Большая библиография 50 Years of Army Computing: From eniac to msrc



жүктеу/скачать 0.62 Mb.
бет11/11
Дата15.06.2016
өлшемі0.62 Mb.
#137972
1   2   3   4   5   6   7   8   9   10   11

Wassén, Henry. The Odhner history: An illustrated chronicle of “a machine to count on”. In commemoration of the 100th anniversary of W. T. Odhners birth in 1845. Göteborg: Original-Odhner ab, 1951. 67 p.


  • Watson T. J. As A Man Thinks. International Business Machines Corporation, 1954. 183 p.

  • Watson T. J. , Petre P. Father, Son & Co.: My Life at IBM and Beyond. N.-Y.: Bantam Book, 2000. 480 p.

  • Weaver, David S. The English Gunners Caliper // Arms Collecting, vol. 33, № 4, November 1995. P. 111-125.

  • Weaver Fisher A., McKenney J. L. The Development of the ERMA Banking System: Lessons from History Amy // AHC, Vol. 15, № 1, January-March 1993. P. 44-57.

  • Weik M. H. The ENIAC Story. Ordnance Ballistic Research Laboratories, Aberdeen Proving Ground, MD, 1961.

  • Weiss E. A. Eloge: Arthur Lee Samuel (1901-1990) // AHC, Vol. 14, № 3, July-September 1992. P. 55-69.

  • Weiss E. A. Herman Holleriths Historic Hilltop Home // AHC, Vol. 19, № 1, January-March 1997. P. 63-64.

  • Weiss E. A. Eloge: Cuthbert Corwin Hurd (1911–1996) // AHC, Vol. 19, № 1, January-March 1997. P. 65-73.

  • Welchman G. The Hut Six Story: Breaking the Enigma Codes. McGraw-Hill, 1982. 326 p.

  • Welchman G. From Polish Bomba to British Bombe: The Birth of Ultra // Intelligence and National Security, vol. 1, № 1, January 1986.

  • Wess, Jane. The logic demonstrators of the 3rd earl Stanhope (1753-1816) // Annals of Science, Vol. 54, Iss. 4, 1997. P. 375-395.

  • Wheeler D. J. The EDSAC Programming Systems // AHC, Vol. 14, № 4, October-December 1992. P. 34-40.

  • Wheeler J. M. Applications of the EDSAC // AHC, Vol. 14, № 4, October-December 1992. P. 27-33.

  • Whitaker W. A. Ada – the project: the DoD high order language working group // The 2nd ACM SIGPLAN Conference on History of programming languages, 1993. P. 299-331.

  • Whiting P. G., Pascoe R. S.V. A History of Data-Flow Languages // AHC, Vol. 16, № 4, Winter 1994. P. 38-59.

  • Wieselman I. L., Tomash E. Marks on Paper: Part 1. A Historical Survey of Computer Output Printing // AHC, Vol. 13, № 1, January-March 1991. P. 63-79.

  • Wieselman I. L., Tomash E. Marks on Paper: Part 2. A Historical Survey of Computer Output Printing // AHC, Vol. 13, № 2, April-June 1991. P. 203-222.

  • Wildes K. L., Lindgren N. A. A Century of Electrical Engineering and Computer Science at MIT, 1882 1982. Cambridge, MA: The MIT Press, 1985. 480 p.

    The book's text and many photographs introduce readers to the renowned teachers and researchers who are still well known in engineering circles, among them: Vannevar Bush, Harold Hazen, Edward Bowles, Gordon Brown, Harold Edgerton, Ernst Guillemin, Arthur von Hippel, and Jay Forrester.

    The book covers the department's major areas of activity - electrical power systems, servomechanisms, circuit theory, communications theory, radar and microwaves (developed first at the famed Radiation Laboratory during World War II), insulation and dielectrics, electronics, acoustics, and computation. This rich history of accomplishments shows moreover that years before "Computer Science" was added to the department's name such pioneering results in computation and control as Vannevar Bush's Differential Analyzer, early cybernetic devices and numerically controlled servomechanisms, the Whirlwind computer, and the evolution of time-sharing computation had already been achieved.



    1. Wilkes M. Memoirs of a Computer Pioneer. Cambridge, MA: The MIT Press, 1985. 200 p.

    2. Wilkes M. V. The Genesis of Microprogramming // AHC, Vol. 8, № 2, April-June 1986. P. 116-126.

    3. Wilkes M. V. The British Association Mathematical Tables Committee // Historia Mathematica, vol. 17, May 1990. P. 152-169.

    4. Wilkes M. V. Edsac 2 // AHC, Vol. 14, № 4, October-December 1992. P. 49-56.

    5. Wilkes M. V. Arithmetic on the EDSAC // AHC, Vol. 19, № 1, January-March 1997. P. 13-15.

    6. Wilkes M. V. John Pinkerton and Lyons Electronic Office // IEE Computing and Control Engineering Journal, vol. 12, 2001. P. 138-144.

    7. Williams, Bruce O. B.; Johnson, Roger G. Ready Reckoners // AHC, Vol. 27, № 4, October-December 2005. P. 64-80.

    Обзор таблиц умножения, изданных в период с 1673 г.

