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---
comments: true
description: Discover the power and flexibility of exporting Ultralytics YOLOv8 models to TensorRT format for enhanced performance and efficiency on NVIDIA GPUs.
keywords: Ultralytics, YOLOv8, TensorRT Export, Model Deployment, GPU Acceleration, NVIDIA Support, CUDA Deployment
---
# TensorRT Export for YOLOv8 Models
Deploying computer vision models in high-performance environments can require a format that maximizes speed and efficiency. This is especially true when you are deploying your model on NVIDIA GPUs.
By using the TensorRT export format, you can enhance your [Ultralytics YOLOv8](https://github.com/ultralytics/ultralytics) models for swift and efficient inference on NVIDIA hardware. This guide will give you easy-to-follow steps for the conversion process and help you make the most of NVIDIA's advanced technology in your deep learning projects.
## TensorRT
<p align="center">
<img width="100%" src="https://docs.nvidia.com/deeplearning/tensorrt/archives/tensorrt-601/tensorrt-developer-guide/graphics/whatistrt2.png" alt="TensorRT Overview">
</p>
[TensorRT](https://developer.nvidia.com/tensorrt#:~:text=NVIDIA%20TensorRT%2DLLM%20is%20an,knowledge%20of%20C%2B%2B%20or%20CUDA.), developed by NVIDIA, is an advanced software development kit (SDK) designed for high-speed deep learning inference. It’s well-suited for real-time applications like object detection.
This toolkit optimizes deep learning models for NVIDIA GPUs and results in faster and more efficient operations. TensorRT models undergo TensorRT optimization, which includes techniques like layer fusion, precision calibration (INT8 and FP16), dynamic tensor memory management, and kernel auto-tuning. Converting deep learning models into the TensorRT format allows developers to realize the potential of NVIDIA GPUs fully.
TensorRT is known for its compatibility with various model formats, including TensorFlow, PyTorch, and ONNX, providing developers with a flexible solution for integrating and optimizing models from different frameworks. This versatility enables efficient model deployment across diverse hardware and software environments.
## Key Features of TensorRT Models
TensorRT models offer a range of key features that contribute to their efficiency and effectiveness in high-speed deep learning inference:
- **Precision Calibration**: TensorRT supports precision calibration, allowing models to be fine-tuned for specific accuracy requirements. This includes support for reduced precision formats like INT8 and FP16, which can further boost inference speed while maintaining acceptable accuracy levels.
- **Layer Fusion**: The TensorRT optimization process includes layer fusion, where multiple layers of a neural network are combined into a single operation. This reduces computational overhead and improves inference speed by minimizing memory access and computation.
<p align="center">
<img width="100%" src="https://developer-blogs.nvidia.com/wp-content/uploads/2017/12/pasted-image-0-3.png" alt="TensorRT Layer Fusion">
</p>
- **Dynamic Tensor Memory Management**: TensorRT efficiently manages tensor memory usage during inference, reducing memory overhead and optimizing memory allocation. This results in more efficient GPU memory utilization.
- **Automatic Kernel Tuning**: TensorRT applies automatic kernel tuning to select the most optimized GPU kernel for each layer of the model. This adaptive approach ensures that the model takes full advantage of the GPU's computational power.
## Deployment Options in TensorRT
Before we look at the code for exporting YOLOv8 models to the TensorRT format, let’s understand where TensorRT models are normally used.
TensorRT offers several deployment options, and each option balances ease of integration, performance optimization, and flexibility differently:
- **Deploying within TensorFlow**: This method integrates TensorRT into TensorFlow, allowing optimized models to run in a familiar TensorFlow environment. It's useful for models with a mix of supported and unsupported layers, as TF-TRT can handle these efficiently.
<p align="center">
<img width="100%" src="https://docs.nvidia.com/deeplearning/tensorrt/quick-start-guide/graphics/tf-trt-workflow.png" alt="TensorRT Overview">
</p>
- **Standalone TensorRT Runtime API**: Offers granular control, ideal for performance-critical applications. It's more complex but allows for custom implementation of unsupported operators.
- **NVIDIA Triton Inference Server**: An option that supports models from various frameworks. Particularly suited for cloud or edge inferencing, it provides features like concurrent model execution and model analysis.
## Exporting YOLOv8 Models to TensorRT
You can improve execution efficiency and optimize performance by converting YOLOv8 models to TensorRT format.
### Installation
To install the required package, run:
!!! Tip "Installation"
=== "CLI"
```bash
# Install the required package for YOLOv8
pip install ultralytics
```
For detailed instructions and best practices related to the installation process, check our [YOLOv8 Installation guide](../quickstart.md). While installing the required packages for YOLOv8, if you encounter any difficulties, consult our [Common Issues guide](../guides/yolo-common-issues.md) for solutions and tips.
### Usage
Before diving into the usage instructions, be sure to check out the range of [YOLOv8 models offered by Ultralytics](../models/index.md). This will help you choose the most appropriate model for your project requirements.
!!! Example "Usage"
=== "Python"
```python
from ultralytics import YOLO
# Load the YOLOv8 model
model = YOLO('yolov8n.pt')
# Export the model to TensorRT format
model.export(format='engine') # creates 'yolov8n.engine'
# Load the exported TensorRT model
tensorrt_model = YOLO('yolov8n.engine')
# Run inference
results = tensorrt_model('https://ultralytics.com/images/bus.jpg')
```
=== "CLI"
```bash
# Export a YOLOv8n PyTorch model to TensorRT format
yolo export model=yolov8n.pt format=engine # creates 'yolov8n.engine''
# Run inference with the exported model
yolo predict model=yolov8n.engine source='https://ultralytics.com/images/bus.jpg'
```
For more details about the export process, visit the [Ultralytics documentation page on exporting](../modes/export.md).
## Deploying Exported YOLOv8 TensorRT Models
Having successfully exported your Ultralytics YOLOv8 models to TensorRT format, you're now ready to deploy them. For in-depth instructions on deploying your TensorRT models in various settings, take a look at the following resources:
- **[Deploying Deep Neural Networks with NVIDIA TensorRT](https://developer.nvidia.com/blog/deploying-deep-learning-nvidia-tensorrt/)**: This article explains how to use NVIDIA TensorRT to deploy deep neural networks on GPU-based deployment platforms efficiently.
- **[End-to-End AI for NVIDIA-Based PCs: NVIDIA TensorRT Deployment](https://developer.nvidia.com/blog/end-to-end-ai-for-nvidia-based-pcs-nvidia-tensorrt-deployment/)**: This blog post explains the use of NVIDIA TensorRT for optimizing and deploying AI models on NVIDIA-based PCs.
- **[GitHub Repository for NVIDIA TensorRT:](https://github.com/NVIDIA/TensorRT)**: This is the official GitHub repository that contains the source code and documentation for NVIDIA TensorRT.
## Summary
In this guide, we focused on converting Ultralytics YOLOv8 models to NVIDIA's TensorRT model format. This conversion step is crucial for improving the efficiency and speed of YOLOv8 models, making them more effective and suitable for diverse deployment environments.
For more information on usage details, take a look at the [TensorRT official documentation](https://docs.nvidia.com/deeplearning/tensorrt/).
If you're curious about additional Ultralytics YOLOv8 integrations, our [integration guide page](../integrations/index.md) provides an extensive selection of informative resources and insights.