CPPC:可校正奇偶校验保护缓存

2011 38th Annual International Symposium on Computer Architecture (ISCA) Pub Date : 2011-06-04 DOI:10.1145/2000064.2000091

Mehrtash Manoochehri, M. Annavaram, M. Dubois

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引用次数: 50

摘要

由于特征尺寸的缩小，处理器变得更容易受到软错误的影响。回写缓存特别容易受到攻击，因为它们保存着其他内存级别中不存在的脏数据。虽然传统的纠错码可以保护回写缓存，但事实证明，它们在面积和功率方面都很昂贵。本文提出了一种新的可靠回写缓存，称为可校正奇偶校验保护缓存(CPPC)，它在奇偶校验保护缓存中增加了纠错能力。为此，CPPC用两个寄存器增加了回写奇偶校验保护的缓存:第一个寄存器存储写入缓存的所有数据的异或，第二个寄存器存储从缓存中删除的所有脏数据的异或。CPPC依靠奇偶校验来检测故障，然后依靠两个异或寄存器来纠正故障。通过字节移位和奇偶交错的新颖组合，CPPC纠正了单个和空间多比特错误，提供了高度的可靠性。我们比较了CPPC与一维奇偶校验、SECDED(单错误校正双错误检测)和二维奇偶校验保护缓存。我们的仿真结果表明，CPPC提供了高水平的可靠性，同时它的开销低于SECDED和二维奇偶校验的开销。

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CPPC: Correctable parity protected cache

Due to shrinking feature sizes processors are becoming more vulnerable to soft errors. Write-back caches are particularly vulnerable since they hold dirty data that do not exist in other memory levels. While conventional error correcting codes can protect write-back caches, it has been shown that they are expensive in terms of area and power. This paper proposes a new reliable write-back cache called Correctable Parity Protected Cache (CPPC) which adds error correction capability to a parity-protected cache. For this purpose, CPPC augments a write-back parity-protected cache with two registers: the first register stores the XOR of all data written to the cache and the second register stores the XOR of all dirty data that are removed from the cache. CPPC relies on parity to detect a fault and then on the two XOR registers to correct faults. By a novel combination of byte shifting and parity interleaving CPPC corrects both single and spatial multi-bit faults to provide a high degree of reliability. We compare CPPC with one-dimensional parity, SECDED (Single Error Correction Double Error Detection) and two-dimensional parity-protected caches. Our simulation results show that CPPC provides a high level of reliability while its overheads are less than the overheads of SECDED and two-dimensional parity.

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来源期刊

2011 38th Annual International Symposium on Computer Architecture (ISCA)

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