xref: /aosp_15_r20/external/ComputeLibrary/src/cpu/operators/CpuGemm.cpp (revision c217d954acce2dbc11938adb493fc0abd69584f3) 
1*c217d954SCole Faust /*
2*c217d954SCole Faust  * Copyright (c) 2021-2023 Arm Limited.
3*c217d954SCole Faust  *
4*c217d954SCole Faust  * SPDX-License-Identifier: MIT
5*c217d954SCole Faust  *
6*c217d954SCole Faust  * Permission is hereby granted, free of charge, to any person obtaining a copy
7*c217d954SCole Faust  * of this software and associated documentation files (the "Software"), to
8*c217d954SCole Faust  * deal in the Software without restriction, including without limitation the
9*c217d954SCole Faust  * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
10*c217d954SCole Faust  * sell copies of the Software, and to permit persons to whom the Software is
11*c217d954SCole Faust  * furnished to do so, subject to the following conditions:
12*c217d954SCole Faust  *
13*c217d954SCole Faust  * The above copyright notice and this permission notice shall be included in all
14*c217d954SCole Faust  * copies or substantial portions of the Software.
15*c217d954SCole Faust  *
16*c217d954SCole Faust  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
17*c217d954SCole Faust  * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
18*c217d954SCole Faust  * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
19*c217d954SCole Faust  * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
20*c217d954SCole Faust  * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
21*c217d954SCole Faust  * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
22*c217d954SCole Faust  * SOFTWARE.
23*c217d954SCole Faust  */
24*c217d954SCole Faust #include "src/cpu/operators/CpuGemm.h"
25*c217d954SCole Faust 
26*c217d954SCole Faust #include "arm_compute/core/TensorInfo.h"
27*c217d954SCole Faust #include "arm_compute/core/Validate.h"
28*c217d954SCole Faust #include "arm_compute/core/utils/misc/ShapeCalculator.h"
29*c217d954SCole Faust #include "arm_compute/runtime/NEON/NEScheduler.h"
30*c217d954SCole Faust #include "src/common/utils/Log.h"
31*c217d954SCole Faust #include "src/core/CPP/Validate.h"
32*c217d954SCole Faust #include "src/core/helpers/AutoConfiguration.h"
33*c217d954SCole Faust #include "src/core/helpers/MemoryHelpers.h"
34*c217d954SCole Faust #include "src/cpu/utils/CpuAuxTensorHandler.h"
35*c217d954SCole Faust 
36*c217d954SCole Faust using namespace arm_compute::experimental;
37*c217d954SCole Faust using namespace arm_compute::misc::shape_calculator;
38*c217d954SCole Faust 
39*c217d954SCole Faust namespace arm_compute
40*c217d954SCole Faust {
41*c217d954SCole Faust namespace cpu
42*c217d954SCole Faust {
43*c217d954SCole Faust namespace
44*c217d954SCole Faust {
init_assembly_metadata(const GEMMInfo & info)45*c217d954SCole Faust cpu::AsmGemmInfo init_assembly_metadata(const GEMMInfo &info)
46*c217d954SCole Faust {
47*c217d954SCole Faust     cpu::AsmGemmInfo asm_info;
48*c217d954SCole Faust     asm_info.method                  = cpu::AsmConvMethod::Im2Col;
49*c217d954SCole Faust     asm_info.reinterpret_input_as_3d = info.reinterpret_input_as_3d();
50*c217d954SCole Faust     asm_info.depth_output_gemm3d     = info.depth_output_gemm3d();
51*c217d954SCole Faust     asm_info.activation_info         = info.activation_info();
52*c217d954SCole Faust     asm_info.fast_mode               = info.fast_math();
