User:سائغ/E4

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In 1948, Turing, working with his former undergraduate colleague, D.G. Champernowne, began writing a chess program for a computer that did not yet exist. By 1950, the program was completed and dubbed the Turochamp.[1] In 1952, he tried to implement it on a Ferranti Mark 1, but lacking enough power, the computer was unable to execute the program. Instead, Turing "ran" the program by flipping through the pages of the algorithm and carrying out its instructions on a chessboard, taking about half an hour per move. The game was recorded.[2] According to Garry Kasparov, Turing's program "played a recognizable game of chess."[3] The program lost to Turing's colleague Alick Glennie, although it is said that it won a game against Champernowne's wife, Isabel.[4]

His Turing test was a significant, characteristically provocative, and lasting contribution to the debate regarding artificial intelligence, which continues after more than half a century.[5]

Pattern formation and mathematical biology[edit]

When Turing was 39 years old in 1951, he turned to mathematical biology, finally publishing his masterpiece "The Chemical Basis of Morphogenesis" in January 1952. He was interested in morphogenesis, the development of patterns and shapes in biological organisms. He suggested that a system of chemicals reacting with each other and diffusing across space, termed a reaction–diffusion system, could account for "the main phenomena of morphogenesis".[6] He used systems of partial differential equations to model catalytic chemical reactions. For example, if a catalyst A is required for a certain chemical reaction to take place, and if the reaction produced more of the catalyst A, then we say that the reaction is autocatalytic, and there is positive feedback that can be modelled by nonlinear differential equations. Turing discovered that patterns could be created if the chemical reaction not only produced catalyst A, but also produced an inhibitor B that slowed down the production of A. If A and B then diffused through the container at different rates, then you could have some regions where A dominated and some where B did. To calculate the extent of this, Turing would have needed a powerful computer, but these were not so freely available in 1951, so he had to use linear approximations to solve the equations by hand. These calculations gave the right qualitative results, and produced, for example, a uniform mixture that oddly enough had regularly spaced fixed red spots. The Russian biochemist Boris Belousov had performed experiments with similar results, but could not get his papers published because of the contemporary prejudice that any such thing violated the second law of thermodynamics. Belousov was not aware of Turing's paper in the Philosophical Transactions of the Royal Society.[7]

Although published before the structure and role of DNA was understood, Turing's work on morphogenesis remains relevant today and is considered a seminal piece of work in mathematical biology.[8] One of the early applications of Turing's paper was the work by James Murray explaining spots and stripes on the fur of cats, large and small.[9][10][11] Further research in the area suggests that Turing's work can partially explain the growth of "feathers, hair follicles, the branching pattern of lungs, and even the left-right asymmetry that puts the heart on the left side of the chest."[12] In 2012, Sheth, et al. found that in mice, removal of Hox genes causes an increase in the number of digits without an increase in the overall size of the limb, suggesting that Hox genes control digit formation by tuning the wavelength of a Turing-type mechanism.[13] Later papers were not available until Collected Works of A. M. Turing was published in 1992.[14]

Personal life[edit]

Engagement[edit]

In 1941, Turing proposed marriage to Hut 8 colleague Joan Clarke, a fellow mathematician and cryptanalyst, but their engagement was short-lived. After admitting his homosexuality to his fiancée, who was reportedly "unfazed" by the revelation, Turing decided that he could not go through with the marriage.[15]

Conviction for indecency[edit]

In January 1952, Turing was 39 when he started a relationship with Arnold Murray, a 19-year-old unemployed man. Just before Christmas, Turing was walking along Manchester's Oxford Road when he met Murray just outside the Regal Cinema and invited him to lunch. On 23 January, Turing's house was burgled. Murray told Turing that he and the burglar were acquainted, and Turing reported the crime to the police. During the investigation, he acknowledged a sexual relationship with Murray. Homosexual acts were criminal offences in the United Kingdom at that time,[16] and both men were charged with "gross indecency" under Section 11 of the Criminal Law Amendment Act 1885.[17] Initial committal proceedings for the trial were held on 27 February during which Turing's solicitor "reserved his defence", i.e., did not argue or provide evidence against the allegations.

Turing was later convinced by the advice of his brother and his own solicitor, and he entered a plea of guilty.[18] The case, Regina v. Turing and Murray, was brought to trial on 31 March 1952.[19] Turing was convicted and given a choice between imprisonment and probation. His probation would be conditional on his agreement to undergo hormonal physical changes designed to reduce libido. He accepted the option of injections of what was then called stilboestrol (now known as diethylstilbestrol or DES), a synthetic oestrogen; this feminization of his body was continued for the course of one year. The treatment rendered Turing impotent and caused breast tissue to form,[20] fulfilling in the literal sense Turing's prediction that "no doubt I shall emerge from it all a different man, but quite who I've not found out".[21][22] Murray was given a conditional discharge.[23]

Turing's conviction led to the removal of his security clearance and barred him from continuing with his cryptographic consultancy for the Government Communications Headquarters (GCHQ), the British signals intelligence agency that had evolved from GC&CS in 1946, though he kept his academic job. He was denied entry into the United States after his conviction in 1952, but was free to visit other European countries.[24]

Death[edit]

A blue plaque on the house at 43 Adlington Road, Wilmslow where Turing lived and died[25]

