Get Started with ORT for Java
The ONNX runtime provides a Java binding for running inference on ONNX models on a JVM.
Contents
- Supported Versions
- Builds
- API Reference
- Sample
- Get Started
- Run on a GPU or with another provider (optional)
Supported Versions
Java 8 or newer
Builds
Release artifacts are published to Maven Central for use as a dependency in most Java build tools. The artifacts are built with support for some popular platforms.
Artifact | Description | Supported Platforms |
---|---|---|
com.microsoft.onnxruntime:onnxruntime | CPU | Windows x64, Linux x64, macOS x64 |
com.microsoft.onnxruntime:onnxruntime_gpu | GPU (CUDA) | Windows x64, Linux x64 |
For building locally, please see the Java API development documentation for more details.
For customization of the loading mechanism of the shared library, please see advanced loading instructions.
API Reference
The Javadoc is available here.
Sample
An example implementation is located in src/test/java/sample/ScoreMNIST.java.
Once compiled the sample code expects the following arguments ScoreMNIST [path-to-mnist-model] [path-to-mnist] [scikit-learn-flag]
. MNIST is expected to be in libsvm format. If the optional scikit-learn flag is supplied the model is expected to be produced by skl2onnx (so expects a flat feature vector, and produces a structured output), otherwise the model is expected to be a CNN from pytorch (expecting a [1][1][28][28]
input, producing a vector of probabilities). Two example models are provided in testdata, cnn_mnist_pytorch.onnx
and lr_mnist_scikit.onnx
. The first is a LeNet5 style CNN trained using PyTorch, the second is a logistic regression trained using scikit-learn.
The unit tests contain several examples of loading models, inspecting input/output node shapes and types, as well as constructing tensors for scoring.
Get Started
Here is simple tutorial for getting started with running inference on an existing ONNX model for a given input data. The model is typically trained using any of the well-known training frameworks and exported into the ONNX format.
Note the code presented below uses syntax available from Java 10 onwards. The Java 8 syntax is similar but more verbose.
To start a scoring session, first create the OrtEnvironment
, then open a session using the OrtSession
class, passing in the file path to the model as a parameter.
var env = OrtEnvironment.getEnvironment();
var session = env.createSession("model.onnx",new OrtSession.SessionOptions());
Once a session is created, you can execute queries using the run
method of the OrtSession
object. At the moment we support OnnxTensor
inputs, and models can produce OnnxTensor
, OnnxSequence
or OnnxMap
outputs. The latter two are more likely when scoring models produced by frameworks like scikit-learn.
The run call expects a Map<String,OnnxTensor>
where the keys match input node names stored in the model. These can be viewed by calling session.getInputNames()
or session.getInputInfo()
on an instantiated session. The run call produces a Result
object, which contains a Map<String,OnnxValue>
representing the output. The Result
object is AutoCloseable
and can be used in a try-with-resources statement to prevent references from leaking out. Once the Result
object is closed, all it’s child OnnxValue
s are closed too.
OnnxTensor t1,t2;
var inputs = Map.of("name1",t1,"name2",t2);
try (var results = session.run(inputs)) {
// manipulate the results
}
You can load your input data into OnnxTensor objects in several ways. The most efficient way is to use a java.nio.Buffer
, but it’s possible to use multidimensional arrays too. If constructed using arrays the arrays must not be ragged.
FloatBuffer sourceData; // assume your data is loaded into a FloatBuffer
long[] dimensions; // and the dimensions of the input are stored here
var tensorFromBuffer = OnnxTensor.createTensor(env,sourceData,dimensions);
float[][] sourceArray = new float[28][28]; // assume your data is loaded into a float array
var tensorFromArray = OnnxTensor.createTensor(env,sourceArray);
Here is a complete sample program that runs inference on a pretrained MNIST model.
Run on a GPU or with another provider (optional)
To enable other execution providers like GPUs simply turn on the appropriate flag on SessionOptions when creating an OrtSession.
int gpuDeviceId = 0; // The GPU device ID to execute on
var sessionOptions = new OrtSession.SessionOptions();
sessionOptions.addCUDA(gpuDeviceId);
var session = environment.createSession("model.onnx", sessionOptions);
The execution providers are prioritized in the order they are enabled.