Video restoration is a widely studied task in the field of computer vision and image processing. The primary objective of video restoration is to improve the visual quality of degraded videos caused by various factors, such as noise, blur, compression artifacts, and other distortions. In this study, the integration of post-Training quantization techniques was investigated to optimize deep learning models for super-resolution inference. The results indicate that reducing the precision of weights and activations in these models substantially decreases the computational complexity and memory requirements without compromising performance, rendering them more practical and cost-effective for real-world applications, where real-Time inference is often required. When TensorRT was integrated with PyTorch, the efficiency of the model was further improved taking advantage of the INT8 computational capabilities of recent NVIDIA GPUs.
Optimization Techniques of Deep Learning Models for Visual Quality Improvement / Lorenzo Palloni, Leonardo Galteri, Marco Bertini. - ELETTRONICO. - 371:(2023), pp. 173-184. ( 22nd International Conference on New Trends in Intelligent Software Methodologies, Tools and Techniques, SoMeT 2023 ita 2023) [10.3233/faia230233].
Optimization Techniques of Deep Learning Models for Visual Quality Improvement
Lorenzo Palloni;Leonardo Galteri;Marco Bertini
2023
Abstract
Video restoration is a widely studied task in the field of computer vision and image processing. The primary objective of video restoration is to improve the visual quality of degraded videos caused by various factors, such as noise, blur, compression artifacts, and other distortions. In this study, the integration of post-Training quantization techniques was investigated to optimize deep learning models for super-resolution inference. The results indicate that reducing the precision of weights and activations in these models substantially decreases the computational complexity and memory requirements without compromising performance, rendering them more practical and cost-effective for real-world applications, where real-Time inference is often required. When TensorRT was integrated with PyTorch, the efficiency of the model was further improved taking advantage of the INT8 computational capabilities of recent NVIDIA GPUs.
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