https://history.computer.org/pubs/timeline.pdf

To commemorate the 50th year of modern computing and the Computer Society, the timeline on the following pages traces the evolution of computing and computer technology.

Timeline research by Bob Carlson, Angela Burgess, and Christine Miller. Timeline design and production by Larry Bauer.

We thank our reviewers: Ted Biggerstaff, George Cybenko, Martin Campbell-Kelly, Alan Davis, Dan O'Leary, Edward Parrish, and Michael Williams.

In 2012 the timeline was augmented through 2010 by the Society's History Committee. Janice Hall did the update graphics.

Timeline of Computing History

4000-1200 ?.?. Inhabitants of the first known civilization in Sumer keep records of commercial transactions on clay tablets.

3000 B.C. The abacus is invented in Babylonia.

250-230 B.C. The Sieve of Eratosthenes is used to determine prime numbers.

About 79 A.D. The "Antikythera Device," when set correctly according to latitude and day of the week, gives alternating 29- and 30-day lunar months.

About 1300 The more familiar wire-and-bead abacus replaces the Chinese calculating rods.

4000 ?.?. - 1300

1612-1614  John Napier uses the printed decimal point, devises logarithms, and uses numbered sticks, or Napiers Bones, for calculating.

1622  William Oughtred invents the circular slide rule on the basis of Napier’s logarithms. 1623  William (Wilhelm) Schickard designs a “calculating clock” with a gear-driven carry mechanism to aid in multiplication of multi-digit numbers.

1642-1643  Blaise Pascal creates a gear-driven adding machine called the “Pascalene,” the first mechanical adding machine.

1666  In England, Samuel Morland produces a mechanical calculator that can add and subtract.

1600s


1674  Gottfried Leibniz builds the “Stepped Reckoner,” a calculator using a stepped cylindrical gear.

1774  Philipp-Matthaus Hahn builds and sells a small number of calculating machines precise to 12 digits. 

1777  The third Earl of Stanhope invents a multiplying calculator. 

1786  J.H. Mueller envisions a “difference engine” but cannot get the funds to build it.

1801  A linked sequence of punched cards controls the weaving of patterns in Joseph-Marie Jacquard’s loom. 

1674 - 1801


1811  Luddites destroy machinery that threatens to eliminate jobs.

1820  The Thomas Arithmometer, based on Leibniz’ steppeddrum principle, is demonstrated to the French Academy of Science. It becomes the first mass-produced calculator and sells for many years.

1822  Charles Babbage begins to design and build the Difference Engine.

1811 - 1822


1829  William Austin Burt patents an awkward but workable typewriter, the first writing machine in America.

1832  Babbage and Joseph Clement produce a portion of the Difference Engine.

1834-35  Babbage shifts his focus to designing the Analytical Engine.

1838  In January Samuel Morse and Alfred Vail demonstrate elements of the telegraph system.

1829 - 1838


1842-1843  Augusta Ada, Countess of Lovelace, translates Luigi Menabrea’s pamphlet on the Analytical Engine, adding her own commentary.

1844  Samuel Morse sends a telegraph message from Washington to Baltimore.

1847-1849  Babbage completes 21 drawings for the second version of the Difference Engine  but does not complete construction.

1854  George Boole publishes “An Investigation of the Laws of Thought,” describing a system for symbolic and logical reasoning that will become the basis for computer design.

1842 - 1854


1858  A telegraph cable spans the Atlantic Ocean for the first time and provides service for a few days.

1861  A transcontinental telegraph line connects the Atlantic and Pacific coasts.

1876  Alexander Graham Bell invents and patents the telephone. 

1876-1878  Baron Kelvin builds a harmonic analyzer and tide predictor.

1882  William S. Burroughs leaves his bank clerk’s job determined to invent an adding machine. 

1858 - 1882


1889  Herman Hollerith’s Electric Tabulating System outperforms the competition and in the fall is selected for use in the 1890 census. 

