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	---
	comments: true
	description: Learn how to validate your YOLO11 model with precise metrics, easy-to-use tools, and custom settings for optimal performance.
	keywords: Ultralytics, YOLO11, model validation, machine learning, object detection, mAP metrics, Python API, CLI
	---

	# Model Validation with Ultralytics YOLO

	<img width="1024" src="https://github.com/ultralytics/docs/releases/download/0/ultralytics-yolov8-ecosystem-integrations.avif" alt="Ultralytics YOLO ecosystem and integrations">

	## Introduction

	Validation is a critical step in the [machine learning](https://www.ultralytics.com/glossary/machine-learning-ml) pipeline, allowing you to assess the quality of your trained models. Val mode in Ultralytics YOLO11 provides a robust suite of tools and metrics for evaluating the performance of your [object detection](https://www.ultralytics.com/glossary/object-detection) models. This guide serves as a complete resource for understanding how to effectively use the Val mode to ensure that your models are both accurate and reliable.

	<p align="center">
	<br>
	<iframe loading="lazy" width="720" height="405" src="https://www.youtube.com/embed/j8uQc0qB91s?start=47"
	title="YouTube video player" frameborder="0"
	allow="accelerometer; autoplay; clipboard-write; encrypted-media; gyroscope; picture-in-picture; web-share"
	allowfullscreen>
	</iframe>
	<br>
	<strong>Watch:</strong> Ultralytics Modes Tutorial: Validation
	</p>

	## Why Validate with Ultralytics YOLO?

	Here's why using YOLO11's Val mode is advantageous:

	- Precision: Get accurate metrics like mAP50, mAP75, and mAP50-95 to comprehensively evaluate your model.
	- Convenience: Utilize built-in features that remember training settings, simplifying the validation process.
	- Flexibility: Validate your model with the same or different datasets and image sizes.
	- [Hyperparameter Tuning](https://www.ultralytics.com/glossary/hyperparameter-tuning): Use validation metrics to fine-tune your model for better performance.

	### Key Features of Val Mode

	These are the notable functionalities offered by YOLO11's Val mode:

	- Automated Settings: Models remember their training configurations for straightforward validation.
	- Multi-Metric Support: Evaluate your model based on a range of accuracy metrics.
	- CLI and Python API: Choose from command-line interface or Python API based on your preference for validation.
	- Data Compatibility: Works seamlessly with datasets used during the training phase as well as custom datasets.

	!!! tip

	* YOLO11 models automatically remember their training settings, so you can validate a model at the same image size and on the original dataset easily with just `yolo val model=yolo11n.pt` or `model('yolo11n.pt').val()`

	## Usage Examples

	Validate trained YOLO11n model [accuracy](https://www.ultralytics.com/glossary/accuracy) on the COCO8 dataset. No arguments are needed as the `model` retains its training `data` and arguments as model attributes. See Arguments section below for a full list of export arguments.

	!!! example

	=== "Python"

	```python
	from ultralytics import YOLO

	# Load a model
	model = YOLO("yolo11n.pt") # load an official model
	model = YOLO("path/to/best.pt") # load a custom model

	# Validate the model
	metrics = model.val() # no arguments needed, dataset and settings remembered
	metrics.box.map # map50-95
	metrics.box.map50 # map50
	metrics.box.map75 # map75
	metrics.box.maps # a list contains map50-95 of each category
	```

	=== "CLI"

	```bash
	yolo detect val model=yolo11n.pt # val official model
	yolo detect val model=path/to/best.pt # val custom model
	```

	## Arguments for YOLO Model Validation

	When validating YOLO models, several arguments can be fine-tuned to optimize the evaluation process. These arguments control aspects such as input image size, batch processing, and performance thresholds. Below is a detailed breakdown of each argument to help you customize your validation settings effectively.

	{% include "macros/validation-args.md" %}

	Each of these settings plays a vital role in the validation process, allowing for a customizable and efficient evaluation of YOLO models. Adjusting these parameters according to your specific needs and resources can help achieve the best balance between accuracy and performance.

	### Example Validation with Arguments

	The below examples showcase YOLO model validation with custom arguments in Python and CLI.

