Большая библиография 50 Years of Army Computing: From eniac to msrc
Hernelink, Heinrich. The earliest reckoning books existing in the Persian language // Historia Mathematica, vol. 2, August 1975. P. 299-303
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Hernelink, Heinrich. The earliest reckoning books existing in the Persian language // Historia Mathematica, vol. 2, August 1975. P. 299-303.Higgins W. H. C., Holbrook B.D., Emling J. W. Electrical Computers for Fire Control // AHC, Vol. 4, № 3, July-September 1982. P. 218-244. Hill, George Francis. The development of Arabic numerals in Europe exhibited in sixty-four tables. Oxford: Clarendon Press, 1915. 125 p. Hiltzik Michael A. Dealers of Lightning: Xerox Parc and the Dawn of Computer Age. HarperBusiness, 2000. 480 p. Hinsley F. H., Stripp A. Code Breakers: The Inside Story of Bletchley Park. Oxford: Oxford University Press, 2001. 360 p. History of Computing Software Issues. Hashagen U., Keil-Slawik R., Norberg A. L. (eds.). Springer-Verlag, 2002. 350 p. This book is based on the international conference "Mapping the History of Computing: Software Issues", held in April 2000 at the Heinz Nixdorf Museums Forum in Paderborn, Germany. The primary objective of the conference was to review our present understanding of the history of software and to establish an agenda for further research. By exploring our current understanding of software and its history, speakers and commentators investigated the fundamental elements of software. The problems and questions addressed at the conference ranged from purely technical to societal issues. Thus, the articles presented in this book offer a fresh view of this history with new categories and interrelated themes, comparing and contrasting software with artefacts in other disciplines, so as to ascertain in what ways software is similar to and different from other technologies. History of Mathematical Programming: A Collection of Personal Reminiscences. Lenstra, Jan Karel (ed.). Cwi, 1991. 141 p. History of Mathematical Tables, The. From Sumer to Spreadsheets (Ed. by M. Campbell-Kelly and others). Oxford: University Press, 2003. 300 p. History of Programming Languages. N.-Y.: Academic Press, 1981. 758 p. Los Angeles, 1978. History of Programming Languages Conference. History of Programming Languages, Volume 2. Thomas J. Bergin and Richard G. Gibson, Jr., editors. ACM Press and Addison-Wesley Professional, 1996. 864 p. Proceedings of the April 1993 Second ACM SIGPLAN History of Programming Languages Conference, containing presentations on 13 programming languages that have been in use for at least 10 years, including ALGOL, APL, COBOL, JOVIAL, and SNOBOL, as well as a keynote address on language design and discussion sessions. Each chapter includes a transcript of the presentation and the following question and answer session and remarks. Hoddesson L., Daitch V. True Genius: The Life and Science of John Bardeen. National Academies Press, 2002. 352 p. Hodges A. Alan Turing: The Enigma. London: Burnett Books Ltd & Hutchinson Publishing Group, 1983; London: Vintage, 1992; N.-Y.: Walker and Co, 2000. 608 p. Hodges A. Alan Turing / Cambridge Scientific Minds. Cambridge: Cambridge University Press, 2002. P. 253-268. It was deliberately written not as a short chronological biography, but as a more thematic and allusive discussion of Turing's place in Cambridge scientific culture. Hodges A. Electronic Spin: A feature on Alan Turing // PC Pro magazine, issue 105, July 2003. P. **-**. Hodges A. The Military Use of Alan Turing / Conference Mathematics and War 2003.
Об алгебраическом инструменте Лейбница. Hogendijk J. Thabit ibn Kurra and the Pair of Amicable Numbers 17296 and 18416 // Historia Mathematica, vol. 12, August 1985. P. 269-277. Hollerith, Virginia. Biographical sketch of Herman Hollerith // Isis, vol. 62, 1971. P. 69-78. Holmevik J. R. Compiling SIMULA: A Historical Study of Technological Genesis // AHC, Vol. 16, № 4, Winter 1994. P. 25-37. Holst P. A. George A. Philbrick and Polyphemus: The First Electronic Training Simulator // AHC, vol. 4, № 2, 1982. P. 143-156. Holst P. A. Svein Rosseland and the Oslo Analyzer // AHC, vol. 18, № 4, 1996. P. 16-26. Holzmann G. J., Pehrson B. The Early History of Data Networks. Los Alamitos, CA: IEEE Computer Society Press, 1994. 304 p. Hopp, Peter. Otis-King Update // Journal of the Oughtred Society, vol. 4, № 2, October 1995. P. 33-40. Otis King cylindrical slide rules, 1923 to 1970s. Hopp, Peter M. Slide Rules: Their History, Models, and Makers. Astragal Press, 1999. 310 p.
