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authorMoritz Pflanzer <moritz.pflanzer@arm.com>2017-09-01 20:41:12 +0100
committerAnthony Barbier <anthony.barbier@arm.com>2018-11-02 16:35:24 +0000
commita09de0c8b2ed0f1481502d3b023375609362d9e3 (patch)
treee34b56d9ca69b025d7d9b943cc4df59cd458f6cb /tests/networks_new/AlexNetNetwork.h
parent5280071b336d53aff94ca3a6c70ebbe6bf03f4c3 (diff)
downloadComputeLibrary-a09de0c8b2ed0f1481502d3b023375609362d9e3.tar.gz
COMPMID-415: Rename and move tests
The boost validation is now "standalone" in validation_old and builds as arm_compute_validation_old. The new validation builds now as arm_compute_validation. Change-Id: Ib93ba848a25680ac60afb92b461d574a0757150d Reviewed-on: http://mpd-gerrit.cambridge.arm.com/86187 Tested-by: Kaizen <jeremy.johnson+kaizengerrit@arm.com> Reviewed-by: Anthony Barbier <anthony.barbier@arm.com>
Diffstat (limited to 'tests/networks_new/AlexNetNetwork.h')
-rw-r--r--tests/networks_new/AlexNetNetwork.h622
1 files changed, 0 insertions, 622 deletions
diff --git a/tests/networks_new/AlexNetNetwork.h b/tests/networks_new/AlexNetNetwork.h
deleted file mode 100644
index 11171d6ec2..0000000000
--- a/tests/networks_new/AlexNetNetwork.h
+++ /dev/null
@@ -1,622 +0,0 @@
-/*
- * Copyright (c) 2017 ARM Limited.
- *
- * SPDX-License-Identifier: MIT
- *
- * Permission is hereby granted, free of charge, to any person obtaining a copy
- * of this software and associated documentation files (the "Software"), to
- * deal in the Software without restriction, including without limitation the
- * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
- * sell copies of the Software, and to permit persons to whom the Software is
- * furnished to do so, subject to the following conditions:
- *
- * The above copyright notice and this permission notice shall be included in all
- * copies or substantial portions of the Software.
- *
- * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
- * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
- * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
- * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
- * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
- * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
- * SOFTWARE.
- */
-#ifndef __ARM_COMPUTE_TEST_MODEL_OBJECTS_ALEXNET_H__
-#define __ARM_COMPUTE_TEST_MODEL_OBJECTS_ALEXNET_H__
-
-#include "arm_compute/runtime/Tensor.h"
-
-#include "AssetsLibrary.h"
-#include "Globals.h"
-#include "Utils.h"
-
-#include <memory>
-
-namespace arm_compute
-{
-namespace test
-{
-namespace networks
-{
-/** AlexNet model object */
-template <typename ITensorType,
- typename TensorType,
- typename SubTensorType,
- typename Accessor,
- typename ActivationLayerFunction,
- typename ConvolutionLayerFunction,
- typename DirectConvolutionLayerFunction,
- typename FullyConnectedLayerFunction,
- typename NormalizationLayerFunction,
- typename PoolingLayerFunction,
- typename SoftmaxLayerFunction>
-class AlexNetNetwork
-{
-public:
- void init(DataType data_type, int fixed_point_position, int batches, bool reshaped_weights = false)
- {
- _data_type = data_type;
- _fixed_point_position = fixed_point_position;
- _batches = batches;
- _reshaped_weights = reshaped_weights;
-
- // Initialize weights and biases
- if(!_reshaped_weights)
- {
- w[0].allocator()->init(TensorInfo(TensorShape(11U, 11U, 3U, 96U), 1, _data_type, _fixed_point_position));
- b[0].allocator()->init(TensorInfo(TensorShape(96U), 1, _data_type, _fixed_point_position));
- w[1].allocator()->init(TensorInfo(TensorShape(5U, 5U, 48U, 256U), 1, _data_type, _fixed_point_position));
