वैज्ञानिक अभिकलन का कालक्रम
यहाँ वैज्ञानिक परिकलन की कालरेखा दी गयी है।
आधुनिक कम्प्यूतरों के पूर्व
१८वीं शताब्दी
- 1733 - फ्रान्सीसी प्रकृतिविज्ञानी कॉम्त दी बफों (Comte de Buffon) ने अपनी सुई समस्या (Buffon's needle) प्रस्तुत की।[1][2]
- आइलर ने आइलर समाकलन (Euler integration) प्रस्तुत किया जो समाकलन की एक सरल संख्यात्मक विधि था। [3][4][5]
१९वीं शताब्दी
- First formulation of Gram-Schmidt orthogonalisation by Laplace,[6] to be further improved decades later.[7][8][9][10]
- Babbage in 1822, began work on a machine made to compute/calculate values of polynomial functions automatically by using the method of finite differences. This was eventually called the Difference engine.
- Lovelace's note G on the Analytical Engine (1842) describes an algorithm for generating Bernoulli numbers. It is considered the first algorithm ever specifically tailored for implementation on a computer, and thus the first-ever computer programme.[11][12] The engine was never completed, however, so her code was never tested.[13]
- In applied mathematics, Jacobi develops technique for solving numerical equations.[14][15][16]
१९०० का दशक
- 1900 - कार्ल रुंगे (Carl Runge) और मार्टिन कुटा (Martin Kutta) ने रुंगा-कुटा विधि का विकास किया जो अवकल समीकरणों के समाकलन की एक विधि थी।[17][18]
१९१० का दशक
- 1910 - A-M Cholesky creates a matrix decomposition scheme.[19][20]
१९२० का दशक
- 1922 - Lewis Fry Richardson introduces numerical weather forecasting by manual calculation, using methods originally developed by Vilhelm Bjerknes as early as 1895.[21][22]
- 1926 - Grete Hermann publishes foundational paper for computer algebra, which established the existence of algorithms (including complexity bounds) for many of the basic problems of abstract algebra, such as ideal membership for polynomial rings.[23]
- 1927 - Douglas Hartree creates what is later known as the Hartree–Fock method, the first ab initio quantum chemistry methods. However, manual solutions of the Hartree–Fock equations for a medium-sized atom were laborious and small molecules required computational resources far beyond what was available before 1950.
१९३० का दशक
This decade marks the first major strides to a modern computer, and hence the start of the modern era.
- Fermi's Rome physics research group (informal name I ragazzi di Via Panisperna) develop statistical algorithms based on Comte de Buffon's work, that would later become the foundation of the Monte Carlo method. See also FERMIAC.
- John Vincent Atanasoff and Clifford Berry create the first electronic non-programmable, digital computing device, the Atanasoff–Berry Computer, from 1937-42.
- Complex number calculator created by Stibitz.
१९४० का दशक
- 1947 - Monte Carlo simulation (voted one of the top 10 algorithms of the 20th century) invented at Los Alamos by von Neumann, Ulam and Metropolis.[24][25][26]
- George Dantzig introduces the simplex method (voted one of the top 10 algorithms of the 20th century) in 1947.[27]
- Ulam and von Neumann introduce the notion of cellular automata.[28]
- Turing formulated the LU decomposition method.[29]
- Philips creates (invents?) the MONIAC hydraulic computer at LSE, better known as "Philip's Economic Computer".[30][31]
- First hydro simulations occurred at Los Alamos.[32][33]
१९५० का दशक
- First successful weather predictions on a computer occurred.[34][35]
- Hestenes, Stiefel, and Lanczos, all from the Institute for Numerical Analysis at the National Bureau of Standards, initiate the development of Krylov subspace iteration methods.[36][37][38][39] Voted one of the top 10 algorithms of the 20th century.
