Ascend 310 AI处理器上使用MindIR模型进行推理
Ascend
推理应用
概述
Ascend 310是面向边缘场景的高能效高集成度AI处理器,本教程介绍如何在Ascend 310上使用MindSpore基于MindIR模型文件执行推理,主要包括以下流程:
导出MindIR模型文件,这里以ResNet-50模型为例。
编译推理代码,生成可执行
main
文件。加载保存的MindIR模型,执行推理并查看结果。
开发环境准备
参考安装指导准备Ascend环境与MindSpore。
导出MindIR模型文件
在CPU/GPU/Ascend 910的机器上训练好目标网络,并保存为CheckPoint文件,通过网络和CheckPoint文件导出对应的MindIR格式模型文件,导出流程参见导出MindIR格式文件。
这里提供使用BatchSize为1的ResNet-50模型导出的示例MindIR文件resnet50_imagenet.mindir。
推理目录结构介绍
创建目录放置推理代码工程,例如/home/HwHiAiUser/Ascend/ascend-toolkit/20.0.RC1/acllib_linux.arm64/sample/acl_execute_model/ascend310_resnet50_preprocess_sample
,可以从官网示例下载样例代码,model
目录用于存放上述导出的MindIR
模型文件,test_data
目录用于存放待分类的图片,推理代码工程目录结构如下:
└─ascend310_resnet50_preprocess_sample
├── CMakeLists.txt // 构建脚本
├── README.md // 使用说明
├── main.cc // 主函数
├── main_hide_preprocess.cc // 主函数2,免预处理代码的推理方式(已嵌入到MindIR中)
├── model
│ └── resnet50_imagenet.mindir // MindIR模型文件
└── test_data
├── ILSVRC2012_val_00002138.JPEG // 输入样本图片1
├── ILSVRC2012_val_00003014.JPEG // 输入样本图片2
├── ... // 输入样本图片n
推理代码介绍
需要手动定义预处理的模型推理方式:main.cc
使用CPU算子数据预处理
引用mindspore
和mindspore::dataset
的名字空间。
namespace ms = mindspore;
namespace ds = mindspore::dataset;
环境初始化,指定硬件为Ascend 310,DeviceID为0:
auto context = std::make_shared<ms::Context>();
auto ascend310_info = std::make_shared<ms::Ascend310DeviceInfo>();
ascend310_info->SetDeviceID(0);
context->MutableDeviceInfo().push_back(ascend310_info);
加载模型文件:
// Load MindIR model
ms::Graph graph;
ms::Status ret = ms::Serialization::Load(resnet_file, ms::ModelType::kMindIR, &graph);
// Build model with graph object
ms::Model resnet50;
ret = resnet50.Build(ms::GraphCell(graph), context);
获取模型所需输入信息:
std::vector<ms::MSTensor> model_inputs = resnet50.GetInputs();
加载图片文件:
// Readfile is a function to read images
ms::MSTensor ReadFile(const std::string &file);
auto image = ReadFile(image_file);
图片预处理(使用CPU算子):
// Create the CPU operator provided by MindData to get the function object
// Decode the input to RGB format
std::shared_ptr<ds::TensorTransform> decode(new ds::vision::Decode());
// Resize the image to the given size
std::shared_ptr<ds::TensorTransform> resize(new ds::vision::Resize({256}));
// Normalize the input
std::shared_ptr<ds::TensorTransform> normalize(new ds::vision::Normalize(
{0.485 * 255, 0.456 * 255, 0.406 * 255}, {0.229 * 255, 0.224 * 255, 0.225 * 255}));
// Crop the input image at the center
std::shared_ptr<ds::TensorTransform> center_crop(new ds::vision::CenterCrop({224, 224}));
// shape (H, W, C) to shape (C, H, W)
std::shared_ptr<ds::TensorTransform> hwc2chw(new ds::vision::HWC2CHW());
// // Define a MindData preprocessor
ds::Execute preprocessor({decode, resize, normalize, center_crop, hwc2chw});
// Call the function object to get the processed image
ret = preprocessor(image, &image);
执行推理:
// Create outputs vector
std::vector<ms::MSTensor> outputs;
// Create inputs vector
std::vector<ms::MSTensor> inputs;
inputs.emplace_back(model_inputs[0].Name(), model_inputs[0].DataType(), model_inputs[0].Shape(),
image.Data().get(), image.DataSize());
// Call the Predict function of Model for inference
ret = resnet50.Predict(inputs, &outputs);
获取推理结果:
// Output the maximum probability to the screen
std::cout << "Image: " << image_file << " infer result: " << GetMax(outputs[0]) << std::endl;
使用Ascend 310算子数据预处理
Dvpp模块为Ascend 310芯片内置硬件解码器,相较于CPU拥有对图形处理更强劲的性能。支持JPEG图片的解码缩放等基础操作。
引用mindspore
和mindspore::dataset
的名字空间。
namespace ms = mindspore;
namespace ds = mindspore::dataset;
环境初始化,指定硬件为Ascend 310,DeviceID为0:
auto context = std::make_shared<ms::Context>();
auto ascend310_info = std::make_shared<ms::Ascend310DeviceInfo>();
ascend310_info->SetDeviceID(0);
context->MutableDeviceInfo().push_back(ascend310_info);
加载图片文件:
// Readfile is a function to read images
