/* * Copyright (c) 2018-2022 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. */ #include "arm_compute/graph.h" #include "support/ToolchainSupport.h" #include "utils/CommonGraphOptions.h" #include "utils/GraphUtils.h" #include "utils/Utils.h" using namespace arm_compute; using namespace arm_compute::utils; using namespace arm_compute::graph::frontend; using namespace arm_compute::graph_utils; /** Example demonstrating how to implement MobileNetSSD's network using the Compute Library's graph API */ class GraphSSDMobilenetExample : public Example { public: GraphSSDMobilenetExample() : cmd_parser(), common_opts(cmd_parser), common_params(), graph(0, "MobileNetSSD") { // Add topk option keep_topk_opt = cmd_parser.add_option>("topk", 100); keep_topk_opt->set_help("Top k detections results per image. Used for data type F32."); // Add output option detection_boxes_opt = cmd_parser.add_option>("detection_boxes_opt", ""); detection_boxes_opt->set_help("Filename containing the reference values for the graph output detection_boxes. Used for data type QASYMM8."); detection_classes_opt = cmd_parser.add_option>("detection_classes_opt", ""); detection_classes_opt->set_help("Filename containing the reference values for the output detection_classes. Used for data type QASYMM8."); detection_scores_opt = cmd_parser.add_option>("detection_scores_opt", ""); detection_scores_opt->set_help("Filename containing the reference values for the output detection_scores. Used for data type QASYMM8."); num_detections_opt = cmd_parser.add_option>("num_detections_opt", ""); num_detections_opt->set_help("Filename containing the reference values for the output num_detections. Used with datatype QASYMM8."); } GraphSSDMobilenetExample(const GraphSSDMobilenetExample &) = delete; GraphSSDMobilenetExample &operator=(const GraphSSDMobilenetExample &) = delete; ~GraphSSDMobilenetExample() override = default; bool do_setup(int argc, char **argv) override { // Parse arguments cmd_parser.parse(argc, argv); cmd_parser.validate(); // Consume common parameters common_params = consume_common_graph_parameters(common_opts); // Return when help menu is requested if(common_params.help) { cmd_parser.print_help(argv[0]); return false; } // Print parameter values std::cout << common_params << std::endl; // Create input descriptor const TensorShape tensor_shape = permute_shape(TensorShape(300, 300, 3U, 1U), DataLayout::NCHW, common_params.data_layout); TensorDescriptor input_descriptor = TensorDescriptor(tensor_shape, common_params.data_type).set_layout(common_params.data_layout); // Set graph hints graph << common_params.target << common_params.fast_math_hint; // Create core graph if(arm_compute::is_data_type_float(common_params.data_type)) { create_graph_float(input_descriptor); } else { create_graph_qasymm(input_descriptor); } // Finalize graph GraphConfig config; config.num_threads = common_params.threads; config.use_tuner = common_params.enable_tuner; config.tuner_file = common_params.tuner_file; config.mlgo_file = common_params.mlgo_file; graph.finalize(common_params.target, config); return true; } void do_run() override { // Run graph graph.run(); } private: CommandLineParser cmd_parser; CommonGraphOptions common_opts; SimpleOption *keep_topk_opt{ nullptr }; CommonGraphParams common_params; Stream graph; SimpleOption *detection_boxes_opt{ nullptr }; SimpleOption *detection_classes_opt{ nullptr }; SimpleOption *detection_scores_opt{ nullptr }; SimpleOption *num_detections_opt{ nullptr }; ConcatLayer get_node_A_float(IStream &main_graph, const std::string &data_path, std::string &¶m_path, unsigned int conv_filt, PadStrideInfo dwc_pad_stride_info, PadStrideInfo conv_pad_stride_info) { const std::string total_path = param_path + "_"; SubStream sg(main_graph); sg << DepthwiseConvolutionLayer( 3U, 3U, get_weights_accessor(data_path, total_path + "dw_w.npy"), std::unique_ptr(nullptr), dwc_pad_stride_info) .set_name(param_path + "/dw") << BatchNormalizationLayer(get_weights_accessor(data_path, total_path + "dw_bn_mean.npy"), get_weights_accessor(data_path, total_path + "dw_bn_var.npy"), get_weights_accessor(data_path, total_path + "dw_scale_w.npy"), get_weights_accessor(data_path, total_path + "dw_scale_b.npy"), 0.00001f) .set_name(param_path + "/dw/bn") << ActivationLayer(ActivationLayerInfo(ActivationLayerInfo::ActivationFunction::RELU)).set_name(param_path + "dw/relu") << ConvolutionLayer( 1U, 