- Equations of State Calculations by Fast Computing Machines introduces the Metropolis–Hastings algorithm.[40]
- Molecular dynamics invented by Bernie Alder and Wainwright [41][42]
- Householder invents his eponymous matrices and transformation method (voted one of the top 10 algorithms of the 20th century).[43]
- 1940 - Enrico Fermi, John Pasta, Stanislaw Ulam, and Mary Tsingou discover the Fermi–Pasta–Ulam–Tsingou problem through computer simulations of a vibrating string.[44]
- A team led by Backus develops the FORTRAN compiler and programming language at IBM's research centre in San Jose, California. This sped the adoption of scientific programming,[45][46][47] and is one of the oldest extant programming languages, as well as one of the most popular in science and engineering.
१९६० का दशक
- 1960 - First recorded use of the term "finite element method" by Ray Clough to describe the earlier methods of Richard Courant, Alexander Hrennikoff and Olgierd Zienkiewicz in structural analysis.[48]
- 1961 - John G.F. Francis[49][50] and Vera Kublanovskaya[51] invent QR factorization (voted one of the top 10 algorithms of the 20th century).
- 1963 - Edward Lorenz discovers the butterfly effect on a computer, attracting interest in chaos theory.[52]
- 1961 - Using computational investigations of the 3-body problem, Michael Minovitch formulates the gravity assist method.[53][54]
- 1964 - Molecular dynamics invented independently by Aneesur Rahman.[55]
- 1965 - Fast Fourier Transform developed by James W. Cooley and John W. Tukey.[56]
- 1964 - Walter Kohn, with Lu Jeu Sham and Pierre Hohenberg, instigates the development of density functional theory,[57][58] for which he shares the 1998 Nobel Chemistry Prize with John Pople.[59] This contribution is arguably the first Nobel given for a computer program or computational technique.
१९७० का दशक
- 1975 - Benoit Mandelbrot coins the term "fractal" to describe the self-similarity found in the Fatou, Julia and Mandelbrot sets. Fractals become the first mathematical visualization tool extensively explored with computing.[60]
- 1977 - Kenneth Appel and Wolfgang Haken prove the four colour theorem, the first theorem to be proved by computer.[61][62][63]
१९८० का दशक
- Fast multipole method (voted one of the top 10 algorithms of the 20th century) invented by Vladimir Rokhlin and Leslie Greengard.[64][65][66]
१९९० का दशक
- 1990 - In computational genomics and sequence analysis, the Human Genome Project, an endeavour to sequence the entire human genome, begins.
- 1998 - Kepler conjecture is almost all but certainly proved algorithmically by Thomas Hales.
- The appearance of the first research grids using volunteer computing - GIMPS (1996), distributed.net (1997) and Seti@Home (1999).
२००० का दशक
- 2000 - The Human Genome Project completes a rough draft of human genome.
- 2003 - The Human Genome Project completed.
- 2002 - The BOINC architecture is launched in 2002.
२०१० का दशक
- फोल्डित खिलाडियों ने विषाणु की संरचना का हल निकाला। यह खेल द्वारा वैज्ञानिक प्रशन हल करने के प्रथम कुछ मामलों में से एक है।
इन्हें भी देखें
- वैज्ञानिक अभिकलन
- अभिकलन का इतिहास
- गणित का इतिहास
- गणित की कालरेखा
- कलनविधियों की कालरेखा
- अभिकलन हार्डवेयर का इतिहास
सन्दर्भ
- ↑ Buffon, G. Editor's note concerning a lecture given 1733 by Mr. Le Clerc de Buffon to the Royal Academy of Sciences in Paris. Histoire de l'Acad. Roy. des Sci., pp. 43-45, 1733; according to Weisstein, Eric W. "Buffon's Needle Problem." Archived 2011-05-24 at the वेबैक मशीन From MathWorld--A Wolfram Web Resource. 20 Dec 2012 20 Dec 2012.
