핵심 개념
This paper explores the relationship between optimization and generalization in deep learning by considering the stochastic nature of optimizers. By analyzing populations of models rather than single models, it sheds light on the performance of various algorithms.
초록
The paper delves into the optimization and generalization aspects of stochastic optimization algorithms in deep learning. It introduces novel approaches under the Basin Hopping framework, compares different optimizers' performance on synthetic functions and real-world tasks, and emphasizes fair benchmarking practices. The study reveals insights into training loss, hold-out accuracy, and the effectiveness of various optimization algorithms.
The content discusses the inherent stochastic nature of stochastic gradient descent (SGD) and its variants, highlighting the importance of understanding how enhanced optimization translates to improved generalizability. It introduces new algorithms within the Basin Hopping framework, emphasizing fair benchmarking practices across synthetic functions and real-world tasks. The study uncovers key findings regarding training loss, hold-out accuracy, and the comparable performance of different optimization algorithms.
Key metrics or figures used to support arguments:
- "Our approach includes a detailed comparison of optimizer performance on both artificially designed functions with known characteristics and real-world tasks in fields like computer vision and natural language processing."
- "We propose a population-based approach into benchmarking these algorithms to better characterize them and more broadly contribute to our understanding of the relationship between optimization and generalization."
통계
"Our approach includes a detailed comparison of optimizer performance on both artificially designed functions with known characteristics and real-world tasks in fields like computer vision and natural language processing."
인용구
"We propose a population-based approach into benchmarking these algorithms to better characterize them."
"The study uncovers key findings regarding training loss, hold-out accuracy, and the comparable performance of different optimization algorithms."