1U, conv_filt, get_weights_accessor(data_path, total_path + "w.npy"), std::unique_ptr(nullptr), conv_pad_stride_info) .set_name(param_path + "/pw") << BatchNormalizationLayer(get_weights_accessor(data_path, total_path + "bn_mean.npy"), get_weights_accessor(data_path, total_path + "bn_var.npy"), get_weights_accessor(data_path, total_path + "scale_w.npy"), get_weights_accessor(data_path, total_path + "scale_b.npy"), 0.00001f) .set_name(param_path + "/pw/bn") << ActivationLayer(ActivationLayerInfo(ActivationLayerInfo::ActivationFunction::RELU)).set_name(param_path + "pw/relu"); return ConcatLayer(std::move(sg)); } ConcatLayer get_node_B_float(IStream &main_graph, const std::string &data_path, std::string &¶m_path, unsigned int conv_filt, PadStrideInfo conv_pad_stride_info_1, PadStrideInfo conv_pad_stride_info_2) { const std::string total_path = param_path + "_"; SubStream sg(main_graph); sg << ConvolutionLayer( 1, 1, conv_filt / 2, get_weights_accessor(data_path, total_path + "1_w.npy"), std::unique_ptr(nullptr), conv_pad_stride_info_1) .set_name(total_path + "1/conv") << BatchNormalizationLayer(get_weights_accessor(data_path, total_path + "1_bn_mean.npy"), get_weights_accessor(data_path, total_path + "1_bn_var.npy"), get_weights_accessor(data_path, total_path + "1_scale_w.npy"), get_weights_accessor(data_path, total_path + "1_scale_b.npy"), 0.00001f) .set_name(total_path + "1/bn") << ActivationLayer(ActivationLayerInfo(ActivationLayerInfo::ActivationFunction::RELU)).set_name(total_path + "1/relu"); sg << ConvolutionLayer( 3, 3, conv_filt, get_weights_accessor(data_path, total_path + "2_w.npy"), std::unique_ptr(nullptr), conv_pad_stride_info_2) .set_name(total_path + "2/conv") << BatchNormalizationLayer(get_weights_accessor(data_path, total_path + "2_bn_mean.npy"), get_weights_accessor(data_path, total_path + "2_bn_var.npy"), get_weights_accessor(data_path, total_path + "2_scale_w.npy"), get_weights_accessor(data_path, total_path + "2_scale_b.npy"), 0.00001f) .set_name(total_path + "2/bn") << ActivationLayer(ActivationLayerInfo(ActivationLayerInfo::ActivationFunction::RELU)).set_name(total_path + "2/relu"); return ConcatLayer(std::move(sg)); } ConcatLayer get_node_C_float(IStream &main_graph, const std::string &data_path, std::string &¶m_path, unsigned int conv_filt, PadStrideInfo conv_pad_stride_info) { const std::string total_path = param_path + "_"; SubStream sg(main_graph); sg << ConvolutionLayer( 1U, 1U, conv_filt, get_weights_accessor(data_path, total_path + "w.npy"), get_weights_accessor(data_path, total_path + "b.npy"), conv_pad_stride_info) .set_name(param_path + "/conv"); if(common_params.data_layout == DataLayout::NCHW) { sg << PermuteLayer(PermutationVector(2U, 0U, 1U), DataLayout::NHWC).set_name(param_path + "/perm"); } sg << FlattenLayer().set_name(param_path + "/flat"); return ConcatLayer(std::move(sg)); } void create_graph_float(TensorDescriptor &input_descriptor) { // Create a preprocessor object const std::array mean_rgb{ { 127.5f, 127.5f, 127.5f } }; std::unique_ptr preprocessor = std::make_unique(mean_rgb, true, 0.007843f); // Get trainable parameters data path std::string data_path = common_params.data_path; // Add model path to data path if(!data_path.empty()) { data_path += "/cnn_data/ssd_mobilenet_model/"; } graph << InputLayer(input_descriptor, get_input_accessor(common_params, std::move(preprocessor))); SubStream conv_11(graph); conv_11 << ConvolutionLayer( 3U, 3U, 32U, get_weights_accessor(data_path, "conv0_w.npy"), std::unique_ptr(nullptr), PadStrideInfo(2, 2, 1, 1)) .set_name("conv0"); conv_11 << BatchNormalizationLayer(get_weights_accessor(data_path, "conv0_bn_mean.npy"), get_weights_accessor(data_path, "conv0_bn_var.npy"), get_weights_accessor(data_path, "conv0_scale_w.npy"), get_weights_accessor(data_path, "conv0_scale_b.npy"), 0.00001f) .set_name("conv0/bn") << ActivationLayer(ActivationLayerInfo(ActivationLayerInfo::ActivationFunction::RELU)).set_name("conv0/relu"); conv_11 << get_node_A_float(conv_11, data_path, "conv1", 64, PadStrideInfo(1, 1, 1, 1), PadStrideInfo(1, 1, 0, 0)); conv_11 << get_node_A_float(conv_11, data_path, "conv2", 128, PadStrideInfo(2, 2, 1, 1), PadStrideInfo(1, 1, 0, 0)); conv_11 << get_node_A_float(conv_11, data_path, "conv3", 128, PadStrideInfo(1, 1, 1, 1), PadStrideInfo(1, 1, 0, 0)); conv_11 << get_node_A_float(conv_11, data_path, "conv4", 256, PadStrideInfo(2, 2, 1, 1), PadStrideInfo(1, 1, 0, 0)); conv_11 << get_node_A_float(conv_11, data_path, "conv5", 256, PadStrideInfo(1, 1, 1, 1), PadStrideInfo(1, 1, 0, 0)); conv_11 << get_node_A_float(conv_11, data_path, "conv6", 512, PadStrideInfo(2, 2, 1, 1), PadStrideInfo(1, 1, 0, 0)); conv_11 << get_node_A_float(conv_11, data_path, "conv7", 512, PadStrideInfo(1, 1, 1, 1), PadStrideInfo(1, 1, 0, 0)); conv_11 << get_node_A_float(conv_11, data_path, "conv8", 512, PadStrideInfo(1, 1, 1, 1), PadStrideInfo(1, 1, 0, 0)); conv_11 << get_node_A_float(conv_11, data_path, "conv9", 512, PadStrideInfo(1, 1, 1, 1), PadStrideInfo(1, 1, 0, 0)); conv_11 << get_node_A_float(conv_11, data_path, "conv10", 512, PadStrideInfo(1, 1, 1, 1), PadStrideInfo(1, 1, 0, 0)); conv_11 << get_node_A_float(conv_11, data_path, "conv11", 512, PadStrideInfo(1, 1, 1, 1), PadStrideInfo(1, 1, 0, 0)); SubStream conv_13(conv_11); conv_13 << get_node_A_float(conv_11, data_path, "conv12", 1024, PadStrideInfo(2, 2, 1, 1), PadStrideInfo(1, 1, 0, 0)); conv_13 << get_node_A_float(conv_13, data_path, "conv13", 1024, PadStrideInfo(1, 1, 1, 1), PadStrideInfo(1, 1, 0, 0)); SubStream conv_14(conv_13); conv_14 << get_node_B_float(conv_13, data_path, "conv14", 512, PadStrideInfo(1, 1, 0, 0), PadStrideInfo(2, 2, 1, 1)); SubStream conv_15(conv_14); conv_15 << get_node_B_float(conv_14, data_path, "conv15", 256, PadStrideInfo(1, 1, 0, 0), PadStrideInfo(2, 2, 1, 1)); SubStream conv_16(conv_15); conv_16 << get_node_B_float(conv_15, data_path, "conv16", 256, PadStrideInfo(1, 1, 0, 0), PadStrideInfo(2, 2, 1, 1)); SubStream conv_17(conv_16); conv_17 << get_node_B_float(conv_16, data_path, "conv17", 128, PadStrideInfo(1, 1, 0, 0), PadStrideInfo(2, 2, 1, 1)); //mbox_loc SubStream conv_11_mbox_loc(conv_11); conv_11_mbox_loc << get_node_C_float(conv_11, data_path, "conv11_mbox_loc", 12, PadStrideInfo(1, 1, 0, 0)); SubStream conv_13_mbox_loc(conv_13); conv_13_mbox_loc << get_node_C_float(conv_13, data_path, "conv13_mbox_loc", 24, PadStrideInfo(1, 1, 0, 0)); SubStream conv_14_2_mbox_loc(conv_14); conv_14_2_mbox_loc << get_node_C_float(conv_14, data_path, "conv14_2_mbox_loc", 24, PadStrideInfo(1, 1, 0, 0)); SubStream conv_15_2_mbox_loc(conv_15); conv_15_2_mbox_loc << get_node_C_float(conv_15, data_path, "conv15_2_mbox_loc", 24, PadStrideInfo(1, 1, 0, 0)); SubStream conv_16_2_mbox_loc(conv_16); conv_16_2_mbox_loc << get_node_C_float(conv_16, data_path, "conv16_2_mbox_loc", 24, PadStrideInfo(1, 1, 0, 0)); SubStream conv_17_2_mbox_loc(conv_17); conv_17_2_mbox_loc << get_node_C_float(conv_17, data_path, "conv17_2_mbox_loc", 24, PadStrideInfo(1, 1, 0, 0)); SubStream mbox_loc(graph); mbox_loc << ConcatLayer(std::move(conv_11_mbox_loc), std::move(conv_13_mbox_loc), conv_14_2_mbox_loc, std::move(conv_15_2_mbox_loc), std::move(conv_16_2_mbox_loc), std::move(conv_17_2_mbox_loc)); //mbox_conf SubStream conv_11_mbox_conf(conv_11); conv_11_mbox_conf << get_node_C_float(conv_11, data_path, "conv11_mbox_conf", 63, PadStrideInfo(1, 1, 0, 0)); SubStream conv_13_mbox_conf(conv_13); conv_13_mbox_conf << get_node_C_float(conv_13, data_path, "conv13_mbox_conf", 126, PadStrideInfo(1, 1, 0, 0)); SubStream conv_14_2_mbox_conf(conv_14); conv_14_2_mbox_conf << get_node_C_float(conv_14, data_path, "conv14_2_mbox_conf", 126, PadStrideInfo(1, 1, 0, 0)); SubStream conv_15_2_mbox_conf(conv_15); conv_15_2_mbox_conf << get_node_C_float(conv_15, data_path, "conv15_2_mbox_conf", 126, PadStrideInfo(1, 1, 0, 0)); SubStream conv_16_2_mbox_conf(conv_16); conv_16_2_mbox_conf << get_node_C_float(conv_16, data_path, "conv16_2_mbox_conf", 126, PadStrideInfo(1, 1, 0, 0)); SubStream conv_17_2_mbox_conf(conv_17); conv_17_2_mbox_conf << get_node_C_float(conv_17, data_path, "conv17_2_mbox_conf", 126, PadStrideInfo(1, 1, 0, 0)); SubStream mbox_conf(graph); mbox_conf << ConcatLayer(std::move(conv_11_mbox_conf), std::move(conv_13_mbox_conf), std::move(conv_14_2_mbox_conf), std::move(conv_15_2_mbox_conf), std::move(conv_16_2_mbox_conf), std::move(conv_17_2_mbox_conf)); mbox_conf << ReshapeLayer(TensorShape(21U, 1917U)).set_name("mbox_conf/reshape"); mbox_conf << SoftmaxLayer().set_name("mbox_conf/softmax"); mbox_conf << FlattenLayer().set_name("mbox_conf/flat"); const std::vector priorbox_variances = { 0.1f, 0.1f, 0.2f, 0.2f }; const float priorbox_offset = 0.5f; const std::vector priorbox_aspect_ratios = { 2.f, 3.f }; //mbox_priorbox branch SubStream conv_11_mbox_priorbox(conv_11); conv_11_mbox_priorbox << PriorBoxLayer(SubStream(graph), PriorBoxLayerInfo({ 60.f }, priorbox_variances, priorbox_offset, true, false, {}, { 2.f })) .set_name("conv11/priorbox"); SubStream conv_13_mbox_priorbox(conv_13); conv_13_mbox_priorbox << PriorBoxLayer(SubStream(graph), PriorBoxLayerInfo({ 105.f }, priorbox_variances, priorbox_offset, true, false, { 150.f }, priorbox_aspect_ratios)) .set_name("conv13/priorbox"); SubStream conv_14_2_mbox_priorbox(conv_14); conv_14_2_mbox_priorbox << PriorBoxLayer(SubStream(graph), PriorBoxLayerInfo({ 150.f }, priorbox_variances, priorbox_offset, true, false, { 195.f }, priorbox_aspect_ratios)) .set_name("conv14/priorbox"); SubStream conv_15_2_mbox_priorbox(conv_15); conv_15_2_mbox_priorbox << PriorBoxLayer(SubStream(graph), PriorBoxLayerInfo({ 195.f }, priorbox_variances, priorbox_offset, true, false, { 240.f }, priorbox_aspect_ratios)) .set_name("conv15/priorbox"); SubStream conv_16_2_mbox_priorbox(conv_16); conv_16_2_mbox_priorbox << PriorBoxLayer(SubStream(graph), PriorBoxLayerInfo({ 240.f }, priorbox_variances, priorbox_offset, true, false, { 285.f }, priorbox_aspect_ratios)) .set_name("conv16/priorbox"); SubStream conv_17_2_mbox_priorbox(conv_17); conv_17_2_mbox_priorbox << PriorBoxLayer(SubStream(graph), PriorBoxLayerInfo({ 285.f }, priorbox_variances, priorbox_offset, true, false, { 300.f }, priorbox_aspect_ratios)) .set_name("conv17/priorbox"); SubStream mbox_priorbox(graph); mbox_priorbox << ConcatLayer( (common_params.data_layout == DataLayout::NCHW) ? arm_compute::graph::descriptors::ConcatLayerDescriptor(DataLayoutDimension::WIDTH) : arm_compute::graph::descriptors::ConcatLayerDescriptor( DataLayoutDimension::CHANNEL), std::move(conv_11_mbox_priorbox), std::move(conv_13_mbox_priorbox), std::move(conv_14_2_mbox_priorbox), std::move(conv_15_2_mbox_priorbox), std::move(conv_16_2_mbox_priorbox), std::move(conv_17_2_mbox_priorbox)); const int num_classes = 21; const bool share_location = true; const DetectionOutputLayerCodeType detection_type = DetectionOutputLayerCodeType::CENTER_SIZE; const int keep_top_k = keep_topk_opt->value(); const float nms_threshold = 0.45f; const int label_id_background = 0; const float conf_thrs = 0.25f; const int top_k = 100; SubStream detection_ouput(mbox_loc); detection_ouput << DetectionOutputLayer(std::move(mbox_conf), std::move(mbox_priorbox), DetectionOutputLayerInfo(num_classes, share_location, detection_type, keep_top_k, nms_threshold, top_k, label_id_background, conf_thrs)); detection_ouput << OutputLayer(get_detection_output_accessor(common_params, { input_descriptor.shape })); } ConcatLayer get_node_A_qasymm(IStream &main_graph, const std::string &data_path, std::string &¶m_path, unsigned int conv_filt, PadStrideInfo dwc_pad_stride_info, PadStrideInfo conv_pad_stride_info, std::pair depth_quant_info, std::pair point_quant_info) { const std::string total_path = param_path + "_"; SubStream sg(main_graph); sg << DepthwiseConvolutionLayer( 3U, 3U, get_weights_accessor(data_path, total_path + "dw_w.npy"), get_weights_accessor(data_path, total_path + "dw_b.npy"), dwc_pad_stride_info, 1, depth_quant_info.first, depth_quant_info.second) .set_name(param_path + "/dw") << ActivationLayer(ActivationLayerInfo(ActivationLayerInfo::ActivationFunction::BOUNDED_RELU, 6.f)).set_name(param_path + "/dw/relu6"); sg << ConvolutionLayer( 1U, 1U, conv_filt, get_weights_accessor(data_path, total_path + "w.npy"), get_weights_accessor(data_path, total_path + "b.npy"), conv_pad_stride_info, 1, point_quant_info.first, point_quant_info.second) .set_name(param_path + "/pw") << ActivationLayer(ActivationLayerInfo(ActivationLayerInfo::ActivationFunction::BOUNDED_RELU, 6.f)).set_name(param_path + "/pw/relu6"); return ConcatLayer(std::move(sg)); } ConcatLayer get_node_B_qasymm(IStream &main_graph, const std::string &data_path, std::string &¶m_path, unsigned int conv_filt, PadStrideInfo conv_pad_stride_info_1x1, PadStrideInfo conv_pad_stride_info_3x3, const std::pair quant_info_1x1, const std::pair quant_info_3x3) { const std::string total_path = param_path + "_"; SubStream sg(main_graph); sg << ConvolutionLayer( 1, 1, conv_filt / 2, get_weights_accessor(data_path, total_path + "1x1_w.npy"), get_weights_accessor(data_path, total_path + "1x1_b.npy"), conv_pad_stride_info_1x1, 1, quant_info_1x1.first, quant_info_1x1.second) .set_name(total_path + "1x1/conv") << ActivationLayer(ActivationLayerInfo(ActivationLayerInfo::ActivationFunction::BOUNDED_RELU, 6.f)).set_name(total_path + "1x1/conv/relu6"); sg << ConvolutionLayer( 3, 3, conv_filt, get_weights_accessor(data_path, total_path + "3x3_w.npy"), get_weights_accessor(data_path, total_path + "3x3_b.npy"), conv_pad_stride_info_3x3, 1, quant_info_3x3.first, quant_info_3x3.second) .set_name(total_path + "3x3/conv") << ActivationLayer(ActivationLayerInfo(ActivationLayerInfo::ActivationFunction::BOUNDED_RELU, 6.f)).set_name(total_path + "3x3/conv/relu6"); return ConcatLayer(std::move(sg)); } ConcatLayer get_node_C_qasymm(IStream &main_graph, const std::string &data_path, std::string &¶m_path, unsigned int conv_filt, PadStrideInfo conv_pad_stride_info, const std::pair quant_info, TensorShape reshape_shape) { const std::string total_path = param_path + "_"; SubStream sg(main_graph); sg << ConvolutionLayer( 1U, 1U, conv_filt, get_weights_accessor(data_path, total_path + "w.npy"), get_weights_accessor(data_path, total_path + "b.npy"), conv_pad_stride_info, 1, quant_info.first, quant_info.second) .set_name(param_path + "/conv"); if(common_params.data_layout == DataLayout::NCHW) { sg << PermuteLayer(PermutationVector(2U, 0U, 1U), DataLayout::NHWC); } sg << ReshapeLayer(reshape_shape).set_name(param_path + "/reshape"); return ConcatLayer(std::move(sg)); } void create_graph_qasymm(TensorDescriptor &input_descriptor) { // Get trainable parameters data path std::string data_path = common_params.data_path; // Add model path to data path if(!data_path.empty()) { data_path += "/cnn_data/ssd_mobilenet_qasymm8_model/"; } // Quantization info are saved as pair for each (pointwise/depthwise) convolution layer: const std::vector> conv_quant_info = { { QuantizationInfo(0.03624850884079933f, 163), QuantizationInfo(0.22219789028167725f, 113) }, // conv0 { QuantizationInfo(0.0028752065263688564f, 113), QuantizationInfo(0.05433657020330429f, 128) }, // conv13_2_1_1 { QuantizationInfo(0.0014862528769299388f, 125), QuantizationInfo(0.05037643015384674f, 131) }, // conv13_2_3_3 { QuantizationInfo(0.00233650766313076f, 113), QuantizationInfo(0.04468846693634987f, 126) }, // conv13_3_1_1 { QuantizationInfo(0.002501056529581547f, 120), QuantizationInfo(0.06026708707213402f, 111) }, // conv13_3_3_3 { QuantizationInfo(0.002896666992455721f, 121), QuantizationInfo(0.037775348871946335f, 117) }, // conv13_4_1_1 { QuantizationInfo(0.0023875406477600336f, 122), QuantizationInfo(0.03881589323282242f, 108) }, // conv13_4_3_3 { QuantizationInfo(0.0022081052884459496f, 77), QuantizationInfo(0.025450613349676132f, 125) }, // conv13_5_1_1 { QuantizationInfo(0.00604657270014286f, 121), QuantizationInfo(0.033533502370119095f, 109) } // conv13_5_3_3 }; const std::vector> depth_quant_info = { { QuantizationInfo(0.03408717364072f, 131), QuantizationInfo(0.29286590218544006f, 108) }, // dwsc1 { QuantizationInfo(0.027518004179000854f, 107), QuantizationInfo(0.20796941220760345, 117) }, // dwsc2 { QuantizationInfo(0.052489638328552246f, 85), QuantizationInfo(0.4303881824016571f, 142) }, // dwsc3 { QuantizationInfo(0.016570359468460083f, 79), QuantizationInfo(0.10512150079011917f, 116) }, // dwsc4 { QuantizationInfo(0.060739465057849884f, 65), QuantizationInfo(0.15331414341926575f, 94) }, // dwsc5 { QuantizationInfo(0.01324534136801958f, 124), QuantizationInfo(0.13010895252227783f, 153) }, // dwsc6 { QuantizationInfo(0.032326459884643555f, 124), QuantizationInfo(0.11565316468477249, 156) }, // dwsc7 { QuantizationInfo(0.029948478564620018f, 155), QuantizationInfo(0.11413891613483429f, 146) }, // dwsc8 { QuantizationInfo(0.028054025024175644f, 129), QuantizationInfo(0.1142905130982399f, 140) }, // dwsc9 { QuantizationInfo(0.025204822421073914f, 129), QuantizationInfo(0.14668069779872894f, 149) }, // dwsc10 { QuantizationInfo(0.019332280382514f, 110), QuantizationInfo(0.1480235457420349f, 91) }, // dwsc11 { QuantizationInfo(0.0319712869822979f, 88), QuantizationInfo(0.10424695909023285f, 117) }, // dwsc12 { QuantizationInfo(0.04378943517804146f, 164), QuantizationInfo(0.23176774382591248f, 138) } // dwsc13 }; const std::vector> point_quant_info = { { QuantizationInfo(0.028777318075299263f, 144), QuantizationInfo(0.2663874328136444f, 121) }, // pw1 { QuantizationInfo(0.015796702355146408f, 127), QuantizationInfo(0.1739964485168457f, 111) }, // pw2 { QuantizationInfo(0.009349990636110306f, 127), QuantizationInfo(0.1805974692106247f, 104) }, // pw3 { QuantizationInfo(0.012920888140797615f, 106), QuantizationInfo(0.1205204650759697f, 100) }, // pw4 { QuantizationInfo(0.008119508624076843f, 145), QuantizationInfo(0.12272439152002335f, 97) }, // pw5 { QuantizationInfo(0.0070041813887655735f, 115), QuantizationInfo(0.0947074219584465f, 101) }, // pw6 { QuantizationInfo(0.004827278666198254f, 115), QuantizationInfo(0.0842885747551918f, 110) }, // pw7 { QuantizationInfo(0.004755120258778334f, 128), QuantizationInfo(0.08283159881830215f, 116) }, // pw8 { QuantizationInfo(0.007527193054556847f, 142), QuantizationInfo(0.12555131316184998f, 137) }, // pw9 { QuantizationInfo(0.006050156895071268f, 109), QuantizationInfo(0.10871313512325287f, 124) }, // pw10 { QuantizationInfo(0.00490700313821435f, 127), QuantizationInfo(0.10364262014627457f, 140) }, // pw11 { QuantizationInfo(0.006063731852918863, 124), QuantizationInfo(0.11241862177848816f, 125) }, // pw12 { QuantizationInfo(0.007901716977357864f, 139), QuantizationInfo(0.49889302253723145f, 141) } // pw13 }; // Quantization info taken from the TfLite SSD MobileNet example const QuantizationInfo in_quant_info = QuantizationInfo(0.0078125f, 128); // Create core graph graph << InputLayer(input_descriptor.set_quantization_info(in_quant_info), get_weights_accessor(data_path, common_params.image, DataLayout::NHWC)); graph << ConvolutionLayer( 3U, 3U, 32U, get_weights_accessor(data_path, "conv0_w.npy"), get_weights_accessor(data_path, "conv0_b.npy"), PadStrideInfo(2U, 2U, 0U, 1U, 0U, 1U, DimensionRoundingType::CEIL), 1, conv_quant_info.at(0).first, conv_quant_info.at(0).second) .set_name("conv0"); graph << ActivationLayer(ActivationLayerInfo(ActivationLayerInfo::ActivationFunction::BOUNDED_RELU, 6.f)).set_name("conv0/relu"); graph << get_node_A_qasymm(graph, data_path, "conv1", 64U, PadStrideInfo(1U, 1U, 1U, 1U, 1U, 1U, DimensionRoundingType::CEIL), PadStrideInfo(1U, 1U, 0U, 0U), depth_quant_info.at(0), point_quant_info.at(0)); graph << get_node_A_qasymm(graph, data_path, "conv2", 128U, PadStrideInfo(2U, 2U, 0U, 1U, 0U, 1U, DimensionRoundingType::CEIL), PadStrideInfo(1U, 1U, 0U, 0U), depth_quant_info.at(1), point_quant_info.at(1)); graph << get_node_A_qasymm(graph, data_path, "conv3", 128U, PadStrideInfo(1U, 1U, 1U, 1U, 1U, 1U, DimensionRoundingType::CEIL), PadStrideInfo(1U, 1U, 0U, 0U), depth_quant_info.at(2), point_quant_info.at(2)); graph << get_node_A_qasymm(graph, data_path, "conv4", 256U, PadStrideInfo(2U, 2U, 1U, 1U, 1U, 1U, DimensionRoundingType::CEIL), PadStrideInfo(1U, 1U, 0U, 0U), depth_quant_info.at(3), point_quant_info.at(3)); graph << get_node_A_qasymm(graph, data_path, "conv5", 256U, PadStrideInfo(1U, 1U, 1U, 1U, 1U, 1U, DimensionRoundingType::CEIL), PadStrideInfo(1U, 1U, 0U, 0U), depth_quant_info.at(4), point_quant_info.at(4)); graph << get_node_A_qasymm(graph, data_path, "conv6", 512U, PadStrideInfo(2U, 2U, 0U, 1U, 0U, 1U, DimensionRoundingType::CEIL), PadStrideInfo(1U, 1U, 0U, 0U), depth_quant_info.at(5), point_quant_info.at(5)); graph << get_node_A_qasymm(graph, data_path, "conv7", 512U, PadStrideInfo(1U, 1U, 1U, 1U, 1U, 1U, DimensionRoundingType::CEIL), PadStrideInfo(1U, 1U, 0U, 0U), depth_quant_info.at(6), point_quant_info.at(6)); graph << get_node_A_qasymm(graph, data_path, "conv8", 512U, PadStrideInfo(1U, 1U, 1U, 1U, 1U, 1U, DimensionRoundingType::CEIL), PadStrideInfo(1U, 1U, 0U, 0U), depth_quant_info.at(7), point_quant_info.at(7)); graph << get_node_A_qasymm(graph, data_path, "conv9", 512U, PadStrideInfo(1U, 1U, 1U, 1U, 1U, 1U, DimensionRoundingType::CEIL), PadStrideInfo(1U, 1U, 0U, 0U), depth_quant_info.at(8), point_quant_info.at(8)); graph << get_node_A_qasymm(graph, data_path, "conv10", 512U, PadStrideInfo(1U, 1U, 1U, 1U, 1U, 1U, DimensionRoundingType::CEIL), PadStrideInfo(1U, 1U, 0U, 0U), depth_quant_info.at(9), point_quant_info.at(9)); graph << get_node_A_qasymm(graph, data_path, "conv11", 512U, PadStrideInfo(1U, 1U, 1U, 1U, 1U, 1U, DimensionRoundingType::CEIL), PadStrideInfo(1U, 1U, 0U, 0U), depth_quant_info.at(10), point_quant_info.at(10)); SubStream conv_13(graph); conv_13 << get_node_A_qasymm(graph, data_path, "conv12", 1024U, PadStrideInfo(2U, 2U, 1U, 1U, 1U, 1U, DimensionRoundingType::CEIL), PadStrideInfo(1U, 1U, 0U, 0U), depth_quant_info.at(11), point_quant_info.at(11)); conv_13 << get_node_A_qasymm(conv_13, data_path, "conv13", 1024U, PadStrideInfo(1U, 1U, 1U, 1U, 1U, 1U, DimensionRoundingType::CEIL), PadStrideInfo(1U, 1U, 0U, 0U), depth_quant_info.at(12), point_quant_info.at(12)); SubStream conv_14(conv_13); conv_14 << get_node_B_qasymm(conv_13, data_path, "conv13_2", 