Crate surrealml_core
source ·Expand description
An embedded ONNX runtime directly in the Rust binary when compiling result in no need for installing ONNX runtime separately or worrying about version clashes with other runtimes.
This crate is just the Rust implementation of the Surml API. It is advised that you just use this crate directly if you are running
a Rust server. It must be noted that the version of ONNX needs to be the same as the client when using this crate. For this current
version of Surml, the ONNX version is 1.16.0.
§Compilation config
If nothing is configured the crate will compiled the ONNX runtime into the binary. This is the default behaviour. However, if you
want to use an ONNX runtime that is installed on your system, you can set the environment variable ONNXRUNTIME_LIB_PATH before
you compile the crate. This will make the crate use the ONNX runtime that is installed on your system.
§Usage
Surml can be used to store, load, and execute ONNX models.
§Storing and accessing models
We can store models and meta data around the models with the following code:
use std::fs::File;
use std::io::{self, Read, Write};
use surrealml_core::storage::surml_file::SurMlFile;
use surrealml_core::storage::header::Header;
use surrealml_core::storage::header::normalisers::{
wrapper::NormaliserType,
linear_scaling::LinearScaling
};
// load your own model here (surrealml python package can be used to convert PyTorch,
// and Sklearn models to ONNX or package them as surml files)
let mut file = File::open("./stash/linear_test.onnx").unwrap();
let mut model_bytes = Vec::new();
file.read_to_end(&mut model_bytes).unwrap();
// create a header for the model
let mut header = Header::fresh();
header.add_column(String::from("squarefoot"));
header.add_column(String::from("num_floors"));
header.add_output(String::from("house_price"), None);
// add normalisers if needed
header.add_normaliser(
"squarefoot".to_string(),
NormaliserType::LinearScaling(LinearScaling { min: 0.0, max: 1.0 })
);
header.add_normaliser(
"num_floors".to_string(),
NormaliserType::LinearScaling(LinearScaling { min: 0.0, max: 1.0 })
);
// create a surml file
let surml_file = SurMlFile::new(header, model_bytes);
// read and write surml files
surml_file.write("./stash/test.surml").unwrap();
let new_file = SurMlFile::from_file("./stash/test.surml").unwrap();
let file_from_bytes = SurMlFile::from_bytes(surml_file.to_bytes()).unwrap();§Executing models
We you load a surml file, you can execute the model with the following code:
use surrealml_core::storage::surml_file::SurMlFile;
use surrealml_core::execution::compute::ModelComputation;
use ndarray::ArrayD;
use std::collections::HashMap;
let mut file = SurMlFile::from_file("./stash/test.surml").unwrap();
let compute_unit = ModelComputation {
surml_file: &mut file,
};
// automatically map inputs and apply normalisers to the compute if this data was put in the header
let mut input_values = HashMap::new();
input_values.insert(String::from("squarefoot"), 1000.0);
input_values.insert(String::from("num_floors"), 2.0);
let output = compute_unit.buffered_compute(&mut input_values).unwrap();
// feed a raw ndarray into the model if no header was provided or if you want to bypass the header
let x = vec![1000.0, 2.0];
let data: ArrayD<f32> = ndarray::arr1(&x).into_dyn();
// None input can be a tuple of dimensions of the input data
let output = compute_unit.raw_compute(data, None).unwrap();Modules§
- Defines operations around performing computations on a loaded model.
- Responsible for the saving and loading of the model including meta data around the model.
Macros§
Functions§
- Returns the version of the ONNX runtime that is used.