave_MWaveMPerXdl_NBlock_NXdlPerWave_NWaveNPerXdl,
26 typename C0GridDescriptor_MBlock_MXdlPerWave_MWaveMPerXdl_NBlock_NXdlPerWave_NWaveNPerXdl,
27 typename AElementwiseOperation,
28 typename BElementwiseOperation,
29 typename CElementwiseOperation,
30 typename Block2CTileMap,
31 bool HasMainKBlockLoop>
32__global__ void
33#if CK_USE_LAUNCH_BOUNDS
35#endif
37 const FloatAB* __restrict__ p_a_grid,
38 const FloatAB* __restrict__ p_b_grid,
39 FloatC* __restrict__ p_c_grid,
40 const FloatC* __restrict__ p_c0_grid,
41 const AGridDesc_K0_M_K1 a_grid_desc_k0_m_k1,
42 const BGridDesc_K0_N_K1 b_grid_desc_k0_n_k1,
43 const CGridDescriptor_MBlock_MXdlPerWave_MWaveMPerXdl_NBlock_NXdlPerWave_NWaveNPerXdl
44 c_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl,
45 const C0GridDescriptor_MBlock_MXdlPerWave_MWaveMPerXdl_NBlock_NXdlPerWave_NWaveNPerXdl
46 c0_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl,
47 const AElementwiseOperation a_element_op,
48 const BElementwiseOperation b_element_op,
49 const CElementwiseOperation c_element_op,
50 const Block2CTileMap block_2_ctile_map)
51{
52#if defined(__gfx908__) || defined(__gfx90a__) || defined(__gfx94__) || defined(__gfx11__) || \
53 defined(__gfx12__)
54 if constexpr(GridwiseGemm::template IsValidCompilationParameter<>())
55 {
56 __shared__ char p_shared[GridwiseGemm::GetSharedMemoryNumberOfByte()];
57
58 GridwiseGemm::template Run<HasMainKBlockLoop>(
59 p_a_grid,
60 p_b_grid,
61 p_c_grid,
62 p_c0_grid,
63 p_shared,
64 a_grid_desc_k0_m_k1,
65 b_grid_desc_k0_n_k1,
66 c_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl,
67 c0_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl,
68 a_element_op,
69 b_element_op,
70 c_element_op,
71 block_2_ctile_map);
72 }
73#else
74 ignore = p_a_grid;
75 ignore = p_b_grid;
76 ignore = p_c_grid;
77 ignore = p_c0_grid;
78 ignore = a_grid_desc_k0_m_k1;
79 ignore = b_grid_desc_k0_n_k1;
80 ignore = c_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl;
81 ignore = c0_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl;
82 ignore = a_element_op;
83 ignore = b_element_op;
84 ignore = c_element_op;
85 ignore = block_2_ctile_map;
86#endif // end of if (defined(__gfx908__) || defined(__gfx90a__))
87}
88
89template <
90 index_t BlockSize,
91 typename FloatAB,
92 typename FloatAcc,
93 typename FloatC,
94 InMemoryDataOperationEnum CGlobalMemoryDataOperation,
95 typename AGridDesc_K0_M_K1,
96 typename BGridDesc_K0_N_K1,
97 typename CGridDesc_M_N,
98 typename C0GridDesc_M_N,
99 typename AElementwiseOperation,
100 typename BElementwiseOperation,
101 typename CElementwiseOperation,
102 index_t MPerBlock,
103 index_t NPerBlock,
104 index_t K0PerBlock,
105 index_t MPerXdl,
106 index_t NPerXdl,
107 index_t K1Value,
108 index_t MXdlPerWave,
109 index_t NXdlPerWave,
110 typename ABlockTransferThreadClusterLengths_K0_M_K1,
111 typename ABlockTransferThreadClusterArrangeOrder,
112 typename ABlockTransferSrcAccessOrder,
113 index_t ABlockTransferSrcVectorDim,
114 index_t ABlockTransferSrcScalarPerVector,
115 index_t ABlockTransferDstScalarPerVector_K1,
116 bool AThreadTransferSrcResetCoordinateAfterRun,
117 bool ABlockLdsExtraM,
118 typename BBlockTransferThreadClusterLengths_K0_N_K1,
119 typename BBlockTransferThreadClusterArrangeOrder,
120 typename BBlockTransferSrcAccessOrder,
121 index_t BBlockTransferSrcVectorDim,
122 index_t BBlockTransferSrcScalarPerVector,
123 index_t BBlockTransferDstScalarPerVector_K1,
124 bool BThreadTransferSrcResetCoordinateAfterRun,
125 bool BBlockLdsExtraN,
126 index_t CShuffleMXdlPerWavePerShuffle,
