research-article

Extremely Low Cost Error Protection with Correctable Parity Protected Cache

Authors:

Mehrtash Manoochehri,

Murali Annavaram,

Michel DuboisAuthors Info & Claims

IEEE Transactions on Computers, Volume 63, Issue 10

Pages 2431 - 2444

https://doi.org/10.1109/TC.2013.117

Published: 01 October 2014 Publication History

Abstract

Due to shrinking feature sizes, processors are becoming more vulnerable to soft errors. One of the most vulnerable components of a processor is its write-back cache. This paper proposes a new reliable write-back cache called Correctable Parity Protected Cache (CPPC), which adds correction capability to parity protection. In CPPC, parity bits detect faults and the XOR of all data written into the cache is kept to recover from detected faults. The added correction scheme provides a high degree of reliability and corrects both single and spatial multi-bit faults in exchange for very small performance and power overheads. CPPC is compared to competitive schemes. Our simulation data show that CPPC improves reliability significantly while its overheads are very small, especially in the L2 cache.

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Shafique MRehman SKriebel FKhan MZatt BSubramaniyan AVizzotto BHenkel J(2017)Application-Guided Power-Efficient Fault Tolerance for H.264 Context Adaptive Variable Length CodingIEEE Transactions on Computers10.1109/TC.2016.261631366:4(560-574)Online publication date: 1-Apr-2017
https://dl.acm.org/doi/10.1109/TC.2016.2616313
Dai HZhao SZhang JQiu MTao L(2015)Security enhancement of cloud servers with a redundancy-based fault-tolerant cache structureFuture Generation Computer Systems10.1016/j.future.2015.03.00152:C(147-155)Online publication date: 1-Nov-2015
https://dl.acm.org/doi/10.1016/j.future.2015.03.001

Index Terms

Extremely Low Cost Error Protection with Correctable Parity Protected Cache
1. Hardware
  1. Integrated circuits
    1. Semiconductor memory
      1. Dynamic memory

Index terms have been assigned to the content through auto-classification.

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cover image IEEE Transactions on Computers

IEEE Transactions on Computers Volume 63, Issue 10

October 2014

257 pages

ISSN:0018-9340

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IEEE Computer Society

United States

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Published: 01 October 2014

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Shafique MRehman SKriebel FKhan MZatt BSubramaniyan AVizzotto BHenkel J(2017)Application-Guided Power-Efficient Fault Tolerance for H.264 Context Adaptive Variable Length CodingIEEE Transactions on Computers10.1109/TC.2016.261631366:4(560-574)Online publication date: 1-Apr-2017
https://dl.acm.org/doi/10.1109/TC.2016.2616313
Dai HZhao SZhang JQiu MTao L(2015)Security enhancement of cloud servers with a redundancy-based fault-tolerant cache structureFuture Generation Computer Systems10.1016/j.future.2015.03.00152:C(147-155)Online publication date: 1-Nov-2015
https://dl.acm.org/doi/10.1016/j.future.2015.03.001

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Guidelines to design parity protected write-back L1 data cache

Cost-sensitive cache replacement algorithms

Matching cache access behavior and bit error pattern for high performance low Vcc L1 cache

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