Esta página aún no se ha traducido para esta versión. Puede ver la versión más reciente de esta página en inglés.

saveCompactModel

Save model object in file for code generation

To generate C/C++ code for the object functions (predict, random, knnsearch, or rangesearch) of machine learning models, use saveCompactModel, loadCompactModel, and codegen. After training a machine learning model, save the model by using saveCompactModel. Define an entry-point function that loads the model by using loadCompactModel and calls an object function. Then use codegen or the MATLAB® Coder™ app to generate C/C++ code. Generating C/C++ code requires MATLAB Coder .

This flow chart shows the code generation workflow for the object functions of machine learning models. Use saveCompactModel for the highlighted step.

Sintaxis

saveCompactModel(Mdl,filename)

Descripción

ejemplo

saveCompactModel(Mdl,filename) prepares a classification model, regression model, or nearest neighbor searcher (Mdl) for code generation by reducing its memory footprint and then saving it in the MATLAB formatted binary file (MAT-file) named filename. You can pass filename to loadCompactModel to reconstruct the model object from the filename file.

Ejemplos

contraer todo

After training a machine learning model, save the model by using saveCompactModel. Define an entry-point function that loads the model by using loadCompactModel and calls the predict function of the trained model. Then use codegen to generate C/C++ code.

This example briefly explains the code generation workflow for the prediction of machine learning models at the command line. For more details, see Code Generation for Prediction of Machine Learning Model at Command Line. You can also generate code using the MATLAB Coder app. See Code Generation for Prediction of Machine Learning Model Using MATLAB Coder App for details. To learn about the code generation for finding nearest neighbors using a nearest neighbor searcher model, see Code Generation for Nearest Neighbor Searcher.

Train Model

Load Fisher's iris data set. Remove all observed setosa irises data so that X and Y contain data for two classes only.

load fisheriris
inds = ~strcmp(species,'setosa');
X = meas(inds,:);
Y = species(inds);

Train a support vector machine (SVM) classification model using the processed data set.

Mdl = fitcsvm(X,Y);

Mdl is a ClassificationSVM model.

Save Model

Save the SVM classification model to the file SVMIris.mat by using saveCompactModel.

saveCompactModel(Mdl,'SVMIris');

Define Entry-Point Function

Define an entry-point function named classifyIrises that does the following:

  • Accept iris flower measurements with columns corresponding to meas, and return predicted labels.

  • Load a trained SVM classification model.

  • Predict labels using the loaded classification model for the iris flower measurements.

type classifyIrises.m
function label = classifyIrises(X) %#codegen
%CLASSIFYIRISES Classify iris species using SVM Model
%   CLASSIFYIRISES classifies the iris flower measurements in X using the
%   compact SVM model in the file SVMIris.mat, and then returns class
%   labels in label.
CompactMdl = loadCompactModel('SVMIris');
label = predict(CompactMdl,X);
end

Add the %#codegen compiler directive (or pragma) to the entry-point function after the function signature to indicate that you intend to generate code for the MATLAB algorithm. Adding this directive instructs the MATLAB Code Analyzer to help you diagnose and fix violations that would result in errors during code generation.

Note: If you click the button located in the upper-right section of this example and open this example in MATLAB®, then MATLAB® opens the example folder. This folder includes the entry-point function file.

Generate Code

Generate code for the entry-point function using codegen. Because C and C++ are statically typed languages, you must determine the properties of all variables in the entry-point function at compile time. Pass X as the value of the -args option to specify that the generated code must accept an input that has the same data type and array size as the training data X. If the number of observations is unknown at compile time, you can also specify the input as variable-size by using coder.typeof. For details, see Specify Variable-Size Arguments for Code Generation and Specify Properties of Entry-Point Function Inputs (MATLAB Coder).

codegen classifyIrises -args {X}

codegen generates the MEX function classifyIrises_mex with a platform-dependent extension.

Verify Generated Code

Compare the labels classified using predict, classifyIrises, and classifyIrises_mex.

label1 = predict(Mdl,X);
label2 = classifyIrises(X);
label3 = classifyIrises_mex(X);
verify_label = isequal(label1,label2,label3)
verify_label = logical
   1

isequal returns logical 1 (true), which means all the inputs are equal. The labels classified all three ways are the same.

Argumentos de entrada

contraer todo

Machine learning model, specified as a full or compact model object, as given in the following tables of supported models.

File name, specified as a character vector or string scalar.

If the filename file exists, then saveCompactModel overwrites the file.

The extension of the filename file must be .mat. If filename has no extension, then saveCompactModel appends .mat.

If filename does not include a full path, then saveCompactModel saves the file to the current folder.

Ejemplo: 'SVMMdl'

Tipos de datos: char | string

Algoritmos

saveCompactModel reduces the memory footprint of full classification or regression models (Mdl) by removing properties that are not required for prediction. That is, before saving the model, saveCompactModel applies the appropriate compact method to Mdl.

Alternative Functionality

  • Use a coder configurer created by learnerCoderConfigurer for SVM models to generate C/C++ code. After training an SVM model, create a coder configurer of the model. Use the object functions and properties of the configurer to configure code generation options and to generate code for the predict and update functions of the model. If you generate code using a coder configurer, you can update model parameters in the generated code without having to regenerate the code. For details, see Code Generation for Prediction and Update Using Coder Configurer.

Introducido en R2016b