53*c217d954SCole Faust     asm_info.fixed_format            = info.fixed_format();
54*c217d954SCole Faust     asm_info.weight_format           = info.weight_format();
55*c217d954SCole Faust 
56*c217d954SCole Faust     return asm_info;
57*c217d954SCole Faust }
58*c217d954SCole Faust } // namespace
59*c217d954SCole Faust 
configure(const ITensorInfo * a,const ITensorInfo * b,const ITensorInfo * c,ITensorInfo * d,float alpha,float beta,const GEMMInfo & gemm_info)60*c217d954SCole Faust void CpuGemm::configure(const ITensorInfo *a, const ITensorInfo *b, const ITensorInfo *c, ITensorInfo *d, float alpha, float beta, const GEMMInfo &gemm_info)
61*c217d954SCole Faust {
62*c217d954SCole Faust     ARM_COMPUTE_ERROR_ON_NULLPTR(a, b, d);
63*c217d954SCole Faust     ARM_COMPUTE_ERROR_THROW_ON(CpuGemm::validate(a, b, c, d, alpha, beta, gemm_info));
64*c217d954SCole Faust     ARM_COMPUTE_LOG_PARAMS(a, b, c, d, alpha, beta, gemm_info);
65*c217d954SCole Faust 
66*c217d954SCole Faust     const cpu::AsmGemmInfo asm_info      = init_assembly_metadata(gemm_info);
67*c217d954SCole Faust     const bool             is_c_bias     = gemm_info.reshape_b_only_on_first_run();
68*c217d954SCole Faust     bool                   run_optimised = bool(cpu::CpuGemmAssemblyDispatch::validate(a, b, (is_c_bias) ? c : nullptr, d, asm_info)) && gemm_info.reshape_b_only_on_first_run();
69*c217d954SCole Faust 
70*c217d954SCole Faust     // Check if we need to reshape the matrix B only on the first run
71*c217d954SCole Faust     _is_prepared                      = false;
72*c217d954SCole Faust     _reshape_b_only_on_first_run      = gemm_info.reshape_b_only_on_first_run();
73*c217d954SCole Faust     _run_vector_matrix_multiplication = a->dimension(1) < 2;
74*c217d954SCole Faust     _run_alpha_scale                  = alpha != 1.f;
75*c217d954SCole Faust     _run_bias_addition                = c != nullptr && gemm_info.reshape_b_only_on_first_run();
76*c217d954SCole Faust     _run_addition                     = beta != 0 && c != nullptr && !gemm_info.reshape_b_only_on_first_run();
77*c217d954SCole Faust     _run_activation                   = gemm_info.activation_info().enabled() && (!run_optimised || (run_optimised && !cpu::CpuGemmAssemblyDispatch::is_activation_supported(gemm_info.activation_info())));
78*c217d954SCole Faust 
79*c217d954SCole Faust     if(run_optimised)
80*c217d954SCole Faust     {
81*c217d954SCole Faust         const ITensorInfo *c_to_use = is_c_bias ? c : nullptr;
82*c217d954SCole Faust         _asm_glue                   = std::make_unique<cpu::CpuGemmAssemblyDispatch>();
83*c217d954SCole Faust         _asm_glue->configure(a, b, c_to_use, d, asm_info);
84*c217d954SCole Faust         ARM_COMPUTE_ERROR_ON(!_asm_glue->is_configured());
85*c217d954SCole Faust 
86*c217d954SCole Faust         auto asm_mem_req           = _asm_glue->workspace();
87*c217d954SCole Faust         _aux_mem[AsmGemmWorkspace] = asm_mem_req[AsmGemmWorkspace];
88*c217d954SCole Faust         _aux_mem[Pretraspose]      = asm_mem_req[Pretraspose];
89*c217d954SCole Faust 
90*c217d954SCole Faust         // Scale product by alpha
91*c217d954SCole Faust         if(_run_alpha_scale)
92*c217d954SCole Faust         {
93*c217d954SCole Faust             _alpha_scale_func = std::make_unique<cpu::CpuActivation>();
94*c217d954SCole Faust             _alpha_scale_func->configure(d, nullptr, ActivationLayerInfo(ActivationLayerInfo::ActivationFunction::LINEAR, alpha, 0.f));