- b[1].allocator()->init(TensorInfo(TensorShape(256U), 1, _data_type, _fixed_point_position));
- w[2].allocator()->init(TensorInfo(TensorShape(3U, 3U, 256U, 384U), 1, _data_type, _fixed_point_position));
- b[2].allocator()->init(TensorInfo(TensorShape(384U), 1, _data_type, _fixed_point_position));
- w[3].allocator()->init(TensorInfo(TensorShape(3U, 3U, 192U, 384U), 1, _data_type, _fixed_point_position));
- b[3].allocator()->init(TensorInfo(TensorShape(384U), 1, _data_type, _fixed_point_position));
- w[4].allocator()->init(TensorInfo(TensorShape(3U, 3U, 192U, 256U), 1, _data_type, _fixed_point_position));
- b[4].allocator()->init(TensorInfo(TensorShape(256U), 1, _data_type, _fixed_point_position));
- w[5].allocator()->init(TensorInfo(TensorShape(9216U, 4096U), 1, _data_type, _fixed_point_position));
- b[5].allocator()->init(TensorInfo(TensorShape(4096U), 1, _data_type, _fixed_point_position));
- w[6].allocator()->init(TensorInfo(TensorShape(4096U, 4096U), 1, _data_type, _fixed_point_position));
- b[6].allocator()->init(TensorInfo(TensorShape(4096U), 1, _data_type, _fixed_point_position));
- w[7].allocator()->init(TensorInfo(TensorShape(4096U, 1000U), 1, _data_type, _fixed_point_position));
- b[7].allocator()->init(TensorInfo(TensorShape(1000U), 1, _data_type, _fixed_point_position));
-
- w21 = std::unique_ptr<SubTensorType>(new SubTensorType(&w[1], TensorShape(5U, 5U, 48U, 128U), Coordinates()));
- w22 = std::unique_ptr<SubTensorType>(new SubTensorType(&w[1], TensorShape(5U, 5U, 48U, 128U), Coordinates(0, 0, 0, 128)));
- b21 = std::unique_ptr<SubTensorType>(new SubTensorType(&b[1], TensorShape(128U), Coordinates()));
- b22 = std::unique_ptr<SubTensorType>(new SubTensorType(&b[1], TensorShape(128U), Coordinates(128)));
-
- w41 = std::unique_ptr<SubTensorType>(new SubTensorType(&w[3], TensorShape(3U, 3U, 192U, 192U), Coordinates()));
- w42 = std::unique_ptr<SubTensorType>(new SubTensorType(&w[3], TensorShape(3U, 3U, 192U, 192U), Coordinates(0, 0, 0, 192)));
- b41 = std::unique_ptr<SubTensorType>(new SubTensorType(&b[3], TensorShape(192U), Coordinates()));
- b42 = std::unique_ptr<SubTensorType>(new SubTensorType(&b[3], TensorShape(192U), Coordinates(192)));
-
- w51 = std::unique_ptr<SubTensorType>(new SubTensorType(&w[4], TensorShape(3U, 3U, 192U, 128U), Coordinates()));
- w52 = std::unique_ptr<SubTensorType>(new SubTensorType(&w[4], TensorShape(3U, 3U, 192U, 128U), Coordinates(0, 0, 0, 128)));
- b51 = std::unique_ptr<SubTensorType>(new SubTensorType(&b[4], TensorShape(128U), Coordinates()));
- b52 = std::unique_ptr<SubTensorType>(new SubTensorType(&b[4], TensorShape(128U), Coordinates(128)));
- }
- else
- {
- auto reshape = [&](unsigned int width, unsigned int height) -> TensorShape
- {
- const int interleave_width = 16 / arm_compute::data_size_from_type(_data_type);
-
- return TensorShape{ width * interleave_width, static_cast<unsigned int>(std::ceil(static_cast<float>(height) / interleave_width)) };
- };
-
- // Create tensor for the reshaped weights
- w[0].allocator()->init(TensorInfo(reshape(366U, 96U), 1, _data_type, _fixed_point_position));
-
- // Configure the direct convolution's weights. Direct convolution doesn't need reshape weights
- if(!_is_direct_conv)
- {
- auto w21_tensor = std::unique_ptr<TensorType>(new TensorType());
- auto w22_tensor = std::unique_ptr<TensorType>(new TensorType());
- auto w41_tensor = std::unique_ptr<TensorType>(new TensorType());
- auto w42_tensor = std::unique_ptr<TensorType>(new TensorType());
- auto w51_tensor = std::unique_ptr<TensorType>(new TensorType());
- auto w52_tensor = std::unique_ptr<TensorType>(new TensorType());