1893  The first four-function calculator is invented.

1895  Guglielmo Marconi transmits a radio signal. 1893  The first four-function calculator is invented. 

1896  Hollerith establishes the Tabulating Machine Company. 

1901  The keypunch appears and changes very little over the next half century. 

1889 - 1901


1904  John A. Fleming patents the diode vacuum tube, setting the stage for better radio communication.

1906  Lee de Forest adds a third valve to control current flow to Fleming’s diode to create the three-electrode vacuum tube.

1907  Gramophone music constitutes the first regular radio broadcasts from New York.

1908  British scientist Campbell Swinton describes an electronic scanning method and foreshadows use of the cathode-ray tube for television.

1911  Hollerith’s Tabulating Machines Co. and two other companies combine to form C-T-R— Calculating, Tabulating, and Recording Co.

1911  Dutch physicist Kamerlingh Onnes at Leiden University discovers superconductivity.

1904 - 1911


1927  Herbert Hoover’s face is seen on screen during the first demonstration of television in the US. Accompanying voice transmission uses telephone wires.

1928  The quartz crystal clock makes possible unprecedented time-keeping accuracy. 

1929  Color television signals are successfully transmitted.

1930  The Differential Analyzer, devised by Vannevar Bush and colleagues at MIT, solves various differential equations.

1931  Reynold B. Johnson, a high school teacher in Michigan, devises a way to score multiple-choice tests by sensing conductive pencil marks on answer sheets. IBM later buys the technology.

1934  In Germany, Konrad Zuse seeks to build a better calculating machine than those currently available.

1927 - 1934


1935  IBM introduces not only the 601 multiplying punch-card machine but also an electric typewriter.

1936  Konrad Zuse realizes that programs composed of bit combinations can be stored, and he files a patent application in Germany for the automatic execution of calculations, including a “combination memory.”

1937  Howard Aiken submits to IBM a proposal for a digital calculating machine capable of performing the four fundamental operations of arithmetic and operating in a predetermined sequence.

1937  Claude Shannon publishes the principles for an electric adder to the base two. 

1937  George Stibitz develops a binary circuit based on Boolean algebra.

1935 - 1937


1937  John Vincent Atanasoff spends the winter devising the principles for an electronic-digital computer.

1937  Alan Turing’s paper “On Computable Numbers” presents the concept of the Turing machine

1938  William Hewlett and David Packard form Hewlett-Packard in a garage in Palo Alto, California.

1938  Zuse completes the Z1 electromechanical binary computer and refines the design with the Z2.

1939  Working from October through November, John Vincent Atanasoff, with help from graduate student Clifford E. Berry, builds a prototype electronic-digital computer that uses binary arithmetic.

1937 - 1939

1940  Konrad Zuse completes the Z2, which uses telephone relays instead of mechanical logical circuits.

1941  Zuse completes the Z3, the first fully functional program-controlled electromechanical digital computer.

1943  On May 31, 1943, construction begins on the ENIAC at the Moore School of Electrical Engineering in Philadelphia.

1943  OIn December, Colossus, a British vacuum tube computer, becomes operational at Bletchley Park through the combined efforts of Alan Turing, Tommy Flowers, and M.H.A. Newman. It is considered the first all-electronic calculating device.

1944  The Harvard Mark I (a.k.a. IBM Automatic Sequence Controlled Calculator [ASCC]), produced by Howard Aiken, is dedicated at Harvard University on August 7, 1944.

1940 - 1944

1945  J. Presper Eckert and John Mauchly sign a contract to build the EDVAC (Electronic Discrete Variable Automatic Computer).

1945  By spring of the year, ENIAC is up and running.

1945  John von Neumann introduces the concept of a stored program in a June 30 draft report on the EDVAC design.

1945  Zuse’s Z4 survives World War II and helps launch postwar development of scientific computers in Germany.

1945  Working on a prototype of the Mark II, in the summer Grace Murray Hopper finds the first computer “bug,” a moth that had caused a relay failure.

1945  In July, Vannevar Bush’s As We May Think is published in the Atlantic Monthly.

1945


1946  ENIAC, designed by J. Presper Eckert and John Mauchly, is unveiled at the University of Pennsylvania on February 14.

