利用海马体-新皮层相互作用原理进行预取

Proceedings of the 19th Workshop on Hot Topics in Operating Systems Pub Date : 2023-06-22 DOI:10.1145/3593856.3595901

Michael Wu, Ketaki Joshi, Andrew Sheinberg, Guilherme Cox, Anurag Khandelwal, Raghavendra Pradyumna Pothukuchi, A. Bhattacharjee

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引用次数: 0

摘要

内存预取可以提高跨许多系统层的性能。然而，随着内存层次结构和应用程序内存访问模式变得更加复杂，以低开销实现高预取精度是具有挑战性的。此外，预取器适应新访问模式的能力变得比以往任何时候都更加重要。最近的工作已经证明了使用深度学习技术来提高预取的准确性，尽管有不切实际的计算和存储开销。这篇论文建议从人类大脑的学习机制和记忆结构中获得灵感——特别是海马体和新皮层——来构建资源高效、准确和适应性强的预取器。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Prefetching Using Principles of Hippocampal-Neocortical Interaction

Memory prefetching improves performance across many systems layers. However, achieving high prefetch accuracy with low overhead is challenging, as memory hierarchies and application memory access patterns become more complicated. Furthermore, a prefetcher's ability to adapt to new access patterns as they emerge is becoming more crucial than ever. Recent work has demonstrated the use of deep learning techniques to improve prefetching accuracy, albeit with impractical compute and storage overheads. This paper suggests taking inspiration from the learning mechanisms and memory architecture of the human brain---specifically, the hippocampus and neocortex---to build resource-efficient, accurate, and adaptable prefetchers.

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Proceedings of the 19th Workshop on Hot Topics in Operating Systems

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