- w21_tensor->allocator()->init(TensorInfo(reshape(1248U, 128U), 1, _data_type, _fixed_point_position));
- w22_tensor->allocator()->init(TensorInfo(reshape(1248U, 128U), 1, _data_type, _fixed_point_position));
- w41_tensor->allocator()->init(TensorInfo(reshape(1920U, 192U), 1, _data_type, _fixed_point_position));
- w42_tensor->allocator()->init(TensorInfo(reshape(1920U, 192U), 1, _data_type, _fixed_point_position));
- w51_tensor->allocator()->init(TensorInfo(reshape(1920U, 128U), 1, _data_type, _fixed_point_position));
- w52_tensor->allocator()->init(TensorInfo(reshape(1920U, 128U), 1, _data_type, _fixed_point_position));
- w[2].allocator()->init(TensorInfo(reshape(2560U, 384U), 1, _data_type, _fixed_point_position));
- w21 = std::move(w21_tensor);
- w22 = std::move(w22_tensor);
- w41 = std::move(w41_tensor);
- w42 = std::move(w42_tensor);
- w51 = std::move(w51_tensor);
- w52 = std::move(w52_tensor);
- }
- else
- {
- w[1].allocator()->init(TensorInfo(TensorShape(5U, 5U, 48U, 256U), 1, _data_type, _fixed_point_position));
- b[1].allocator()->init(TensorInfo(TensorShape(256U), 1, _data_type, _fixed_point_position));
- w[2].allocator()->init(TensorInfo(TensorShape(3U, 3U, 256U, 384U), 1, _data_type, _fixed_point_position));
- b[2].allocator()->init(TensorInfo(TensorShape(384U), 1, _data_type, _fixed_point_position));
- w[3].allocator()->init(TensorInfo(TensorShape(3U, 3U, 192U, 384U), 1, _data_type, _fixed_point_position));
- b[3].allocator()->init(TensorInfo(TensorShape(384U), 1, _data_type, _fixed_point_position));
- w[4].allocator()->init(TensorInfo(TensorShape(3U, 3U, 192U, 256U), 1, _data_type, _fixed_point_position));
- b[4].allocator()->init(TensorInfo(TensorShape(256U), 1, _data_type, _fixed_point_position));
- w21 = std::unique_ptr<SubTensorType>(new SubTensorType(&w[1], TensorShape(5U, 5U, 48U, 128U), Coordinates()));
- w22 = std::unique_ptr<SubTensorType>(new SubTensorType(&w[1], TensorShape(5U, 5U, 48U, 128U), Coordinates(0, 0, 0, 128)));
- b21 = std::unique_ptr<SubTensorType>(new SubTensorType(&b[1], TensorShape(128U), Coordinates()));
- b22 = std::unique_ptr<SubTensorType>(new SubTensorType(&b[1], TensorShape(128U), Coordinates(128)));
-
- w41 = std::unique_ptr<SubTensorType>(new SubTensorType(&w[3], TensorShape(3U, 3U, 192U, 192U), Coordinates()));
- w42 = std::unique_ptr<SubTensorType>(new SubTensorType(&w[3], TensorShape(3U, 3U, 192U, 192U), Coordinates(0, 0, 0, 192)));
- b41 = std::unique_ptr<SubTensorType>(new SubTensorType(&b[3], TensorShape(192U), Coordinates()));
- b42 = std::unique_ptr<SubTensorType>(new SubTensorType(&b[3], TensorShape(192U), Coordinates(192)));
-
- w51 = std::unique_ptr<SubTensorType>(new SubTensorType(&w[4], TensorShape(3U, 3U, 192U, 128U), Coordinates()));
- w52 = std::unique_ptr<SubTensorType>(new SubTensorType(&w[4], TensorShape(3U, 3U, 192U, 128U), Coordinates(0, 0, 0, 128)));
- b51 = std::unique_ptr<SubTensorType>(new SubTensorType(&b[4], TensorShape(128U), Coordinates()));
- b52 = std::unique_ptr<SubTensorType>(new SubTensorType(&b[4], TensorShape(128U), Coordinates(128)));
- }
-
- b[5].allocator()->init(TensorInfo(TensorShape(4096U), 1, _data_type, _fixed_point_position));
- b[6].allocator()->init(TensorInfo(TensorShape(4096U), 1, _data_type, _fixed_point_position));
- b[7].allocator()->init(TensorInfo(TensorShape(1000U), 1, _data_type, _fixed_point_position));
-
- if(_batches > 1 && std::is_same<TensorType, Tensor>::value)
- {
- w[5].allocator()->init(TensorInfo(reshape(9216U, 4096U), 1, _data_type, _fixed_point_position));
- w[6].allocator()->init(TensorInfo(reshape(4096U, 4096U), 1, _data_type, _fixed_point_position));
