灵活的缓存错误保护使用ECC FIFO

Proceedings of the Conference on High Performance Computing Networking, Storage and Analysis Pub Date : 2009-11-14 DOI:10.1145/1654059.1654109

D. Yoon, M. Erez

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引用次数: 28

摘要

我们提出了ECC FIFO，一种使用任意强的第2层代码实现两层最后一级缓存错误保护的机制，而无需增加片上存储。我们的ECC FIFO机制将多余的信息卸载到片外DRAM，而不是向每个缓存线添加冗余的ECC信息。我们用第1层代码扩展每个缓存行，这提供了消耗有限资源的错误检测。强保护所需的冗余由放置在片外存储器中的第2层代码提供。因为需要第2层修正的错误很少，所以访问DRAM的开销并不重要。我们展示了这种方法如何分别节省15-25%和10-17%的片上缓存面积和功耗，同时对性能的影响最小，在一系列科学和消费者基准测试中平均降低1%。

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Flexible cache error protection using an ECC FIFO

We present ECC FIFO, a mechanism enabling two-tiered last-level cache error protection using an arbitrarily strong tier-2 code without increasing on-chip storage. Instead of adding redundant ECC information to each cache line, our ECC FIFO mechanism off-loads the extra information to off-chip DRAM. We augment each cache line with a tier-1 code, which provides error detection consuming limited resources. The redundancy required for strong protection is provided by a tier-2 code placed in off-chip memory. Because errors that require tier-2 correction are rare, the overhead of accessing DRAM is unimportant. We show how this method can save 15-25% and 10-17% of on-chip cache area and power respectively while minimally impacting performance, which decreases by 1% on average across a range of scientific and consumer benchmarks.

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Proceedings of the Conference on High Performance Computing Networking, Storage and Analysis

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