Huskey H. D. Derrick Henry Lehmer // AHC, Vol. 17, № 2, 1995. P. 64-68. Huskey H. D. SWAC Standards Western Automatic Computer: The Pioneer Day Session at NCC July 1978 // AHC, Vol. 19, № 2, April-June 1997. P. 51-61. Huskey, Harry D. Harry D. Huskey: His Story. Book Surge. 149 p. Harry Huskey was born in the Smokey Mountain area of North Carolina and grew up in Idaho. He received his Bachelor's degree at the University of Idaho, his Master's and Doctorate at The Ohio State University. He married Velma Roeth and they had four children; Carolyn, Roxanne, Harry Jr. and Linda. He worked part time on the ENIAC [first general purpose electronic computer], designed and managed the construction of the SWAC and designed the G15 which was manufactured and sold by Bendix. He spent a year working on computers at the National Physical Laboratories in England. After five years at the National Bureau of Standards he joined the faculty of the University of California first at Berkeley and then Santa Cruz. He spent two years in India working on computers with Ford Foundation and USAID support. With UNESCO support he supplied technical support to the Rangoon University in Burma. At age 70 he retired from the University of California. Velma died in 1991 and Harry married Nancy Grindstaff in 1994. They now live in Sun City Hilton Head in South Carolina. Huskey H. D., Thorensen R., Ambrosio B. F., Yowell E. C. The SWAC Design Features and Operating Experience // AHC, Vol. 19, № 2, April-June 1997. P. 46-50. Ibbett R. N. The University of Manchester MU5 Project // AHC, Vol. 21, № 1, January-March 1999. P. 24-33. Ifrah G. The Universal History of Numbers. From Prehistory to the Invention of the Computer (Volume I). Transl. from the French … N.-Y.: John Wiley & Sons, 1999. xxii+633 p. Ifrah G. The Universal History of Computing. 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Hypothesis, that the Soviets deciphered Admiral Dönitz' instructions (sometimes called the JW 55B message) to Scharnhorst (Rear Admiral Bey) on 25 December 1943 and that this indicates that the Soviets could break the Naval Enigma. Kahn, David. Seizing the Enigma: The Race to Break the German U-Boats Codes, 1939-1943. Boston: Houghton Mifflin, 1991. 336 p. Kahn, David. The Codebreakers: The Comprehensive History of Secret Communication from Ancient Times to the Internet. Revised ed. N.-Y.: Scribner. 1996. 1200 p. Kahn D. An Enigma Chronology / Selections from Cryptologia: history, people, and technology. Deavours Cipher A., ed. Norwood, MA: Artech House, Inc, 1998. P. 423-432. Kangsheng, Shen. Mutual-subtraction algorithm and its applications in ancient China // Historia Mathematica, vol. 15, May 1988. P. 135-147. In traditional Chinese mathematics the mutual-subtraction algorithm, which appeared early in the first century A.D., was used to find the greatest common factor and least common multiple of integers; to calculate the common period of fractional periods; and to obtain best approximations of decimals as well as to solve congruences and indeterminate equations of first degree. These various operations have both international and practical significance. The mutual-subtraction algorithm and the Euclidean algorithm are well matched. Zhu Chongzhi's approximation =355/113 was possibly made by the algorithm. Around 1800 the European mathematicians L. Euler, J. L. C. Lagrange, and C. F. Gauss discovered a solution for congruences of first degree which is the same as the corresponding Chinese method using the algorithm, but the latter is about 600 years older. Kaplan R., Kaplan E. The Nothing That Is: A Natural History of Zero. Oxford: Oxford University Press, 2000. 240 p. Karpinski, Louis Charles. The History of Arithmetic. N.-Y.: Russel & Russel, 1965. *** p. Kaufman, Henry N. Some Uses for the Hollerith Machines // Transactions of the Actuarial Society of America, vol. 11, 1909-10. P. 276-295. (Обсуждение статьи. P. 545-549). Kay A. C. The early history of Smalltalk // The 2nd ACM SIGPLAN Conference on History of programming languages, 1993. P. 69-95. Keen, John. Harold “Doc” Keen and the Bletchley Park bombe. Baldwin, 2003. 89 p. Воспоминания сына о создателе английской “Бомбы”. Keet, Ernest E. (“Lee”). A Personal Recollection of Softwares Early Days (1960-1979): Part 1 // AHC, Vol. 26, № 4, October-December 2004. P. 46-61. Keet, Ernest E. (“Lee”). A Personal Recollection of Softwares Early Days (1960-1979): Part 2 // AHC, Vol. 27, № 4, October-December 2005. P. 31-45. Kehrbaum A. The Calculating Devices of Samuel Morland and Rene Grillet // Proceedings of the Cultural History of Mathematics, vol. 6. Inner Mongolia Press, 1996. P. 1-15. Kehrbaum A., Korte B. Calculi: Images of Computing in Olden and Modern Times. Bonn: Special publication of the Academy of Sciences of Nordrhein-Westfalen, 1995. Kemeny J. G., Kurtz T. E. Back to Basic: The History, Corruption, and Future of the Language. Addison-Wesley, 1985. 