Machine Learning with TensorFlow and PyTorch: A Comparative Analysis

Abstract

: Machine learning frameworks play a pivotal position inside the development and deployment of modern fashions for a big selection of programs. TensorFlow and PyTorch, two prominent frameworks, have emerged as leaders in the discipline, each with its particular strengths and characteristics. This research paper conducts a complete comparative evaluation of TensorFlow and PyTorch, that specialize in their architecture, ease of use, network aid, and overall performance in system studying packages. The paper begins via offering an outline of the historic improvement and key features of each TensorFlow and PyTorch. Subsequently, it delves into an in depth exam of their respective computational graphs, dynamic/static graph execution modes, and model deployment abilities. Special emphasis is positioned on know-how the learning curve related to each framework, exploring their high-degree APIs, and assessing their extensibility for studies and production environments. The study conducts a performance analysis, evaluating TensorFlow and PyTorch across various benchmarks and real-international eventualities. Metrics such as education pace, useful resource usage, and scalability are taken into consideration to provide a holistic information of their computational efficiency. Additionally, the research investigates the frameworks' compatibility with specialized hardware, which includes GPUs and TPUs, to assess their capability for