Learning PyTorch 2.0, 2nd Edition: Utilize PyTorch 2.3 and CUDA 12 to experiment neural networks and deep learning models Front Cover

Learning PyTorch 2.0, 2nd Edition: Utilize PyTorch 2.3 and CUDA 12 to experiment neural networks and deep learning models

  • Length: 191 pages
  • Edition: S
  • Publisher:
  • Publication Date: 2024-10-05
  • ISBN-10: 8119177916
  • ISBN-13: 9788119177912
Description

“Learning PyTorch 2.0, Second Edition” is a fast-learning, hands-on book that emphasizes practical PyTorch scripting and efficient model development using PyTorch 2.3 and CUDA 12. This edition is centered on practical applications and presents a concise methodology for attaining proficiency in the most recent features of PyTorch.

The book presents a practical program based on the fish dataset which provides step-by-step guidance through the processes of building, training and deploying neural networks, with each example prepared for immediate implementation. Given your familiarity with machine learning and neural networks, this book offers concise explanations of foundational topics, allowing you to proceed directly to the practical, advanced aspects of PyTorch programming. The key learnings include the design of various types of neural networks, the use of torch.compile() for performance optimization, the deployment of models using TorchServe, and the implementation of quantization for efficient inference.

Furthermore, you will also learn to migrate TensorFlow models to PyTorch using the ONNX format. The book employs essential libraries, including torchvision, torchserve, tf2onnx, onnxruntime, and requests, to facilitate seamless integration of PyTorch with production environments. Regardless of whether the objective is to fine-tune models or to deploy them on a large scale, this second edition is designed to ensure maximum efficiency and speed, with practical PyTorch scripting at the forefront of each chapter.

Key Learnings

  • Master tensor manipulations and advanced operations using PyTorch’s efficient tensor libraries.
  • Build feedforward, convolutional, and recurrent neural networks from scratch.
  • Implement transformer models for modern natural language processing tasks.
  • Use CUDA 12 and mixed precision training (AMP) to accelerate model training and inference.
  • Deploy PyTorch models in production using TorchServe, including multi-model serving and versioning.
  • Migrate TensorFlow models to PyTorch using ONNX format for seamless cross-framework compatibility.
  • Optimize neural network architectures using torch.compile() for improved speed and efficiency.
  • Utilize PyTorch’s Quantization API to reduce model size and speed up inference.
  • Setup custom layers and architectures for neural networks to tackle domain-specific problems.
  • Monitor and log model performance in real-time using TorchServe’s built-in tools and configurations.

Table of Content

  1. Introduction To PyTorch 2.3 and CUDA 12
  2. Getting Started with Tensors
  3. Building Neural Networks with PyTorch
  4. Training Neural Networks
  5. Advanced Neural Network Architectures
  6. Quantization and Model Optimization
  7. Migrating TensorFlow to PyTorch
  8. Deploying PyTorch Models with TorchServe
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