- ↑ Buffon, G. "Essai d'arithmétique morale." Histoire naturelle, générale er particulière, Supplément 4, 46-123, 1777; according to Weisstein, Eric W. "Buffon's Needle Problem." Archived 2011-05-24 at the वेबैक मशीन From MathWorld--A Wolfram Web Resource. 20 Dec 2012
- ↑ Euler, L. Institutionum calculi integralis. Impensis Academiae Imperialis Scientiarum, 1768.
- ↑ Butcher, John C. (2003), Numerical Methods for Ordinary Differential Equations, New York: John Wiley & Sons, ISBN 978-0-471-96758-3.
- ↑ Hairer, Ernst; Nørsett, Syvert Paul; Wanner, Gerhard (1993), Solving ordinary differential equations I: Nonstiff problems, Berlin, New York: Springer-Verlag, ISBN 978-3-540-56670-0.
- ↑ Laplace, PS. (1816). Théorie Analytique des Probabilités :First Supplement, p. 497ff.
- ↑ Gram, J. P. (1883). "Ueber die Entwickelung reeler Funtionen in Reihen mittelst der Methode der kleinsten Quadrate,". Jrnl. für die reine und angewandte Math. 94: 71–73.
- ↑ Schmidt, E. "Zur Theorie der linearen und nichtlinearen Integralgleichungen. I. Teil: Entwicklung willkürlicher Funktionen nach Systemen vorgeschriebener,". Math. Ann. 63: 1907.
- ↑ Earliest Known Uses of Some of the Words of Mathematics (G). Archived 2018-07-26 at the वेबैक मशीन As of Aug 2017.
- ↑ Farebrother, RW (1988). Linear Least Squares Computations. CRC Press. आई॰ऍस॰बी॰ऍन॰ 9780824776619. अभिगमन तिथि 19 August 2017.
- ↑ Simonite, Tom (24 March 2009). "Short Sharp Science: Celebrating Ada Lovelace: the 'world's first programmer'". New Scientist. मूल से 27 मार्च 2009 को पुरालेखित. अभिगमन तिथि 14 April 2012.
- ↑ Tom Stoppard’s “Arcadia,” at Twenty. Archived 2014-02-19 at the वेबैक मशीन By Brad Leithauser. The New Yorker, August 8, 2013.
- ↑ Kim, Eugene Eric; Toole, Betty Alexandra (May 1999). "Ada and the first computer". Scientific American. 280 (5): 70–71. डीओआइ:10.1038/scientificamerican0599-76.
- ↑ Jacobi’s Ideas on Eigenvalue Computation in a modern context Archived 2006-12-10 at the वेबैक मशीन, Henk van der Vorst.
- ↑ Jacobi method, Archived 2014-11-10 at the वेबैक मशीन Encyclopedia of Mathematics.
- ↑ The Early History of Matrix Iterations: With a Focus on the Italian Contribution Archived 2014-07-07 at the वेबैक मशीन, Michele Benzi, 26 October 2009. SIAM Conference on Applied Linear Algebra, Monterey Bay – Seaside, California.
- ↑ MW Kutta. "Beiträge zur näherungsweisen Integration totaler Differentialgleichungen" [Contributions to the approximate integration of total differential equations] (in German). Thesis, University of Munich.
- 1901 - "Reprinted", Z. Math. Phys., 46: 435–453, 1901 and in B.G Teubner, 1901.
- ↑ Runge, C., "Über die numerische Auflösung von Differentialgleichungen" [About the numerical solution of differential equations](in German), Math. Ann. 46 (1895) 167-178.
- ↑ Commandant Benoit (1924). "Note sur une méthode de résolution des équations normales provenant de l'application de la méthode des moindres carrés à un système d'équations linéaires en nombre inférieur à celui des inconnues (Procédé du Commandant Cholesky)". Bulletin Géodésique 2: 67–77.
- ↑ Cholesky (1910). Sur la résolution numérique des systèmes d'équations linéaires. (manuscript).
- ↑ L F Richardson, Weather Prediction by Numerical Process. Cambridge University Press (1922).