    1. Williams, Kathleen Broom. Grace Hopper: Admiral of the Cyber Sea. Naval Institute Press, 2004. 240 p.

    2. Williams M. R. The Difference Engines // Computer Journal, vol. 19, № 1, 1976. P. 82-89.

    3. Williams M. R. From Napier to Lucas: The Use of Napiers Bones in Calculating Instruments // AHC, 1983, № 3. P. 279-296.

    4. Williams M. R. The Origins, Uses, and Fate of the EDVAC // AHC, Vol. 15, № 1, January-March 1993. P. 22-38.

    5. Williams M. R. UTEC and Ferut: The University of Torontos Computation Centre // AHC, vol. 16, № 2, 1994. P. 4-12.

    6. Williams M. R. A History of Computing Technology: Revised Edition. Los Alamitos, CA: IEEE Computer Society Press, 1997. 440 p.

    New edition of a text/reference which describes the development of arithmetic and calculation tools from Egyptian stone carving to the IBM/360 computer. It includes discussion of important stages such as the invention of the zero, logarithms, the Babbage machines, analog, and the Zuse machines, and provides interesting stories about both the machines and the people who produced them.

    This second edition of the popular reference and textbook outlines the historical developments in computing technology. The book describes historical aspects of calculation and concentrates on the physical devices used to aid people in their attempts at automating the arithmetic process.



    A History of Computing Technology highlights the major advances in arithmetic from the beginning of counting, through the three most important developments in the subject: the invention of the zero, logarithms, and the electronic computer. It provides you with an understanding of how these ideas developed and why the latest tools are in their current forms. In addition, it tells many of the interesting stories about both the machines and the scientists who produced them. It focuses on the extraordinary accomplishments of those computer pioneers whose work will stand as proof of their genius and hard work.

    1. Williams M. R., Tomash E. The Sector: Its History, Scales, and Uses // AHC, 2003, № 1. P. 34-47.

    2. Williams R. V. The Use of Punched Cards in US Libraries and Documentation Centers, 1936-1965 // AHC, Vol. 24, № 2, April-June 2002. P. 16-33.

    3. Winterbotham, Frederick W. The Ultra Secret. N.-Y.: Harpercollins, 1974. 199 p. (Сокр. русский перевод: Уинтерботтем Ф. Секрет Ультра. М.: Воениздат, 1978.)

    4. Wolcott P., Dorojevets M. N. The Institute of Precision Mechanics and Computer Technology and the Elbrus Family of High-Speed Computers // AHC, Vol. 20, № 1, January/March 1998. P. 4-14.


    5. Wood, Gaby. Living Dolls: A Magical History of the Quest for Mechanical Life. L.: Faber & Faber, 2002. 278 p.

    Рассказ о трехвековой истории создания автоматов.

    1. Worlton J. Pre-electronic aids to digital computation / Computers and their role in the physical science. Ed. by S. Fernbach and A. H. Taub. N.-Y.: Gordon and Breach, 1970. P. 11-50.

    2. Worthy J. C. William C. Norris: Portrait of the Maverick. Ballinger Publication Co, 1987. 259 p.

    3. Worthy J. C. Control Data Corporation: The Norris Era // AHC, Vol. 17, № 1, Spring 1995. P. 47-53.

    4. Wright T. History and Technology of Computer Fonts // AHC, Vol. 20, № 2, April/June 1998. P. 30-34.

    5. Yates D. Turings Legacy: A History of Computing at the National Physical Laboratory 1945-1995. London: National Museum of Science and Industry, 1997. 348 p.

    6. Yates, JoAnne. Information Technology and Business Processes in the 20th Century Insurance Industry // Business and economic history, Second Series, Volume Twenty-one, 1992. P. 317-325.

    7. Yates, JoAnne. Co-evolution of Information Processing Technology and Use: Interaction between the Life Insurance and Tabulating Industries // Harvard Business History Review, vol. 67, Spring 1993. P. 1-51.

    Punched-card tabulating equipment, an important commercial predecessor of the computer, was used for processing large amounts of data in many business firms during the first half of the twentieth century. Life insurance was an information-intensive business dependent on firms’ abilities to manage large quantities of data. This article examines both the role that tabulating machinery played in shaping insurance firms’ business processes and the simultaneous role that life insurance as a user industry played in shaping the development of tabulating technology between 1890 and 1950. The ongoing interaction between the life insurance and tabulating industries shaped both in significant ways, setting the stage for continued interaction between the two industries during the transition to computers beginning at mid-century.

    1. Yates, JoAnne. Early Interactions Between the Life Insurance and Computer Industries: The Prudentials Edmund C. Berkeley // AHC, Vol. 19, № 3, July-September 1997. P. 60-73.

    2. Yates, JoAnne. Structuring the Information Age. Life Insurance and Technology in the Twentieth Century. Baltimore: Johns Hopkins University Press, 2005. 368 p.

    Structuring the Information Age provides insight into the largely unexplored evolution of information processing in the commercial sector and the underrated influence of corporate users in shaping the history of modern technology.