127 index_t CShuffleNXdlPerWavePerShuffle,
128 typename CBlockTransferClusterLengths_MBlock_MXdlPerWave_MWaveMPerXdl_NBlock_NXdlPerWave_NWaveNPerXdl,
129 index_t CBlockTransferScalarPerVector_NWaveNPerXdl,
130 index_t NumGemmKPrefetchStage = 1,
133{
134 static constexpr auto I0 = Number<0>{};
135 static constexpr auto I1 = Number<1>{};
136 static constexpr auto I2 = Number<2>{};
137 static constexpr auto I3 = Number<3>{};
138 static constexpr auto I4 = Number<4>{};
139 static constexpr auto I5 = Number<5>{};
140 static constexpr auto I6 = Number<6>{};
141 static constexpr auto I7 = Number<7>{};
142
143 // K1 should be Number<...>
144 static constexpr auto K1 = Number<K1Value>{};
145
147
150
151 __host__ __device__ static constexpr auto GetABlockDescriptor_K0PerBlock_MPerBlock_K1()
152 {
153 constexpr auto max_lds_align = K1;
154
155 // A matrix in LDS memory, dst of blockwise copy
156 constexpr auto a_block_desc_k0_m_k1 = [&]() {
157 if constexpr(ABlockLdsExtraM)
158 {
162 }
163 else
164 {
166 make_tuple(Number<K0PerBlock>{}, Number<MPerBlock>{}, K1), max_lds_align);
167 }
168 }();
169
170 return a_block_desc_k0_m_k1;
171 }
172
173 __host__ __device__ static constexpr auto GetBBlockDescriptor_K0PerBlock_NPerBlock_K1()
174 {
175 constexpr auto max_lds_align = K1;
176
177 // B matrix in LDS memory, dst of blockwise copy
178 constexpr auto b_block_desc_k0_n_k1 = [&]() {
179 if constexpr(BBlockLdsExtraN)
180 {
184 }
185 else
186 {
188 make_tuple(Number<K0PerBlock>{}, Number<NPerBlock>{}, K1), max_lds_align);
189 }
190 }();
191
192 return b_block_desc_k0_n_k1;
193 }
194
195 __host__ __device__ static constexpr auto
197 {
198 constexpr index_t MWave = MPerBlock / (MXdlPerWave * MPerXdl);
199 constexpr index_t NWave = NPerBlock / (NXdlPerWave * NPerXdl);
200
201 constexpr auto
202 c_block_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl =
207 I1,
210
211 return c_block_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl;
212 }
213
214 __host__ __device__ static constexpr index_t GetSharedMemoryNumberOfByte()
215 {
216 // LDS allocation for A and B: be careful of alignment
217 constexpr auto a_block_desc_k0_m_k1 = GetABlockDescriptor_K0PerBlock_MPerBlock_K1();
218
219 constexpr auto b_block_desc_k0_n_k1 = GetBBlockDescriptor_K0PerBlock_NPerBlock_K1();
220
221 constexpr auto max_lds_align = K1;
222
223 constexpr auto a_block_space_size_aligned =
224 math::integer_least_multiple(a_block_desc_k0_m_k1.GetElementSpaceSize(), max_lds_align);
225
226 constexpr auto b_block_space_size_aligned =
227 math::integer_least_multiple(b_block_desc_k0_n_k1.GetElementSpaceSize(), max_lds_align);
228
229 // LDS allocation for C shuffle in LDS
230 constexpr auto c_block_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl =
232
233 constexpr auto c_block_size =
234 c_block_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl
235 .GetElementSpaceSize();
236
237 return math::max((a_block_space_size_aligned + b_block_space_size_aligned) *
238 sizeof(FloatAB),
239 c_block_size * sizeof(FloatC));
240 }
241
242 template <
243 InMemoryDataOperationEnum CGlobalMemoryDataOperation_ = InMemoryDataOperationEnum::Set>
244 __device__ static bool constexpr IsValidCompilationParameter()
245 {
246 return ck::tensor_operation::device::IsValidGemmCompilationParameter<
247 BlockSize,
248 MPerBlock,
249 NPerBlock,
250 MPerXdl,
251 NPerXdl,
252 MXdlPerWave,
253 NXdlPerWave,
254 FloatC,
255 CGlobalMemoryDataOperation>();
256 }
257
258 // block_id to matrix tile idx (m0, n0) mapping are controlled by {M01, N01}
259 template <typename Block2CTileMap>
