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Noh, Sam H.
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Energy-Efficient and High-Performance Software Architecture for Storage Class Memory

Author(s)
Baek, SeungjaeChoi, JongmooLee, DongheeNoh, Sam H.
Issued Date
2013-03
DOI
10.1145/2442116.2442131
URI
https://scholarworks.unist.ac.kr/handle/201301/18992
Fulltext
http://dl.acm.org/citation.cfm?doid=2442116.2442131
Citation
ACM TRANSACTIONS ON EMBEDDED COMPUTING SYSTEMS, v.12, no.3, pp.81
Abstract
Recently, interest in incorporating Storage Class Memory (SCM), which blurs the distinction between memory and storage, into mainstream computing has been increasing rapidly. In this paper, we address the emerging questions regarding the use of SCM. Based on an embedded platform that employs FeRAM, a type of SCM, we present our findings. In summary, by introducing SCM, power efficiency improves while performance is degraded. We also show that such performance degradations may be removed with operating system level schemes that fully exploit the characteristics of SCM. Finally, we present permanent computing that supports lightweight system on/off capabilities by using SCM.
Publisher
ASSOC COMPUTING MACHINERY
ISSN
1539-9087
Keyword (Author)
DesignPerformanceMeasurementStorage class memorylow-power consumptionsingle object managementSCM managerpermanent computing
Keyword
PHASE-CHANGE MEMORYTECHNOLOGY

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