95*c217d954SCole Faust         }
96*c217d954SCole Faust     }
97*c217d954SCole Faust     else
98*c217d954SCole Faust     {
99*c217d954SCole Faust         // Pick output tensor in case bias addition should be performed
100*c217d954SCole Faust         ITensorInfo *gemm_output_to_use = (_run_bias_addition) ? &_tmp_d : d;
101*c217d954SCole Faust 
102*c217d954SCole Faust         _mm_kernel = std::make_unique<cpu::kernels::CpuGemmMatrixMultiplyKernel>();
103*c217d954SCole Faust 
104*c217d954SCole Faust         // Select between GEMV and GEMM
105*c217d954SCole Faust         if(_run_vector_matrix_multiplication)
106*c217d954SCole Faust         {
107*c217d954SCole Faust             // Configure the matrix multiply kernel
108*c217d954SCole Faust             _mm_kernel->configure(a, b, gemm_output_to_use, alpha, false);
109*c217d954SCole Faust         }
110*c217d954SCole Faust         else
111*c217d954SCole Faust         {
112*c217d954SCole Faust             const int m = a->dimension(1);
113*c217d954SCole Faust             const int n = b->dimension(0);
114*c217d954SCole Faust             const int k = a->dimension(0);
115*c217d954SCole Faust 
116*c217d954SCole Faust             // Configure interleave kernel
117*c217d954SCole Faust             _interleave_kernel = std::make_unique<cpu::kernels::CpuGemmInterleave4x4Kernel>();
118*c217d954SCole Faust             _interleave_kernel->configure(a, &_tmp_a);
119*c217d954SCole Faust             _aux_mem[InterleavedLHS] = MemoryInfo(offset_int_vec(InterleavedLHS), MemoryLifetime::Temporary, _tmp_a.total_size());
120*c217d954SCole Faust 
121*c217d954SCole Faust             // Configure transpose kernel
122*c217d954SCole Faust             _transpose_kernel = std::make_unique<cpu::kernels::CpuGemmTranspose1xWKernel>();
123*c217d954SCole Faust             _transpose_kernel->configure(b, &_tmp_b);
124*c217d954SCole Faust             _aux_mem[TransposedRHS] = MemoryInfo(offset_int_vec(TransposedRHS), MemoryLifetime::Persistent, _tmp_b.total_size());
125*c217d954SCole Faust 
126*c217d954SCole Faust             // Configure matrix multiplication kernel
127*c217d954SCole Faust             _mm_kernel->configure(&_tmp_a, &_tmp_b, gemm_output_to_use, alpha, true, GEMMReshapeInfo(m, n, k));
128*c217d954SCole Faust         }
129*c217d954SCole Faust 
130*c217d954SCole Faust         if(_run_bias_addition)
131*c217d954SCole Faust         {
132*c217d954SCole Faust             _add_bias = std::make_unique<cpu::CpuAdd>();
133*c217d954SCole Faust             _add_bias->configure(gemm_output_to_use, c, d, ConvertPolicy::SATURATE);
134*c217d954SCole Faust             _aux_mem[TempResult] = MemoryInfo(offset_int_vec(TempResult), MemoryLifetime::Temporary, _tmp_d.total_size());
135*c217d954SCole Faust         }
136*c217d954SCole Faust     }
137*c217d954SCole Faust 
138*c217d954SCole Faust     // Configure matrix addition kernel
139*c217d954SCole Faust     if(_run_addition)
140*c217d954SCole Faust     {
141*c217d954SCole Faust         _ma_kernel = std::make_unique<cpu::kernels::CpuGemmMatrixAdditionKernel>();
142*c217d954SCole Faust         _ma_kernel->configure(c, d, beta);
143*c217d954SCole Faust     }
144*c217d954SCole Faust 
145*c217d954SCole Faust     // Configure activation
146*c217d954SCole Faust     if(_run_activation)
147*c217d954SCole Faust     {