1946  Arthur Burks, Herman Goldstine, and John von Neumann write “Preliminary Discussion of the Logical Design of an Electronic Computing Instrument.”

1946  The American Institute of Electrical Engineers establishes a Subcommittee on Large-Scale Calculating Devices—the origin of today’s IEEE Computer Society. 

1946  Alan Turing publishes a report on his design for ACE (Automatic Computing Engine), featuring random extraction of information.

1946


1947  In July, Howard Aiken and his team complete the Harvard Mark II.

1947-1948  The magnetic drum memory is introduced as a data storage device for computers.

1947  On December 23, Bell Labs management is informed by John Bardeen and Walter Brattain that along with William Shockley they have developed the first transistor.

1947 - 1948

1948  Claude Shannon publishes “A Mathematical Theory of Communication,” formulating the modern understanding of the communication process.

1948  On June 21, the Manchester Mark I, or “baby” machine, becomes the first operational stored-program digital computer. It used vacuum tube, or valve, circuits.

1948  Richard Hamming devises a way to find and correct errors in blocks of data. The Hamming code is subsequently used in computer and telephone switching systems.

1948

1948  The SSEC (Selective Sequence Electronic Calculator), using both electronics and relays, is dedicated on January 24.

1949  The Whirlwind computer, constructed under the leadership of Jay Forrester at MIT to be the first real-time computer, is placed in service during the third quarter. It contained 5,000 vacuum tubes.

1949  EDSAC (Electronic Delayed Storage Automatic Computer), a stored-program computer built by Maurice Wilkes at Cambridge University, England, performs its first calculation on May 6.

1949  Short Order Code, developed by John Mauchly, is thought to be the first  high-level programming language.

1950  The Pilot ACE is completed at England’s National Physical Laboratory and runs its first program on May 10.

1948 - 1950


1950  Remington Rand buys the Eckert-Mauchly Computer Corporation.

1950  The Standards Western Automatic Computer (SWAC), built under Harry Huskey’s leadership, is dedicated at UCLA on August 17.

1950  Alan Turing publishes an article in the journal Mind establishing the criteria for the Turing Test of machine intelligence.

1951  The first Univac I is delivered to the US Census Bureau in March.

1951  Jay Forrester files a patent application for the matrix core memory on May 11.

1950 - 1951


1951  William Shockley invents the junction transistor.

1951  David Wheeler, Maurice Wilkes, and Stanley Gill introduce sub-programs and the “Wheeler jump” as a means to implement them.

1951  Betty Holberton creates a sort-merge generator, a predecessor of the compiler.

1951  Maurice Wilkes originates the concept of microprogramming, a technique providing an orderly approach to designing a computer system’s control section.

1951-1952  Grace Murray Hopper develops A-0, the first compiler.

1951 - 1952


1952  The EDVAC runs its first production program on January 28.

1952  Illiac I is built at the University of Illinois, UrbanaChampaign; Ordvac is built by the US Army. Both use von Neumann architecture.

1952  John von Neumann’s IAS bit-parallel machine is completed in June for the Institute of Advanced Studies at Princeton, New Jersey.

1952

1952  Thomas Watson Jr. becomes president of IBM. 

1952  The Institute of Radio Engineers initiates the Transactions of the I.R.E. Electronics Group on Electronic Computers, a predecessor to the IEEE Transactions on Computers.

1952  On television, a Univac I predicts the outcome of the presidential election and expands the public consciousness regarding computers.

1952  The IBM 701—the Defense Calculator—is introduced in December.

1952

1953  After several years of development, LEO, a commercial version of EDSAC built by the Lyons Company in the UK, goes into service.