- w[7].allocator()->init(TensorInfo(reshape(4096U, 1000U), 1, _data_type, _fixed_point_position));
- }
- else
- {
- w[5].allocator()->init(TensorInfo(TensorShape(4096U, 9216U), 1, _data_type, _fixed_point_position));
- w[6].allocator()->init(TensorInfo(TensorShape(4096U, 4096U), 1, _data_type, _fixed_point_position));
- w[7].allocator()->init(TensorInfo(TensorShape(1000U, 4096U), 1, _data_type, _fixed_point_position));
- }
- }
- }
-
- void build()
- {
- input.allocator()->init(TensorInfo(TensorShape(227U, 227U, 3U, _batches), 1, _data_type, _fixed_point_position));
- output.allocator()->init(TensorInfo(TensorShape(1000U, _batches), 1, _data_type, _fixed_point_position));
-
- // Initialize intermediate tensors
- // Layer 1
- conv1_out.allocator()->init(TensorInfo(TensorShape(55U, 55U, 96U, _batches), 1, _data_type, _fixed_point_position));
- act1_out.allocator()->init(TensorInfo(TensorShape(55U, 55U, 96U, _batches), 1, _data_type, _fixed_point_position));
- norm1_out.allocator()->init(TensorInfo(TensorShape(55U, 55U, 96U, _batches), 1, _data_type, _fixed_point_position));
- pool1_out.allocator()->init(TensorInfo(TensorShape(27U, 27U, 96U, _batches), 1, _data_type, _fixed_point_position));
- pool11_out = std::unique_ptr<SubTensorType>(new SubTensorType(&pool1_out, TensorShape(27U, 27U, 48U, _batches), Coordinates()));
- pool12_out = std::unique_ptr<SubTensorType>(new SubTensorType(&pool1_out, TensorShape(27U, 27U, 48U, _batches), Coordinates(0, 0, 48)));
- // Layer 2
- conv2_out.allocator()->init(TensorInfo(TensorShape(27U, 27U, 256U, _batches), 1, _data_type, _fixed_point_position));
- conv21_out = std::unique_ptr<SubTensorType>(new SubTensorType(&conv2_out, TensorShape(27U, 27U, 128U, _batches), Coordinates()));
- conv22_out = std::unique_ptr<SubTensorType>(new SubTensorType(&conv2_out, TensorShape(27U, 27U, 128U, _batches), Coordinates(0, 0, 128)));
- act2_out.allocator()->init(TensorInfo(TensorShape(27U, 27U, 256U, _batches), 1, _data_type, _fixed_point_position));
- norm2_out.allocator()->init(TensorInfo(TensorShape(27U, 27U, 256U, _batches), 1, _data_type, _fixed_point_position));
- pool2_out.allocator()->init(TensorInfo(TensorShape(13U, 13U, 256U, _batches), 1, _data_type, _fixed_point_position));
- // Layer 3
- conv3_out.allocator()->init(TensorInfo(TensorShape(13U, 13U, 384U, _batches), 1, _data_type, _fixed_point_position));
- act3_out.allocator()->init(TensorInfo(TensorShape(13U, 13U, 384U, _batches), 1, _data_type, _fixed_point_position));
- act31_out = std::unique_ptr<SubTensorType>(new SubTensorType(&act3_out, TensorShape(13U, 13U, 192U, _batches), Coordinates()));
- act32_out = std::unique_ptr<SubTensorType>(new SubTensorType(&act3_out, TensorShape(13U, 13U, 192U, _batches), Coordinates(0, 0, 192)));
- // Layer 4
- conv4_out.allocator()->init(TensorInfo(TensorShape(13U, 13U, 384U, _batches), 1, _data_type, _fixed_point_position));
- conv41_out = std::unique_ptr<SubTensorType>(new SubTensorType(&conv4_out, TensorShape(13U, 13U, 192U, _batches), Coordinates()));
- conv42_out = std::unique_ptr<SubTensorType>(new SubTensorType(&conv4_out, TensorShape(13U, 13U, 192U, _batches), Coordinates(0, 0, 192)));
- act4_out.allocator()->init(TensorInfo(TensorShape(13U, 13U, 384U, _batches), 1, _data_type, _fixed_point_position));
- act41_out = std::unique_ptr<SubTensorType>(new SubTensorType(&act4_out, TensorShape(13U, 13U, 192U, _batches), Coordinates()));
- act42_out = std::unique_ptr<SubTensorType>(new SubTensorType(&act4_out, TensorShape(13U, 13U, 192U, _batches), Coordinates(0, 0, 192)));
- // Layer 5
- conv5_out.allocator()->init(TensorInfo(TensorShape(13U, 13U, 256U, _batches), 1, _data_type, _fixed_point_position));