148*c217d954SCole Faust         _activation_func = std::make_unique<cpu::CpuActivation>();
149*c217d954SCole Faust         _activation_func->configure(d, nullptr, gemm_info.activation_info());
150*c217d954SCole Faust     }
151*c217d954SCole Faust }
152*c217d954SCole Faust 
validate(const ITensorInfo * a,const ITensorInfo * b,const ITensorInfo * c,const ITensorInfo * d,float alpha,float beta,const GEMMInfo & gemm_info)153*c217d954SCole Faust Status CpuGemm::validate(const ITensorInfo *a, const ITensorInfo *b, const ITensorInfo *c, const ITensorInfo *d, float alpha, float beta, const GEMMInfo &gemm_info)
154*c217d954SCole Faust {
155*c217d954SCole Faust     ARM_COMPUTE_UNUSED(alpha);
156*c217d954SCole Faust     const bool is_c_bias = gemm_info.reshape_b_only_on_first_run();
157*c217d954SCole Faust 
158*c217d954SCole Faust     ARM_COMPUTE_RETURN_ERROR_ON_CPU_F16_UNSUPPORTED(a);
159*c217d954SCole Faust     ARM_COMPUTE_RETURN_ERROR_ON_CPU_BF16_UNSUPPORTED(a);
160*c217d954SCole Faust     ARM_COMPUTE_RETURN_ERROR_ON_DATA_TYPE_CHANNEL_NOT_IN(a, 1, DataType::BFLOAT16, DataType::F16, DataType::F32);
161*c217d954SCole Faust 
162*c217d954SCole Faust     if (is_fixed_format_fast_math(gemm_info.weight_format()))
163*c217d954SCole Faust     {
164*c217d954SCole Faust         ARM_COMPUTE_RETURN_ERROR_ON_DATA_TYPE_NOT_IN(a, DataType::F32);
165*c217d954SCole Faust         ARM_COMPUTE_RETURN_ERROR_ON_DATA_TYPE_NOT_IN(b, DataType::BFLOAT16);
166*c217d954SCole Faust     }
167*c217d954SCole Faust     else
168*c217d954SCole Faust     {
169*c217d954SCole Faust         ARM_COMPUTE_RETURN_ERROR_ON_MISMATCHING_DATA_TYPES(a, b);
170*c217d954SCole Faust     }
171*c217d954SCole Faust 
172*c217d954SCole Faust     ARM_COMPUTE_RETURN_ERROR_ON_MSG(a->dimension(0) != b->dimension(1), "The product AB is defined only if the number of columns in A is equal to the number of rows in B");
173*c217d954SCole Faust     ARM_COMPUTE_RETURN_ERROR_ON_MSG(gemm_info.is_a_reshaped(), "Matrix A already reshaped is not supported");
174*c217d954SCole Faust     ARM_COMPUTE_RETURN_ERROR_ON_MSG(gemm_info.is_b_reshaped(), "Matrix B already reshaped is not supported");
175*c217d954SCole Faust     if(a->data_type() != DataType::BFLOAT16)
176*c217d954SCole Faust     {
177*c217d954SCole Faust         ARM_COMPUTE_RETURN_ERROR_ON_MISMATCHING_DATA_TYPES(a, d);
178*c217d954SCole Faust     }
179*c217d954SCole Faust 
180*c217d954SCole Faust     if(c != nullptr && !is_c_bias)
181*c217d954SCole Faust     {
182*c217d954SCole Faust         ARM_COMPUTE_RETURN_ERROR_ON(gemm_info.depth_output_gemm3d() != 0);
183*c217d954SCole Faust         ARM_COMPUTE_RETURN_ERROR_ON(gemm_info.reinterpret_input_as_3d());
184*c217d954SCole Faust         ARM_COMPUTE_RETURN_ERROR_ON_MISMATCHING_DATA_TYPES(c, d);
185*c217d954SCole Faust         ARM_COMPUTE_RETURN_ERROR_ON_MSG(a->dimension(1) != c->dimension(1), "The C matrix must have the same number of rows as the matrix A");
186*c217d954SCole Faust         ARM_COMPUTE_RETURN_ERROR_ON_MSG(b->dimension(0) != c->dimension(0), "The C matrix must have the same number of columns as the matrix B");
187*c217d954SCole Faust     }
188*c217d954SCole Faust 
189*c217d954SCole Faust     if(d->total_size() != 0)
190*c217d954SCole Faust     {
191*c217d954SCole Faust         // For fixed format we are expecting some kind of blocked format for B/RHS so the dimension won't necessarily match the result matrix any more.