ms::MSTensor ReadFile(const std::string &file);
auto image = ReadFile(image_file);
图片预处理(使用Ascend 310算子):
// Create the Dvpp operator provided by MindData to get the function object
// Decode the input to YUV420 format
std::shared_ptr<ds::TensorTransform> decode(new ds::vision::Decode());
// Resize the image to the given size
std::shared_ptr<ds::TensorTransform> resize(new ds::vision::Resize({256}));
// Normalize the input
std::shared_ptr<ds::TensorTransform> normalize(new ds::vision::Normalize(
{0.485 * 255, 0.456 * 255, 0.406 * 255}, {0.229 * 255, 0.224 * 255, 0.225 * 255}));
// Crop the input image at the center
std::shared_ptr<ds::TensorTransform> center_crop(new ds::vision::CenterCrop({224, 224}));
图片预处理(使用Ascend 310算子, 性能为CPU算子的2.3倍),需显式指定计算硬件为Ascend 310。
// Define a MindData preprocessor, set deviceType = kAscend310, device id = 0
ds::Execute preprocessor({decode, resize, center_crop, normalize}, MapTargetDevice::kAscend310, 0);
// Call the function object to get the processed image
ret = preprocessor(image, &image);
加载模型文件: 若使用Ascend 310算子,则需要为模型插入Aipp算子。
// Load MindIR model
ms::Graph graph;
ms::Status ret = ms::Serialization::Load(resnet_file, ms::ModelType::kMindIR, &graph);
// Build model with graph object
ascend310_info->SetInsertOpConfigPath(preprocessor.AippCfgGenerator());
ms::Model resnet50;
ret = resnet50.Build(ms::GraphCell(graph), context);
获取模型所需输入信息:
std::vector<ms::MSTensor> model_inputs = resnet50.GetInputs();
执行推理:
// Create outputs vector
std::vector<ms::MSTensor> outputs;
// Create inputs vector
std::vector<ms::MSTensor> inputs;
inputs.emplace_back(model_inputs[0].Name(), model_inputs[0].DataType(), model_inputs[0].Shape(),
image.Data().get(), image.DataSize());
// Call the Predict function of Model for inference
ret = resnet50.Predict(inputs, &outputs);
获取推理结果:
// Output the maximum probability to the screen
std::cout << "Image: " << image_file << " infer result: " << GetMax(outputs[0]) << std::endl;
免手动定义预处理的模型推理方式:main_hide_preprocess.cc
注意:目前只支持CV类的模型
引用mindspore
和mindspore::dataset
的名字空间。
namespace ms = mindspore;
namespace ds = mindspore::dataset;
环境初始化,指定硬件为Ascend 310,DeviceID为0:
auto context = std::make_shared<ms::Context>();
auto ascend310_info = std::make_shared<ms::Ascend310DeviceInfo>();
ascend310_info->SetDeviceID(0);
context->MutableDeviceInfo().push_back(ascend310_info);
加载模型文件:
// Load MindIR model
ms::Graph graph;
ms::Status ret = ms::Serialization::Load(resnet_file, ms::ModelType::kMindIR, &graph);
// Build model with graph object
ms::Model resnet50;
ret = resnet50.Build(ms::GraphCell(graph), context);
获取模型所需输入信息:
std::vector<ms::MSTensor> model_inputs = resnet50.GetInputs();
提供图片文件,一键执行预处理与模型推理:
std::vector<MSTensor> inputs = {ReadFile(image_path)};
std::vector<MSTensor> outputs;
ret = resnet50.PredictWithPreprocess(inputs, &outputs);
获取推理结果:
// 获取推理结果的最大概率
std::cout << "Image: " << image_file << " infer result: " << GetMax(outputs[0]) << std::endl;
构建脚本介绍
构建脚本用于构建用户程序,样例来自于:https://gitee.com/mindspore/docs/blob/r1.5/docs/sample_code/ascend310_resnet50_preprocess_sample/CMakeLists.txt 。
为编译器添加头文件搜索路径:
option(MINDSPORE_PATH "mindspore install path" "")
include_directories(${MINDSPORE_PATH})
include_directories(${MINDSPORE_PATH}/include)
在MindSpore中查找所需动态库:
find_library(MS_LIB libmindspore.so ${MINDSPORE_PATH}/lib)
file(GLOB_RECURSE MD_LIB ${MINDSPORE_PATH}/_c_dataengine*)
使用指定的源文件生成目标可执行文件,并为目标文件链接MindSpore库:
add_executable(resnet50_sample main.cc)
target_link_libraries(resnet50_sample ${MS_LIB} ${MD_LIB})
add_executable(resnet50_hide_preprocess main_hide_preprocess.cc)
target_link_libraries(resnet50_hide_preprocess ${MS_LIB} ${MD_LIB})
编译推理代码
进入工程目录ascend310_resnet50_preprocess_sample
,设置如下环境变量:
