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comments: true
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---
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# Python Usage
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Welcome to the YOLOv8 Python Usage documentation! This guide is designed to help you seamlessly integrate YOLOv8 into
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your Python projects for object detection, segmentation, and classification. Here, you'll learn how to load and use
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pretrained models, train new models, and perform predictions on images. The easy-to-use Python interface is a valuable
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resource for anyone looking to incorporate YOLOv8 into their Python projects, allowing you to quickly implement advanced
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object detection capabilities. Let's get started!
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For example, users can load a model, train it, evaluate its performance on a validation set, and even export it to ONNX
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format with just a few lines of code.
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!!! example "Python"
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```python
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from ultralytics import YOLO
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# Create a new YOLO model from scratch
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model = YOLO('yolov8n.yaml')
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# Load a pretrained YOLO model (recommended for training)
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model = YOLO('yolov8n.pt')
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# Train the model using the 'coco128.yaml' dataset for 3 epochs
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results = model.train(data='coco128.yaml', epochs=3)
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# Evaluate the model's performance on the validation set
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results = model.val()
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# Perform object detection on an image using the model
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results = model('https://ultralytics.com/images/bus.jpg')
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# Export the model to ONNX format
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success = model.export(format='onnx')
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```
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## [Train](../modes/train.md)
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Train mode is used for training a YOLOv8 model on a custom dataset. In this mode, the model is trained using the
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specified dataset and hyperparameters. The training process involves optimizing the model's parameters so that it can
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accurately predict the classes and locations of objects in an image.
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!!! example "Train"
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=== "From pretrained(recommended)"
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```python
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from ultralytics import YOLO
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model = YOLO('yolov8n.pt') # pass any model type
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model.train(epochs=5)
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```
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=== "From scratch"
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```python
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from ultralytics import YOLO
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model = YOLO('yolov8n.yaml')
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model.train(data='coco128.yaml', epochs=5)
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```
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=== "Resume"
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```python
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model = YOLO("last.pt")
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model.train(resume=True)
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```
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[Train Examples](../modes/train.md){ .md-button .md-button--primary}
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## [Val](../modes/val.md)
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Val mode is used for validating a YOLOv8 model after it has been trained. In this mode, the model is evaluated on a
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validation set to measure its accuracy and generalization performance. This mode can be used to tune the hyperparameters
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of the model to improve its performance.
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!!! example "Val"
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=== "Val after training"
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```python
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from ultralytics import YOLO
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model = YOLO('yolov8n.yaml')
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model.train(data='coco128.yaml', epochs=5)
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model.val() # It'll automatically evaluate the data you trained.
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```
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=== "Val independently"
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```python
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from ultralytics import YOLO
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model = YOLO("model.pt")
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# It'll use the data yaml file in model.pt if you don't set data.
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model.val()
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# or you can set the data you want to val
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model.val(data='coco128.yaml')
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```
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[Val Examples](../modes/val.md){ .md-button .md-button--primary}
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## [Predict](../modes/predict.md)
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Predict mode is used for making predictions using a trained YOLOv8 model on new images or videos. In this mode, the
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model is loaded from a checkpoint file, and the user can provide images or videos to perform inference. The model
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predicts the classes and locations of objects in the input images or videos.
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!!! example "Predict"
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=== "From source"
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```python
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from ultralytics import YOLO
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from PIL import Image
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import cv2
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model = YOLO("model.pt")
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# accepts all formats - image/dir/Path/URL/video/PIL/ndarray. 0 for webcam
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results = model.predict(source="0")
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results = model.predict(source="folder", show=True) # Display preds. Accepts all YOLO predict arguments
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# from PIL
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im1 = Image.open("bus.jpg")
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results = model.predict(source=im1, save=True) # save plotted images
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# from ndarray
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im2 = cv2.imread("bus.jpg")
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results = model.predict(source=im2, save=True, save_txt=True) # save predictions as labels
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# from list of PIL/ndarray
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results = model.predict(source=[im1, im2])
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```
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=== "Results usage"
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```python
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# results would be a list of Results object including all the predictions by default
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# but be careful as it could occupy a lot memory when there're many images,
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# especially the task is segmentation.