	!!! example

	=== "Python"

	```python
	from ultralytics import YOLO

	# Load a model
	model = YOLO("yolo11n.pt")

	# Customize validation settings
	validation_results = model.val(data="coco8.yaml", imgsz=640, batch=16, conf=0.25, iou=0.6, device="0")
	```

	=== "CLI"

	```bash
	yolo val model=yolo11n.pt data=coco8.yaml imgsz=640 batch=16 conf=0.25 iou=0.6 device=0
	```

	## FAQ

	### How do I validate my YOLO11 model with Ultralytics?

	To validate your YOLO11 model, you can use the Val mode provided by Ultralytics. For example, using the Python API, you can load a model and run validation with:

	```python
	from ultralytics import YOLO

	# Load a model
	model = YOLO("yolo11n.pt")

	# Validate the model
	metrics = model.val()
	print(metrics.box.map) # map50-95
	```

	Alternatively, you can use the command-line interface (CLI):

	```bash
	yolo val model=yolo11n.pt
	```

	For further customization, you can adjust various arguments like `imgsz`, `batch`, and `conf` in both Python and CLI modes. Check the [Arguments for YOLO Model Validation](#arguments-for-yolo-model-validation) section for the full list of parameters.

	### What metrics can I get from YOLO11 model validation?

	YOLO11 model validation provides several key metrics to assess model performance. These include:

	- mAP50 (mean Average Precision at IoU threshold 0.5)
	- mAP75 (mean Average Precision at IoU threshold 0.75)
	- mAP50-95 (mean Average Precision across multiple IoU thresholds from 0.5 to 0.95)

	Using the Python API, you can access these metrics as follows:

	```python
	metrics = model.val() # assumes `model` has been loaded
	print(metrics.box.map) # mAP50-95
	print(metrics.box.map50) # mAP50
	print(metrics.box.map75) # mAP75
	print(metrics.box.maps) # list of mAP50-95 for each category
	```

	For a complete performance evaluation, it's crucial to review all these metrics. For more details, refer to the [Key Features of Val Mode](#key-features-of-val-mode).

	### What are the advantages of using Ultralytics YOLO for validation?

	Using Ultralytics YOLO for validation provides several advantages:

	- [Precision](https://www.ultralytics.com/glossary/precision): YOLO11 offers accurate performance metrics including mAP50, mAP75, and mAP50-95.
	- Convenience: The models remember their training settings, making validation straightforward.
	- Flexibility: You can validate against the same or different datasets and image sizes.
	- Hyperparameter Tuning: Validation metrics help in fine-tuning models for better performance.

	These benefits ensure that your models are evaluated thoroughly and can be optimized for superior results. Learn more about these advantages in the [Why Validate with Ultralytics YOLO](#why-validate-with-ultralytics-yolo) section.

	### Can I validate my YOLO11 model using a custom dataset?

	Yes, you can validate your YOLO11 model using a [custom dataset](https://docs.ultralytics.com/datasets/). Specify the `data` argument with the path to your dataset configuration file. This file should include paths to the [validation data](https://www.ultralytics.com/glossary/validation-data), class names, and other relevant details.

	Example in Python:

	```python
	from ultralytics import YOLO

	# Load a model
	model = YOLO("yolo11n.pt")

	# Validate with a custom dataset
	metrics = model.val(data="path/to/your/custom_dataset.yaml")
	print(metrics.box.map) # map50-95
	```

	Example using CLI:

	```bash
	yolo val model=yolo11n.pt data=path/to/your/custom_dataset.yaml
	```

	For more customizable options during validation, see the [Example Validation with Arguments](#example-validation-with-arguments) section.

	### How do I save validation results to a JSON file in YOLO11?

	To save the validation results to a JSON file, you can set the `save_json` argument to `True` when running validation. This can be done in both the Python API and CLI.

	Example in Python:

	```python
	from ultralytics import YOLO

	# Load a model
	model = YOLO("yolo11n.pt")

	# Save validation results to JSON
	metrics = model.val(save_json=True)
	```

	Example using CLI:

	```bash
	yolo val model=yolo11n.pt save_json=True
	```

	This functionality is particularly useful for further analysis or integration with other tools. Check the [Arguments for YOLO Model Validation](#arguments-for-yolo-model-validation) for more details.