512U, PadStrideInfo(1U, 1U, 0U, 0U), PadStrideInfo(2U, 2U, 0U, 1U, 0U, 1U, DimensionRoundingType::CEIL), conv_quant_info.at(1), conv_quant_info.at(2)); SubStream conv_15(conv_14); conv_15 << get_node_B_qasymm(conv_14, data_path, "conv13_3", 256U, PadStrideInfo(1U, 1U, 0U, 0U), PadStrideInfo(2U, 2U, 1U, 1U, 1U, 1U, DimensionRoundingType::CEIL), conv_quant_info.at(3), conv_quant_info.at(4)); SubStream conv_16(conv_15); conv_16 << get_node_B_qasymm(conv_15, data_path, "conv13_4", 256U, PadStrideInfo(1U, 1U, 0U, 0U), PadStrideInfo(2U, 2U, 1U, 1U, 1U, 1U, DimensionRoundingType::CEIL), conv_quant_info.at(5), conv_quant_info.at(6)); SubStream conv_17(conv_16); conv_17 << get_node_B_qasymm(conv_16, data_path, "conv13_5", 128U, PadStrideInfo(1U, 1U, 0U, 0U), PadStrideInfo(2U, 2U, 0U, 1U, 0U, 1U, DimensionRoundingType::CEIL), conv_quant_info.at(7), conv_quant_info.at(8)); // box_predictor const std::vector> box_enc_pred_quant_info = { { QuantizationInfo(0.005202020984143019f, 136), QuantizationInfo(0.08655580133199692f, 183) }, // boxpredictor0_bep { QuantizationInfo(0.003121797926723957f, 132), QuantizationInfo(0.03218776360154152f, 140) }, // boxpredictor1_bep { QuantizationInfo(0.002995674265548587f, 130), QuantizationInfo(0.029072262346744537f, 125) }, // boxpredictor2_bep { QuantizationInfo(0.0023131705820560455f, 130), QuantizationInfo(0.026488754898309708f, 127) }, // boxpredictor3_bep { QuantizationInfo(0.0013905081432312727f, 132), QuantizationInfo(0.0199890099465847f, 137) }, // boxpredictor4_bep { QuantizationInfo(0.00216794665902853f, 121), QuantizationInfo(0.019798893481492996f, 151) } // boxpredictor5_bep }; const std::vector box_reshape = // NHWC { TensorShape(4U, 1U, 1083U), // boxpredictor0_bep_reshape TensorShape(4U, 1U, 600U), // boxpredictor1_bep_reshape TensorShape(4U, 1U, 150U), // boxpredictor2_bep_reshape TensorShape(4U, 1U, 54U), // boxpredictor3_bep_reshape TensorShape(4U, 1U, 24U), // boxpredictor4_bep_reshape TensorShape(4U, 1U, 6U) // boxpredictor5_bep_reshape }; SubStream conv_11_box_enc_pre(graph); conv_11_box_enc_pre << get_node_C_qasymm(graph, data_path, "BoxPredictor_0_BEP", 12U, PadStrideInfo(1U, 1U, 0U, 0U), box_enc_pred_quant_info.at(0), box_reshape.at(0)); SubStream conv_13_box_enc_pre(conv_13); conv_13_box_enc_pre << get_node_C_qasymm(conv_13, data_path, "BoxPredictor_1_BEP", 24U, PadStrideInfo(1U, 1U, 0U, 0U), box_enc_pred_quant_info.at(1), box_reshape.at(1)); SubStream conv_14_2_box_enc_pre(conv_14); conv_14_2_box_enc_pre << get_node_C_qasymm(conv_14, data_path, "BoxPredictor_2_BEP", 24U, PadStrideInfo(1U, 1U, 0U, 0U), box_enc_pred_quant_info.at(2), box_reshape.at(2)); SubStream conv_15_2_box_enc_pre(conv_15); conv_15_2_box_enc_pre << get_node_C_qasymm(conv_15, data_path, "BoxPredictor_3_BEP", 24U, PadStrideInfo(1U, 1U, 0U, 0U), box_enc_pred_quant_info.at(3), box_reshape.at(3)); SubStream conv_16_2_box_enc_pre(conv_16); conv_16_2_box_enc_pre << get_node_C_qasymm(conv_16, data_path, "BoxPredictor_4_BEP", 24U, PadStrideInfo(1U, 1U, 0U, 0U), box_enc_pred_quant_info.at(4), box_reshape.at(4)); SubStream conv_17_2_box_enc_pre(conv_17); conv_17_2_box_enc_pre << get_node_C_qasymm(conv_17, data_path, "BoxPredictor_5_BEP", 24U, PadStrideInfo(1U, 1U, 0U, 0U), box_enc_pred_quant_info.at(5), box_reshape.at(5)); SubStream box_enc_pre(graph); const QuantizationInfo bep_concate_qinfo = QuantizationInfo(0.08655580133199692f, 183); box_enc_pre << ConcatLayer(arm_compute::graph::descriptors::ConcatLayerDescriptor(DataLayoutDimension::HEIGHT, bep_concate_qinfo), std::move(conv_11_box_enc_pre), std::move(conv_13_box_enc_pre), conv_14_2_box_enc_pre, std::move(conv_15_2_box_enc_pre), std::move(conv_16_2_box_enc_pre), std::move(conv_17_2_box_enc_pre)) .set_name("BoxPredictor/concat"); box_enc_pre << ReshapeLayer(TensorShape(4U, 1917U)).set_name("BoxPredictor/reshape"); // class_predictor const std::vector> class_pred_quant_info = { { QuantizationInfo(0.002744135679677129f, 125), QuantizationInfo(0.05746262148022652f, 234) }, // boxpredictor0_cp { QuantizationInfo(0.0024326108396053314f, 80), QuantizationInfo(0.03764628246426582f, 217) }, // boxpredictor1_cp { QuantizationInfo(0.0013898586621508002f, 141), QuantizationInfo(0.034081317484378815f, 214) }, // boxpredictor2_cp { QuantizationInfo(0.0014176908880472183f, 133), QuantizationInfo(0.033889178186655045f, 215) }, // boxpredictor3_cp { QuantizationInfo(0.001090311910957098f, 