1953  The IBM 650, known as the Magnetic Drum Calculator, debuts and becomes the first massproduced computer. 

1953  Kenneth Olsen uses Jay For- rester’s ferrite-core memory to build the Memory Test computer.

1954  Earl Masterson’s Uniprinter, or line printer, developed for computers, executes 600 lines per minute.

1954  Texas Instruments introduces the silicon transistor, pointing the way to lower manufacturing costs.

1953 - 1954


1954  The Univac 1103A becomes the first commercial machine with a  ferrite-core memory.

1956-1957  IBM introduces and begins installing the RAMAC (random-access method of accounting and control) for hard disk data storage.

1956  John McCarthy and Marvin Minsky chair a meeting at Dartmouth College at which the concept of artificial intelligence is developed.

1956  Fuji Photo Film Co. in Japan develops a 1,700vacuum-tube computer for lens design calculations.

1956  A Univac with transistors and designed for commercial use is introduced. 

1957  John Backus and colleagues at IBM deliver the first Fortran (formula translator) compiler to Westinghouse.

1954 - 1957

1957  The Atlas Guidance Computer from Burroughs, one of the first computers using transistors, helps control the launch of the Atlas missile.

1957-1958  Gordon Moore, Robert Noyce, and others found Fairchild Semiconductor.

1957  Japan’s Electrotechnical Laboratory develops a transistor computer, the ETL Mark III, that uses 130 transistors and 1,700 diodes.

1957  John McCarthy forms MIT’s Artificial Intelligence Department.

1957  Control Data is incorporated on July 8.

1957  Russia launches Sputnik I into orbit on October 4, and the “space race” begins.

1957  Nippon Telegraph and Telephone Corp. develops the Musasino-1, the first parametron computer. It uses 519 vacuum tubes and 5,400 parametrons—logic elements based on the principle of parametric excitation and invented by Eiji Goto in 1954.

1957

1958  Digital Equipment Corp. is founded.

1958  At Texas Instruments, Jack Kilby develops a prototype semiconductor IC while Robert Noyce works separately on ICs at Fairchild Semiconductor.

1958  The Whirlwind project is extended to produce an air traffic control system.

1958  Bell’s development of the modem data phone enables telephone lines to transmit binary data.

1958


1959  The Committee on Data Systems Languages (Codasyl) is formed  to create Cobol (Common Business Oriented Language).

1959  John McCarthy develops Lisp (list processing) for artificial intelligence applications. 

1959  In June, Japan’s first commercial transistor computer, NEC Corp.’s NEAC 2201, is demonstrated at an exhibition in Paris. 

1959  Xerox introduces the first commercial copy machine.

1959

1959  Jack Kilby at Texas Instruments designs a flip-flop IC.

1959  On July 30, Robert Noyce and Gordon Moore file a patent application for integrated circuit technology on behalf of the Fairchild Semiconductor Corp. 

1959  UNESCO sponsors the first major international computer conference. 

1959  General Electric produces the GE ERMA to process checks in a banking application via magnetic ink character recognition.

1959


1960  Working at Rand Corp., Paul Baran develops the packet-switching principle for data communications. 

1960  Standards for Algol 60 are established jointly by American and European computer scientists.

1960  The Livermore Advance Research Computer (LARC) by Remington Rand is designed for scientific work and uses 60,000 transistors.

1960  At Cornell University, Frank Rosenblatt builds a computer—the Perceptron—that can learn by trial and error through a neural network.

1960  In November, DEC introduces the PDP-1, the first commercial computer with a monitor and keyboard input.

1960


1961  Georg C. Devol patents a robotic device, which Unimation soon markets as the first industrial robot. It is first used to automate the manufacture of TV picture tubes. 

1961  IBM’s 7030, or Stretch, computer is completed and runs about 30 times faster than the 704, leading to further exploration of supercomputing. 

1961  Fernando Corbató at MIT develops a way for multiple users to share computer time.

1961


1962  Max V. Mathews leads a Bell Labs team in developing software that can design, store, and edit synthesized music.

1962  Stanford and Purdue Universities establish the first departments of computer science.

1962  H. Ross Perot founds Electronic Data Systems, which will become the world’s largest computer service bureau.

1962  The first video game is invented by MIT graduate student Steve Russell. It is soon played in computer labs all over the US.

