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dc.contributor.author
조금원
dc.contributor.author
변옥환
dc.contributor.author
이종숙
dc.contributor.author
이식
dc.contributor.author
이홍석
dc.contributor.author
정영균
dc.contributor.author
조기현
dc.contributor.author
황순욱
dc.contributor.author
강효진
dc.contributor.author
곽재혁
dc.contributor.author
그외 다수
dc.date.accessioned
2018-11-02T04:56:31Z
dc.date.available
2018-11-02T04:56:31Z
dc.date.issued
2014-12
dc.identifier.uri
https://repository.kisti.re.kr/handle/10580/11172
dc.identifier.uri
http://www.ndsl.kr/ndsl/search/detail/report/reportSearchResultDetail.do?cn=TRKO201500002118
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
□ 사업의 목표: 세계 수준의 슈퍼컴퓨팅 R&D․시범서비스 도출 및 독자 연구개발 역량 확보
□ 주요사업 내용
○ 엑사스케일을 위한 시스템 기술 및 활용 연구
- 국가차원 HTC 서비스 기술 완성 및 글로벌 인프라 연동 활용 확대
- 엑사스케일을 위한 슈퍼컴퓨팅 핵심기술: 고성능 I/O 처리기술 선행연구 수행
○ 고성능 컴퓨팅 클라우드 기술 개발
- 컴퓨팅 클라우드 관리 및 클라우드 인프라 연동 통합 작업관리 기술 개발
- 고성능 병렬처리를 위한 분산 스토리지 시스템 기술 개발
○ 한국형 신종 감염병 조기 대응 시스템 기술 개발
- 독감바이러스 원인체 규명을 위한 통합분석시스템 원형개발
- 감염병 확산 시뮬레이션을 위한 공공데이터 활용연구
○ 비주얼 슈퍼컴퓨팅 기술개발 및 적용
- 대용량 데이터 가시화 기술 개발
- 비주얼슈퍼컴퓨팅 기술 프레임 워크 설계 및 개발
○ 국가 슈퍼컴퓨팅 전문인력 양성 및 교육훈련
- 국가 차원의 교육 추진체계 마련 및 슈퍼컴퓨팅 활용인력 양성, 교재 개발
- 선도인력 양성용 응용연구
○ 슈퍼컴퓨팅 활용기술 연구
- 멀티스케일 모델링 개발 및 슈퍼컴퓨팅 활용연구
dc.description.abstract
Ⅳ. Result of the study
ㅇ Development of system technology for exascale and its applications
- Development of Many Task Computing Technology
• Development of HTCaaS scout for profiling grid resource
• Development of Federated Cloud
- Development and application of exascale system technology
• Deduce the direction of further research
• Develop the large amount data transfer method by international collaboration and apply it to the tokamak plasma analysis research.
- High performance distributed computing applications
• Improve HTCaaS based on PLSI
• Support its applications including Bio insilico experiment, HEP and hadron collider experiments.
• Improve metadata catalogue AMGA and user support.
• Develop Bell II data handling system
• Geant4 R&D and application research
- Research based on supercomputing
• Development of core modules in LAMMPS-based multi-scale modeling (algorithm for the boundary communications in MD+SRD)
ㅇ Research and Development of High Performance Computing Cloud Technologies
- Development of resources and jobs management technologies which incorporate virtual machine based computing cloud resources
• Architectural design and implementation of advanced heterogeneous computing resources and jobs management framework
• Research and development of technologies which minimize virtual machine image creation time and increase the performance of file I/O on virtual machines
• Research and development of technologies which allocate and schedule both virtual machines and simulation jobs dynamically considering network resource contention
• Development of Web standard based RESTful OpenAPIs for Cluster-On-Demand, Cluster-Extension, and Cloud Auto-Scaling services
• Development of cloud service scenarios on requests and SCLOUD (Scalable-Cloud) technology
• Design and implementation of general SCLOUD elastic resource driver which incorporates onto various physical cluster and application environments (e.g., SLURM, HTCondor, Hadoop, etc.)
