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琳·康維

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维基百科,自由的百科全书
琳·康维
康维于2006年
出生(1938-01-02)1938年1月2日
芒特弗农,纽约州,美国[1]
逝世2024年6月9日(2024歲—06—09)(86歲)
杰克逊,密歇根州,美国
母校哥伦比亚大学
知名于
配偶查尔斯·罗格斯2002年结婚)
奖项
科学生涯
研究领域
机构IBM 高级计算系统 (1964–68), Memorex英语Memorex, 帕罗奥多研究中心 (1970年代), DARPA, 密歇根大学

琳·安·康维 (1938年1月2日—2024年6月9日[3])[4][5]是一位美国计算机科学家, 电子工程学家跨性别权益活动人士[6]

她曾于1960年代在IBM工作,并发明了广义动态指令处理技术,这是乱序执行中一种关键的技术进步,并被绝大多数的现代计算机处理器使用,以提高性能。随后,她在超大规模集成电路(VLSI)领域启动了梅德-康威VLSI芯片设计革命英语Mead–Conway VLSI chip design revolution。这场技术革命在1980年代迅速传播至研究型大学和计算机行业,孕育出新兴的电子设计自动化(EDA)行业,催生了现代芯片设计与生产的制造厂基础设施,并在1980年代和1990年代启动了一系列影响深远的高科技创业公司。[7][8][9][10][11]

早年生活与教育[编辑]

康维成长于白原市,纽约州。她被当作男孩抚养。在儿童期,她有些害羞,并经历着性别不安。她着迷于天文学(她曾在一个夏天建造了一架6英寸(150 mm)口径的反射式望远镜),并在高中时擅长数学和科学。康维在1955年进入麻省理工学院,获得了很高的成绩,却在1957-58年间试图性别过渡后,最终在绝望中退学。她的尝试由于当时的医学环境英语Transgender_history_in_the_United_States#1950s_and_1960s而失败。[12] 康维作为一名电子技术工程师工作了几年,随后在哥伦比亚大学工程与应用科学学院继续她的教育,最终在1962年获得理学学士学位,在1963年获得电子工程科学硕士学位。[13][14]

在IBM的早期研究[编辑]

康维在1964年被招入IBM研究部,前往约克敦高地,纽约英语Yorktown Heights, New York。她很快入选设计先进超级计算机的架构团队,和约翰·科克布莱恩·兰德尔英语Brian Randell、赫伯特·舍尔、埃德·苏森古斯英语Ed Sussenguth法兰·艾伦及其它IBM研究人员一同工作于IBM高级计算系统英语IBM Advanced Computer Systems project(ACS)项目,并在工作中发明多发射乱序动态指令调度技术。[7][8][9][15][16] 计算机历史博物馆表示,“ACS机器似乎是第一个超标量设计,这是一种在现代高性能微处理器中广泛利用的计算机架构范式。”[10][11][17][18]

性别过渡[编辑]

康维在了解到哈利·本杰明英语Harry Benjamin跨性别女性医疗的开创性研究[19]后,她意识到性别确认手术已变得可行,决定寻求本杰明的帮助。康维承受着严重的抑郁症性别不安,联系了本杰明。他同意提供心理咨询并开具激素治疗。在本杰明的医疗照护下,康维开始了她的医学性别过渡[20]

在挣扎着以男性角色生活时[20],康维和一名女性结婚,并有了两名孩子。在当时的法律限制下,在性别过渡后,她被禁止与她的孩子见面。[20]

她希望可以在工作的同时进行性别过渡。但是在她表露这一的意图后。IBM于1986年将她开除[21] IBM于2020年为此道歉。[22]

作为计算机科学家的职业生涯[编辑]

于1968年,康维完成她的性别过渡,取了一个新名字,以另一身份,进入她所说的“隐身模式英语Passing_(gender)#Stealth”。她重新开始了她的职业生涯,作为一名外包程序员Computer Applications, Inc.英语Computer Applications, Inc.工作。随后于1969-1972年,她前往Memorex英语Memorex工作,担任电子系统设计师和计算机架构师。[20][23]

