中国电子科学研究院学报
中國電子科學研究院學報
중국전자과학연구원학보
JOURNAL OF CHINA ACADEMY OF ELECTRONICS AND INFORMATION TECHNOLOGY
2012年
3期
221-228,245
,共9页
李伯虎%柴旭东%李潭%侯宝存%林廷宇%邢驰%姚益平%张霖
李伯虎%柴旭東%李潭%侯寶存%林廷宇%邢馳%姚益平%張霖
리백호%시욱동%리담%후보존%림정우%형치%요익평%장림
复杂系统%高效能仿真%高端建模仿真%云仿真
複雜繫統%高效能倣真%高耑建模倣真%雲倣真
복잡계통%고효능방진%고단건모방진%운방진
complex system%high efficiency simulation%higil-end modeling and simulation%cloud simulation
首先给出了复杂系统高效能仿真技术的内涵和重要作用,并从复杂系统高端建模仿真及为海量用户按需提供云仿真服务两类应用需求的角度,讨论了发展复杂系统高效能仿真技术的技术需求及介绍了相关的国内外技术概况。接着,从高效能仿真建模技术、高效能仿真系统及支撑技术、高效能仿真应用工程技术等三个方面论述了当前复杂系统高效能仿真技术研究中值得关注的9类技术:1)复杂系统高效能仿真语言;2)复杂系统高效能仿真算法;3)高效能仿真系统体系结构;4)高效能仿真硬件优化技术;5)高效能仿真软件支撑技术;6)高效能云仿真技术;7)复杂系统高效能仿真系统VV&A技术;8)海量数据管理技术;9)复杂系统仿真实验及结果分析与评估技术等技术,包括其研究内容和作者所在团队的研究成果与进一步的研究方向。最后给出几点结论与建议。
首先給齣瞭複雜繫統高效能倣真技術的內涵和重要作用,併從複雜繫統高耑建模倣真及為海量用戶按需提供雲倣真服務兩類應用需求的角度,討論瞭髮展複雜繫統高效能倣真技術的技術需求及介紹瞭相關的國內外技術概況。接著,從高效能倣真建模技術、高效能倣真繫統及支撐技術、高效能倣真應用工程技術等三箇方麵論述瞭噹前複雜繫統高效能倣真技術研究中值得關註的9類技術:1)複雜繫統高效能倣真語言;2)複雜繫統高效能倣真算法;3)高效能倣真繫統體繫結構;4)高效能倣真硬件優化技術;5)高效能倣真軟件支撐技術;6)高效能雲倣真技術;7)複雜繫統高效能倣真繫統VV&A技術;8)海量數據管理技術;9)複雜繫統倣真實驗及結果分析與評估技術等技術,包括其研究內容和作者所在糰隊的研究成果與進一步的研究方嚮。最後給齣幾點結論與建議。
수선급출료복잡계통고효능방진기술적내함화중요작용,병종복잡계통고단건모방진급위해량용호안수제공운방진복무량류응용수구적각도,토론료발전복잡계통고효능방진기술적기술수구급개소료상관적국내외기술개황。접착,종고효능방진건모기술、고효능방진계통급지탱기술、고효능방진응용공정기술등삼개방면논술료당전복잡계통고효능방진기술연구중치득관주적9류기술:1)복잡계통고효능방진어언;2)복잡계통고효능방진산법;3)고효능방진계통체계결구;4)고효능방진경건우화기술;5)고효능방진연건지탱기술;6)고효능운방진기술;7)복잡계통고효능방진계통VV&A기술;8)해량수거관리기술;9)복잡계통방진실험급결과분석여평고기술등기술,포괄기연구내용화작자소재단대적연구성과여진일보적연구방향。최후급출궤점결론여건의。
The connotation and the important role of the high efficiency simulation technology of the com- plex system are presented at first. And it discusses the technical requirements from two views of applica- tions which include high-end modeling and simulation of complex systems and cloud simulation services on- demand for mass users. The relative status quos at home and abroad are introduced subsequently. Nine noteworthy technologies of the current researches in three categories, which involve high efficiency simula- tion modeling technology, high efficiency simulation system & supporting technology and high efficiency simulation application engineering technology, are proposed as follows: 1 )complex system high efficiency simulation language; 2)complex system high efficiency simulation algorithm; 3 )high efficiency simulation architecture; 4)high efficiency simulation hardware optimization technique; 5 )high efficiency simulation software supporting technology; 6)high efficiency cloud simulation technology; 7)complex system high effi- ciency simulation VV&A technology; 8 )massive data management technology; 9)complex system simula- tion experiments, results analysis and evaluation techniques. Each proposal is comprised of research contents, research fruits and further research directions. Finally, some conclusions and recommendations are given.