- conv51_out = std::unique_ptr<SubTensorType>(new SubTensorType(&conv5_out, TensorShape(13U, 13U, 128U, _batches), Coordinates()));
- conv52_out = std::unique_ptr<SubTensorType>(new SubTensorType(&conv5_out, TensorShape(13U, 13U, 128U, _batches), Coordinates(0, 0, 128)));
- act5_out.allocator()->init(TensorInfo(TensorShape(13U, 13U, 256U, _batches), 1, _data_type, _fixed_point_position));
- pool5_out.allocator()->init(TensorInfo(TensorShape(6U, 6U, 256U, _batches), 1, _data_type, _fixed_point_position));
- // Layer 6
- fc6_out.allocator()->init(TensorInfo(TensorShape(4096U, _batches), 1, _data_type, _fixed_point_position));
- act6_out.allocator()->init(TensorInfo(TensorShape(4096U, _batches), 1, _data_type, _fixed_point_position));
- // Layer 7
- fc7_out.allocator()->init(TensorInfo(TensorShape(4096U, _batches), 1, _data_type, _fixed_point_position));
- act7_out.allocator()->init(TensorInfo(TensorShape(4096U, _batches), 1, _data_type, _fixed_point_position));
- // Layer 8
- fc8_out.allocator()->init(TensorInfo(TensorShape(1000U, _batches), 1, _data_type, _fixed_point_position));
-
- // Configure Layers
- // Layer 1
- TensorType *b0 = _reshaped_weights ? nullptr : &b[0];
- conv1.configure(&input, &w[0], b0, &conv1_out, PadStrideInfo(4, 4, 0, 0), WeightsInfo(_reshaped_weights, 11U, 11U, 96U));
- act1.configure(&conv1_out, &act1_out, ActivationLayerInfo(ActivationLayerInfo::ActivationFunction::RELU));
- norm1.configure(&act1_out, &norm1_out, NormalizationLayerInfo(NormType::CROSS_MAP, 5, 0.0001f, 0.75f));
- pool1.configure(&norm1_out, &pool1_out, PoolingLayerInfo(PoolingType::MAX, 3, PadStrideInfo(2, 2, 0, 0)));
- // Layer 2
- conv21.configure(pool11_out.get(), w21.get(), b21.get(), conv21_out.get(), PadStrideInfo(1, 1, 2, 2), WeightsInfo(_reshaped_weights, 5U, 5U, 128U));
- conv22.configure(pool12_out.get(), w22.get(), b22.get(), conv22_out.get(), PadStrideInfo(1, 1, 2, 2), WeightsInfo(_reshaped_weights, 5U, 5U, 128U));
- act2.configure(&conv2_out, &act2_out, ActivationLayerInfo(ActivationLayerInfo::ActivationFunction::RELU));
- norm2.configure(&act2_out, &norm2_out, NormalizationLayerInfo(NormType::CROSS_MAP, 5, 0.0001f, 0.75f));
- pool2.configure(&norm2_out, &pool2_out, PoolingLayerInfo(PoolingType::MAX, 3, PadStrideInfo(2, 2, 0, 0)));
- // Layer 3
- TensorType *b2 = (_reshaped_weights && !_is_direct_conv) ? nullptr : &b[2];
- conv3.configure(&pool2_out, &w[2], b2, &conv3_out, PadStrideInfo(1, 1, 1, 1), WeightsInfo(_reshaped_weights, 3U, 3U, 384U));
- act3.configure(&conv3_out, &act3_out, ActivationLayerInfo(ActivationLayerInfo::ActivationFunction::RELU));
- // Layer 4
- conv41.configure(act31_out.get(), w41.get(), b41.get(), conv41_out.get(), PadStrideInfo(1, 1, 1, 1), WeightsInfo(_reshaped_weights, 3U, 3U, 192U));
- conv42.configure(act32_out.get(), w42.get(), b42.get(), conv42_out.get(), PadStrideInfo(1, 1, 1, 1), WeightsInfo(_reshaped_weights, 3U, 3U, 192U));
- act4.configure(&conv4_out, &act4_out, ActivationLayerInfo(ActivationLayerInfo::ActivationFunction::RELU));
- // Layer 5
- conv51.configure(act41_out.get(), w51.get(), b51.get(), conv51_out.get(), PadStrideInfo(1, 1, 1, 1), WeightsInfo(_reshaped_weights, 3U, 3U, 128U));
- conv52.configure(act42_out.get(), w52.get(), b52.get(), conv52_out.get(), PadStrideInfo(1, 1, 1, 1), WeightsInfo(_reshaped_weights, 3U, 3U, 128U));
- act5.configure(&conv5_out, &act5_out, ActivationLayerInfo(ActivationLayerInfo::ActivationFunction::RELU));
- pool5.configure(&act5_out, &pool5_out, PoolingLayerInfo(PoolingType::MAX, 3, PadStrideInfo(2, 2, 0, 0)));
- // Layer 6
- fc6.configure(&pool5_out, &w[5], &b[5], &fc6_out, true, _reshaped_weights);
