# prepareToDeploy

Class: sdo.SimulationTest
Package: sdo

Configure simulation scenario for deployment with Simulink Compiler

## Syntax

``Simulator_out = prepareToDeploy(Simulator)``
``Simulator_out = prepareToDeploy(Simulator,p)``

## Description

````Simulator_out = prepareToDeploy(Simulator)` configures the Simulink® model and simulation scenario specified as the `sdo.SimulationTest` object `Simulator`, for deployment with Simulink Compiler™.`prepareToDeploy` saves logging and parameter information in the simulation scenario `Simulator_out` so that the `sdo.SimulationTest` object does not need to perform model error checking or configuration when deployed as part of an executable.```

example

````Simulator_out = prepareToDeploy(Simulator,p)` configures the `sdo.SimulationTest` object `Simulator` for deployment with an optional vector `p` of `param.Continuous` objects that can be used to modify the model variables once the model is deployed.```

## Input Arguments

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Simulation scenario for a Simulink model, specified as an `sdo.SimulationTest` object. A simulation scenario specifies input signals, model parameter and initial state values, and signals to log for a model.

Parameters to modify the deployed model, specified as a vector of `param.Continuous` objects. You can use `p` to modify the model variables once the model is deployed.

## Output Arguments

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Simulation scenario configured for deployment with Simulink Compiler, returned as an `sdo.SimulationTest` object.

## Examples

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For this example, set up your parameter estimation problem using the Parameter Estimator app and generate MATLAB code from it. For more information on generating MATLAB code from the app, see Generate MATLAB Code for Parameter Estimation Problems (GUI). Alternatively, you can also set up your estimation problem at the command line.

Next, split the generated MATLAB code just before the estimation objective function is defined. This results in two files $-$ a `run` function and a `setup` function, as described in Deployed Application of Parameter Estimation.

In the `setup` function, add the following lines of code at the end to configure the experiment and simulation test objects for deployment and save them to a MAT-file.

```Experiment_out = prepareToDeploy(Experiement); Simulator = createSimulator(Experiment_out); Simulator = prepareToDeploy(Simulator,p); save ObjectsToDeploy Experiment_out Simulator p ```

In the `run` function, add the following lines of code at the beginning of the function to include the Simulink model in the compiled code and load the objects that were saved in the `setup` function.

```%#function simulink_model_name.slx load ObjectsToDeploy Experiment_out Simulator p ```

Next, add the following lines to load the experiment data and update the experiment object. For this example, assume that the experiment data is contained in the first three columns of a Microsoft Excel spreadsheet file named `fname.xls`.

```d = xlsread(fname); u = timeseries(d(:,3),d(:,1)); y = timeseries(d(:,2),d(:,1)); Experiment_out = updateIOData(Experiment_out,'simulink_model_name/param1',u); Experiment_out = updateIOData(Experiment_out,'simulink_model_name/param2',y); ```

For a detailed example showing how to deploy your parameter estimation problem using the Simulink Compiler, see Deployed Application of Parameter Estimation.