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Ortex

Ortex is a wrapper around ONNX Runtime (implemented as bindings to ort). Ortex leverages Nx.Serving to easily deploy ONNX models that run concurrently and distributed in a cluster. Ortex also provides a storage-only tensor implementation for ease of use.

ONNX models are a standard machine learning model format that can be exported from most ML libraries like PyTorch and TensorFlow. Ortex allows for easy loading and fast inference of ONNX models using different backends available to ONNX Runtime such as CUDA, TensorRT, Core ML, and ARM Compute Library.

Examples

TL;DR:

iex> model = Ortex.load("./models/resnet50.onnx")
#Ortex.Model<
  inputs: [{"input", "Float32", [nil, 3, 224, 224]}]
  outputs: [{"output", "Float32", [nil, 1000]}]>
iex> {output} = Ortex.run(model, Nx.broadcast(0.0, {1, 3, 224, 224}))
iex> output |> Nx.backend_transfer() |> Nx.argmax
#Nx.Tensor<
  s64
  499
>

Inspecting a model shows the expected inputs, outputs, data types, and shapes. Axes with nil represent a dynamic size.

To see more real world examples see the examples folder.

Serving

Ortex also implements Nx.Serving behaviour. To use it in your application's supervision tree consult the Nx.Serving docs.

iex> serving = Nx.Serving.new(Ortex.Serving, model)
iex> batch = Nx.Batch.stack([{Nx.broadcast(0.0, {3, 224, 224})}])
iex> {result} = Nx.Serving.run(serving, batch)
iex> result |> Nx.backend_transfer() |> Nx.argmax(axis: 1)
#Nx.Tensor<
  s64[1]
  [499]
>

Installation

Ortex can be installed by adding ortex to your list of dependencies in mix.exs:

def deps do
  [
    {:ortex, "~> 0.1.10"}
  ]
end

You will need Rust for compilation to succeed.