- act6.configure(&fc6_out, &act6_out, ActivationLayerInfo(ActivationLayerInfo::ActivationFunction::RELU));
- // Layer 7
- fc7.configure(&act6_out, &w[6], &b[6], &fc7_out, true, _reshaped_weights);
- act7.configure(&fc7_out, &act7_out, ActivationLayerInfo(ActivationLayerInfo::ActivationFunction::RELU));
- // Layer 8
- fc8.configure(&act7_out, &w[7], &b[7], &fc8_out, true, _reshaped_weights);
- // Softmax
- smx.configure(&fc8_out, &output);
- }
-
- void allocate()
- {
- input.allocator()->allocate();
- output.allocator()->allocate();
-
- if(!_reshaped_weights)
- {
- for(auto &wi : w)
- {
- wi.allocator()->allocate();
- }
-
- for(auto &bi : b)
- {
- bi.allocator()->allocate();
- }
- }
- else
- {
- w[0].allocator()->allocate();
- w[2].allocator()->allocate();
- w[5].allocator()->allocate();
- w[6].allocator()->allocate();
- w[7].allocator()->allocate();
-
- b[5].allocator()->allocate();
- b[6].allocator()->allocate();
- b[7].allocator()->allocate();
-
- if(!_is_direct_conv)
- {
- dynamic_cast<TensorType *>(w21.get())->allocator()->allocate();
- dynamic_cast<TensorType *>(w22.get())->allocator()->allocate();
- dynamic_cast<TensorType *>(w41.get())->allocator()->allocate();
- dynamic_cast<TensorType *>(w42.get())->allocator()->allocate();
- dynamic_cast<TensorType *>(w51.get())->allocator()->allocate();
- dynamic_cast<TensorType *>(w52.get())->allocator()->allocate();
- }
- else
- {
- b[1].allocator()->allocate();
- b[2].allocator()->allocate();
- b[3].allocator()->allocate();
- b[4].allocator()->allocate();
- w[1].allocator()->allocate();
- w[3].allocator()->allocate();
- w[4].allocator()->allocate();
- }
- }
-
- conv1_out.allocator()->allocate();
- act1_out.allocator()->allocate();
- norm1_out.allocator()->allocate();
- pool1_out.allocator()->allocate();
- conv2_out.allocator()->allocate();
- act2_out.allocator()->allocate();
- norm2_out.allocator()->allocate();
- pool2_out.allocator()->allocate();
- conv3_out.allocator()->allocate();
- act3_out.allocator()->allocate();
- conv4_out.allocator()->allocate();
- act4_out.allocator()->allocate();
- conv5_out.allocator()->allocate();
- act5_out.allocator()->allocate();
- pool5_out.allocator()->allocate();
- fc6_out.allocator()->allocate();
- act6_out.allocator()->allocate();
- fc7_out.allocator()->allocate();
- act7_out.allocator()->allocate();
- fc8_out.allocator()->allocate();
- }
-
- /** Fills the trainable parameters and input with random data. */
- void fill_random()
- {
- library->fill_tensor_uniform(Accessor(input), 0);
-
- if(!_reshaped_weights)
- {
- for(unsigned int i = 0; i < w.size(); ++i)
- {
- library->fill_tensor_uniform(Accessor(w[i]), i + 1);
- library->fill_tensor_uniform(Accessor(b[i]), i + 10);
- }
- }
- else
- {
- library->fill_tensor_uniform(Accessor(w[0]), 1);
- library->fill_tensor_uniform(Accessor(w[2]), 2);
-
- library->fill_tensor_uniform(Accessor(w[5]), 3);
- library->fill_tensor_uniform(Accessor(b[5]), 4);
- library->fill_tensor_uniform(Accessor(w[6]), 5);
- library->fill_tensor_uniform(Accessor(b[6]), 6);
- library->fill_tensor_uniform(Accessor(w[7]), 7);
- library->fill_tensor_uniform(Accessor(b[7]), 8);
-
- if(!_is_direct_conv)
- {
- library->fill_tensor_uniform(Accessor(*dynamic_cast<TensorType *>(w21.get())), 9);
- library->fill_tensor_uniform(Accessor(*dynamic_cast<TensorType *>(w22.get())), 10);
- library->fill_tensor_uniform(Accessor(*dynamic_cast<TensorType *>(w41.get())), 11);
- library->fill_tensor_uniform(Accessor(*dynamic_cast<TensorType *>(w42.get())), 12);
- library->fill_tensor_uniform(Accessor(*dynamic_cast<TensorType *>(w51.get())), 13);
