YOLO to ONNX Conversion: Difference between revisions
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If you require professional assistance, please contact <b>sales@logicaldoc.com</b> to request a quotation for consulting services.}} | If you require professional assistance, please contact <b>sales@logicaldoc.com</b> to request a quotation for consulting services.}} | ||
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<b>Licensing Notice:</b> The examples in this guide use the Ultralytics implementation of YOLO. Ultralytics YOLO is distributed under its own licensing terms. <b><u>Before using YOLO in a commercial environment, ensure that your intended use complies with the applicable Ultralytics license.</u></b> For the latest licensing information, refer to the official Ultralytics website: https://www.ultralytics.com/license | |||
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LogicalDOC performs object detection using the ONNX Runtime Java API. Therefore, a trained YOLO model must be converted from the native PyTorch (`.pt`) format to the Open Neural Network Exchange (ONNX) format before it can be imported into LogicalDOC. | LogicalDOC performs object detection using the ONNX Runtime Java API. Therefore, a trained YOLO model must be converted from the native PyTorch (`.pt`) format to the Open Neural Network Exchange (ONNX) format before it can be imported into LogicalDOC. | ||
Latest revision as of 07:44, 26 June 2026
YOLO to ONNX Conversion
Converting a YOLO Model to ONNX
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Licensing Notice: The examples in this guide use the Ultralytics implementation of YOLO. Ultralytics YOLO is distributed under its own licensing terms. Before using YOLO in a commercial environment, ensure that your intended use complies with the applicable Ultralytics license. For the latest licensing information, refer to the official Ultralytics website: https://www.ultralytics.com/license |
LogicalDOC performs object detection using the ONNX Runtime Java API. Therefore, a trained YOLO model must be converted from the native PyTorch (`.pt`) format to the Open Neural Network Exchange (ONNX) format before it can be imported into LogicalDOC.
ONNX (Open Neural Network Exchange) is an open standard for representing machine learning models. It enables models trained in one framework, such as PyTorch, to be executed efficiently in different programming languages and runtime environments.
The conversion process does not retrain or modify the model. Instead, it exports the trained network, including its learned weights and computational graph, into a portable format that can be executed by ONNX Runtime.
Why ONNX?
Ultralytics trains YOLO models using PyTorch. However, LogicalDOC is implemented in Java and performs inference using the ONNX Runtime library.
Using ONNX provides several advantages:
- No dependency on the Python runtime during inference.
- Native Java support through the ONNX Runtime API.
- Faster startup and lower memory consumption than embedding a Python interpreter.
- Cross-platform model portability.
- Support for hardware acceleration when available.
Export the Model
The following script converts the trained best.pt model into the ONNX format:
from ultralytics import YOLO
model = YOLO("runs/detect/target/weights/best.pt")
model.export(
format="onnx",
simplify=True,
nms=True
)
Where:
format="onnx"exports the model in the ONNX format.simplify=Truesimplifies the exported computation graph to improve compatibility and potentially reduce inference overhead.nms=Trueembeds the Non-Maximum Suppression (NMS) step into the exported model, allowing the ONNX Runtime to return the final detections directly.
After the conversion completes, the generated model (best.onnx ) can be imported into LogicalDOC for inference.