260 __host__ __device__ static constexpr bool
261 CheckValidity(const AGridDesc_K0_M_K1& a_grid_desc_k0_m_k1,
262 const BGridDesc_K0_N_K1& b_grid_desc_k0_n_k1,
263 const CGridDesc_M_N& c_grid_desc_m_n,
264 const Block2CTileMap& block_2_ctile_map)
265 {
266 static_assert(is_known_at_compile_time<remove_cv_t<decltype(K1)>>::value,
267 "wrong! K1 need to be known at compile-time");
268
269 static_assert((MPerBlock % (MPerXdl * MXdlPerWave) == 0) &&
270 (NPerBlock % (NXdlPerWave * NPerXdl)) == 0,
271 "Invalid tuning param!");
272
273 const auto M = a_grid_desc_k0_m_k1.GetLength(I1);
274 const auto N = b_grid_desc_k0_n_k1.GetLength(I1);
275 const auto K0 = a_grid_desc_k0_m_k1.GetLength(I0);
276
277 if(!(M == c_grid_desc_m_n.GetLength(I0) && N == c_grid_desc_m_n.GetLength(I1) &&
278 K0 == b_grid_desc_k0_n_k1.GetLength(I0) && K1 == a_grid_desc_k0_m_k1.GetLength(I2) &&
279 K1 == b_grid_desc_k0_n_k1.GetLength(I2)))
280 return false;
281
282 if(!(M % MPerBlock == 0 && N % NPerBlock == 0 && K0 % K0PerBlock == 0))
283 return false;
284
285 // check gridwise gemm pipeline
286 const auto num_k_loop = K0 / K0PerBlock;
287
288 if(!GridwiseGemmPipe::IsSupported(num_k_loop))
289 {
290 return false;
291 }
292
293 if(!block_2_ctile_map.CheckValidity(c_grid_desc_m_n))
294 {
295 return false;
296 }
297
298 // TODO: also check validity of all components (blockwise-copy, threadwise-copy, etc)
299 return true;
300 }
301
302 __host__ __device__ static constexpr bool CalculateHasMainKBlockLoop(index_t K)
303 {
304 const index_t num_loop = K / (K0PerBlock * K1);
305
306 return GridwiseGemmPipe::CalculateHasMainLoop(num_loop);
307 }
308
309 template <typename CGridDesc_M_N_>
310 __host__ __device__ static constexpr auto
312 const CGridDesc_M_N_& c_grid_desc_m_n)
313 {
314 const auto M = c_grid_desc_m_n.GetLength(I0);
315 const auto N = c_grid_desc_m_n.GetLength(I1);
316
317 const auto MBlock = M / MPerBlock;
318 const auto NBlock = N / NPerBlock;
319
320 constexpr index_t MWave = MPerBlock / (MXdlPerWave * MPerXdl);
321 constexpr index_t NWave =
322 NXdlPerWave * NPerXdl == 0 ? 1 : NPerBlock / (NXdlPerWave * NPerXdl);
323
324 const auto c_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl =
326 c_grid_desc_m_n,
333
334 return c_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl;
335 }
336
337 // return block_id to C matrix tile idx (m0, n0) mapping
338 __host__ __device__ static constexpr auto MakeDefaultBlock2CTileMap(
339 const CGridDesc_M_N& c_grid_desc_m_n, index_t /* M01 */, index_t /* N01 */)
340 {
342 c_grid_desc_m_n);
343 }
344
348 CGridDesc_M_N{}))>;
349
353 C0GridDesc_M_N{}))>;
354
356 remove_cvref_t<decltype(MakeDefaultBlock2CTileMap(CGridDesc_M_N{}, 1, 1))>;
357
358 template <bool HasMainKBlockLoop, typename Block2CTileMap = DefaultBlock2CTileMap>
359 __device__ static void
360 Run(const FloatAB* __restrict__ p_a_grid,
361 const FloatAB* __restrict__ p_b_grid,
362 FloatC* __restrict__ p_c_grid,
363 const FloatC* __restrict__ p_c0_grid,
364 void* __restrict__ p_shared,
365 const AGridDesc_K0_M_K1& a_grid_desc_k0_m_k1,
366 const BGridDesc_K0_N_K1& b_grid_desc_k0_n_k1,
368 c_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl,
370 c0_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl,
371 const AElementwiseOperation& a_element_op,
372 const BElementwiseOperation& b_element_op,
373 const CElementwiseOperation& c_element_op,
374 const Block2CTileMap& block_2_ctile_map)
375 {
376 const auto a_grid_buf = make_dynamic_buffer<AddressSpaceEnum::Global>(
377 p_a_grid, a_grid_desc_k0_m_k1.GetElementSpaceSize());
