全包ECC:彻底的端到端保护可靠的计算机内存

2016 ACM/IEEE 43rd Annual International Symposium on Computer Architecture (ISCA) Pub Date : 2016-06-18 DOI:10.1145/3007787.3001203

Jungrae Kim, Michael B. Sullivan, Sangkug Lym, M. Erez

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引用次数: 21

摘要

增加传输速率和降低I/O电压水平使信号更容易受到传输错误的影响。计算机内存中的数据受到现代纠错码(ECC)的良好保护，而时钟、控制、命令和地址(CCCA)信号的保护很弱，甚至不受保护，以至于传输错误在数据保护方面留下了严重的空白。本文提出了全包ECC (AIECC)，这是一种利用和增强数据ECC来彻底保护CCCA信号的内存保护方案。AIECC提供了强大的端到端内存保护，几乎100%检测到CCCA错误，并防止传输错误导致潜在的内存数据损坏。AIECC提供了这些系统级的好处，而不需要额外的存储和传输开销，也不会降低数据保护的有效级别。

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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All-Inclusive ECC: Thorough End-to-End Protection for Reliable Computer Memory

Increasing transfer rates and decreasing I/O voltage levels make signals more vulnerable to transmission errors. While the data in computer memory are well-protected by modern error checking and correcting (ECC) codes, the clock, control, command, and address (CCCA) signals are weakly protected or even unprotected such that transmission errors leave serious gaps in data-only protection. This paper presents All-Inclusive ECC (AIECC), a memory protection scheme that leverages and augments data ECC to also thoroughly protect CCCA signals. AIECC provides strong end-to-end protection of memory, detecting nearly 100% of CCCA errors and also preventing transmission errors from causing latent memory data corruption. AIECC provides these system-level benefits without requiring extra storage and transfer overheads and without degrading the effective level of data protection.

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来源期刊

2016 ACM/IEEE 43rd Annual International Symposium on Computer Architecture (ISCA)

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