The following is a timeline of scientific computing, also known as computational science.

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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.
• Shannon explains how to use electric circuits to do Boolean algebra in "A Symbolic Analysis of Relay and Switching Circuits"
• 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.

• 1947 – Metropolis algorithm for Monte Carlo simulation (named one of the top-10 algorithms of the 20th century)^[25] invented at Los Alamos by von Neumann, Ulam and Metropolis.^[26][27][28]
• George Dantzig introduces the simplex method (named one of the top 10 algorithms of the 20th century)^[25] in 1947.^[29]
• Ulam and von Neumann introduce the notion of cellular automata.^[30]
• Turing formulated the LU decomposition method.^[31]
• A. W. H. Phillips invents the MONIAC hydraulic computer at LSE, better known as "Phillips Hydraulic Computer".^[32][33]
• First hydro simulations occurred at Los Alamos.^[34][35]

• First successful weather predictions on a computer occurred.^[36][37]
• 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.^{[38][39][40][41]} Named one of the top 10 algorithms of the 20th century.^[25]
• Equations of State Calculations by Fast Computing Machines introduces the Metropolis–Hastings algorithm.^[42]
• Molecular dynamics invented by Bernie Alder and Wainwright ^[43][44]
• A S Householder invents his eponymous matrices and transformation method (voted one of the top 10 algorithms of the 20th century).^[45]
• 1953 – Enrico Fermi, John Pasta, Stanislaw Ulam, and Mary Tsingou discover the Fermi–Pasta–Ulam–Tsingou problem through computer simulations of a vibrating string.^[46]
• A team led by John Backus develops the FORTRAN compiler and programming language at IBM's research centre in San Jose, California. This sped the adoption of scientific programming,^[47][48][49] and is one of the oldest extant programming languages, as well as one of the most popular in science and engineering.

• 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.^[50]
• 1961 – John G.F. Francis^[51][52] and Vera Kublanovskaya^[53] 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.^[54]
• 1961 – Using computational investigations of the 3-body problem, Michael Minovitch formulates the gravity assist method.^[55][56]
• 1964 – Molecular dynamics invented independently by Aneesur Rahman.^[57]
• 1965 – fast Fourier transform developed by James W. Cooley and John W. Tukey.^[58]
• 1964 – Walter Kohn, with Lu Jeu Sham and Pierre Hohenberg, instigates the development of density functional theory,^[59][60] for which he shares the 1998 Nobel Chemistry Prize with John Pople.^[61] This contribution is arguably the earliest work to which Nobels were given for a computer program or computational technique.
• First regression calculations in economics.

• 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.^[62]
• 1977 – Kenneth Appel and Wolfgang Haken prove the four colour theorem, the first theorem to be proved by computer.^[63][64][65]

• Fast multipole method (voted one of the top 10 algorithms of the 20th century) invented by Vladimir Rokhlin and Leslie Greengard.^[66][67][68]
• Car–Parrinello molecular dynamics developed by Roberto Car and Michele Parrinello

• 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).

• 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.

• Foldit players solve virus structure, one of the first cases of a game solving a scientific question.

• Computational science
• History of computing
• History of mathematics
• Timeline of mathematics
• Timeline of algorithms
• Timeline of computational physics
• Timeline of computational mathematics
• Timeline of numerical analysis after 1945
• History of computing hardware