- library->fill_tensor_uniform(Accessor(*dynamic_cast<TensorType *>(w52.get())), 14);
- }
- else
- {
- library->fill_tensor_uniform(Accessor(w[1]), 9);
- library->fill_tensor_uniform(Accessor(b[1]), 10);
- library->fill_tensor_uniform(Accessor(w[3]), 11);
- library->fill_tensor_uniform(Accessor(b[3]), 12);
- library->fill_tensor_uniform(Accessor(w[4]), 13);
- library->fill_tensor_uniform(Accessor(b[4]), 14);
- }
- }
- }
-
-#ifdef INTERNAL_ONLY
- /** Fills the trainable parameters from binary files
- *
- * @param weights Files names containing the weights data
- * @param biases Files names containing the bias data
- */
- void fill(std::vector<std::string> weights, std::vector<std::string> biases)
- {
- ARM_COMPUTE_ERROR_ON(weights.size() != w.size());
- ARM_COMPUTE_ERROR_ON(biases.size() != b.size());
- ARM_COMPUTE_ERROR_ON(_reshaped_weights);
-
- for(unsigned int i = 0; i < weights.size(); ++i)
- {
- library->fill_layer_data(Accessor(w[i]), weights[i]);
- library->fill_layer_data(Accessor(b[i]), biases[i]);
- }
- }
-
- /** Feed input to network from file.
- *
- * @param name File name of containing the input data.
- */
- void feed(std::string name)
- {
- library->fill_layer_data(Accessor(input), name);
- }
-#endif /* INTERNAL_ONLY */
-
- /** Get the classification results.
- *
- * @return Vector containing the classified labels
- */
- std::vector<unsigned int> get_classifications()
- {
- std::vector<unsigned int> classified_labels;
- Accessor output_accessor(output);
-
- Window window;
- window.set(Window::DimX, Window::Dimension(0, 1, 1));
- for(unsigned int d = 1; d < output_accessor.shape().num_dimensions(); ++d)
- {
- window.set(d, Window::Dimension(0, output_accessor.shape()[d], 1));
- }
-
- execute_window_loop(window, [&](const Coordinates & id)
- {
- int max_idx = 0;
- float val = 0;
- const void *const out_ptr = output_accessor(id);
- for(unsigned int l = 0; l < output_accessor.shape().x(); ++l)
- {
- float curr_val = reinterpret_cast<const float *>(out_ptr)[l];
- if(curr_val > val)
- {
- max_idx = l;
- val = curr_val;
- }
- }
- classified_labels.push_back(max_idx);
- });
- return classified_labels;
- }
-
- /** Clear all allocated memory from the tensor objects */
- void clear()
- {
- // Free allocations
- input.allocator()->free();
- output.allocator()->free();
-
- if(!_reshaped_weights)
- {
- for(auto &wi : w)
- {
- wi.allocator()->free();
- }
-
- for(auto &bi : b)
- {
- bi.allocator()->free();
- }
- }
- else
- {
- w[0].allocator()->free();
- w[2].allocator()->free();
- w[5].allocator()->free();
- w[6].allocator()->free();
- w[7].allocator()->free();
-
- b[5].allocator()->free();
- b[6].allocator()->free();
- b[7].allocator()->free();
-
- if(_is_direct_conv)
- {
- w[3].allocator()->free();
- w[4].allocator()->free();
- b[2].allocator()->free();
- b[3].allocator()->free();
- b[4].allocator()->free();
- }
- }
-
- w21.reset();
- w22.reset();
- b21.reset();
- b21.reset();
- w41.reset();
- w42.reset();
- b41.reset();
- b42.reset();
- w51.reset();
- w52.reset();
- b51.reset();
- b52.reset();
-
- conv1_out.allocator()->free();
- act1_out.allocator()->free();
- norm1_out.allocator()->free();
- pool1_out.allocator()->free();
- conv2_out.allocator()->free();
- act2_out.allocator()->free();
- norm2_out.allocator()->free();
- pool2_out.allocator()->free();
- conv3_out.allocator()->free();
- act3_out.allocator()->free();
- conv4_out.allocator()->free();
- act4_out.allocator()->free();
- conv5_out.allocator()->free();
- act5_out.allocator()->free();
- pool5_out.allocator()->free();
- fc6_out.allocator()->free();
- act6_out.allocator()->free();
- fc7_out.allocator()->free();
- act7_out.allocator()->free();
