It Began with Babbage (63 page)

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Thomas J.
Watson, Sr
.
(1874–1956). American corporate executive and “captain of industry.” Led the emergence of IBM as the leader in punched-card data processing machines and its entry into automatic electronic computing.

Warren
Weaver
(1894–1978). American mathematician and scientific administrator. Thinker on communication theory and machine translation of natural languages.

David J.
Wheeler
(1927–2004). British mathematician, computer programmer, and computer designer. Codeveloper of the EDSAC and other Cambridge computers. Inventor of assembly language programming and the closed subroutine concept.

Alfred North
Whitehead
(1861–1947). British logician and philosopher. Coauthor of
Principia Mathematica
, a treatise on the logical foundations of mathematics.

Benjamin Lee
Whorf
(1897–1941). American linguist. Postulator of the thesis that language shapes thought.

Norbert
Wiener
(1894–1964). American mathematician. Inventor of the science of cybernetics.

Maurice V.
Wilkes
(1913–2010). British applied mathematician. Designer of the EDSAC, the world's first fully operational stored program electronic computer and its successor, the EDSAC II. Inventor of microprogramming. Coauthor of the first textbooks on computer programming and electronic computers. Organizer of the first British conference on computing.

Frederic C.
Williams
(1911–1977). British electronics engineer. Codesigner of the Manchester Mark I, the world's second fully operational stored program computer. Co-inventor of the Williams tube, an electrostatic computer memory.

Nicklaus
Wirth
(1934–). Swiss computer scientist. Designer of several Algol-like programming languages.

Charles E.
Wynn-Williams
(1903–1979). British physicist and electronic scientific instrument designer. Inventor of the binary counter used in digital computers.

Konrad
Zuse
(1910–1995). German civil engineer. Designer of the Z series of mechanical and electromechanical computers, and designer of the Plankalkül programming language.

NOTE

  
1
. The contributions attributed to the people listed in this cast of characters pertain only to the historical period ending in 1969. Many of them would continue to make other contributions, not mentioned here, to the evolution of computer science, post-1969.

Bibliography

I

Aho, A. V., Hopcroft, J. E., & Ullman, J. D. (1974).
The design and analysis of computer algorithms
. Reading, MA: Addison-Wesley.

Aiken, H. H. (1937).
Proposed automatic calculating machine
. Unpublished memorandum.

Aiken, H. H., & Hopper, G. M. (1946). The Automatic Sequence Controlled Calculator.
Electrical Engineering, 65
, 384–391, 449–454, 522–528.

Alexander, C. (1964).
Notes on the synthesis of form
. Cambridge, MA: Harvard University Press.

Allen, F. E. (1969). Program optimization. In
Annual review in automatic programming
(Vol. 5). Oxford: Pergamon Press.

Alt, F. L. (1948a). A Bell Telephone Laboratories computing machine—1.
Mathematical Tables for Automatic Computation, 3
, 1–13.

Alt, F. L. (1984b). A Bell Telephone Laboratories computing machine—II.
Mathematical Tables for Automatic Computation, 3
, 69–84.

Amdahl, G. M., Blaauw, G. A., & Brooks, F. P., Jr. (1964). Architecture of the IBM System/360.
IBM Journal of Research & Development, 8
, 87–101.

Anderson, J. A., & Rosenfield, E. (Eds.). (1988).
Neurocomputing
. Cambridge, MA: MIT Press.

Andrade, E. N. da C. (1960).
A brief history of the Royal Society
. London: The Royal Society.

Anon. (1950).
Report of a conference on high speed automatic calculating machines, June 22–25, 1949
. Cambridge, UK: University Mathematical Laboratory.

Anon. [1947] (1985).
Proceedings of a symposium on large-scale calculating machines. The Harvard Computation Laboratory
. Cambridge, MA: MIT Press.

Anon. (1985). David Wheeler, 1985 Computer Pioneer Award [On-line]. Citation. IEEE Computer Society. Available: http://www.computer.org

Anon. (1987).
ACM Turing Award lectures: The first twenty years 1966–1985
. New York: ACM Press.

Anon. (1998). Milestones in machine translation, no. 2: Warren Weaver's memorandum 1949.
Language Today, 6
, 22–23.

Apt, K. R. (2002). Edsger Wybe Dijkstra (1930–2002): A portrait of a genius.
Formal Aspects of Computing, 14
, 92–98.

Arbib, M. A. (1969).
Theories of abstract automata
. Englewood-Cliffs, NJ: Prentice-Hall.