• Development of SCLOUD CLI tools
- Development of a distributed storage system for high performance parallel applications
• Development of high performance meta-data lookup technology
∎ Proof-of-concept development of searchable file system using file extended attributes
∎ Architectural design for rapid processing using auto-shaded large-scale meta-data
∎ Development of fast and powerful meta-data Search/Management APIs
• Development of Metadata Importer for automating file provenance management
∎ Development of application-specific plug-in modules for user-defined meta-data extractions
∎ Development of application-specific plug-in auto-execution modules
∎ Development of large-scale data management framework based on high-performance meta-data lookup technology
ㅇ Application of bulk public informations for developing simulation protocol of infectious disease spreading in Korea
- High-performance, high-capacity computing resources based on user requirements linked to influenza genome analysis automation platform development (domestic patent 2, program registration 2, SCI journal publication)
- Construction database on integrated public data for epidemic simulation (http://lcbb.snu.ac.kr/kodes)
- Supercomputer based international organization, the Korea-US joint research team to build the analytical system and perform a full analysis research in cancer (SCI journal publication)
- Host 2 education courses, and 6 media announcement.
ㅇ Development and application of the visual super computing technology
- Development of large data visualization technology
• Achieved 1.9 times better suability and 48% higher performance than the only commercial visualization SW supporting distributed/parallel visualization in the thermal fluid field
• Achieved 16 times better stability compared with one of the world class visualization tools, VisIt
• Achieved from 2.28 to 45.9 times higher performance than Ensight (a commercial visualization SW)
• For practical use, the developed system was released on the EDISON CFD community
• Our visualization system won the 2nd place (i.e. golden award) from the international military technology contest and it demonstrates the outstanding features and benefits of the results of the study
- Design and development of visual super computing technology frame work
• Designed technical framework for the target application that was figured out from the survey of technical needs on visual super computing
• Developed the steering technology that can start a simulation, stop the simulation, and restart the simulation in the unified visual super computing environment
• Achieved 70% automation rate for the grid construction in pre-processing
• Achieved 30% performance improvement on interpretation by porting a part of CPU code to GPU code
• With the optimization for parallel post-processing visualization, it shows less than 2 seconds response time and achieved more than 40 frames/sec rendering performance
dc.publisher
한국과학기술정보연구원
dc.publisher
Korea Institute of Science and Technology Information
dc.title
국가 슈퍼컴퓨팅 서비스 개발 및 기술연구
dc.title.alternative
National Supercomputing Technology Development and Research
dc.contributor.alternativeName
Jo, Geum-Won
dc.contributor.alternativeName
Byeon, Ok-Hwan
dc.contributor.alternativeName
Lee, Jong-Suk
dc.contributor.alternativeName
Lee, Sik
dc.contributor.alternativeName
Lee, Hong-Seok
dc.contributor.alternativeName
Jeong, Yeong-Gyun
dc.contributor.alternativeName
Jo, Gi-Hyeon
dc.contributor.alternativeName
Hwang, Sun-Uk
dc.contributor.alternativeName
Gang, Hyo-Jin
dc.contributor.alternativeName
Gwak, Jae-Hyeok
dc.contributor.alternativeName
et al
dc.identifier.localId
TRKO201500002118
dc.identifier.url
http://www.ndsl.kr/ndsl/commons/util/ndslOriginalView.do?dbt=TRKO&cn=TRKO201500002118
dc.subject.keyword
Computational Science and Engineering
dc.subject.keyword
Supercomputing Technology
dc.subject.keyword
Exascale System
dc.subject.keyword
Bulk public information for developing simulation protocol of infectious disease
dc.subject.keyword
Visualization Technology
dc.type.local
연차보고서
dc.identifier.koi
KISTI2.1015/RPT.TRKO201500002118
Appears in Collections:
7. KISTI 연구성과 > 연구보고서 > 2014
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