- ↑ Lynch, Peter (March 2008). "The origins of computer weather prediction and climate modeling" (PDF). Journal of Computational Physics. University of Miami. 227 (7): 3431–44. डीओआइ:10.1016/j.jcp.2007.02.034. बिबकोड:2008JCoPh.227.3431L. मूल (PDF) से 2010-07-08 को पुरालेखित. अभिगमन तिथि 2010-12-23.
- ↑ Grete Hermann (1926). "Die Frage der endlich vielen Schritte in der Theorie der Polynomideale". Mathematische Annalen. 95: 736–788. डीओआइ:10.1007/bf01206635. मूल से 9 अक्तूबर 2016 को पुरालेखित. अभिगमन तिथि 21 जुलाई 2018.
- ↑ Metropolis, N. (1987). "The Beginning of the Monte Carlo method" (PDF). Los Alamos Science. No. 15, Page 125. मूल (PDF) से 17 अक्तूबर 2011 को पुरालेखित. अभिगमन तिथि 21 जुलाई 2018.. Accessed 5 may 2012.
- ↑ S. Ulam, R. D. Richtmyer, and J. von Neumann(1947). Statistical methods in neutron diffusion. Los Alamos Scientific Laboratory report LAMS–551.
- ↑ Metropolis, N.; Ulam, S. (1949). "The Monte Carlo method". Journal of the American Statistical Association. 44: 335–341. डीओआइ:10.1080/01621459.1949.10483310.
- ↑ "SIAM News, November 1994". मूल से 16 अप्रैल 2009 को पुरालेखित. अभिगमन तिथि 6 June 2012. Systems Optimization Laboratory, Stanford University Huang Engineering Center (site host/mirror).
- ↑ Von Neumann, J., Theory of Self-Reproduiing Automata, Univ. of Illinois Press, Urbana, 1966.
- ↑ A. M. Turing, Rounding-off errors in matrix processes. Quart. J Mech. Appl. Math. 1 (1948), 287–308 (according to Poole, David (2006), Linear Algebra: A Modern Introduction (2nd ed.), Canada: Thomson Brooks/Cole, ISBN 0-534-99845-3.) .
- ↑ The computer model that once explained the British economy. Archived 2018-08-18 at the वेबैक मशीन Larry Elliott, The Guardian, Thursday 8 May 2008.
- ↑ Phillip's Economic Computer, 1949. Archived 2014-10-03 at the वेबैक मशीन Exhibit at London Science Museum.
- ↑ Richtmyer, R. D. (1948). Proposed Numerical Method for Calculation of Shocks. Los Alamos, NM: Los Alamos Scientific Laboratory LA-671.
- ↑ Von Neumann, J.; Richtmyer, R. D. (1950). "A Method for the Numerical Calculation of Hydrodynamic Shocks". Journal of Applied Physics. 21: 232–237. डीओआइ:10.1063/1.1699639. बिबकोड:1950JAP....21..232V.
- ↑ Charney, J.; Fjørtoft, R.; von Neumann, J. (1950). "Numerical Integration of the Barotropic Vorticity Equation". Tellus. 2 (4): 237–254. डीओआइ:10.1111/j.2153-3490.1950.tb00336.x.
- ↑ See the review article:- Smagorinsky, J (1983). "The Beginnings of Numerical Weather Prediction and General Circulation Modelling: Early Recollections" (PDF). Advances in Geophysics. 25. मूल से 22 अगस्त 2014 को पुरालेखित (PDF). अभिगमन तिथि 6 June 2012.
- ↑ Magnus R. Hestenes and Eduard Stiefel, Methods of Conjugate Gradients for Solving Linear Systems, J. Res. Natl. Bur. Stand. 49, 409-436 (1952).
- ↑ Eduard Stiefel,U¨ ber einige Methoden der Relaxationsrechnung (in German), Z. Angew. Math. Phys. 3, 1-33 (1952).
- ↑ Cornelius Lanczos, Solution of Systems of Linear Equations by Minimized Iterations, J. Res. Natl. Bur. Stand. 49, 33-53 (1952).