康维在1973年前往帕罗奥多研究中心,领导伯特·萨瑟兰英语Bert Sutherland的“大规模集成电路系统”小组。[24][25] 在帕罗奥多时,康维创立了多项目晶圆英语Multi-project wafer service(MPW)技术,实现将不同来源的电路设计装入同一块硅晶圆。这一新发明提升了生产力,降低了成本。[26] 而在VLSI设计方法上,她与伊万·萨瑟兰和来自加州理工学院卡弗·梅德合作,共同创作了《VLSI系统》。这是一部开创性的著作,很快成为芯片设计领域的标准教科书,并在1983年时被接近120所大学采用。[27][28][29][30] 他们的著作销售超过70,000册,而梅德-康维革命集成了康维在MPC79/MOSIS英语MOSIS上的创新后,成为了VLSI设计的一部分。[28][31]

1979年,康维前往麻省理工学院,任电气工程计算机科学客座副教授,教授一门基于梅德-康维著作草稿的VLSI设计课程,这一课程现已声名远播。[20] 这个课程验证了新的设计方法和教材,并创立了后来被全球课程采用的教学大纲和教授指南。[32][33]

Among Conway's contributions were the invention of dimensionless, scalable design rules that greatly simplified chip design and design tools,[8][14][34] and invention of a new form of internet-based infrastructure for rapid prototyping and short-run fabrication of large numbers of chip designs.[8][35] The problem they were solving was how to cope with the increasing complexity of chip design while the number of transistors per chip doubled every two years as Gordon Moore (chairman of Intel) had predicted in 1965. The design methods in use in the semiconductor industry were rapidly running out of steam.[36] The new infrastructure was institutionalized as the Metal Oxide Semiconductor Implementation Service (MOSIS) system in 1981. Two years into its success, Mead and Conway received Electronics magazine's annual award of achievement.[37] Since then, MOSIS has fabricated more than 50,000 circuit designs for commercial firms, government agencies, and research and educational institutions around the world.[38] VLSI researcher Charles Seitz commented that "MOSIS represented the first period since the pioneering work of Eckert and Mauchley on the ENIAC in the late 1940s that universities and small companies had access to state-of-the-art digital technology."[35]

The research methods used to develop the Mead–Conway VLSI design methodology and the MOSIS prototype are documented in a 1981 Xerox report[39] and the Euromicro Journal.[40] The impact of the Mead–Conway work is described in a number of historical overviews of computing.[35][41][42][43][44][45] Conway and her colleagues have compiled an online archive of original papers that documents much of that work.[46][47] The methods also came under ethnographic study in 1980 by PARC anthropologist Lucy Suchman, who published her interviews with Conway in 2021.[48][49]

In the early 1980s, Conway left Xerox to join DARPA, where she was a key architect of the Defense Department's Strategic Computing Initiative, a research program studying high-performance computing, autonomous systems technology, and intelligent weapons technology.[14][50]

In a USA Today article about Conway's joining DARPA, Mark Stefik, a Xerox scientist who worked with her, said "Lynn would like to live five lives in the course of one life" and that she's "charismatic and very energetic".[51] Douglas Fairbairn, a former Xerox associate, said "She figures out a way so that everybody wins."[51]

康维于1985年加入密歇根大学,担任电气工程计算机科学教授,及工程学院副院长。在那里,她致力于“适用于混合互联网/宽带电缆通信的基本系统和用户界面概念的视觉通信和控制探测”的工作。[14] 1998 年,康维从活跃的教学和研究岗位退休,成为密歇根大学的荣誉退休教授[52][53]

遗产[编辑]

跨性别权益活动[编辑]

个人生活与逝世[编辑]