Arbib, M. A., & Hesse, M. B. (1986).
The construction of reality
. Cambridge, UK: Cambridge University Press.

Artz, F. B. (1980).
The mind of the Middle Ages
(3rd ed., Rev.). Chicago, IL: University of Chicago Press.

Ashton, T. S. (1969).
The Industrial Revolution
. London: Oxford University Press.

Atanasoff, J. V. (1940).
Computing machine for the solution of large systems of linear algebraic equations
. Unpublished memorandum.

Atanasoff, J. V. (1984). Advent of electronic digital computing.
Annals of the History of Computing, 6
, 229–282.

Babbage, C. (1837).
On the mathematical power of the calculating engine
. Unpublished manuscript, December 26. Buxton MS7. Museum of the History of Science.

Babbage, C. [1864] (1994).
Passages from the life of a philosopher
. Piscataway, NJ: IEEE Press.

Backus, J. W. (1959). The syntax and semantics of the proposed international algebraic language of the Zurich ACM-GAMM conference. In
Proceedings of the 1st International Conference on Information Processing
(pp. 125–132). London: Butterworth.

Backus, J. W. (1981). The history of Fortran I, II and III. In R. L. Wexelblatt (Ed.),
A history of programming languages
(pp. 25–74). New York: Academic Press.

Backus, J. W. [1977] (1987). Can programs be liberated from the von Neumann style? A functional style and its algebra of programs. In Anon.
ACM Turing Award lectures: The first twenty years 1966–1985
(pp. 63–130). New York: ACM Press.

Backus, J. W., Bauer, F. L., Bottenbruch, H., Katz, C., Perlis, A. J., Rutihauser, H., Samelson, K., & Wegstein, J. H. (1959). Report on the algorithmic language ALGOL.
Numerische Mathematik, 1
, 41–60.

Backus, J. W., Beeber, R. W., Best, S., Goldberg, R., Halbit, L. M., Herrick, H. C., Nelson, R. A., Sayre, D., Sheridan, P. B., Stern, H., Ziller, I., Hughes, R. A., & Nutt, R. (1957). The FORTRAN automatic coding system. In
Proceedings of the Western Joint Computer Conference
(pp. 188–197). Los Angeles, CA.

Backus, J. W., & Herrick, H. (1954). IBM 701 Speedcoding and other automatic programming systems. In
Proceedings of the ONR Symposium on Automatic Programming for Digital Computers
(pp. 106–113). Washington, DC: Office of Naval Research, Department of the Navy.

Bar-Hillel, Y. (1960). The present status of automatic translation of languages. In F. L. Alt (Ed.),
Advances in computers
(Vol. 1, pp. 91–163). New York: Academic Press.

Barnard, C. I. (1938).
The function of the executive
. Cambridge, MA: Harvard University Press.

Barr, A., & Feigenbaum, E. A. (Eds.). (1981).
The handbook of artificial intelligence
(Vol. I). Stanford, CA: Heuristic Press.

Barron, D. W. (1978).
Assemblers and loaders
(3rd ed.). New York: Elsevier North-Holland.

Bartlett, F. C. (1932).
Remembering
. Cambridge, UK: Cambridge University Press.

Basalla, G. (1988).
The evolution of technology
. Cambridge, UK: Cambridge University Press.

Bates, M. [1950] (1990).
The nature of natural history
. Princeton, NJ: Princeton University Press.

Bauer, F. L., & Wössner, H. (1972). The “Plankalkül” of Konrad Zuse: A forerunner of today's programming languages.
Communications of the ACM, 15
, 678–685.

Bell, C. G., & Newell, A. (1971).
Computer structures: Readings and examples
. New York: McGraw-Hill.

Berkeley, E. C. (1949).
Giant brains, or machines that think
. New York: Wiley.

Birman, A. (1974). On proving correctness of microprograms.
IBM Journal of Research & Development, 9
, 250–266.

Boden, M. A. (Ed.). (1990).
Philosophy of artificial intelligence
. Oxford: Oxford University Press.

Boden, M. A. (2006).
Mind as machine: A history of cognitive science
(Vol. 1). Oxford: Clarendon Press.

Bonner, J. T. (1988).
The evolution of complexity by means of natural selection
. Princeton, NJ: Princeton University Press.

Boyer, C. B. (1991).
A history of mathematics
(2nd ed., Rev.). New York: Wiley.

Boys, C. V. (1909). A new analytical machine.
Nature, 81
, 14–15.