141 p. Kennedy E. S. Applied Mathematics in the Tenth Century: Abul-Wafa Calculates the Distance Baghdad-Mecca // Historia Mathematica, vol. 11, May 1984. P. 193-206. Ketner, Kenneth Laine and Stewart, Arthur W. The Early History of Computer Design, Charles Sanders Peirce and Marquands Logical Machines // The Princeton University Library Chronicle, vol. XLV, № 3, Spring 1984. P. 187-222. Kidwell P. A. The Webb Adder // Rittenhouse, Vol. 1, № 1, 1986. P. 12-18. Биография Чарльза Г. Уэбба (1835-1905), известного американского журналиста, писателя и изобретателя, а также описание карманного сумматора его конструкции, который стал первым коммерчески успешным счетным прибором в США. Kidwell P. A. Nystroms Calculating Rule // Rittenhouse, Vol. 1, № 4, 1987. P. 102-105. Kidwell P. A. Elizur Wrights Arithmeter. An Early American Spiral Slide Rule // Rittenhouse, Vol. 4, № 13. P. 1-4. Kidwell P. A. American Scientists and Calculating Machines From Novelty to Commonplace // AHC, Vol.12, № 1, 1990. P. 31-40. Kidwell P. A. Adders Made and Used in the United States // Rittenhouse, Vol. 8, № 31, 1993. P. 78-96. В статье характеризуются многочисленные суммирующие устройства, запатентованные и производившиеся в США начиная с середины XIX в. Kidwell P. A. Ideology and Invention: The Calculating Machine of Ramón Verea // Rittenhouse, Vol. 9, № 34, 1994. P. 33-41. Живший в США изобретатель испанского происхождения Рамон Вереа запатентовал в 1878 г. вычислительную машину с прямым умножением. В статье также рассказывается о жизни Вереа, получившего известность как журналист и романист. Kidwell P. A. American Parallel Rules: Invention on the Fringes of Industry // Rittenhouse, Vol. 10, № 39. P. 90-96. На многочисленных примерах показывается постепенное проникновение цифровых (арифмометры, сумматоры) и аналоговых (логарифмические линейки, гармонические анализаторы) вычислительных устройств в практику деятельности научных учреждений США. Статья охватывает период с 1865 г. по 1920 г. Kidwell P. A. Stalking the Elusive Computer Bug // AHC, Vol. 20, № 4, October/December 1998. P. 5-9. Kidwell P. A. Thomas Hill: Minister, Intellectual and Inventor // Rittenhouse, Vol. 12, № 48, 1998. P. 111-119. Биография и работы американского священника, президента Гарвардского университета Томаса Хилла, автора первой двухразрядной суммирующей машины с клавишным вводом (1857 г.). Kidwell P. A. The Adding Machine Fraternity at St. Louis: Creating a Center of Invention, 1880-1920 // AHC, Vol. 22, № 2, April-June 2000. P. 4-21. Анализ деятельности крупнейших американских изобретателей, работавших в Сент-Луисе (Ф. Болдуин, У. Бэрроуз, братья У. и Г. Гопкинсы), компании которых заложили основу рынка суммирующих машин. Kidwell P. A. “Yours for Improvement” The Adding Machines of Chicago, 1884-1930 // AHC, Vol. 23, № 3, July-September 2001. P. 3-21. Подробный анализ деятельности чикагских изобретателей суммирующих машин (Д. Ю. Фельт и др.) и основанных ими компаний в период с 1884 г. по 1930 г. Kidwell P. A., Ceruzzi P. E. Landmarks in Digital Computing: A Smithsonian Pictorial History. Washington, DC: Smithsonian Institution Press, 1994. 152 p. The book began as a response to the many requests we get, at both museums, for information about our collections of computing machinery and especially for photographs. It is not a comprehensive catalog--indeed, no such catalog exists although there are computerized records of both museums' collections in computing. To produce such a catalog would critically depend on a number of assumptions about the criteria for inclusion; i.e., what exactly constitutes a "computing machine." 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Kistermann F. W. Locating the Victim: The Nonrole of Punched Card Technology and Census Work // AHC, vol. 19, № 2, April-June 1997. P. 31-45. Kistermann F. W. Blaise Pascals adding machine, novel findings and conclusions // AHC, vol. 20, № 1, January-March 1998. P. 69-76. Kistermann F. W. When Could Anyone Have Seen Leibnizs Stepped Wheel? // AHC, Vol. 21, № 2, 1999. P. 68-72. жүктеу/скачать 0.62 Mb. Достарыңызбен бөлісу:
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