1987 年,康维遇到了她的丈夫查尔斯·罗杰斯 “查理”。罗杰斯是一名职业工程师,他和康维一样喜欢户外活动,包括激流皮划艇摩托车越野赛[20][54] 他们很快就开始同居,并于1994年在密歇根州农村购买了一栋有24英畝(9.7公頃)草地、沼泽和林地的房子。[20] 他们在8月13日,2002年结婚。[16][55][56] 2014年,密歇根大学的《密歇根工程师》校友杂志记录了康维的工程探索与她个人生活中的冒险间的联系。[57][58]

康维于6月9日,2024年因心脏病在位于杰克逊,密歇根州的家中去世,享年 86 岁。[59][60]

奖项于荣誉[编辑]

著作选集[编辑]

专利[编辑]

相關條目[编辑]

參考資料[编辑]

  1. ^ Saari, Peggy; Allison, Stephen; Ellavich, Marie C. Scientists: A-F. U-X-L. 1996. ISBN 978-0-7876-0960-3 (英语). 
  2. ^ CHM 2014 Fellow "For her work in developing and disseminating new methods of integrated circuit design". Computer History Museum. [April 10, 2018]. (原始内容存档于July 3, 2016). 
  3. ^ Boyd, Helen. Lynn Conway: Trans Icon and Pioneer, 1938 – 2024. (En)gender. [11 June 2024]. (原始内容存档于11 June 2024). 
  4. ^ Lee, John A. N. International Biographical Dictionary of Computer Pioneers. Fitzroy Dearborn. 1995. ISBN 1-884964-47-8. 
  5. ^ Computer Pioneers - Lynn Conway. IEEE Computer Society. IEEE. [November 10, 2014]. (原始内容存档于November 10, 2014). 
  6. ^ 21 Transgender People Who Influenced American Culture. Time. May 29, 2014. 
  7. ^ 7.0 7.1 Smotherman, Mark. IBM Advanced Computing Systems (ACS) – 1961–1969. 
  8. ^ 8.0 8.1 8.2 8.3 Lynn Conway: 2009 Computer Pioneer Award Recipient. IEEE Computer Society. [January 20, 2010]. (原始内容存档于January 3, 2015). 
  9. ^ 9.0 9.1 Lynn Conway receives 2009 IEEE Computer Society Computer Pioneer Award. IEEE Computer Society. July 30, 2010 –通过YouTube. 
  10. ^ 10.0 10.1 CHM Events: IBM ACS System: A Pioneering Supercomputer Project of the 1960's. Computer History Museum. February 18, 2010. (原始内容存档于April 20, 2010) (英语). 
  11. ^ 11.0 11.1 Smotherman, Mark; Spicer, Dag. IBM's single-processor supercomputer efforts. Communications of the ACM. December 2010, 53 (12): 28–30. doi:10.1145/1859204.1859216. 
  12. ^ Fourtané, Susan. 51 Female Inventors and Inventions That Changed the World. Interesting Engineering (英语). 
  13. ^ Conway, Lynn. Lynn Conway's Retrospective PART I: CHILDHOOD AND EDUCATION. lynnconway.com. March 15, 2004 [July 9, 2008]. 
  14. ^ 14.0 14.1 14.2 14.3 Kilbane, Doris. Lynn Conway: A Trailblazer On Professional, Personal Levels. Products > News. Electronic Design英语Electronic Design (magazine). 2003-10-20 [2023-02-17]. (原始内容存档于2008-06-08). 
  15. ^ Paul Wallich, "Profile: Lynn Conway—Completing the Circuit 互联网档案馆存檔,存档日期October 4, 2013,.," Scientific American, December 2000.
  16. ^ 16.0 16.1 Dianne Lynch, "The Secret Behind 'Project Y': One Woman's Success Story — 'What Works, Works'", ABCNews.com, November 29, 2001.
  17. ^ Smotherman, Mark. IBM ACS Reunion – February 18, 2010, in California. 
  18. ^ The IBM ACS System: A Pioneering Supercomputer Project – Video. YouTube. (原始内容存档于2021-12-21). 
  19. ^ Benjamin, Harry. The Transsexual Phenomenon. Julian Press. 1966. ISBN 9780446824262. 
  20. ^ 20.0 20.1 20.2 20.3 20.4 20.5 20.6 Hiltzik, Michael A. (November 19, 2000.) "Through the Gender Labyrinth." 互联网档案馆存檔,存档日期October 15, 2012,.. Los Angeles Times, Los Angeles Times Magazine, page 1. (Free reprint. Retrieved on September 19, 2007.)
