共找到45條詞條名為王海的結果 展開
- 中國人民解放軍空軍原司令員
- 中國人民解放軍海軍南海艦隊司令員
- 職業打假人
- 唐山市人民政府副市長
- 蘭州市著名相聲演員
- 電子科技大學副教授
- 郭德綱經紀人
- 江西科技學院校長
- 車發發創始人兼CEO
- 作家
- 杭州動態稱重技術研究所研究員
- 原新鄉學院副教授
- 福建省住房和城鄉建設廳副廳長、黨組成員
- 湛江市環保局總工程師
- 導演
- 攀枝花市文化廣電新聞出版局副局長
- 天津大學美術學博士,河南理工大學美術教師
- 東王海村
- 深圳市十大傑出青年候選人
- 珠海保稅區摩天宇航空發動機維修有限公司技術運營部TE100工程師
- 合肥職業技術學院辦公室主任
- 龍曦集團董事
- 原雙流縣委常委、委員
- 深圳前海小夥伴影視傳媒股份有限公司總裁
- 海口市委組織部副部長
- 徐州市委機要局副調研員、副局長
- 全國五一勞動獎狀獲得者
- 四川省萬源市廟子學校校長
- 山西大學光電研究所教授
- 天津美術學院裝飾藝術系講師
- 農產品加工專家
- 安慶市安全監管局行政許可科科長
- 齊魯師範學院黨委委員、副院長
- 上海交通大學航空與機械工程系教授
- 全國勞動模範
- 中國舉重運動員
- 五河縣糧油公司新集分公司經理
- 中國籃球運動員
- 社科院研究員
- 山東新泰籍烈士
- 四川省委宣傳部政策法規研究室二級主任科員
- 四川法叢律師事務所高級合伙人、副主任律師
- 桂林理工大學副研究員
- 上海飛機製造有限公司C919大型客機外場試驗隊隊長助理
- 政協龍川縣委員會原主席
王海
電子科技大學副教授
徠王海:男,電子科技大學副教授。博士、1985年3月出生,重慶人。2007年6月華中科技大學本科畢業, 2012年5月美國加州大學河濱分校博士畢業。2012年5月起在電子科技大學微固學院任教,副教授。
目錄
王海:男,電子科技大學副教授。博士、1985年3月出生,重慶人。2007年6月華中科技大學本科畢業, 2012年5月美國加州大學河濱分校博士畢業。2012年5月起在電子科技大學微固學院任教,副教授。主要研究領域為集成電路電子設計自動化(Electronic Design Automation)。曾參與完成多項美國國家自然基金項目,並與工業界Intel公司,Cadence公司合作,致力於集成電路功耗與熱分析,互連線建模與模擬,集成電路模型降階等方向的研究。已在國際會議與期刊上發表論文約30餘篇(詳見學術成果),並多次在國際會議上做學術報告與拓導報告(tutorial talk)。現擔任國際核心期刊IEEE TCAD、IEEE Trans. on Computers、IEEE TCAS II,及Integration, The VLSI Journal評審,並多次擔任電子設計自動化國際頂級會議DAC、ICCAD評審,以及ASP-DAC、DATE、ISQED技術委員會(TPC)委員。
研究方向1:眾核三維晶元功耗與溫度的緊湊建模及快速分析技術
研究簡介:眾核三維晶元(Many-Core 3D IC)是下一代晶元技術。其研發中面臨的最主要問題之一便是高集成度所帶來的高功率密度與高溫度問題。過高的晶元溫度將降低晶元可靠性與晶元運行性能,更可能對晶元造成不可逆轉的物理損害。本研究致力於研發晶元功耗與溫度的快速模擬分析技術。該技術將集成於考慮功耗與溫度因素的下一代晶元自動化設計工具中,提高3D IC性能並降低3D IC設計與製造成本。
研究資助:本研究由中國國家自然科學基金(NSFC)資助研究:三維集成電路熱可靠性快速分析與在線優化技術研究,國家自然科學基金,項目編號61404024,項目負責人:王海。
學術成果:
1. H. Wang, S. X.-D. Tan, D. Li, A. Gupta, and Y. Yuan, “Composable Thermal Modeling and Simulation for Architecture- Level Thermal Designs of Multi-core Microprocessors”, ACM Transactions on Design Automation of Electronic Systems (TODAES), vol. 18, no. 2, pp. 28:1-28:27, March, 2013.
2. Z. Liu, S. X.-D. Tan, H. Wang, Y. Hua, and A. Gupta, “Compact thermal modeling for packaged microprocessor design with practical power maps”, Integration, The VLSI Journal, vol. 47, no. 1, pp. 71-85, January, 2014.