125), QuantizationInfo(0.02646234817802906f, 230) }, // boxpredictor4_cp { QuantizationInfo(0.001134163816459477f, 115), QuantizationInfo(0.026926767081022263f, 218) } // boxpredictor5_cp }; const std::vector class_reshape = { TensorShape(91U, 1083U), // boxpredictor0_cp_reshape TensorShape(91U, 600U), // boxpredictor1_cp_reshape TensorShape(91U, 150U), // boxpredictor2_cp_reshape TensorShape(91U, 54U), // boxpredictor3_cp_reshape TensorShape(91U, 24U), // boxpredictor4_cp_reshape TensorShape(91U, 6U) // boxpredictor5_cp_reshape }; SubStream conv_11_class_pre(graph); conv_11_class_pre << get_node_C_qasymm(graph, data_path, "BoxPredictor_0_CP", 273U, PadStrideInfo(1U, 1U, 0U, 0U), class_pred_quant_info.at(0), class_reshape.at(0)); SubStream conv_13_class_pre(conv_13); conv_13_class_pre << get_node_C_qasymm(conv_13, data_path, "BoxPredictor_1_CP", 546U, PadStrideInfo(1U, 1U, 0U, 0U), class_pred_quant_info.at(1), class_reshape.at(1)); SubStream conv_14_2_class_pre(conv_14); conv_14_2_class_pre << get_node_C_qasymm(conv_14, data_path, "BoxPredictor_2_CP", 546U, PadStrideInfo(1U, 1U, 0U, 0U), class_pred_quant_info.at(2), class_reshape.at(2)); SubStream conv_15_2_class_pre(conv_15); conv_15_2_class_pre << get_node_C_qasymm(conv_15, data_path, "BoxPredictor_3_CP", 546U, PadStrideInfo(1U, 1U, 0U, 0U), class_pred_quant_info.at(3), class_reshape.at(3)); SubStream conv_16_2_class_pre(conv_16); conv_16_2_class_pre << get_node_C_qasymm(conv_16, data_path, "BoxPredictor_4_CP", 546U, PadStrideInfo(1U, 1U, 0U, 0U), class_pred_quant_info.at(4), class_reshape.at(4)); SubStream conv_17_2_class_pre(conv_17); conv_17_2_class_pre << get_node_C_qasymm(conv_17, data_path, "BoxPredictor_5_CP", 546U, PadStrideInfo(1U, 1U, 0U, 0U), class_pred_quant_info.at(5), class_reshape.at(5)); const QuantizationInfo cp_concate_qinfo = QuantizationInfo(0.0584389753639698f, 230); SubStream class_pred(graph); class_pred << ConcatLayer( arm_compute::graph::descriptors::ConcatLayerDescriptor(DataLayoutDimension::WIDTH, cp_concate_qinfo), std::move(conv_11_class_pre), std::move(conv_13_class_pre), std::move(conv_14_2_class_pre), std::move(conv_15_2_class_pre), std::move(conv_16_2_class_pre), std::move(conv_17_2_class_pre)) .set_name("ClassPrediction/concat"); const QuantizationInfo logistic_out_qinfo = QuantizationInfo(0.00390625f, 0); class_pred << ActivationLayer(ActivationLayerInfo(ActivationLayerInfo::ActivationFunction::LOGISTIC), logistic_out_qinfo).set_name("ClassPrediction/logistic"); const int max_detections = 10; const int max_classes_per_detection = 1; const float nms_score_threshold = 0.30000001192092896f; const float nms_iou_threshold = 0.6000000238418579f; const int num_classes = 90; const float x_scale = 10.f; const float y_scale = 10.f; const float h_scale = 5.f; const float w_scale = 5.f; std::array scales = { y_scale, x_scale, w_scale, h_scale }; const QuantizationInfo anchors_qinfo = QuantizationInfo(0.006453060545027256f, 0); SubStream detection_ouput(box_enc_pre); detection_ouput << DetectionPostProcessLayer(std::move(class_pred), DetectionPostProcessLayerInfo(max_detections, max_classes_per_detection, nms_score_threshold, nms_iou_threshold, num_classes, scales), get_weights_accessor(data_path, "anchors.npy"), anchors_qinfo) .set_name("DetectionPostProcess"); SubStream ouput_0(detection_ouput); ouput_0 << OutputLayer(get_npy_output_accessor(detection_boxes_opt->value(), TensorShape(4U, 10U), DataType::F32), 0); SubStream ouput_1(detection_ouput); ouput_1 << OutputLayer(get_npy_output_accessor(detection_classes_opt->value(), TensorShape(10U), DataType::F32), 1); SubStream ouput_2(detection_ouput); ouput_2 << OutputLayer(get_npy_output_accessor(detection_scores_opt->value(), TensorShape(10U), DataType::F32), 2); SubStream ouput_3(detection_ouput); ouput_3 << OutputLayer(get_npy_output_accessor(num_detections_opt->value(), TensorShape(1U), DataType::F32), 3); } }; /** Main program for MobileNetSSD * * Model is based on: * http://arxiv.org/abs/1512.02325 * SSD: Single Shot MultiBox Detector * Wei Liu, Dragomir Anguelov, Dumitru Erhan, Christian Szegedy, Scott Reed, Cheng-Yang Fu, Alexander C. Berg * * Provenance: https://github.com/chuanqi305/MobileNet-SSD * * @note To list all the possible arguments execute the binary appended with the --help option * * @param[in] argc Number of arguments * @param[in] argv Arguments */ int main(int argc, char **argv) { return arm_compute::utils::run_example(argc, argv); }