hexia 23641e618a | ||
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acl | ||
core | ||
example | ||
scripts | ||
CMakeLists.txt | ||
README.md | ||
README_CN.md | ||
main.cc | ||
ms_service.proto |
README.md
MindSpore-based Inference Service Deployment
Overview
MindSpore Serving is a lightweight and high-performance service module that helps MindSpore developers efficiently deploy online inference services in the production environment. After completing model training using MindSpore, you can export the MindSpore model and use MindSpore Serving to create an inference service for the model. Currently, only Ascend 910 is supported.
Starting Serving
After MindSpore is installed using pip
, the Serving executable program is stored in /{your python path}/lib/python3.7/site-packages/mindspore/ms_serving
.
Run the following command to start Serving:
ms_serving [--help] [--model_path <MODEL_PATH>] [--model_name <MODEL_NAME>]
[--port <PORT>] [--device_id <DEVICE_ID>]
Parameters are described as follows:
Parameter | Attribute | Function | Parameter Type | Default Value | Value Range |
---|---|---|---|---|---|
--help |
Optional | Displays the help information about the startup command. | - | - | - |
--model_path=<MODEL_PATH> |
Mandatory | Path for storing the model to be loaded. | String | Null | - |
--model_name=<MODEL_NAME> |
Mandatory | Name of the model file to be loaded. | String | Null | - |
--=port <PORT> |
Optional | Specifies the external Serving port number. | Integer | 5500 | 1–65535 |
--device_id=<DEVICE_ID> |
Optional | Specifies device ID to be used. | Integer | 0 | 0 to 7 |
Before running the startup command, add the path
/{your python path}/lib:/{your python path}/lib/python3.7/site-packages/mindspore/lib
to the environment variableLD_LIBRARY_PATH
.
Application Example
The following uses a simple network as an example to describe how to use MindSpore Serving.
Exporting Model
Use add_model.py to build a network with only the Add operator and export the MindSpore inference deployment model.
python add_model.py
Execute the script to generate the tensor_add.mindir
file. The input of the model is two one-dimensional tensors with shape [2,2], and the output is the sum of the two input tensors.
Starting Serving Inference
ms_serving --model_path={model directory} --model_name=tensor_add.mindir
If the server prints the MS Serving Listening on 0.0.0.0:5500
log, the Serving has loaded the inference model.
Client Samples
Python Client Sample
Obtain ms_client.py and start the Python client.
python ms_client.py
If the following information is displayed, the Serving has correctly executed the inference of the Add network.
ms client received:
[[2. 2.]
[2. 2.]]
C++ Client Sample
-
Obtain an executable client sample program.
Download the MindSpore source code. You can use either of the following methods to compile and obtain the client sample program:
-
When MindSpore is compiled using the source code, the Serving C++ client sample program is generated. You can find the
ms_client
executable program in thebuild/mindspore/serving/example/cpp_client
directory. -
Independent compilation
Preinstall gRPC.
Run the following command in the MindSpore source code path to compile a client sample program:
cd mindspore/serving/example/cpp_client mkdir build && cd build cmake -D GRPC_PATH={grpc_install_dir} .. make
In the preceding command,
{grpc_install_dir}
indicates the gRPC installation path. Replace it with the actual gRPC installation path.
-
-
Start the client.
Execute
ms_client
to send an inference request to the Serving../ms_client --target=localhost:5500
If the following information is displayed, the Serving has correctly executed the inference of the Add network.
Compute [[1, 2], [3, 4]] + [[1, 2], [3, 4]] Add result is 2 4 6 8 client received: RPC OK
The client code consists of the following parts:
- Implement the client based on MSService::Stub and create a client instance.
class MSClient { public: explicit MSClient(std::shared_ptr<Channel> channel) : stub_(MSService::NewStub(channel)) {} private: std::unique_ptr<MSService::Stub> stub_; };MSClient client(grpc::CreateChannel(target_str, grpc::InsecureChannelCredentials())); MSClient client(grpc::CreateChannel(target_str, grpc::InsecureChannelCredentials()));
- Build the request input parameter
Request
, output parameterReply
, and gRPC clientContext
based on the actual network input.PredictRequest request; PredictReply reply; ClientContext context; //construct tensor Tensor data; //set shape TensorShape shape; shape.add_dims(4); *data.mutable_tensor_shape() = shape; //set type data.set_tensor_type(ms_serving::MS_FLOAT32); std::vector<float> input_data{1, 2, 3, 4}; //set datas data.set_data(input_data.data(), input_data.size()); //add tensor to request *request.add_data() = data; *request.add_data() = data;
- Call the gRPC API to communicate with the Serving that has been started, and obtain the return value.
Status status = stub_->Predict(&context, request, &reply);
For details about the complete code, see ms_client.