378 const auto b_grid_buf = make_dynamic_buffer<AddressSpaceEnum::Global>(
379 p_b_grid, b_grid_desc_k0_n_k1.GetElementSpaceSize());
381 p_c_grid,
382 c_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl
383 .GetElementSpaceSize());
385 p_c0_grid,
386 c0_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl
387 .GetElementSpaceSize());
388
389 const auto K0 = a_grid_desc_k0_m_k1.GetLength(I0);
390
391 // divide block work by [M, N]
392 const auto block_work_idx =
393 block_2_ctile_map.CalculateBottomIndex(make_multi_index(get_block_1d_id()));
394
395 if(!block_2_ctile_map.ValidCTileIndex(
396 block_work_idx,
398 c_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl
399 .GetLength(I0),
400 c_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl
401 .GetLength(I3))))
402 {
403 return;
404 }
405
406 // HACK: this force m/n_block_data_idx_on_grid into SGPR
407 const index_t m_block_data_idx_on_grid =
408 __builtin_amdgcn_readfirstlane(block_work_idx[I0] * MPerBlock);
409
410 const index_t n_block_data_idx_on_grid =
411 __builtin_amdgcn_readfirstlane(block_work_idx[I1] * NPerBlock);
412
413 // lds max alignment
414 constexpr auto max_lds_align = K1;
415
416 // A matrix in LDS memory, dst of blockwise copy
417 constexpr auto a_block_desc_k0_m_k1 = GetABlockDescriptor_K0PerBlock_MPerBlock_K1();
418
419 // B matrix in LDS memory, dst of blockwise copy
420 constexpr auto b_block_desc_k0_n_k1 = GetBBlockDescriptor_K0PerBlock_NPerBlock_K1();
421
422 // A matrix blockwise copy
423 auto a_blockwise_copy =
425 AElementwiseOperation,
429 ABlockTransferThreadClusterLengths_K0_M_K1,
430 ABlockTransferThreadClusterArrangeOrder,
431 FloatAB,
432 FloatAB,
433 decltype(a_grid_desc_k0_m_k1),
434 decltype(a_block_desc_k0_m_k1),
435 ABlockTransferSrcAccessOrder,
437 ABlockTransferSrcVectorDim,
438 2,
439 ABlockTransferSrcScalarPerVector,
440 ABlockTransferDstScalarPerVector_K1,
441 1,
442 1,
443 AThreadTransferSrcResetCoordinateAfterRun,
444 true,
445 NumGemmKPrefetchStage>(
446 a_grid_desc_k0_m_k1,
447 make_multi_index(0, m_block_data_idx_on_grid, 0),
448 a_element_op,
449 a_block_desc_k0_m_k1,
450 make_multi_index(0, 0, 0),
452
453 // B matrix blockwise copy
454 auto b_blockwise_copy =
456 BElementwiseOperation,
460 BBlockTransferThreadClusterLengths_K0_N_K1,
461 BBlockTransferThreadClusterArrangeOrder,
462 FloatAB,
463 FloatAB,
464 decltype(b_grid_desc_k0_n_k1),
465 decltype(b_block_desc_k0_n_k1),
466 BBlockTransferSrcAccessOrder,
468 BBlockTransferSrcVectorDim,
469 2,
470 BBlockTransferSrcScalarPerVector,
471 BBlockTransferDstScalarPerVector_K1,
472 1,
473 1,
474 BThreadTransferSrcResetCoordinateAfterRun,
475 true,
476 NumGemmKPrefetchStage>(
477 b_grid_desc_k0_n_k1,
478 make_multi_index(0, n_block_data_idx_on_grid, 0),
479 b_element_op,
480 b_block_desc_k0_n_k1,
481 make_multi_index(0, 0, 0),
483
484 // GEMM definition
485 // c_mtx += transpose(a_mtx) * b_mtx
486 // a_mtx[K0PerBlock, MPerBlock] is in LDS
487 // b_mtx[K0PerBlock, NPerBlock] is in LDS
488 // c_mtx[MPerBlock, NPerBlock] is distributed among threads, and saved in
489 // register
490 // sanity check
491
492 auto blockwise_gemm =
494 FloatAB,
495 FloatAB,
496 FloatAcc,
497 decltype(a_block_desc_k0_m_k1),
498 decltype(b_block_desc_k0_n_k1),
499 MPerXdl,
500 NPerXdl,
501 MXdlPerWave,
502 NXdlPerWave,
503 K1>{};
504
505 auto c_thread_buf = blockwise_gemm.GetCThreadBuffer();
506
507 // LDS allocation for A and B: be careful of alignment
508 constexpr auto a_block_space_size_aligned =
509 math::integer_least_multiple(a_block_desc_k0_m_k1.GetElementSpaceSize(), max_lds_align);