  21. ^ Conway, Lynn. Reminiscences of the VLSI revolution: How a series of failures triggered a paradigm shift in digital design (PDF). IEEE Solid-State Circuits Magazine (IEEE). 2012, 4 (4): 8–31. ISSN 1943-0582. S2CID 9286356. doi:10.1109/MSSC.2012.2215752. 
  22. ^ Alicandri, Jeremy. IBM Apologizes For Firing Computer Pioneer For Being Transgender...52 Years Later. Forbes. 
  23. ^ Lynn Conway's Retrospective PART III: Starting Over. Ai.eecs.umich.edu. May 12, 1960 [December 5, 2013]. 
  24. ^ Goldberg, Adele J. About This Issue.... ACM Computing Surveys. September 1980, 12 (3): 257–258. ISSN 0360-0300. S2CID 27661653. doi:10.1145/356819.356820可免费查阅. 
  25. ^ Walker, Rob; Tersini, Nancy. Silicon Destiny: The Story of Application Specific Integrated Circuits and LSI Logic Corporation. Walker Research Associates. 1992. ISBN 0-9632654-0-7. 
  26. ^ Sense of Wonder Motivates VLSI Chip Revolutionary, Lynn Conway. American Association for the Advancement of Science. [March 20, 2020] (英语). 
  27. ^ Conway, Lynn. The 'Sutherland Letter' of 1976. December 31, 2012. 
  28. ^ 28.0 28.1 Impact of the Mead-Conway VLSI Design Methodology and of the MOSIS Service. ai.eecs.umich.edu. [March 13, 2020]. 
  29. ^ Wallich, Paul. Profile: Lynn Conway—Completing the Circuit. Scientific American. December 2000 [April 24, 2024]. (原始内容存档于October 28, 2006). 
  30. ^ Smith, Gina. Unsung innovators: Lynn Conway and Carver Mead: They literally wrote the book on chip design. Computerworld. December 3, 2007 [April 24, 2024]. (原始内容存档于December 26, 2008). 
  31. ^ Miller, Chris. Chip War: The Fight for the World's Most Critical Technology. Scribner. 2022: 136–137, 140, 166, 378. 
  32. ^ The MIT'78 VLSI System Design Course: A Guidebook for the Instructor of VLSI System Design, Lynn Conway, Xerox Palo Alto Research Center, August 12, 1979.
  33. ^ Paul Penfield "The VLSI Revolution at MIT" by Paul Penfield 2014 MIT EECS Connector, Spring 2014, pp. 11–13.
  34. ^ Carliss Y. Baldwin and Kim B. Clark. Design Rules: The Power of Modularity. MIT Press. 2000. ISBN 0-262-02466-7. 
  35. ^ 35.0 35.1 35.2 National Research Council (1999), Funding a Revolution: Government Support for Computing Research, National Academy Press (excerpt)
  36. ^ Lynn Conway. Gebbie Lab. 29 January 2024 [24 April 2024]. (原始内容存档于April 25, 2024). 
  37. ^ Impact of the Mead-Conway VLSI Design Methodology and of the MOSIS Service. ai.eecs.umich.edu. [March 22, 2020]. 
  38. ^ "The MOSIS Service – More than 50,000 designs in 25 years of operation", http://www.mosis.com/, 2008
  39. ^ THE MPC Adventures: Experiences with the Generation of VLSI Design and Implementation Methodologies, Lynn Conway, Xerox PARC Technical Report VLSI-81-2, January 19, 1981.
  40. ^ THE MPC Adventures: Experiences with the Generation of VLSI Design and Implementation Methodologies, by Lynn Conway, Microprocessing and Microprogramming – The Euromicro Journal, Vol. 10, No. 4, November 1982, pp 209–228.
  41. ^ Allocating Federal Funds for Science and Technology, by Committee on Criteria for Federal Support of Research and Development, National Academy of Sciences, National Academy of Engineering, Institute of Medicine, National Research Council, National Academy Press, Washington DC, 1995, page 75.