- ↑ Cornelius Lanczos, An Iteration Method for the Solution of the Eigenvalue Problem of Linear Differential and Integral Operators, J. Res. Natl. Bur. Stand. 45, 255-282 (1950).
- ↑ Metropolis, N.; Rosenbluth, A.W.; Rosenbluth, M.N.; Teller, A.H.; Teller, E. (1953). "Equations of State Calculations by Fast Computing Machines" (PDF). Journal of Chemical Physics. 21 (6): 1087–1092. डीओआइ:10.1063/1.1699114. बिबकोड:1953JChPh..21.1087M. मूल (PDF) से 5 मार्च 2016 को पुरालेखित. अभिगमन तिथि 21 जुलाई 2018.
- ↑ Alder, B. J.; Wainwright, T. E. (1957). "Phase Transition for a Hard Sphere System". J. Chem. Phys. 27 (5): 1208. डीओआइ:10.1063/1.1743957.
- ↑ Alder, B. J.; Wainwright, T. E. (1962). "Phase Transition in Elastic Disks". Phys. Rev. 127 (2): 359–361. डीओआइ:10.1103/PhysRev.127.359.
- ↑ Householder, A. S. (1958). "Unitary Triangularization of a Nonsymmetric Matrix". Journal of the ACM. 5 (4): 339–342. MR 0111128. डीओआइ:10.1145/320941.320947.
- ↑ Fermi, E. (posthumously); Pasta, J.; Ulam, S. (1955) : Studies of Nonlinear Problems (accessed 25 Sep 2012) Archived 2017-06-18 at the वेबैक मशीन. Los Alamos Laboratory Document LA-1940. Also appeared Archived 2014-08-21 at the वेबैक मशीन in 'Collected Works of Enrico Fermi', E. Segre ed. , University of Chicago Press, Vol.II,978–988,1965. Recovered 21 Dec 2012
- ↑ W.W. McDowell Award citation: "W. Wallace McDowell Award". मूल से 29 सितंबर 2007 को पुरालेखित. अभिगमन तिथि April 15, 2008.
- ↑ National Medal of Science citation: "The President's National Medal of Science: John Backus". National Science Foundation. मूल से 29 सितंबर 2007 को पुरालेखित. अभिगमन तिथि March 21, 2007.
- ↑ "ACM Turing Award Citation: John Backus". Association for Computing Machinery. मूल से February 4, 2007 को पुरालेखित. अभिगमन तिथि March 22, 2007.
- ↑ RW Clough, "The Finite Element Method in Plane Stress Analysis," Proceedings of 2nd ASCE Conference on Electronic Computation, Pittsburgh, PA, Sept. 8, 9, 1960.
- ↑ Francis, J.G.F. (1961). "The QR Transformation, I". The Computer Journal. 4 (3): 265–271. डीओआइ:10.1093/comjnl/4.3.265.
- ↑ Francis, J.G.F. (1962). "The QR Transformation, II". The Computer Journal. 4 (4): 332–345. डीओआइ:10.1093/comjnl/4.4.332.
- ↑ Kublanovskaya, Vera N. (1961). "On some algorithms for the solution of the complete eigenvalue problem". USSR Computational Mathematics and Mathematical Physics. 1 (3): 637–657. डीओआइ:10.1016/0041-5553(63)90168-X. Also published in: Zhurnal Vychislitel'noi Matematiki i Matematicheskoi Fiziki [Journal of Computational Mathematics and Mathematical Physics], 1(4), pages 555–570 (1961).
- ↑ Lorenz, Edward N. (1963). "Deterministic Nonperiodic Flow" (PDF). Journal of the Atmospheric Sciences. 20 (2): 130–141. डीओआइ:10.1175/1520-0469(1963)020<0130:dnf>2.0.co;2. मूल से 21 अगस्त 2014 को पुरालेखित (PDF). अभिगमन तिथि 21 जुलाई 2018.