510
512 static_cast<FloatAB*>(p_shared), a_block_desc_k0_m_k1.GetElementSpaceSize());
513
515 static_cast<FloatAB*>(p_shared) + a_block_space_size_aligned,
516 b_block_desc_k0_n_k1.GetElementSpaceSize());
517
518 constexpr auto a_block_slice_copy_step = make_multi_index(K0PerBlock, 0, 0);
519 constexpr auto b_block_slice_copy_step = make_multi_index(K0PerBlock, 0, 0);
520
521 // gridwise GEMM pipeline
522 const index_t K0BlockMainLoop = __builtin_amdgcn_readfirstlane(K0 / K0PerBlock);
523
524 GridwiseGemmPipe::template Run<HasMainKBlockLoop>(a_grid_desc_k0_m_k1,
525 a_block_desc_k0_m_k1,
526 a_blockwise_copy,
527 a_grid_buf,
528 a_block_buf,
529 a_block_slice_copy_step,
530 b_grid_desc_k0_n_k1,
531 b_block_desc_k0_n_k1,
532 b_blockwise_copy,
533 b_grid_buf,
534 b_block_buf,
535 b_block_slice_copy_step,
536 blockwise_gemm,
537 c_thread_buf,
538 K0BlockMainLoop);
539
540 // shuffle C and write out
541 {
542 static_assert(MXdlPerWave % CShuffleMXdlPerWavePerShuffle == 0 &&
543 NXdlPerWave % CShuffleNXdlPerWavePerShuffle == 0,
544 "wrong!");
545
546 constexpr index_t MWave = MPerBlock / (MXdlPerWave * MPerXdl);
547 constexpr index_t NWave = NPerBlock / (NXdlPerWave * NPerXdl);
548
549 // TODO: hacky, fix it!
550 constexpr auto c_thread_desc_m0_n0_m1_n1_m2_m3_m4_n2 =
551 blockwise_gemm.GetCThreadDescriptor_M0_N0_M1_N1_M2_M3_M4_N2();
552
553 // TODO: hacky, fix it!
554 // c_block_desc_m0_n0_m1_n1_m2_m3_m4_n2_tmp is only used to get lengths
555 constexpr auto c_block_desc_m0_n0_m1_n1_m2_m3_m4_n2_tmp =
556 blockwise_gemm.GetCBlockDescriptor_M0_N0_M1_N1_M2_M3_M4_N2();
557
558 constexpr auto M0 = c_block_desc_m0_n0_m1_n1_m2_m3_m4_n2_tmp.GetLength(I0);
559 constexpr auto N0 = c_block_desc_m0_n0_m1_n1_m2_m3_m4_n2_tmp.GetLength(I1);
560 constexpr auto M1 = c_block_desc_m0_n0_m1_n1_m2_m3_m4_n2_tmp.GetLength(I2);
561 constexpr auto N1 = c_block_desc_m0_n0_m1_n1_m2_m3_m4_n2_tmp.GetLength(I3);
562 constexpr auto M2 = c_block_desc_m0_n0_m1_n1_m2_m3_m4_n2_tmp.GetLength(I4);
563 constexpr auto M3 = c_block_desc_m0_n0_m1_n1_m2_m3_m4_n2_tmp.GetLength(I5);
564 constexpr auto M4 = c_block_desc_m0_n0_m1_n1_m2_m3_m4_n2_tmp.GetLength(I6);
565 constexpr auto N2 = c_block_desc_m0_n0_m1_n1_m2_m3_m4_n2_tmp.GetLength(I7);
566
567 constexpr auto c_block_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl =
569
571 static_cast<FloatC*>(p_shared),
572 c_block_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl
573 .GetElementSpaceSize());
574
575 constexpr auto c_block_desc_m0_n0_m1_n1_m2_m3_m4_n2 = transform_tensor_descriptor(
576 c_block_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl,
578 make_freeze_transform(I0), // freeze mblock
580 Number<CShuffleMXdlPerWavePerShuffle>{}), // M0 (MXdlPerWave) per shuffle
582 make_tuple(M1, M2, M3, M4)), // M1 = MWave, M2 * M3 * M4 = MPerXdl
583 make_freeze_transform(I0), // freeze nblock
585 Number<CShuffleNXdlPerWavePerShuffle>{}), // N0 (NXdlPerWave) per shuffle
587 make_tuple(N1, N2))), // M1 = MWave, M2 * M3 * M4 = MPerXdl
589 Sequence<1>{},
590 Sequence<2>{},
591 Sequence<3>{},
592 Sequence<4>{},
593 Sequence<5>{}),
595 Sequence<0>{},
597 Sequence<>{},
598 Sequence<1>{},
600
601 );
602
603 // calculate origin of thread output tensor on global memory
604 // blockwise GEMM c matrix starting index
605 const auto c_thread_mtx_on_block =
606 blockwise_gemm.CalculateCThreadOriginDataIndex(I0, I0, I0, I0);
607
608 const index_t m_thread_data_on_block = c_thread_mtx_on_block[I0];
609 const index_t n_thread_data_on_block = c_thread_mtx_on_block[I1];
610