1962  The Telstar communications satellite is launched on July 10 and relays the first transatlantic television pictures.

1962  Atlas, considered the world’s most powerful computer, is inaugurated in England on December 7. Its advances include virtual memory and pipelined operations. 

1963  On the basis of an idea of Alan Turing’s, Joseph Weizenbaum at MIT develops a “mechanical psychiatrist” called Eliza that appears to possess intelligence.

1962 - 1963


1963  In January, Ivan Sutherland introduces Sketchpad, leading to the consolidation of computer graphics.

1963  The American National Standards Institute accepts ASCII 7-bit code for information exchange.

1963  The Institute of Radio Engineers and the American Institute of Electrical Engineers merge to form the IEEE.

1963  The SAGE system for military defense is fully deployed at a total project cost of about $8 billion. Many of its technological advances prove beneficial to the entire computer industry.

1963  At the University of California, Berkeley, Lotfi Zadeh begins work on fuzzy logic.

1963


1964  IBM announces the System/360 “third-generation” line of computers.

1964  Basic (Beginner’s All-Purpose Symbolic Instruction Code) is developed at Dartmouth by John Kemeny and Thomas Kurtz. It spawns many variations.

1964  IBM’s seven-year-long Sabre project, allowing travel agents anywhere to make airline reservations, is fully implemented.

1964


1964  With a speed of 9 megaflops, Control Data Corp.’s CDC 6600, designed by Seymour Cray, claims the title of first commercially successful supercomputer.

1964  IBM develops a computeraided design system. 

1964  Doug Engelbart invents the mouse.

1964


1965  DEC debuts the first minicomputer, the PDP-8, which used transistor circuitry modules. 

1965  Project MAC, a large collaborative time-sharing project, leads to the Multics operating system.

1965  J.A. Robinson develops unification, the underpinning of logic programming and important to many of today’s programming technologies. 

1965  Maurice Wilkes proposes the use of a cache memory on the basis of an idea by Gordon Scarott. 

1965  At the University of Belgrade, Rajko Tomovic makes one of the earliest attempts to develop an artificial limb with a sense of touch. 

1965


1967  Ole-Johan Dahl and Kristen Nygaard at the Norwegian Computing Centre complete a general-purpose version of the language Simula, the first object-oriented language. 

1967  At Texas Instruments, Jack Kilby, Jerry Merryman, and James Van Tassel invent a four-function handheld calculator. 

1967  Donald Knuth writes about algorithms and data structures as entities separate from the programs they are used in. 

1968  A conference sponsored by the NATO Science Committee addresses the “software crisis” and introduces the term “software engineering.” 

1968  Edsger Dijkstra writes about the harmful effects of the goto statement, and interest in structured programming burgeons. 

1967 - 1968


1968  The first computers to incorporate integrated circuits—the B2500 and B3500—are introduced by Burroughs. 

1968  A Federal Information Processing Standard encourages use of the six-digit data format (YYMMDD) for information interchange, sowing the seeds of the “Year 2000 Crisis."

1968  Robert Noyce, Andy Grove, and Gordon Moore establish Intel, which is incorporated on July 18. 

1968  The Seymour Cray-designed CDC 7600 supercomputer achieves 40-megaflops performance. 

1968  The Rand Corp. presents a decentralized communications network concept to ARPA. 

1969


1969  The US Department of Defense commissions Arpanet for research networking, and the first four nodes become operational at UCLA, UC Santa Barbara, SRI, and the University of Utah using BBN-developed packet switches.

1969  The RS-232-C standard is introduced to facilitate data exchange between computers and peripherals.

1970  Winston Royce publishes “Managing the Development of Large Software Systems,” which outlines the waterfall development method.