  42. ^ Figure II.13: Technological Developments in Computing", in Allocating Federal Funds for Science and Technology, National Academy Press, Washington, DC 1995, page 75.. Ai.eecs.umich.edu. May 7, 1999 [December 5, 2013]. 
  43. ^ Evolving the High Performance Computing and Communications Initiative to Support the Nation's Information Infrastructure, by Committee to Study High Performance Computing and Communications: Status of a Major Initiative, National Research Council, National Academy Press, Washington DC, 1995, page 20.
  44. ^ Figure 1.2: Government-sponsored computing research and development stimulates creation of innovative ideas and industries", in Evolving the High Performance Computing and Communications Initiative to Support the Nation's Information Infrastructure, National Academy Press, 1995, page 20.. Ai.eecs.umich.edu. May 7, 1999 [December 5, 2013]. 
  45. ^ Feinstein, Jonathan S. Creativity in Large-Scale Contexts. Stanford University Press. 2023: 196–199,266–270, 299–304. 
  46. ^ The VLSI Archive Archive.is存檔,存档日期February 8, 2013,, by Lynn Conway, Electronic Design News, June 3, 2009.
  47. ^ VLSI Archive: An online archive of documents and artifacts from the Mead-Conway VLSI design revolution. Ai.eecs.umich.edu. [December 5, 2013]. (原始内容存档于December 8, 2007). 
  48. ^ Suchman, Lucy. A Sociotechnical Exchange, Redux. Backchannels | Reflections. March 1, 2021. (原始内容存档于March 4, 2021). 
  49. ^ Conway, Lynn; Suchman, Lucy. Conway-Suchman conversation. Conway Suchman Conversation. February 28, 2021. 
  50. ^ Dwight B. Davis "Assessing the Stragetic Computing Initiative," by Dwight B. Davis High Technology, Vol. 5, No. 4, April 1985.
  51. ^ 51.0 51.1 Osborn, Michelle. Hi-tech researcher chips in to develop smart computer (PDF). USA Today. June 7, 1983 [April 24, 2024]. (原始内容 (PDF)存档于April 20, 2014). 
  52. ^ Lynn Conway awarded Emerita status at the University of Michigan. University of Michigan. December 31, 1998 [April 24, 2024]. (原始内容存档于December 5, 2003). 
  53. ^ Moore, Nicole Casal. The legacy of Lynn Conway, chip design pioneer and transgender-rights advocate. Michigan Engineering News. 2024-06-11 [2024-06-12] (美国英语). 
  54. ^ Forman, Ross (September 18, 2013) "Transgender pioneer reflects on sports past". Windy City Times.
  55. ^ 引用错误:没有为名为BD06LC的参考文献提供内容
  56. ^ A Wedding Trip to Mackinac Island. 2002. (原始内容存档于September 28, 2002). 
  57. ^ Nicole Casal Moore,"Life, Engineered: How Lynn Conway reinvented her world and ours The Michigan Engineer, College of Engineering, University of Michigan, Fall 2014, pp. 42–49.
  58. ^ Marcin Szczepanski and Evan Dougherty,"A Place to Be Wild," Michigan Engineering, October 8, 2014.
  59. ^ Hiltzik, Michael. Lynn Conway, leading computer scientist and transgender pioneer, dies at 85. Los Angeles Times. 2024-06-11 [2024-06-12]. 
  60. ^ Moore, Nicole Casal. The legacy of Lynn Conway, chip design pioneer and transgender-rights advocate. Michigan Engineering. 2024-06-11 [2024-06-11]. 

外部連結[编辑]

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