Jump to content

David J. Brown (computer scientist)

From Wikipedia, the free encyclopedia
David James Brown
Born1957 (age 66–67)
NationalityAmerican
Alma materUniversity of Pennsylvania (BS, MS)
St John's College, Cambridge (PhD)
Scientific career
FieldsComputer science

David James Brown (born 1957) is an American computer scientist. He was one of a small group at Stanford University that helped to develop the computer system that later became the foundational technology of Sun Microsystems, and was a co-founder of Silicon Graphics.

Education

[edit]

Brown received his primary and secondary school education in Delmar, New York, and then studied at the University of Pennsylvania, Moore School of Electrical Engineering where he received a B.S.E. degree in 1979 and an M.S.E. under advisor Ruzena Bajcsy in 1980.[1]

In 1984, Brown was introduced to David Wheeler, who invited him to join the University of Cambridge Computer Laboratory as a doctoral candidate. In October 1986, he matriculated at St John's College, University of Cambridge, England to pursue a Ph.D. degree. His dissertation introduced the concept of Unified Memory Architecture.[2] This idea has subsequently been widely applied — such as by Intel in their processors and platform architecture of the late 1990s and onward.[2]

Career

[edit]

Brown became a member of the research staff in the Computer Science Department at Stanford University in 1981, where he worked on the SUN workstation research project with Andreas Bechtolsheim, prior to the establishment of Sun Microsystems.[3]

In 1982, Brown was one of the group of the seven technical staff from Stanford (along with Kurt Akeley, Tom Davis, Rocky Rhodes, Mark Hannah, Mark Grossman, and Charles "Herb" Kuta) who joined Jim Clark to form Silicon Graphics.[4][5]

Brown and Stephen R. Bourne formed the Workstation Systems Engineering group at Digital Equipment Corporation. Together they built the group responsible for the introduction of the DECstation line of computer systems.[6]

In 1992, Brown joined Sun Microsystems. He helped to establish the process used for the company's system software architecture, and then went on to define the application binary interface for Solaris, Sun's principal system software product.[3][7] Later, Brown worked on Solaris's adoption of open-source software and practices, and then its technologies for energy-efficient computing.[6][8]

In 1998, Brown was elected to the Council of the Association for Computing Machinery,[9] and in 2003 became a founding editor of the ACM Queue magazine, producing several articles through 2010.[10][11][12][13][8]

References

[edit]
  1. ^ "Computer Architecture for Object Recognition and Sensing". Masters Thesis Technical Report No. MS-CIS-80-22. University of Pennsylvania Department of Computer and Information Science. December 1980. Retrieved October 29, 2021.
  2. ^ a b David J. Brown, Abstraction of Image and Pixel. The Thistle Display System, Technical Report No. 229, at University of Cambridge Computer Laboratory, UK, August 1991.
  3. ^ a b Charlene O'Hanlon, A Conversation with David Brown: The Nondisruptive Theory of Evolution, ACM Queue, October 10, 2006, doi:10.1145/1165754.1165764.
  4. ^ Bowen, Jonathan (2001). "Silicon Graphics, Inc.". In Rojas, Raúl (ed.). Encyclopedia of Computers and Computer History. New York: Fitzroy Dearborn, The Moschovitis Group. pp. 709–710. ISBN 978-1579582357.
  5. ^ "The First Quarter-Century". Silicon Graphics. 2007. Archived from the original on November 9, 2007. Retrieved 2008-06-09.
  6. ^ a b Brown, David J. (June 17, 2009). "Toward Energy-efficient Computing". 800th Anniversary. UK: University of Cambridge.
  7. ^ David J. Brown; Karl Runge (October 10, 2000). "Library Interface Versioning in Solaris and Linux". Proceedings of Usenix. Atlanta, Georgia: 153–162. Retrieved October 29, 2021.
  8. ^ a b David J. Brown; Charles Reams (February 2010). "Toward Energy-Efficient Computing: What will it take to make server-side computing more energy efficient?". ACM Queue. 8 (2). Association for Computing Machinery: 30–43. doi:10.1145/1716383.1730791. S2CID 10813161.
  9. ^ "Election Results". Association for Computing Machinery. Archived from the original on 2011-06-06. Retrieved 2009-02-14.
  10. ^ David J. Brown (September 2003). "A Conversation with Wayne Rosing: How the Web changes the way developers build and release software". ACM Queue. 1 (6). Association for Computing Machinery: 12–20. doi:10.1145/945131.945162. S2CID 27535338.
  11. ^ David J. Brown (September 2003). "The Developer's Art Today: Aikido or Sumo?: Software development, tools, and whether or not they make us more productive". ACM Queue. 1 (6). Association for Computing Machinery: 6–7. doi:10.1145/945131.945159. S2CID 33820280.
  12. ^ David J. Brown (April 2004). "Web Search Considered Harmful: The top five reasons why search is still way too hard". ACM Queue. 2 (2). Association for Computing Machinery: 83–84. doi:10.1145/988392.988404. S2CID 195703874.
  13. ^ David J. Brown (March 2005). "An Update on Software Updates: The way software is delivered has changed". ACM Queue. 3 (2). Association for Computing Machinery: 10–11. doi:10.1145/1053331.1053333. S2CID 7578490.