192*c217d954SCole Faust         ARM_COMPUTE_RETURN_ERROR_ON(!gemm_info.fixed_format() && b->dimension(0) != d->dimension(0));
193*c217d954SCole Faust         if(gemm_info.depth_output_gemm3d() != 0)
194*c217d954SCole Faust         {
195*c217d954SCole Faust             if(gemm_info.reinterpret_input_as_3d())
196*c217d954SCole Faust             {
197*c217d954SCole Faust                 ARM_COMPUTE_RETURN_ERROR_ON(a->dimension(1) != d->dimension(1));
198*c217d954SCole Faust                 ARM_COMPUTE_RETURN_ERROR_ON(a->dimension(2) != d->dimension(2));
199*c217d954SCole Faust             }
200*c217d954SCole Faust             else
201*c217d954SCole Faust             {
202*c217d954SCole Faust                 ARM_COMPUTE_RETURN_ERROR_ON(a->dimension(1) != d->dimension(1) * d->dimension(2));
203*c217d954SCole Faust             }
204*c217d954SCole Faust         }
205*c217d954SCole Faust         else
206*c217d954SCole Faust         {
207*c217d954SCole Faust             ARM_COMPUTE_RETURN_ERROR_ON(a->dimension(1) != d->dimension(1));
208*c217d954SCole Faust         }
209*c217d954SCole Faust     }
210*c217d954SCole Faust 
211*c217d954SCole Faust     // Check if we need to run the optimized assembly kernel
212*c217d954SCole Faust     cpu::AsmGemmInfo asm_info      = init_assembly_metadata(gemm_info);
213*c217d954SCole Faust     const bool       run_optimised = bool(cpu::CpuGemmAssemblyDispatch::validate(a, b, is_c_bias ? c : nullptr, d, asm_info));
214*c217d954SCole Faust 
215*c217d954SCole Faust     if(!run_optimised)
216*c217d954SCole Faust     {
217*c217d954SCole Faust         ARM_COMPUTE_RETURN_ERROR_ON_MSG(gemm_info.reinterpret_input_as_3d(), "CpuGemm cannot reinterpret the input tensor as 3D");
218*c217d954SCole Faust         ARM_COMPUTE_RETURN_ERROR_ON_MSG(gemm_info.depth_output_gemm3d() != 0, "CpuGemm cannot reinterpret the output tensor as 3D");
219*c217d954SCole Faust 
220*c217d954SCole Faust         // Check if the first input tensor is a vector.
221*c217d954SCole Faust         const bool run_vector_matrix_multiplication = a->dimension(1) < 2;
222*c217d954SCole Faust         // Check if we need to reshape the matrix A and matrix B
223*c217d954SCole Faust         const bool run_interleave_transpose = !run_vector_matrix_multiplication && !(gemm_info.reshape_b_only_on_first_run());
224*c217d954SCole Faust 
225*c217d954SCole Faust         // Arguments used by GEMMReshapeInfo
226*c217d954SCole Faust         // If we pass the matrix A and matrix B reshaped to CpuGemmMatrixMultiplyKernel, we need to pass m, n, k, mult_transpose1xW_width and mult_interleave4x4_height to GEMMReshapeInfo
227*c217d954SCole Faust         // in order to know how the matrices have been reshaped
228*c217d954SCole Faust         const int m                         = a->dimension(1);
229*c217d954SCole Faust         const int n                         = b->dimension(0);
230*c217d954SCole Faust         const int k                         = a->dimension(0);
231*c217d954SCole Faust         int       mult_transpose1xW_width   = 1;
232*c217d954SCole Faust         int       mult_interleave4x4_height = 1;
233*c217d954SCole Faust 
234*c217d954SCole Faust         const GEMMReshapeInfo reshape_info = GEMMReshapeInfo(m, n, k, mult_transpose1xW_width, mult_interleave4x4_height, gemm_info.depth_output_gemm3d());
235*c217d954SCole Faust 
236*c217d954SCole Faust         const ITensorInfo *matrix_a_info = a;