3. H. Wang, D. Li, S. X.-D. Tan, M. Tirumala and A. X. Gupta “Composable thermal modeling and characterization for fast temperature estimation”, Conference on Electrical Performance of Electronic Packaging and Systems (EPEPS), Austin, TX, Oct, 2010.
4. Z. Liu, S. X.-D. Tan, H. Wang, R. Quintanilla and A. Gupta, “Compact thermal modeling for package design with practical power maps”, 1st International IEEE Workshop on Thermal Modeling and Management: Chips to Data Centers (TEMM), pp. 1-5, Orlando, FL, July, 2011.
5. H. Wang, S. X.-D. Tan, G. Liao, R. Quintanilla and A. Gupta, “Full-chip runtime error-tolerant thermal estimation and prediction for practical thermal management”, Proc. IEEE/ACM International Conf. on Computer-Aided Design (ICCAD), pp.716-723, San Jose, CA, Nov. 2011.
6. H. Wang, S. X.-D. Tan, X. Liu, A. Gupta, “Runtime power estimator calibration for high-performance microprocessors”, Proc. Design, Automation and Test in Europe (DATE'12), pp.352-357, Dresden, Germany, March 2012.
7. Z. Liu, S. X.-D. Tan, H. Wang, A. Gupta and S. Swarup , “Compact nonlinear thermal modeling of packaged integrated systems”, Proc. Asia South Pacific Design Automation Conference (ASP-DAC’13), pp. 157-162, Yokohama, Japan, Jan. 2013.
8. H徠. Wang, M. Zhang, C. Zhang, H. Tang, X. Wang, "Improving the Accuracy of Module Based Thermal Modeling Method for VLSI Circuits Design", Proc. International Conference on Electron Devices and Solid-State Circuits (EDSSC'14), Chengdu, China, June 2014.
研究展示:
多核晶元快速熱分析(左上圖與右上圖)與三維晶元穩態熱分析(左下圖與右下圖):
研究方向2:眾核三維晶元可靠性分析、設計優化,以及動態溫度管理技術
研究簡介:本研究注重在晶元設計與運行進行優化,在提高晶元可靠性的同時保障晶元最大運行性能。本研究包括晶元溫度穩態與瞬態行為對晶元可靠性影響的分析研究,晶元設計過程中對穩態性能進行優化的設計優化方法研究(包括晶元物理熱感測器放置方法以及晶元熱敏布局方法等),以及晶元運行過程中對瞬態性能進行優化的以動態溫度管理技術為代表的在線優化方法研究。
研究資助:本研究由中國國家自然科學基金(NSFC)資助研究:三維集成電路熱可靠性快速分析與在線優化技術研究,國家自然科學基金,項目編號61404024,項目負責人:王海。
研究合作:本研究與日本大阪大學橋本昌宜教授合作(2015年起)
學術成果:
1. Z. Liu, S. X.-D. Tan, X. Huang, and H. Wang, "Task migration for distributed thermal management considering transient effects", IEEE Transactions on Very Large Scale Integrated Circuits and Systems (TVLSI).
2. Z. Liu, T. Xu, S. X.-D. Tan, H. Wang, “Dynamic thermal management for multicore microprocessors considering transient thermal effects”, Proc. Asia South Pacific Design Automation Conference (ASP-DAC’13), pp.473-478, Yokohama, Japan, Jan. 2013.
3. H. Wang, S. X.-D. Tan, S. Swarup, X. Liu, “A power-driven thermal sensor placement algorithm for dynamic thermal management”, Proc. Design, Automation and Test in Europe (DATE'13), Grenoble, France, March 2013.
4.Z. Liu, X. Huang, S. X.-D. Tan, H. Wang, H. Tang, “Distributed task migration for thermal hot spot reduction in many-core microprocessors”, Proc. International Conference on ASIC (ASICON’13), Shenzhen, China, Oct. 2013. (invited)
5. J. Ma, H. Wang, S. X.-D. Tan, C. Zhang, H. Tang, "Hybrid Dynamic Thermal Management Method with Model Predictive Control", Proc. Asia Pacific Conference on Circuits and Systems (APCCAS'14), Okinawa, Japan, Nov. 2014.
研究展示:
晶元溫度感測器優化放置技術(上圖)與新型動態溫度管理技術(下圖):
期刊論文:
J1. S. X.-D. Tan, B. Yan, and H. Wang, “Recent advance in non-Krylov subspace model order reduction of interconnect circuits”, Tsinghua Science and Technology, vol.15, no. 2, pp.151-168, April, 2010. (invited)
J2. H. Wang, H. Yu, and S. X.-D. Tan, “Fast timing analysis of clock networks considering environmental uncertainty”, Integration, The VLSI Journal, vol. 45, no. 4, pp. 376-387, September, 2012.