- fc8_out.allocator()->free();
- }
-
- /** Runs the model */
- void run()
- {
- // Layer 1
- conv1.run();
- act1.run();
- norm1.run();
- pool1.run();
- // Layer 2
- conv21.run();
- conv22.run();
- act2.run();
- norm2.run();
- pool2.run();
- // Layer 3
- conv3.run();
- act3.run();
- // Layer 4
- conv41.run();
- conv42.run();
- act4.run();
- // Layer 5
- conv51.run();
- conv52.run();
- act5.run();
- pool5.run();
- // Layer 6
- fc6.run();
- act6.run();
- // Layer 7
- fc7.run();
- act7.run();
- // Layer 8
- fc8.run();
- // Softmax
- smx.run();
- }
-
-private:
- struct DirectConv
- {
- template <typename ConvolutionLayerFunction1 = ConvolutionLayerFunction, typename DirectConvolutionLayerFunction1 = DirectConvolutionLayerFunction>
- typename std::enable_if < !std::is_same<ConvolutionLayerFunction1, DirectConvolutionLayerFunction1>::value, void >::type
- configure(ITensorType *input, const ITensorType *weights, const ITensorType *biases, ITensorType *output, const PadStrideInfo &conv_info, const WeightsInfo &weights_info = WeightsInfo())
- {
- _func.configure(input, weights, biases, output, conv_info);
- }
-
- template <typename ConvolutionLayerFunction1 = ConvolutionLayerFunction, typename DirectConvolutionLayerFunction1 = DirectConvolutionLayerFunction>
- typename std::enable_if<std::is_same<ConvolutionLayerFunction1, DirectConvolutionLayerFunction1>::value, void>::type
- configure(ITensorType *input, const ITensorType *weights, const ITensorType *biases, ITensorType *output, const PadStrideInfo &conv_info, const WeightsInfo &weights_info = WeightsInfo())
- {
- _func.configure(input, weights, biases, output, conv_info, weights_info);
- }
-
- void run()
- {
- _func.run();
- }
-
- DirectConvolutionLayerFunction _func{};
- };
-
- DataType _data_type{ DataType::UNKNOWN };
- int _fixed_point_position{ 0 };
- unsigned int _batches{ 0 };
- bool _reshaped_weights{ false };
- bool _is_direct_conv{ !std::is_same<ConvolutionLayerFunction, DirectConvolutionLayerFunction>::value };
-
- ActivationLayerFunction act1{}, act2{}, act3{}, act4{}, act5{}, act6{}, act7{};
- ConvolutionLayerFunction conv1{};
- DirectConv conv21{}, conv22{}, conv3{}, conv41{}, conv42{}, conv51{}, conv52{};
- FullyConnectedLayerFunction fc6{}, fc7{}, fc8{};
- NormalizationLayerFunction norm1{}, norm2{};
- PoolingLayerFunction pool1{}, pool2{}, pool5{};
- SoftmaxLayerFunction smx{};
-
- TensorType input{}, output{};
- std::array<TensorType, 8> w{ {} }, b{ {} };
- std::unique_ptr<ITensorType> w21{ nullptr }, w22{ nullptr }, b21{ nullptr }, b22{ nullptr };
- std::unique_ptr<ITensorType> w41{ nullptr }, w42{ nullptr }, b41{ nullptr }, b42{ nullptr };
- std::unique_ptr<ITensorType> w51{ nullptr }, w52{ nullptr }, b51{ nullptr }, b52{ nullptr };
-
- TensorType conv1_out{}, act1_out{}, norm1_out{}, pool1_out{};
- TensorType conv2_out{}, act2_out{}, pool2_out{}, norm2_out{};
- TensorType conv3_out{}, act3_out{};
- TensorType conv4_out{}, act4_out{};
- TensorType conv5_out{}, act5_out{}, pool5_out{};
- TensorType fc6_out{}, act6_out{};
- TensorType fc7_out{}, act7_out{};
- TensorType fc8_out{};
-
- std::unique_ptr<SubTensorType> pool11_out{}, pool12_out{};
- std::unique_ptr<SubTensorType> conv21_out{}, conv22_out{};
- std::unique_ptr<SubTensorType> act31_out{}, act32_out{};
- std::unique_ptr<SubTensorType> conv41_out{}, conv42_out{}, act41_out{}, act42_out{};
- std::unique_ptr<SubTensorType> conv51_out{}, conv52_out{};
-};
-} // namespace networks
-} // namespace test
-} // namespace arm_compute
-#endif //__ARM_COMPUTE_TEST_MODEL_OBJECTS_ALEXNET_H__
generated by cgit v1.2.1 (git 2.23.0) at 2024-07-06 15:58:10 +0000