237*c217d954SCole Faust         const ITensorInfo *matrix_b_info = b;
238*c217d954SCole Faust 
239*c217d954SCole Faust         TensorInfo tmp_a_info{};
240*c217d954SCole Faust         TensorInfo tmp_b_info{};
241*c217d954SCole Faust         TensorInfo tmp_output_info = *d->clone();
242*c217d954SCole Faust 
243*c217d954SCole Faust         if(run_interleave_transpose)
244*c217d954SCole Faust         {
245*c217d954SCole Faust             matrix_a_info = &tmp_a_info;
246*c217d954SCole Faust             matrix_b_info = &tmp_b_info;
247*c217d954SCole Faust 
248*c217d954SCole Faust             // Validate interleave kernel
249*c217d954SCole Faust             auto_init_if_empty(tmp_a_info, a->clone()->set_tensor_shape(compute_interleaved_shape(*a, mult_interleave4x4_height, gemm_info.reinterpret_input_as_3d())));
250*c217d954SCole Faust             ARM_COMPUTE_RETURN_ON_ERROR(cpu::kernels::CpuGemmInterleave4x4Kernel::validate(a, &tmp_a_info));
251*c217d954SCole Faust 
252*c217d954SCole Faust             // Validate transpose kernel
253*c217d954SCole Faust             auto_init_if_empty(tmp_b_info, b->clone()->set_tensor_shape(compute_transpose1xW_with_element_size_shape(*b, mult_transpose1xW_width)));
254*c217d954SCole Faust             ARM_COMPUTE_RETURN_ON_ERROR(cpu::kernels::CpuGemmTranspose1xWKernel::validate(b, &tmp_b_info));
255*c217d954SCole Faust         }
256*c217d954SCole Faust 
257*c217d954SCole Faust         // Validate matrix multiply
258*c217d954SCole Faust         auto_init_if_empty(tmp_output_info, matrix_a_info->clone()->set_tensor_shape(compute_mm_shape(*matrix_a_info, *matrix_b_info, run_interleave_transpose, reshape_info)));
259*c217d954SCole Faust         ARM_COMPUTE_RETURN_ON_ERROR(cpu::kernels::CpuGemmMatrixMultiplyKernel::validate(matrix_a_info, matrix_b_info, &tmp_output_info, alpha, run_interleave_transpose, reshape_info));
260*c217d954SCole Faust 
261*c217d954SCole Faust         if(c != nullptr && gemm_info.reshape_b_only_on_first_run())
262*c217d954SCole Faust         {
263*c217d954SCole Faust             ARM_COMPUTE_RETURN_ON_ERROR(cpu::CpuAdd::validate(&tmp_output_info, c, d, ConvertPolicy::SATURATE));
264*c217d954SCole Faust         }
265*c217d954SCole Faust     }
266*c217d954SCole Faust 
267*c217d954SCole Faust     // Validate matrix addition kernel
268*c217d954SCole Faust     if(beta != 0 && c != nullptr && !is_c_bias)
269*c217d954SCole Faust     {
270*c217d954SCole Faust         ARM_COMPUTE_RETURN_ON_ERROR(cpu::kernels::CpuGemmMatrixAdditionKernel::validate(c, d, beta));
271*c217d954SCole Faust     }
272*c217d954SCole Faust 
273*c217d954SCole Faust     // Validate activation
274*c217d954SCole Faust     const ActivationLayerInfo &activation = gemm_info.activation_info();
275*c217d954SCole Faust     if(activation.enabled())
276*c217d954SCole Faust     {
277*c217d954SCole Faust         ARM_COMPUTE_RETURN_ON_ERROR(cpu::CpuActivation::validate(d, nullptr, activation));
278*c217d954SCole Faust     }
279*c217d954SCole Faust 
280*c217d954SCole Faust     return Status{};
281*c217d954SCole Faust }
282*c217d954SCole Faust 
run(ITensorPack & tensors)283*c217d954SCole Faust void CpuGemm::run(ITensorPack &tensors)
284*c217d954SCole Faust {
285*c217d954SCole Faust     prepare(tensors);
286*c217d954SCole Faust 
287*c217d954SCole Faust     auto a = tensors.get_const_tensor(ACL_SRC_0);
288*c217d954SCole Faust     auto b = tensors.get_const_tensor(ACL_SRC_1);
