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공공누리This item is licensed Korea Open Government License

dc.date.accessioned
2018-11-02T04:57:06Z
dc.date.available
2018-11-02T04:57:06Z
dc.date.issued
2015-12
dc.identifier.other
EE10
dc.identifier.uri
https://repository.kisti.re.kr/handle/10580/11418
dc.identifier.uri
http://www.ndsl.kr/ndsl/search/detail/report/reportSearchResultDetail.do?cn=TRKO201700012302
dc.description
funder : 미래창조과학부
dc.description
funder : KA
dc.description.abstract
□ 사업의 목표: 세계 수준의 슈퍼컴퓨팅 R&D․시범서비스 도출 및 독자 연구개발 역량 확보

□ 주요사업 내용
○ 초고성능컴퓨팅 활용 계산과학공학 선도 연구
- R&D 효율화를 위한 계산과학연구 선도
- 세계 수준의 연구 성과 도출(기술혁신, 과학적 발견)
- 거대 컴퓨팅 및 데이터 활용의 국제 공동연구의 R&D 파트너 구축
- 계산과학 연구 분야 신규 창출 인큐베이터 수행

○ 거대 컴퓨팅 가시화 기술 개발
- 세계 수준의 거대 컴퓨팅 계산과학공학 가시화 기술 개발로 R&D 효율화 및 선도 기술 확보
- 기술의 실용화 및 기술이전으로 거대 컴퓨팅 가시화 기술 활용확대

○ 계산과학공학 선도 기술 확산을 위한 국내외 공동연구체계 구축 및 육성
- 선도 기술 확산을 위한 공동연구체계 구축 및 육성
- 차세대 계산과학공학 플랫폼 개발을 위한 선도연구 주제 탐색

( 출처 : 초록 4p )
dc.description.abstract
Ⅳ. Result of the study
ㅇ Studies on computational science using supercomputer
- The achievement of the world-class results on bio-physics beyond theory and experiments => 3 top-20% SCI papers published
- The study of particle physics using data-intensive supercomputer => 1 top-20% SCI and 1 SCI papers published
- To make new area on condensed matter physics => 2 papers published
- To achieve research fund to collaborative with Korea Astronomy and Space Science Institute(KASI)

ㅇ The massive data visualization technology development
- The performance improvement for developing world class massive data visualization technology
• The visualization performance achievement for 2TB data is 1.3 times faster than VisIt, which has the world’s best large data visualization record.
• The visualization performance for complex data has been improved 105 times compared to last year’s performance.
• The unstructured grid volume rendering performance has been improved 300% compared to VTK, which is an open-source visualization development toolkit

- The usability improvement for expanding massive data visualization technology utilization
• The user-execution time has been saved 47% by developing the VR user interface based on smart devices.
• We’ve developed communication protocols between the VR system and the smart device.
• We’ve implemented the widgets for developing user interfaces.
• The development of real-time high caliber rendering technology has improved the realistic feelings of simulation data visualization results.
• The SUS of the user interface for 2nd value generation functions has achieved 1.43 times higher than EnSight, the commercial post-processing tool.
• The SUS of graph functions has achieved grade A(excellent).

- The Joint research and technology transfers for improving technology availability
• The process time of the multi-dimensional index data searching algorithm based on GPU has improved 100 times. (Joint research)
• The memory usage has saved maximum 90% by developing SAMR data specialized data structure for GPU volume rendering.
• 2 cases of paid-in technology transfer using research results has been achieved.

ㅇ Establishment and promotion of domestic and international collaborative research community for spreading advanced technology of computational science and engineering
- Establishment and promotion of collaborative research community for spreading advanced technology of computational science and engineering
• Transferring core technology of the EDISON platform including its core parts by the ODA program between KISTI(Korea) and ICST (Vietnam)
• Acquiring collaborative opportunities for developing world-class supercomputing core technology and advanced computational science platform
• Carrying out a variety of joint programs such as PRAGMA, researcher exchange, and workshops, for expanding global user community and mining collaborative research under the same goal of constructing a simulation-based cyber-learning system between Korea and Taiwan
• Establishing a joint lab between the Center of Supercomputing Convergence R&D at KISTI and the Supercomputing Center at UNIST for inter-collaboration to develop platform technology together and exchange supercomputing-related research achievements

- Exploring advanced research topics for developing the next-generation computational science and engineering platform
• Development of data-driven simulation platform
• Development of a dynamic resource-allocation technique employing user logs
• Development of a dynamic job-scheduling technique
• Development of a software-based file-deduplication technique driven by repetitive simulations
• Development of an efficient storage management technique adaptive to simulation execution by numerous users

( 출처 : SUMMARY 13p )
dc.publisher
한국과학기술정보연구원
dc.publisher
Korea Institute of Science and Technology Information
dc.title
초고성능컴퓨팅 계산과학공학 연구 및 선도기술 개발
dc.title.alternative
Research on Computing Science Engineering and Development of Advanced Technology for High-Performance Computing
dc.identifier.doi
10.23000/TRKO201700012302
dc.identifier.localId
TRKO201700012302
dc.identifier.url
http://www.ndsl.kr/ndsl/commons/util/ndslOriginalView.do?dbt=TRKO&cn=TRKO201700012302
dc.subject.keyword
계산과학공학
dc.subject.keyword
슈퍼컴퓨팅
dc.subject.keyword
사이버 인프라
dc.subject.keyword
가시화 기술
dc.subject.keyword
플랫폼
dc.subject.keyword
커뮤니티
dc.subject.keyword
Computational Science and Engineering
dc.subject.keyword
Supercomputing Technology
dc.subject.keyword
Cyber infra
dc.subject.keyword
Visualization Technology
dc.subject.keyword
Platform
dc.subject.keyword
Community
dc.type.local
연차보고서
dc.identifier.koi
KISTI2.1015/RPT.TRKO201700012302
Appears in Collections:
7. KISTI 연구성과 > 연구보고서 > 2015
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