- ↑ Minovitch, Michael: "A method for determining interplanetary free-fall reconnaissance trajectories," Jet Propulsion Laboratory Technical Memo TM-312-130, pages 38-44 (23 August 1961).
- ↑ Christopher Riley and Dallas Campbell, Oct 22, 2012. "The maths that made Voyager possible" Archived 2017-02-20 at the वेबैक मशीन. BBC News Science and Environment. Recovered 16 Jun 2013.
- ↑ Rahman, A (1964). "Correlations in the Motion of Atoms in Liquid Argon". Phys Rev. 136 (2A): A405–A41. डीओआइ:10.1103/PhysRev.136.A405. बिबकोड:1964PhRv..136..405R.
- ↑ Cooley, James W.; Tukey, John W. (1965). "An algorithm for the machine calculation of complex Fourier series" (PDF). Math. Comput. 19: 297–301. डीओआइ:10.1090/s0025-5718-1965-0178586-1.[मृत कड़ियाँ]
- ↑ Kohn, Walter; Hohenberg, Pierre (1964). "Inhomogeneous Electron Gas". Physical Review. 136 (3B): B864–B871. डीओआइ:10.1103/PhysRev.136.B864. बिबकोड:1964PhRv..136..864H.
- ↑ Kohn, Walter; Sham, Lu Jeu (1965). "Self-Consistent Equations Including Exchange and Correlation Effects". Physical Review. 140 (4A): A1133–A1138. डीओआइ:10.1103/PhysRev.136.B864. बिबकोड:1965PhRv..140.1133K.
- ↑ "The Nobel Prize in Chemistry 1998". Nobelprize.org. मूल से 22 जून 2013 को पुरालेखित. अभिगमन तिथि 2008-10-06.
- ↑ B. Mandelbrot; Les objets fractals, forme, hasard et dimension (in French). Publisher: Flammarion (1975), ISBN 9782082106474 ; English translation Fractals: Form, Chance and Dimension. Publisher: Freeman, W. H & Company. (1977). ISBN 9780716704737.
- ↑ Appel, Kenneth; Haken, Wolfgang (1977). "Every planar map is four colorable, Part I: Discharging". Illinois Journal of Mathematics. 21: 429–490.
- ↑ Appel, K.; Haken, W. (1977). "Every Planar Map is Four-Colorable, II: Reducibility". Illinois J. Math. 21: 491–567.
- ↑ Appel, K.; Haken, W. (1977). "The Solution of the Four-Color Map Problem". Sci. Am. 237: 108–121. डीओआइ:10.1038/scientificamerican1077-108.
- ↑ L. Greengard, The Rapid Evaluation of Potential Fields in Particle Systems, MIT, Cambridge, (1987).
- ↑ Rokhlin, Vladimir (1985). "Rapid Solution of Integral Equations of Classic Potential Theory." J. Computational Physics Vol. 60, pp. 187-207.
- ↑ Greengard, L.; Rokhlin, V. (1987). "A fast algorithm for particle simulations". J. Comput. Phys. 73 (2): 325–348. डीओआइ:10.1016/0021-9991(87)90140-9.
बाहरी कड़ियाँ
- SIAM (Society for Industrial and Applied Mathematics) News. Top 10 Algorithms of the 20th Century.
- The History of Numerical Analysis and Scientific Computing @ SIAM (Society for Industrial and Applied Mathematics)
- Ruttimann, Jacqueline (2006). "2020 computing: Milestones in scientific computing". Nature. 440: 399–405. PMID 16554772. डीओआइ:10.1038/440399a. मूल से 3 मई 2017 को पुरालेखित. अभिगमन तिथि 21 जुलाई 2018.
- Anderson, H. L. (1986). "Scientific Uses of the MANIAC". Journal of Statistical Physics. 43 (5–6): 731–748. डीओआइ:10.1007/BF02628301. बिबकोड:1986JSP....43..731A.