289*c217d954SCole Faust     auto c = tensors.get_const_tensor(ACL_SRC_2);
290*c217d954SCole Faust     auto d = tensors.get_tensor(ACL_DST);
291*c217d954SCole Faust 
292*c217d954SCole Faust     if(_asm_glue && _asm_glue->is_configured())
293*c217d954SCole Faust     {
294*c217d954SCole Faust         // Pass c to asm dispatch only if it's the bias tensor
295*c217d954SCole Faust         ITensorPack asm_pack = tensors;
296*c217d954SCole Faust         asm_pack.add_const_tensor(ACL_SRC_2, (_reshape_b_only_on_first_run) ? c : nullptr);
297*c217d954SCole Faust         _asm_glue->run(asm_pack);
298*c217d954SCole Faust         if(_run_alpha_scale)
299*c217d954SCole Faust         {
300*c217d954SCole Faust             ITensorPack pack{ { ACL_SRC, d }, { ACL_DST, d } };
301*c217d954SCole Faust             _alpha_scale_func->run(pack);
302*c217d954SCole Faust         }
303*c217d954SCole Faust     }
304*c217d954SCole Faust     else
305*c217d954SCole Faust     {
306*c217d954SCole Faust         CpuAuxTensorHandler interleaved_a(offset_int_vec(InterleavedLHS), _tmp_a, tensors, true);
307*c217d954SCole Faust         CpuAuxTensorHandler transposed_b(offset_int_vec(TransposedRHS), _tmp_b, tensors, true);
308*c217d954SCole Faust         CpuAuxTensorHandler temp_d(offset_int_vec(TempResult), _tmp_d, tensors, true);
309*c217d954SCole Faust 
310*c217d954SCole Faust         ITensorPack mm_pack{ { ACL_SRC_0, a }, { ACL_SRC_1, b }, { ACL_DST, (_run_bias_addition) ? temp_d.get() : d } };
311*c217d954SCole Faust         if(!_run_vector_matrix_multiplication)
312*c217d954SCole Faust         {
313*c217d954SCole Faust             // Run interleave kernel
314*c217d954SCole Faust             ITensorPack interleave_pack{ { ACL_SRC, a }, { ACL_DST, interleaved_a.get() } };
315*c217d954SCole Faust             NEScheduler::get().schedule_op(_interleave_kernel.get(), Window::DimY, _interleave_kernel->window(), interleave_pack);
316*c217d954SCole Faust 
317*c217d954SCole Faust             if(!_reshape_b_only_on_first_run)
318*c217d954SCole Faust             {
319*c217d954SCole Faust                 // Run transpose kernel
320*c217d954SCole Faust                 ITensorPack transpose_pack{ { ACL_SRC, b }, { ACL_DST, transposed_b.get() } };
321*c217d954SCole Faust                 NEScheduler::get().schedule_op(_transpose_kernel.get(), Window::DimY, _transpose_kernel->window(), transpose_pack);
322*c217d954SCole Faust             }
323*c217d954SCole Faust 
324*c217d954SCole Faust             // Use reshaped matrices
325*c217d954SCole Faust             mm_pack.add_const_tensor(ACL_SRC_0, interleaved_a.get());
326*c217d954SCole Faust             mm_pack.add_const_tensor(ACL_SRC_1, transposed_b.get());
327*c217d954SCole Faust         }
328*c217d954SCole Faust 
329*c217d954SCole Faust         NEScheduler::get().schedule_op(_mm_kernel.get(), _run_vector_matrix_multiplication ? Window::DimX : Window::DimY, _mm_kernel->window(), mm_pack);
330*c217d954SCole Faust 
331*c217d954SCole Faust         // Run bias addition kernel
332*c217d954SCole Faust         if(_run_bias_addition)
333*c217d954SCole Faust         {
334*c217d954SCole Faust             ITensorPack pack{ { ACL_SRC_0, temp_d.get() }, { ACL_SRC_1, c }, { ACL_DST, d } };
335*c217d954SCole Faust             _add_bias->run(pack);
336*c217d954SCole Faust         }
337*c217d954SCole Faust     }
338*c217d954SCole Faust 
339*c217d954SCole Faust     // Run matrix addition kernel