J3. H. Wang, S.X.-D. Tan, and R. Rakib, “Compact modeling of interconnect circuits over wide frequency band by adaptive complex-valued sampling method”, ACM Transactions on Design Automation of Electronic Systems (TODAES), vol. 17, no.1, pp.5:1-5:22, January 2012.
J4. R. Shen, S. X.-D. Tan, H. Wang, and J. Xiong, “Fast statistical full-chip leakage analysis for nanometer VLSI systems”, ACM Transactions on Design Automation of Electronic Systems (TODAES), vol. 17, no. 4, pp. 51:1-51:19, Sept. 2012.
J5. H. Wang, S. X.-D. Tan, D. Li, A. Gupta, and Y. Yuan, “Composable Thermal Modeling and Simulation for Architecture- Level Thermal Designs of Multi-core Microprocessors”, ACM Transactions on Design Automation of Electronic Systems (TODAES), vol. 18, no. 2, pp. 28:1-28:27, March, 2013.
J6. Z. Liu, S. X.-D. Tan, H. Wang, Y. Hua, and A. Gupta, “Compact thermal modeling for packaged microprocessor design with practical power maps”, Integration, The VLSI Journal, vol. 47, no. 1, pp. 71-85, January, 2014. ( One of the most downloaded papers in 2014 after its publication, 178 downloads in 3 months)
J7. Z. Liu, S. X.-D. Tan, X. Huang, and H. Wang, "Task migration for distributed thermal management considering transient effects", IEEE Transactions on Very Large Scale Integrated Circuits and Systems (TVLSI).
J8. Z. Liu, S. Swarup, S. X.-D. Tan, H. Chen, H. Wang, “Compact lateral thermal resistance model of TSVs for fast finite-difference based thermal analysis of 3D stacked ICs”,IEEE Transaction on Computer-Aided Design of Integrated Circuits and Systems (TCAD), vol. 33, no. 10. Oct. 2014.
J9. H. Chen, S. X-.D. Tan, D. H. Shin, X. Huang, H. Wang and G. Shi, “H2-Matrix-based Finite Element Linear Solver for Fast Transient Thermal Analysis of High-Performance ICs”,Int. J. Circ. Theor. Appl. (in press)
會議論文:
C1. B. Yan, H. Wang, and S. X.-D. Tan: A survey of RLCK reduction and simulation methods by fast truncated balanced realization, Int. Conf. Solid State and Integrated Circuit Technology (ICSICT), pp. 2236-2239, Beijing, China, Oct. 2008 (invited)
C2. H. Wang, H. Yu, and S. X.-D. Tan: Fast analysis of non-tree clock network considering environmental uncertainty by parameterized and incremental macromodeling, Proc. Asia South Pacific Design Automation Conference (ASP-DAC), pp. 379- 384, Yokohama, Japan, Jan. 2009.
C3. H. Yu, X. Liu, H. Wang, S. X.-D. Tan, “A fast analog mismatch analysis by an incremental and stochastic trajectory piecewise linear macromodel”, Proc. Asia South Pacific Design Automation Conference (ASP-DAC’10), pp.211-216, Taipei, Taiwan, Jan. 2010.
C4. H. Wang, S. X.-D. Tan, G. Chen, “Wideband reduced modeling of interconnect circuits by adaptive complex-valuedsampling method”, Proc. Asia South Pacific Design Automation Conference (ASP-DAC’10), pp.31-26, Taipei, Taiwan, Jan. 2010.
C5. H. Wang, D. Li, S. X.-D. Tan, M. Tirumala and A. X. Gupta “Composable thermal modeling and characterization for fast temperature estimation”, Conference on Electrical Performance of Electronic Packaging and Systems (EPEPS), Austin, TX, Oct, 2010.
C6. S. X.-D. Tan, H. Wang, B. Yan, “UiMOR -- UC Riverside model order reduction tool for post-layout wideband interconnect modeling”, Int. Conf. Solid State and Integrated Circuit Technology (ICSICT’10), Shanghai, China, pp. 1769-1773, Oct. 2010. (invited)
C7. Z. Liu, S. X.-D. Tan, H. Wang, R. Quintanilla and A. Gupta, “Compact thermal modeling for package design with practical power maps”, 1st International IEEE Workshop on Thermal Modeling and Management: Chips to Data Centers (TEMM), pp. 1-5, Orlando, FL, July, 2011.
C8. Z. Liu, S. X.-D. Tan, H. Wang, R. Quintanilla and A. Gupta, “Compact behavioral thermal modeling for microprocessor design with spatially correlated power inputs”, TECHCON’2011 , Austin, TX, Sept. 2011.
C9. H. Wang, S. X.-D. Tan, G. Liao, R. Quintanilla and A. Gupta, “Full-chip runtime error-tolerant thermal estimation and prediction for practical thermal management”, Proc. IEEE/ACM International Conf. on Computer-Aided Design (ICCAD), pp.716-723, San Jose, CA, Nov. 2011.