# control log level. 0-DEBUG, 1-INFO, 2-WARNING, 3-ERROR, default level is WARNING.
export GLOG_v=2
# Conda environmental options
LOCAL_ASCEND=/usr/local/Ascend # the root directory of run package
# lib libraries that the run package depends on
export LD_LIBRARY_PATH=${LOCAL_ASCEND}/ascend-toolkit/latest/fwkacllib/lib64:${LOCAL_ASCEND}/driver/lib64:${LOCAL_ASCEND}/ascend-toolkit/latest/opp/op_impl/built-in/ai_core/tbe/op_tiling:${LD_LIBRARY_PATH}
# lib libraries that the mindspore depends on, modify "pip3" according to the actual situation
export LD_LIBRARY_PATH=`pip3 show mindspore-ascend | grep Location | awk '{print $2"/mindspore/lib"}' | xargs realpath`:${LD_LIBRARY_PATH}
# if MindSpore is installed by binary, run "export LD_LIBRARY_PATH=path-to-your-custom-dir:${LD_LIBRARY_PATH}"
# Environment variables that must be configured
export TBE_IMPL_PATH=${LOCAL_ASCEND}/ascend-toolkit/latest/opp/op_impl/built-in/ai_core/tbe # TBE operator implementation tool path
export ASCEND_OPP_PATH=${LOCAL_ASCEND}/ascend-toolkit/latest/opp # OPP path
export PATH=${LOCAL_ASCEND}/ascend-toolkit/latest/fwkacllib/ccec_compiler/bin/:${PATH} # TBE operator compilation tool path
export PYTHONPATH=${TBE_IMPL_PATH}:${PYTHONPATH} # Python library that TBE implementation depends on
执行cmake
命令,其中pip3
需要按照实际情况修改:
cmake . -DMINDSPORE_PATH=`pip3 show mindspore-ascend | grep Location | awk '{print $2"/mindspore"}' | xargs realpath`
# if MindSpore is installed by binary, run "cmake . -DMINDSPORE_PATH=path-to-your-custom-dir"
再执行make
命令编译即可。
make
编译完成后,在ascend310_resnet50_preprocess_sample
下会生成可执行main
文件。
执行推理并查看结果
登录Ascend 310环境,创建model
目录放置MindIR文件resnet50_imagenet.mindir
,例如/home/HwHiAiUser/Ascend/ascend-toolkit/20.0.RC1/acllib_linux.arm64/sample/acl_execute_model/ascend310_resnet50_preprocess_sample/model
。
创建test_data
目录放置图片,例如/home/HwHiAiUser/Ascend/ascend-toolkit/20.0.RC1/acllib_linux.arm64/sample/acl_execute_model/ascend310_resnet50_preprocess_sample/test_data
。
就可以开始执行推理了:
如果使用的MindIR,在导出时是不带数据预处理的,可以执行该主函数:
./resnet50_sample
执行后,会对test_data
目录下放置的所有图片进行推理,比如放置了9张ImageNet2012验证集中label为0的图片,可以看到推理结果如下。
Image: ./test_data/ILSVRC2012_val_00002138.JPEG infer result: 0
Image: ./test_data/ILSVRC2012_val_00003014.JPEG infer result: 0
Image: ./test_data/ILSVRC2012_val_00006697.JPEG infer result: 0
Image: ./test_data/ILSVRC2012_val_00007197.JPEG infer result: 0
Image: ./test_data/ILSVRC2012_val_00009111.JPEG infer result: 0
Image: ./test_data/ILSVRC2012_val_00009191.JPEG infer result: 0
Image: ./test_data/ILSVRC2012_val_00009346.JPEG infer result: 0
Image: ./test_data/ILSVRC2012_val_00009379.JPEG infer result: 0
Image: ./test_data/ILSVRC2012_val_00009396.JPEG infer result: 0
如果使用的MindIR,在导出时是带数据预处理的,可以执行该主函数:
./resnet50_hide_preprocess
执行后,会对test_data
目录下放置的ILSVRC2012_val_00002138.JPEG图片(在main_hide_preprocess.cc中可配置)进行推理,可以看到推理结果如下。
Image: ./test_data/ILSVRC2012_val_00002138.JPEG infer result: 0