340*c217d954SCole Faust     if(_run_addition)
341*c217d954SCole Faust     {
342*c217d954SCole Faust         ITensorPack c_add_pack{ { ACL_SRC, c }, { ACL_DST, d } };
343*c217d954SCole Faust         NEScheduler::get().schedule_op(_ma_kernel.get(), Window::DimY, _ma_kernel->window(), c_add_pack);
344*c217d954SCole Faust     }
345*c217d954SCole Faust 
346*c217d954SCole Faust     // Run activation function
347*c217d954SCole Faust     if(_run_activation)
348*c217d954SCole Faust     {
349*c217d954SCole Faust         ITensorPack pack{ { ACL_SRC, d }, { ACL_DST, d } };
350*c217d954SCole Faust         _activation_func->run(pack);
351*c217d954SCole Faust     }
352*c217d954SCole Faust }
353*c217d954SCole Faust 
prepare(ITensorPack & tensors)354*c217d954SCole Faust void CpuGemm::prepare(ITensorPack &tensors)
355*c217d954SCole Faust {
356*c217d954SCole Faust     if(!_is_prepared)
357*c217d954SCole Faust     {
358*c217d954SCole Faust         if(_asm_glue && _asm_glue->is_configured())
359*c217d954SCole Faust         {
360*c217d954SCole Faust             _asm_glue->prepare(tensors);
361*c217d954SCole Faust         }
362*c217d954SCole Faust         else if(_reshape_b_only_on_first_run && !_run_vector_matrix_multiplication)
363*c217d954SCole Faust         {
364*c217d954SCole Faust             const ITensor *b     = tensors.get_const_tensor(ACL_SRC_1);
365*c217d954SCole Faust             ITensor       *b_aux = utils::cast::polymorphic_cast<ITensor *>(tensors.get_tensor(offset_int_vec(TransposedRHS)));
366*c217d954SCole Faust             ARM_COMPUTE_ERROR_ON_NULLPTR(b, b_aux);
367*c217d954SCole Faust 
368*c217d954SCole Faust             CpuAuxTensorHandler transposed_b(_tmp_b, *b_aux);
369*c217d954SCole Faust             ITensorPack         transpose_pack{ { ACL_SRC, b }, { ACL_DST, transposed_b.get() } };
370*c217d954SCole Faust             NEScheduler::get().schedule_op(_transpose_kernel.get(), Window::DimY, _transpose_kernel->window(), transpose_pack);
371*c217d954SCole Faust         }
372*c217d954SCole Faust         _is_prepared = true;
373*c217d954SCole Faust     }
374*c217d954SCole Faust }
375*c217d954SCole Faust 
workspace() const376*c217d954SCole Faust experimental::MemoryRequirements CpuGemm::workspace() const
377*c217d954SCole Faust {
378*c217d954SCole Faust     return _aux_mem;
379*c217d954SCole Faust }
380*c217d954SCole Faust 
has_opt_impl(arm_compute::WeightFormat & expected_weight_format,const ITensorInfo * a,const ITensorInfo * b,const ITensorInfo * c,const ITensorInfo * d,const GEMMInfo & gemm_info)381*c217d954SCole Faust Status CpuGemm::has_opt_impl(arm_compute::WeightFormat &expected_weight_format, const ITensorInfo *a, const ITensorInfo *b, const ITensorInfo *c, const ITensorInfo *d,
382*c217d954SCole Faust                              const GEMMInfo &gemm_info)
383*c217d954SCole Faust {
384*c217d954SCole Faust     const cpu::AsmGemmInfo asm_info = init_assembly_metadata(gemm_info);
385*c217d954SCole Faust 
386*c217d954SCole Faust     return CpuGemmAssemblyDispatch::has_opt_impl(expected_weight_format, a, b, c, d, asm_info);
387*c217d954SCole Faust }
388*c217d954SCole Faust 
isVarWeightsKernel() const389*c217d954SCole Faust bool CpuGemm::isVarWeightsKernel() const
390*c217d954SCole Faust {
391*c217d954SCole Faust     return _asm_glue && _asm_glue->isVarWeightsKernel();
392*c217d954SCole Faust }
393*c217d954SCole Faust } // namespace cpu
394*c217d954SCole Faust } // namespace arm_compute
395