611 const auto m_thread_data_on_block_to_m0_m1_m2_m3_m4_adaptor =
613 make_tuple(make_merge_transform(make_tuple(M0, M1, M2, M3, M4))),
616
617 const auto m_thread_data_on_block_idx =
618 m_thread_data_on_block_to_m0_m1_m2_m3_m4_adaptor.CalculateBottomIndex(
619 make_multi_index(m_thread_data_on_block));
620
621 const auto n_thread_data_on_block_to_n0_n1_n2_adaptor =
626
627 const auto n_thread_data_on_block_idx =
628 n_thread_data_on_block_to_n0_n1_n2_adaptor.CalculateBottomIndex(
629 make_multi_index(n_thread_data_on_block));
630
631 // VGPR to LDS
632 auto c_thread_copy_vgpr_to_lds =
634 FloatC,
635 decltype(c_thread_desc_m0_n0_m1_n1_m2_m3_m4_n2),
636 decltype(c_block_desc_m0_n0_m1_n1_m2_m3_m4_n2),
638 Sequence<CShuffleMXdlPerWavePerShuffle,
639 CShuffleNXdlPerWavePerShuffle,
640 I1,
641 I1,
642 M2,
643 I1,
644 M4,
645 I1>,
647 7,
648 1,
650 1,
651 true>{
652 c_block_desc_m0_n0_m1_n1_m2_m3_m4_n2,
654 0,
655 m_thread_data_on_block_idx[I1],
656 n_thread_data_on_block_idx[I1],
657 m_thread_data_on_block_idx[I2],
658 m_thread_data_on_block_idx[I3],
659 m_thread_data_on_block_idx[I4],
660 n_thread_data_on_block_idx[I2]),
662
663 auto c_block_copy_lds_to_global = ThreadGroupTensorSliceTransfer_v6r2<
664 ThisThreadBlock, // index_t BlockSize,
665 CElementwiseOperation, // ElementwiseOperation,
666 CGlobalMemoryDataOperation, // DstInMemOp,
667 Sequence<1,
668 CShuffleMXdlPerWavePerShuffle,
669 MWave * MPerXdl,
670 1,
671 CShuffleNXdlPerWavePerShuffle,
672 NWave * NPerXdl>, // BlockSliceLengths,
673 CBlockTransferClusterLengths_MBlock_MXdlPerWave_MWaveMPerXdl_NBlock_NXdlPerWave_NWaveNPerXdl,
674 Sequence<0, 1, 2, 3, 4, 5>, // typename ThreadClusterArrangeOrder,
675 FloatC, // typename Src0Data,
676 FloatC, // typename Src1Data,
677 FloatC, // typename DstData,
678 decltype(c_block_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl),
679 decltype(c0_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl),
680 decltype(c_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl),
681 Sequence<0, 1, 2, 3, 4, 5>, // typename DimAccessOrder,
682 5, // index_t VectorDim,
683 CBlockTransferScalarPerVector_NWaveNPerXdl, // index_t ScalarPerVector,
684 true, // bool ThreadTransferSrc0ResetCoordinateAfterRun,
685 false, // bool ThreadTransferSrc1ResetCoordinateAfterRun,
686 false> // bool ThreadTransferDstResetCoordinateAfterRun>
687 {c_block_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl,
688 make_multi_index(0, 0, 0, 0, 0, 0),
689 c0_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl,
690 make_multi_index(block_work_idx[I0], 0, 0, block_work_idx[I1], 0, 0),
691 c_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl,
692 make_multi_index(block_work_idx[I0], 0, 0, block_work_idx[I1], 0, 0),
693 c_element_op};
694
695 constexpr auto mxdlperwave_forward_step =
696 make_multi_index(0, CShuffleMXdlPerWavePerShuffle, 0, 0, 0, 0);
697 constexpr auto nxdlperwave_forward_step =
698 make_multi_index(0, 0, 0, 0, CShuffleNXdlPerWavePerShuffle, 0);
699 constexpr auto nxdlperwave_backward_step =
700 make_multi_index(0, 0, 0, 0, -CShuffleNXdlPerWavePerShuffle, 0);
701
703 constexpr auto mxdlperwave = mxdlperwave_iter;
704
705 static_for<0,
706 NXdlPerWave,
707 CShuffleNXdlPerWavePerShuffle>{}([&](auto nxdlperwave_iter) {
708 constexpr bool nxdlperwave_forward_sweep =
709 (mxdlperwave % (2 * CShuffleMXdlPerWavePerShuffle) == 0);
710
711 constexpr index_t nxdlperwave_value =
712 nxdlperwave_forward_sweep
713 ? nxdlperwave_iter
714 : (NXdlPerWave - nxdlperwave_iter - CShuffleNXdlPerWavePerShuffle);
715