    JoAnne Yates examines how life insurance firms - where good record-keeping and repeated use of massive amounts of data were crucial - adopted and shaped information processing technology through most of the twentieth century. The book analyzes this process beginning with tabulating technology, the most immediate predecessor of the computer, and continuing through the 1970s with early computers. Yates elaborates two major themes: the reciprocal influence of information technology and its use, and the influence of past practices on the adoption and use of new technologies. In the 1950s, insurance industry leaders recognized that computers would enable them to integrate processes previously handled separately, but they also understood that they would have to change their ways of working profoundly to achieve this integration. When it came to choosing equipment and applications, most companies ultimately preferred a gradual, incremental migration to an immediate and radical transformation.

    In tracing this process, Yates shows that IBM's successful transition from tabulators to computers in part reflected that vendor's ability to provide large customers such as insurance companies with the necessary products to allow gradual change. In addition, this detailed industry case study helps explain information technology's so-called productivity paradox, showing that firms took roughly two decades to achieve the initial computerization and process integration that the industry set as objectives in the 1950s.


    1. Yeldham F. A. The Story of Reckoning in the Middle Ages. London: George G. Harrap, 1926. 96 p.

    2. Yong, Lam Lay. The Development of Hindu-Arabic and Traditional Chinese Arithmetic // Chinese Science, vol. 13, 1996. P. 35–54.

    3. Yost, Jeffrey R. A Bibliographic Guide to Resources in Scientific Computing, 1945-1975 (Bibliographies and Indexes in Library and Information Science). Greenwood Press, 2002. 272 p.

    An overview of the changing practices in scientific computing during the first three decades after the advent of the electronic digital computer is followed by a summary of the methodologies used in selecting, structuring, and annotating the sources of the bibliography that follows. The bulk of the volume consists of a selected bibliography, organized into four parts: the physical, cognitive, biological, and medical sciences. In each section are contained resources for bibliographies, dictionaries, and other reference sources; books and reports; articles; serials; manuscript collections; and oral histories.

    An essential contribution to the study of the history of computers, this work identifies the computer's impact on the physical, biological, cognitive, and medical sciences. References fundamental to the understudied area of the history of scientific computing also document the significant role of the sciences in helping to shape the development of computer technology. More broadly, the many resources on scientific computing help demonstrate how the computer was the most significant scientific instrument of the 20th century.



    1. Young J. S., Simon W. L. iCon Steve Jobs: The Greatest Second Act in the History of Business. Wiley, 2005. 368 p.

    2. Zachary G. P. Endless Frontier: Vannevar Bush, Engineer of the American Century. Cambridge, MA: The MIT Press, 1999. 528 p.

    As a young professor at MIT in the 1920s, Vannevar Bush (1890-1974) did seminal work on analog computing and was a cofounder of Raytheon, whose initial success was based on long-lasting radio tubes. But he is best known for his role in Washington during World War II: as President Roosevelt's advisor, he organized the Manhattan Project and oversaw the work of 6,000 civilian scientists designing new weapons. His 1945 report "Science -- The Endless Frontier" spurred the creation of a system of public support for university research that endures to this day.

    Although he helped to give rise to the military-industrial complex, Bush was a skeptical observer of the interplay between science and politics. He warned against the dangers of an arms race and led a failed effort to halt testing of the hydrogen bomb. This balanced and gracefully written biography brings to life an American original and his times.



    1. Zemanek H. Datenverarbeitung vor 100 Jahren. Otto Schäffler (1838-1928), ein zu Unrecht vergessener Pionier der Nachrichten-und Lochkartentechnik // Elektrotechnik und Maschinenbau 90, 11. 1973. S. 543-550.

    2. Zemanek H. Otto Schäffler (1838-1928). Ein vergessener Österreicher / Jahrbuch des Österreichischen Gewerbevereines: Nachrichtentechnik und Datenverarbeitung zur Makartzeit. Wien, 1974. S. 71-89.

    3. Zhmud, Leonid. Pithagoras as a Mathematician // Historia Mathematica, vol. 16, August 1989. P. 249-288.

    4. Zorpette, Glenn. The Edison of Secret Codes // American Heritage of Invention and Technology, vol. 10, Summer 1994. P. 34-43.

    5. Edward H. Hebern (1869-1952) and his pioneering cryptographic machine.

    6. Zuse K. Über den Plankalkül // Elektron. Rechenanl. 1, 1959. S. 68-71.

    7. Zuse. Lelaboratore nasce in Europa. Un secolo di calcolo automatico. A cura di Mario G. Losano. Milano: Etas Libri, 1975. xviii-184 p.

    8. Zuse K. Installation of the German Computer Z4 in Zurich in 1950 // AHC, Vol. 2, № 3, July-September 1980. P. 239-241.

    9. Zuse K. The Computer  My Life. N.-Y.: Springer Verlag, 1993. 243 p.




    жүктеу/скачать 0.62 Mb.

    Достарыңызбен бөлісу:
    • 1   2   3   4   5   6   7   8   9   10   11



    ©dereksiz.org 2024
    әкімшілігінің қараңыз
        Басты бет