C10. S. Swarup, S. X. -D. Tan, Z. Liu, H. Wang, Z. Hao and G. Shi, “Battery state of charge estimation using adaptive subspace identification method”, Proc. International Conference on ASIC (ASICON’11), pp. 91-94, Xiamen, China, Oct. 2011 (invited).
C11. X. Liu, S. X.-D. Tan, H. Wang and H. Yu, “A GPU-accelerated envelope following method for switching power converter simulation”, Proc. Design, Automation and Test in Europe (DATE'12), pp.1349-1354, Dresden, Germany, March 2012.
C12. X. Liu, S. X.-D. Tan, and H. Wang, “Parallel statistical analysis of analog circuits by GPU-accelerated graph-based approach”, Proc. Design, Automation and Test in Europe(DATE'12), pp.852-857, Dresden, Germany, March 2012.
C13. H. Wang, S. X.-D. Tan, X. Liu, A. Gupta, “Runtime power estimator calibration for high-performance microprocessors”, Proc. Design, Automation and Test in Europe (DATE'12), pp.352-357, Dresden, Germany, March 2012.
C14. X. Liu, S. X.-D. Tan, Z. Liu, H. Wang, T. Xu, “Transient analysis of large linear dynamic networks on hybrid GPU- multicore platforms”, 10th IEEE International NEWCAS Conference, pp. 173-176, Montreal, Canada, June, 2012.
C15. Z. Liu, S. X.-D. Tan, H. Wang, Y. Hua and A. Gupta, “Compact nonlinear thermal modeling of packaged microprocessors”, TECHCON’2012 , Austin, TX, Sept. 2012.
C16. Z. Liu, T. Xu, S. X.-D. Tan, H. Wang, “Dynamic thermal management for multicore microprocessors considering transient thermal effects”, Proc. Asia South Pacific Design Automation Conference (ASP-DAC’13), pp.473-478, Yokohama, Japan, Jan. 2013.
C17. Z. Liu, S. X.-D. Tan, H. Wang, A. Gupta and S. Swarup , “Compact nonlinear thermal modeling of packaged integrated systems”, Proc. Asia South Pacific Design Automation Conference (ASP-DAC’13), pp. 157-162, Yokohama, Japan, Jan. 2013.
C18. H. Wang, S. X.-D. Tan, S. Swarup, X. Liu, “A power-driven thermal sensor placement algorithm for dynamic thermal management”, Proc. Design, Automation and Test in Europe (DATE'13), Grenoble, France, March 2013.
C19. Z. Liu, X. Huang, S. X.-D. Tan, H. Wang, H. Tang, “Distributed task migration for thermal hot spot reduction in many-core microprocessors”, Proc. International Conference on ASIC (ASICON’13), Shenzhen, China, Oct. 2013. (invited)
C20. H. Tang, Y. Peng, X. Lu, H. Wang, A. Wang, “Quantitative analysis for high speed interpolated/averaging ADC”, Proc. International Conference on ASIC (ASICON’13), Shenzhen, China, Oct. 2013. (invited)
C21. X. Liu, H. Wang, and S. X.-D. Tan, “Parallel power grid analysis using preconditioned GMRES solvers on CPU-GPU platforms”, Proc. International Conference on Computer-Aided Design (ICCAD’13), pp. 561-568, San Jose, CA, Nov. 2013.
C22. H. Wang, M. Zhang, C. Zhang, H. Tang, X. Wang, "Improving the Accuracy of Module Based Thermal Modeling Method for VLSI Circuits Design", Proc. International Conference on Electron Devices and Solid-State Circuits (EDSSC'14), Chengdu, China, June 2014.
C23. H. Tang, H. Zhao, H. Wang, “Power Optimization for Pipelined ADC Design”, Proc. International Conference on Electron Devices and Solid-State Circuits (EDSSC'14), Chengdu, China, June 2014. (invited)
C24.J. Ma, H. Wang, S. X.-D. Tan, C. Zhang, H. Tang, "Hybrid Dynamic Thermal Management Method with Model Predictive Control", Proc. Asia Pacific Conference on Circuits and Systems (APCCAS'14), Okinawa, Japan, Nov. 2014. ( win Student Travel Grant)
專著:
B1. Xue-Xin Liu, Hao Yu, Hai Wang, Sheldon X.-D. Tan, “Analog mismatch analysis by stochastic nonlinear macromodeling”, Chapter in “Analog Circuits: Applications, Design and Performances”, E. Tlelo-Cuautle (Editor), NOVA Science Publishers Inc., ISBN: 978-1-61324-355-8, Sept., 2011.