716 constexpr auto nxdlperwave = Number<nxdlperwave_value>{};
717
718 // make sure it's safe to do ds_write
720
721 // VGPR to LDS
722 c_thread_copy_vgpr_to_lds.Run(
723 c_thread_desc_m0_n0_m1_n1_m2_m3_m4_n2,
724 make_tuple(mxdlperwave, nxdlperwave, I0, I0, I0, I0, I0, I0),
725 c_thread_buf,
726 c_block_desc_m0_n0_m1_n1_m2_m3_m4_n2,
727 c_block_buf);
728
729 // make sure it's safe to do ds_read
731
732 // LDS to global
733 c_block_copy_lds_to_global.Run(
734 c_block_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl,
735 c_block_buf,
736 c0_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl,
737 c0_grid_buf,
738 c_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl,
739 c_grid_buf);
740
741 // move on nxdlperwave dimension
742 if constexpr(nxdlperwave_forward_sweep &&
743 (nxdlperwave < NXdlPerWave - CShuffleNXdlPerWavePerShuffle))
744 {
745 c_block_copy_lds_to_global.MoveSrc1SliceWindow(
746 c0_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl,
747 nxdlperwave_forward_step);
748
749 c_block_copy_lds_to_global.MoveDstSliceWindow(
750 c_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl,
751 nxdlperwave_forward_step);
752 }
753 else if constexpr((!nxdlperwave_forward_sweep) && (nxdlperwave > 0))
754 {
755 c_block_copy_lds_to_global.MoveSrc1SliceWindow(
756 c0_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl,
757 nxdlperwave_backward_step);
758
759 c_block_copy_lds_to_global.MoveDstSliceWindow(
760 c_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl,
761 nxdlperwave_backward_step);
762 }
763 });
764
765 // move on mxdlperwave dimension
766 if constexpr(mxdlperwave < MXdlPerWave - CShuffleMXdlPerWavePerShuffle)
767 {
768 c_block_copy_lds_to_global.MoveSrc1SliceWindow(
769 c0_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl,
770 mxdlperwave_forward_step);
771
772 c_block_copy_lds_to_global.MoveDstSliceWindow(
773 c_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl,
774 mxdlperwave_forward_step);
775 }
776 });
777 }
778 }
779};
780
781} // namespace ck
#define CK_MIN_BLOCK_PER_CU
Definition ck.hpp:31
#define CK_MAX_THREAD_PER_BLOCK
Definition ck.hpp:30
__host__ __device__ constexpr auto integer_least_multiple(X x, Y y)
Definition utility/math.hpp:78
__host__ __device__ constexpr T max(T x)
Definition utility/math.hpp:84
Definition ck.hpp:268
__host__ __device__ constexpr auto make_multi_index(Xs &&... xs)
Definition array_multi_index.hpp:15
__host__ __device__ constexpr auto make_pass_through_transform(const LowLength &low_length)
Definition multi_index_transform_helper.hpp:12
constexpr auto GridwiseGemmPipeline_Selector()
Definition gridwise_gemm_pipeline_selector.hpp:31
int32_t index_t
Definition ck.hpp:299
__host__ __device__ constexpr auto make_naive_tensor_descriptor(const Tuple< Lengths... > &lengths, const Tuple< Strides... > &strides)
Definition tensor_descriptor_helper.hpp:49
InMemoryDataOperationEnum
Definition ck.hpp:277
@ Set
Definition ck.hpp:278
__host__ __device__ constexpr auto make_single_stage_tensor_adaptor(const Transforms &transforms, LowerDimensionOldTopIdss, UpperDimensionNewTopIdss)
Definition tensor_description/tensor_adaptor.hpp:425
remove_cv_t< remove_reference_t< T > > remove_cvref_t
Definition type.hpp:297
__host__ __device__ constexpr auto make_freeze_transform(const LowerIndex &low_idx)
Definition multi_index_transform_helper.hpp:151
integral_constant< index_t, N > Number
Definition number.hpp:12
__host__ __device__ constexpr auto make_merge_transform(const LowLengths &low_lengths)
Definition multi_index_transform_helper.hpp:55
constexpr detail::ignore_t ignore