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# 1. return as a list
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results = model.predict(source="folder")
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# results would be a generator which is more friendly to memory by setting stream=True
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# 2. return as a generator
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results = model.predict(source=0, stream=True)
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for result in results:
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# Detection
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result.boxes.xyxy # box with xyxy format, (N, 4)
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result.boxes.xywh # box with xywh format, (N, 4)
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result.boxes.xyxyn # box with xyxy format but normalized, (N, 4)
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result.boxes.xywhn # box with xywh format but normalized, (N, 4)
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result.boxes.conf # confidence score, (N, 1)
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result.boxes.cls # cls, (N, 1)
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# Segmentation
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result.masks.data # masks, (N, H, W)
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result.masks.xy # x,y segments (pixels), List[segment] * N
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result.masks.xyn # x,y segments (normalized), List[segment] * N
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# Classification
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result.probs # cls prob, (num_class, )
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# Each result is composed of torch.Tensor by default,
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# in which you can easily use following functionality:
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result = result.cuda()
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result = result.cpu()
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result = result.to("cpu")
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result = result.numpy()
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```
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[Predict Examples](../modes/predict.md){ .md-button .md-button--primary}
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## [Export](../modes/export.md)
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Export mode is used for exporting a YOLOv8 model to a format that can be used for deployment. In this mode, the model is
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converted to a format that can be used by other software applications or hardware devices. This mode is useful when
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deploying the model to production environments.
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!!! example "Export"
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=== "Export to ONNX"
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Export an official YOLOv8n model to ONNX with dynamic batch-size and image-size.
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```python
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from ultralytics import YOLO
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model = YOLO('yolov8n.pt')
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model.export(format='onnx', dynamic=True)
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```
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=== "Export to TensorRT"
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Export an official YOLOv8n model to TensorRT on `device=0` for acceleration on CUDA devices.
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```python
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from ultralytics import YOLO
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model = YOLO('yolov8n.pt')
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model.export(format='onnx', device=0)
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```
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[Export Examples](../modes/export.md){ .md-button .md-button--primary}
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## [Track](../modes/track.md)
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Track mode is used for tracking objects in real-time using a YOLOv8 model. In this mode, the model is loaded from a
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checkpoint file, and the user can provide a live video stream to perform real-time object tracking. This mode is useful
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for applications such as surveillance systems or self-driving cars.
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!!! example "Track"
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=== "Python"
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```python
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from ultralytics import YOLO
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# Load a model
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model = YOLO('yolov8n.pt') # load an official detection model
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model = YOLO('yolov8n-seg.pt') # load an official segmentation model
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model = YOLO('path/to/best.pt') # load a custom model
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# Track with the model
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results = model.track(source="https://youtu.be/Zgi9g1ksQHc", show=True)
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results = model.track(source="https://youtu.be/Zgi9g1ksQHc", show=True, tracker="bytetrack.yaml")
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```
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[Track Examples](../modes/track.md){ .md-button .md-button--primary}
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## [Benchmark](../modes/benchmark.md)
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Benchmark mode is used to profile the speed and accuracy of various export formats for YOLOv8. The benchmarks provide
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information on the size of the exported format, its `mAP50-95` metrics (for object detection and segmentation)
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or `accuracy_top5` metrics (for classification), and the inference time in milliseconds per image across various export
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formats like ONNX, OpenVINO, TensorRT and others. This information can help users choose the optimal export format for
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their specific use case based on their requirements for speed and accuracy.
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!!! example "Benchmark"
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=== "Python"
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Benchmark an official YOLOv8n model across all export formats.
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```python
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from ultralytics.yolo.utils.benchmarks import benchmark
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# Benchmark
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benchmark(model='yolov8n.pt', imgsz=640, half=False, device=0)
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```
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[Benchmark Examples](../modes/benchmark.md){ .md-button .md-button--primary}
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## Using Trainers
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`YOLO` model class is a high-level wrapper on the Trainer classes. Each YOLO task has its own trainer that inherits
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from `BaseTrainer`.
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!!! tip "Detection Trainer Example"
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```python
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from ultralytics.yolo import v8 import DetectionTrainer, DetectionValidator, DetectionPredictor
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# trainer
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trainer = DetectionTrainer(overrides={})
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trainer.train()
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trained_model = trainer.best
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# Validator
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val = DetectionValidator(args=...)
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val(model=trained_model)
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# predictor
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pred = DetectionPredictor(overrides={})
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pred(source=SOURCE, model=trained_model)
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# resume from last weight
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overrides["resume"] = trainer.last
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trainer = detect.DetectionTrainer(overrides=overrides)
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```
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You can easily customize Trainers to support custom tasks or explore R&D ideas.
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Learn more about Customizing `Trainers`, `Validators` and `Predictors` to suit your project needs in the Customization
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Section.
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[Customization tutorials](engine.md){ .md-button .md-button--primary}
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