On 8 June 1954, at his house at 43 Adlington Road, Wilmslow,[25] Turing's housekeeper found him dead. He had died the previous day at the age of 41. Cyanide poisoning was established as the cause of death.[26] When his body was discovered, an apple lay half-eaten beside his bed, and although the apple was not tested for cyanide,[27] it was speculated that this was the means by which Turing had consumed a fatal dose. An inquest determined that he had committed suicide. Andrew Hodges and another biographer, David Leavitt, have both speculated that Turing was re-enacting a scene from the Walt Disney film Snow White and the Seven Dwarfs (1937), his favourite fairy tale. Both men noted that (in Leavitt's words) he took "an especially keen pleasure in the scene where the Wicked Queen immerses her apple in the poisonous brew".[28] Turing's remains were cremated at Woking Crematorium on 12 June 1954,[29] and his ashes were scattered in the gardens of the crematorium, just as his father's had been.[30]

  1. ^ Clark, Liat. "Turing's achievements: codebreaking, AI and the birth of computer science". Wired. Archived from the original on 2 November 2013. Retrieved 11 November 2013.
  2. ^ Alan Turing vs Alick Glennie (1952) "Turing Test" Archived 19 February 2006 at the Wayback Machine Chessgames.com
  3. ^ Kasparov, Garry, Smart machines will free us all, The Wall Street Journal, 15–16 April 2017, p. c3
  4. ^ O'Connor, J.J.; Robertson, E.F. "David Gawen Champernowne". MacTutor History of Mathematics archive, School of Mathematics and Statistics, University of St Andrews, Scotland. Archived from the original on 19 October 2017. Retrieved 22 May 2018.
  5. ^ Pinar Saygin, A.; Cicekli, I.; Akman, V. (2000). "Turing Test: 50 Years Later". Minds and Machines. 10 (4): 463–518. doi:10.1023/A:1011288000451. hdl:11693/24987. S2CID 990084.
  6. ^ Turing, Alan M. (14 August 1952). "The Chemical Basis of Morphogenesis". Philosophical Transactions of the Royal Society of London B. 237 (641): 37–72. Bibcode:1952RSPTB.237...37T. doi:10.1098/rstb.1952.0012. S2CID 120437796.
  7. ^ John Gribbin, Deep Simplicity, p. 126, Random House, 2004
  8. ^ "Turing's Last, Lost work". Archived from the original on 23 August 2003. Retrieved 28 November 2011.
  9. ^ James Murray, How the leopard gets its spots, Scientific American, vol 258, number 3, p. 80, March 1988
  10. ^ James Murray, Mathematical Biology I, 2007, Chapter 6, Springer Verlag
  11. ^ John Gibbin, Deep Simplicity, p. 134, Random House, 2004
  12. ^ Vogel, G. (2012). "Turing Pattern Fingered for Digit Formation". Science. 338 (6113): 1406. Bibcode:2012Sci...338.1406V. doi:10.1126/science.338.6113.1406. PMID 23239707.
  13. ^ Sheth, R.; Marcon, L.; Bastida, M.F.; Junco, M.; Quintana, L.; Dahn, R.; Kmita, M.; Sharpe, J.; Ros, M.A. (2012). "Hox Genes Regulate Digit Patterning by Controlling the Wavelength of a Turing-Type Mechanism". Science. 338 (6113): 1476–1480. Bibcode:2012Sci...338.1476S. doi:10.1126/science.1226804. PMC 4486416. PMID 23239739.
  14. ^ Andrew Hodges. "The Alan Turing Bibliography". turing.org.uk. p. morphogenesis. Archived from the original on 5 September 2015. Retrieved 27 July 2015.
  15. ^ Leavitt 2007, pp. 176–178
  16. ^ Hodges 1983, p. 458
  17. ^ Leavitt 2007, p. 268
  18. ^ Hodges, Andrew (2012). Alan Turing: The Enigma. Princeton University Press. p. 463. ISBN 978-0-691-15564-7.
  19. ^ Hodges, Andrew (2012). Alan Turing: The Enigma. Princeton University Press. p. 471. ISBN 978-0-691-15564-7.
  20. ^ Hodges, Andrew (2012). Alan Turing: The Enigma The Centenary Edition. Princeton University.
  21. ^ Turing, Alan (1952). "Letters of Note: Yours in distress, Alan". Archived from the original on 20 January 2013. Retrieved 16 December 2012.
  22. ^ Hodges, Andrew (2012). Alan Turing: The Enigma. Princeton University Press. p. xxviii. ISBN 978-0-691-15564-7.
  23. ^ Hodges 1983, p. 473
  24. ^ Copeland 2006, p. 143
  25. ^ a b Anon (2021). "Turing's House: Copper Folly, 43 Adlington Road, Wilmslow, Cheshire, SK9 2BJ" (PDF). savills.com. Archived from the original (PDF) on 3 July 2021.
  26. ^ "Alan Turing. Biography, Facts, & Education". Encyclopædia Britannica. Archived from the original on 11 October 2017. Retrieved 11 October 2017.
  27. ^ Hodges 1983, p. 488
  28. ^ Leavitt 2007, p. 140 and Hodges 1983, pp. 149, 489
  29. ^ Hodges 1983, p. 529
  30. ^ Hodges, Andrew (2012). Alan Turing: The Enigma. Random House. ISBN 978-1-4481-3781-7. Archived from the original on 17 January 2019. Retrieved 16 January 2019.
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