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공공누리This item is licensed Korea Open Government License

dc.contributor.author
남덕윤
dc.contributor.author
구기범
dc.contributor.author
김직수
dc.contributor.author
류훈
dc.contributor.author
박찬열
dc.contributor.author
손일엽
dc.contributor.author
유진승
dc.contributor.author
이승민
dc.date.accessioned
2018-11-02T04:56:52Z
dc.date.available
2018-11-02T04:56:52Z
dc.date.issued
2016-01
dc.identifier.uri
https://repository.kisti.re.kr/handle/10580/11317
dc.identifier.uri
http://www.ndsl.kr/ndsl/search/detail/report/reportSearchResultDetail.do?cn=TRKO201600000497
dc.description
funder : 미래창조과학부
dc.description
funder : KA
dc.description
agency : 한국과학기술정보연구원
dc.description
agency : Korea Institute of Science and Technology Information
dc.description.abstract
In the operation of leadership-class supercomputing facilities, efficient management of power consumption is becoming a challenging issue that can affect not only the total cost but also the amount of space for cooling systems. Moreover, with the upcoming era of Exascale computers hat are expected delivered in 2019-2020, we need to devise effective solutions that can fulfill 20MW of power consumption. However, traditional multi-core processors will not be sufficient to satisfy the limited energy consumption requirement so that many-core coprocessors such as GPU or Xeon Phi should be appropriately utilized as we can see from the Top 500 list of supercomputers.
An alternative approach can be leveraging low-powered and lightweight mobile processors which have been mainly used in portable devices such as smartphones, tablet PCs. Although mobile processors are not originally designed to support High-Performance Computing, they are optimized to maintain sustainable performance under a certain degree of power consumption (i.e. batteries). Therefore, the European project called Mont-Blanc has been conducted to design a new type of system built from energy efficient solutions used in embedded and mobile devices. Additionally, relatively low energy consuming ARM server processors are also becoming prevalent. Despite the potential computing powers of emerging mobile processors for HPC should be more investigated, effectively leveraging low-powered and lightweight processor technologies to build a supercomputing cluster can substantially minimize the overall system size along with the cooling device.
In this study, we present our empirical study of building a small scale cluster called SLAP (Scalable, Low-powered, Autonomous & Robust, Pluggable) based on mobile processor technologies under different use cases and scenarios. Although mobile processor based cluster can have advantages in terms of physical space and energy efficiency, they have not mainly used for HPC servers so that we especially focus on the reliability and usability of our system. Through our empirical study, we could find potential benefits, possibility along with limits of applying embedded technology for supercomputing area. However, as the mobile rocessor and ARM server technologies evolve, energy efficient processors can become a competitive alternative to the road of Exascale computing.
dc.publisher
한국과학기술정보연구원
dc.publisher
Korea Institute of Science and Technology Information
dc.title
저전력 프로세서 기반 슈퍼컴퓨터 활용 기술 타당성 연구
dc.title.alternative
Feasibility study on the utilization technology of supercomputer application with low-energy processors
dc.contributor.alternativeName
Nam, Deok-Yun
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Gu, Gi-Beom
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Kim, Jik-Su
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Ryu, Hun
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Park, Chan-Yeol
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Son, Il-Yeop
dc.contributor.alternativeName
Yu, Jin-Seung
dc.contributor.alternativeName
Lee, Seung-Min
dc.identifier.localId
TRKO201600000497
dc.identifier.url
http://www.ndsl.kr/ndsl/commons/util/ndslOriginalView.do?dbt=TRKO&cn=TRKO201600000497
dc.subject.keyword
Low-powered
dc.subject.keyword
Cluster
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Mobile processor
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ARM
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High-performance computing
dc.type.local
연차보고서
dc.identifier.koi
KISTI2.1015/RPT.TRKO201600000497
Appears in Collections:
7. KISTI 연구성과 > 연구보고서 > 2016
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