Brett, A. (2002). What is intellectual history now? In D. Cannadine (Ed.),
What is history now
(pp. 113–131)? Basingstoke, UK: Palgrave Macmillan.

Bromley, A. G. (1982). Charles Babbage's Analytical Engine, 1838.
Annals of the History of Computing, 4
, 196–217.

Brooker, R. A., MacCallum, I. R., Morris, D., & Rohl, J. S. (1963). The compiler-compiler. In
Annual review in automatic programming
(Vol. 3). Oxford: Pergamon Press.

Brooker, R. A., Morris, D., & Rohl, J. S. (1967). Experience with the compiler-compiler.
Computer Journal, 9
, 345–349.

Brooks, F. P., Jr. (1975).
The mythical man-month: Essays in software engineering
. Reading, MA: Addison-Wesley.

Brooks, F. P., & Iverson, K. E. (1969).
Automatic data processing: System/360 edition
. New York: Wiley.

Bruner, J. (1990).
Acts of meaning
. Cambridge, MA: Harvard University Press.

Burke, P. (2008).
What is cultural history?
Cambridge, UK: Polity.

Burks, A. W. (1947). Electronic computing circuits for the ENIAC.
Proceedings of the Institute of Radio Engineers, 35
, 756–767.

Burks, A. W. (1951).
An intermediate program language as an aid in program synthesis
. Report for Burroughs Adding Machine Company. Ann Arbor, MI: University of Michigan.

Burks, A. W. (Ed.). (1970).
Essays on cellular automata
. Urbana, IL: University of Illinois Press.

Burks, A. W. (1980). From ENIAC to the stored program computer: Two revolutions in computers. In N. Metropolis, J. S. Rowlett, & G.- C. Rota (Eds.),
A history of computing in the twentieth century
(pp. 311–344). New York: Academic Press.

Burks, A. W., & Burks, A. R. (1981). The ENIAC: First general-purpose electronic computer.
Annals of the History of Computing, 3
, 310–399.

Burks, A. W., Goldstine, H. H., & von Neumann, J. (1946).
Preliminary discussion of the logical design of an electronic computing instrument
. Unpublished report.

Bush, V. (1931). The differential analyzer, a new machine for solving differential equations.
Journal of the Franklin Institute, 212
, 447–488.

Butterfield, H. [1931] (1973).
The Whig interpretation of history
. Harmondsworth, UK: Penguin Books.

Buxton, J. N., Naur, P., & Randell, B. (Eds.). (1976).
Software engineering: Concepts and techniques
. New York: Litton.

Campbell, D. T. (1960). Blind variation and selective retention in creative thought as in other knowledge processes.
Psychological Reviews, 60
, 380–400.

Campbell-Kelly, M. (1994). Introduction. In C. Babbage.
Passages from the life of a philosopher
(pp. 7–35). Piscataway, NJ: IEEE Press.

Cannadine, D. (Ed.). (2002).
What is history now?
Basingstoke, UK: Palgrove Macmillan.

Cardwell, D. S. L. (1994).
The Fontana history of technology
. London: Fontana Press.

Carlson, S. (1979). The prize for economic science. In
Les prix Nobel 1978
. Stockholm: The Nobel Foundation.

Carr, E. H. [1961] (1964).
What is history?
Harmondsworth, UK: Penguin Books.

Casti, J. L. (2003).
The one true platonic heaven
. Washington, DC: Joseph Henry Press.

Cesareo, O. (1946). The Relay Interpolator.
Bell Laboratories Records, 23
, 457–460.

Chadwick, W. (2007).
Women, art and society
(4th ed.). London: Thames & Hudson.

Chakravarty, A. (Ed.). (1961).
A Tagore reader
. Boston, MA: Beacon Press.

Charniak, E., & McDermott, D. (1985).
Introduction to artificial intelligence
. Reading, MA: Addison-Wesley.

Chaudhuri, S. (2002).
Translation and understanding
. New Delhi: Oxford University Press.

Cherry, C. (1968).
On human communication
. Cambridge, MA: MIT Press.

Chomsky, N. (1956). Three models for the description of language. In
Proceedings of the Symposium on Information Theory
(pp. 113–124). Cambridge, MA.

Chomsky, N. (1957).
Syntactic structures
. The Hague: Mouton.

Chomsky, N. (1959). On certain formal properties of grammar.
Information & Control, 2
, 136–167.

Church, A. (1936). An unsolvable problem of elementary number theory.
American Journal of Mathematics, 58
, 345–363.

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