---
title: Hyperparameter Optimization
---

## What is HyperParameter Optimization?
Hyperparameters are variables that directly control the behaviors of training algorithms, and have a significant effect on 
the performance of the resulting machine learning models. Finding the hyperparameter values that yield the best 
performing models can be complicated. Manually adjusting hyperparameters over the course of many training trials can be 
slow and tedious. Luckily, hyperparameter optimization can be automated and boosted using ClearML's 
**`HyperParameterOptimizer`** class.

## ClearML's HyperParameter Optimization

ClearML provides the `HyperParameterOptimizer` class, which takes care of the entire optimization process for users 
with a simple interface.  

ClearML's approach to hyperparameter optimization is scalable, easy to set up and to manage, and it makes it easy to 
compare results.

### Workflow

![Hyperparameter optimization diagram](../img/hpo_diagram.png)

The diagram above demonstrates the typical flow of hyperparameter optimization where the parameters of a base task are optimized: 

1. Configure an Optimization Task with a base task whose parameters will be optimized, and a set of parameter values to 
   test
1. Clone the base task. Each clone's parameter is overridden with a value from the optimization task  
1. Enqueue each clone for execution by a ClearML Agent
1. The Optimization Task records and monitors the cloned tasks' configuration and execution details, and returns a 
   summary of the optimization results in tabular and parallel coordinate formats, and in a scalar plot. 
 

![Optimization results summary chart](../img/fundamentals_hpo_summary.png)

<details className="cml-expansion-panel screenshot">
<summary className="cml-expansion-panel-summary">Parallel coordinate and scalar plots</summary>
<div className="cml-expansion-panel-content">

![Parallel Coordinates](../img/fundamentals_hpo_parallel_coordinates.png)

![Scalars](../img/fundamentals_hpo_scalars.png)

</div>
</details>

### Supported Optimizers

The `HyperParameterOptimizer` class contains **ClearML**’s hyperparameter optimization modules. Its modular design enables 
using different optimizers, including existing software frameworks, enabling simple, accurate, and fast hyperparameter 
optimization.

* **Optuna** - `automation.optuna.optuna.OptimizerOptuna`. Optuna is the default optimizer in ClearML. It makes use of 
  different samplers such as grid search, random, bayesian, and evolutionary algorithms. 
  For more information, see the [Optuna](https://optuna.readthedocs.io/en/latest/) 
  documentation.
* **BOHB** - `automation.hpbandster.bandster.OptimizerBOHB`. BOHB performs robust and efficient hyperparameter optimization 
  at scale by combining the speed of Hyperband searches with the guidance and guarantees of convergence of Bayesian Optimization. 
  For more information about HpBandSter BOHB, see the [HpBandSter](https://automl.github.io/HpBandSter/build/html/index.html) 
  documentation and a [code example](../guides/frameworks/pytorch/notebooks/image/hyperparameter_search.md).
* **Random** uniform sampling of hyperparameters - `automation.optimization.RandomSearch`.
* **Full grid** sampling strategy of every hyperparameter combination - `Grid search automation.optimization.GridSearch`.
* **Custom** - `automation.optimization.SearchStrategy` - Use a custom class and inherit from the ClearML automation base strategy class 


## Defining a Hyperparameter Optimization Search Example

1. Import ClearML's automation modules: 

  ```python 
  from clearml.automation import UniformParameterRange, UniformIntegerParameterRange
  from clearml.automation import HyperParameterOptimizer
  from clearml.automation.optuna import OptimizerOptuna
  ```
1. Initialize the Task, which will be stored in ClearML Server when the code runs. After the code runs at least once, 
   it can be reproduced, and the parameters can be tuned:
  ```python
  from clearml import Task
  
  task = Task.init(project_name='Hyper-Parameter Optimization',
                 task_name='Automatic Hyper-Parameter Optimization',
                 task_type=Task.TaskTypes.optimizer,
                 reuse_last_task_id=False)
  
  ```

1. Define the optimization configuration and resources budget:
  ```python
  optimizer = HyperParameterOptimizer(
        # specifying the task to be optimized, task must be in system already so it can be cloned
        base_task_id=TEMPLATE_TASK_ID,  
        # setting the hyper-parameters to optimize
        hyper_parameters=[
            UniformIntegerParameterRange('number_of_epochs', min_value=2, max_value=12, step_size=2),
            UniformIntegerParameterRange('batch_size', min_value=2, max_value=16, step_size=2),
            UniformParameterRange('dropout', min_value=0, max_value=0.5, step_size=0.05),
            UniformParameterRange('base_lr', min_value=0.00025, max_value=0.01, step_size=0.00025),
            ],
        # setting the objective metric we want to maximize/minimize
        objective_metric_title='accuracy',
        objective_metric_series='total',
        objective_metric_sign='max',  

        # setting optimizer  
        optimizer_class=OptimizerOptuna,
    
        # configuring optimization parameters
        execution_queue='default',  
        max_number_of_concurrent_tasks=2,  
        optimization_time_limit=60., 
        compute_time_limit=120, 
        total_max_jobs=20,  
        min_iteration_per_job=15000,  
        max_iteration_per_job=150000,  
        )
  ```
<br/><br/>

For more information about `HyperParameterOptimizer` and supported optimization modules, see the [HyperParameterOptimizer class reference](../references/sdk/hpo_optimization_hyperparameteroptimizer.md).

## Tutorial

Check out the [Hyperparameter Optimization](../guides/optimization/hyper-parameter-optimization/examples_hyperparam_opt.md) tutorial for a step-by-step guide.