Definition utility/ignore.hpp:20
__device__ index_t get_block_1d_id()
Definition get_id.hpp:47
__host__ __device__ constexpr auto make_naive_tensor_descriptor_aligned(const Tuple< Lengths... > &lengths, Align align)
Definition tensor_descriptor_helper.hpp:132
__host__ __device__ constexpr auto make_naive_tensor_descriptor_packed(const Tuple< Lengths... > &lengths)
Definition tensor_descriptor_helper.hpp:101
__host__ __device__ constexpr auto make_tuple(Xs &&... xs)
Definition utility/tuple.hpp:211
__global__ void kernel_gemm_xdlops_v3r2(const FloatAB *__restrict__ p_a_grid, const FloatAB *__restrict__ p_b_grid, FloatC *__restrict__ p_c_grid, const FloatC *__restrict__ p_c0_grid, const AGridDesc_K0_M_K1 a_grid_desc_k0_m_k1, const BGridDesc_K0_N_K1 b_grid_desc_k0_n_k1, const CGridDescriptor_MBlock_MXdlPerWave_MWaveMPerXdl_NBlock_NXdlPerWave_NWaveNPerXdl c_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl, const C0GridDescriptor_MBlock_MXdlPerWave_MWaveMPerXdl_NBlock_NXdlPerWave_NWaveNPerXdl c0_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl, const AElementwiseOperation a_element_op, const BElementwiseOperation b_element_op, const CElementwiseOperation c_element_op, const Block2CTileMap block_2_ctile_map)
Definition gridwise_gemm_xdlops_v3r2.hpp:36
__host__ __device__ constexpr auto transform_tensor_descriptor(const OldTensorDescriptor &old_tensor_desc, const NewTransforms &new_transforms, NewLowerDimensionOldVisibleIdss, NewUpperDimensionNewVisibleIdss)
Definition tensor_description/tensor_descriptor.hpp:319
__device__ void block_sync_lds()
Definition synchronization.hpp:16
PipelineVersion
Definition gridwise_gemm_pipeline_selector.hpp:18
@ v1
Definition gridwise_gemm_pipeline_selector.hpp:19
__host__ __device__ constexpr auto make_unmerge_transform(const UpLengths &up_lengths, integral_constant< bool, Use24BitIntegerCalculation >=integral_constant< bool, false >{})
Definition multi_index_transform_helper.hpp:90
typename remove_cv< T >::type remove_cv_t
Definition type.hpp:295
__host__ __device__ constexpr auto make_dynamic_buffer(T *p, ElementSpaceSize element_space_size)
Definition dynamic_buffer.hpp:472
const GenericPointer< typename T::ValueType > T2 value
Definition pointer.h:1697
Definition block_to_ctile_map.hpp:261
Definition blockwise_gemm_smfmac_xdlops.hpp:44
Definition gridwise_gemm_xdlops_v3r2.hpp:133
static __device__ void Run(const ABDataType *__restrict__ p_a_grid, const ABDataType *__restrict__ p_b_grid, CDataType *__restrict__ p_c_grid, const CDataType *__restrict__ p_c0_grid, void *__restrict__ p_shared, const AGridDesc_K0_M_K1 &a_grid_desc_k0_m_k1, const BGridDesc_K0_N_K1 &b_grid_desc_k0_n_k1, const CGridDescriptor_MBlock_MXdlPerWave_MWaveMPerXdl_NBlock_NXdlPerWave_NWaveNPerXdl &c_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl, const C0GridDescriptor_MBlock_MXdlPerWave_MWaveMPerXdl_NBlock_NXdlPerWave_NWaveNPerXdl &c0_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl, const InElementwiseOperation &a_element_op, const WeiElementwiseOperation &b_element_op, const OutElementwiseOperation &c_element_op, const Block2CTileMap &block_2_ctile_map)
Definition gridwise_gemm_xdlops_v3r2.hpp:360
Definition utility/sequence.hpp:43
Blockwise data transfer.
Definition thread_group_tensor_slice_transfer_v4r1.hpp:46
Definition thread_group_tensor_slice_transfer_v6r2.hpp:37
Definition threadwise_tensor_slice_transfer.hpp:39
Definition is_known_at_compile_time.hpp:14
Definition functional2.hpp:33
Definition tensor_operation/gpu/element/unary_element_wise_operation.hpp:340