1970  Shakey, developed at SRI International, is the first robot to use artificial intelligence to navigate.

1969 - 1970

1970  Unix is developed at Bell Labs by Dennis Ritchie and Kenneth Thomson.

1970  The Computer Group News becomes Computer, a monthly magazine for all Computer Society members. 

1970  RCA’s MOS (metal-oxide semiconductor) technology promises cheaper and smaller ICs. 

1970  Xerox establishes the Palo Alto Research Center at Stanford University for computer research.

1970  E.F. Codd describes the relational model. 

1970  The floppy disk and the daisywheel printer make their debut.

1970

1971  The team of Ted Hoff, S. Mazor, and F. Faggin develops the Intel 4004 microprocessor—a “computer on a chip.”

1972  Intel’s 8008, the first 8-bit microprocessor, appears but is soon replaced by the 8080. 

1972  Nolan Bushnell’s Pong video game is so successful that he founds Atari. 

1972  Dennis Ritchie develops C at Bell Labs, so named because its predecessor was named B. 

1972  Smalltalk is developed by Xerox PARC’s Learning Research Group, based largely on the ideas of Alan Kay.

1972



1972  Alain Colmerauer at the University of Marseille develops Prolog, which popularizes key logic programming concepts.

1972  Analytic complexity theory develops the idea of NP-completeness, showing that a large class of computing problems, such as the “traveling salesman problem,” may be computationally intractable.

1972  Wang, VYDEC, and Lexitron all introduce word processing systems. 

1972  In Wimbledon, England, an experimental computerized axial tomography imager finds a brain tumor in a patient.

1972  DEC’s PDP 11/45 is introduced, its circuitry encased in chips.

1972


1972  Steve Wozniak builds a “blue box” tone generator to make free phone calls and sells them in the dorm at UC Berkeley.

1973  Work begins on the Transmission Control Protocol at a Stanford University laboratory headed by Vinton Cerf.

1973  Alan Kay develops a forerunner of the PC. His “office computer,” based on Smalltalk, employs icons, graphics, and a mouse.

1973  Researchers at Xerox PARC develop an experimental PC called Alto that uses a mouse, Ethernet, and a graphical user interface.

1972 - 1973


1973  Through a technique called large- scale integration, 10,000 components are placed on a 1-sq-cm chip.

1973  John Vincent Atanasoff is recognized as the creator of the modern computer when a federal judge invalidates Eckert and Mauchly’s ENIAC patent. 1973  Robert Metcalfe writes a memo on “

1973  Robert Metcalfe writes a memo on “Ether Acquisition,” which describes the Ethernet as a modified Alohanet.

1974  An article in Radio Electronics describes how to build a “personal minicomputer,” the Mark-8.

1974  At Xexoc PARC, Charles Simonyi writes the first WYSIWYG application, Bravo.

1974  A 4-Kbit D-RAM chip becomes commercially available.

1974  In Stockholm, chess-playing computers engage in their first tournament.

1973 - 1974


1975  The first PC, an Altair 8800, available as a kit, appears on the cover of Popular Electronics in January.

1975  Michael Jackson describes a method to treat a program’s structure as a reflection of a problem’s structure, a precursor to the Jackson System Development method.

1975  John Cocke works on the 801 project at IBM to develop a minicomputer with the yet-unnamed RISC architecture.

1975  IBM introduces the laser printer.

1975  Frederick Brooks writes The Mythical Man-Month, which describes software development as “the mortal struggle of great beasts in the tar pits” and advises that adding more people to a late project only makes it later.

1975


1976  The Cray-1 from Cray Research is the first supercomputer with a vectorial architecture.

1976  Gary Kildall develops the CP/M operating system for 8-bit PCs.

1976  OnTyme, the first commercial e-mail service, finds a limited market because the installed base of potential users is too small. 

1976  IBM develops the ink-jet printer. 

1976  Steve Jobs and Steve Wozniak design and build the Apple I , which consists mostly of a circuit board.

1976


1977  Steve Jobs and Steve Wozniak incorporate Apple Computer on January 3.

1977  The Apple II is announced in the spring and establishes the benchmark for personal computers.

1977  Several companies begin experimenting with fiber-optic cable.

1977  Bill Gates and Paul Allen found Microsoft, setting up shop first in Albuquerque, New Mexico.

1977


1977  PCs from Tandy and Commodore come with built-in monitors and thus require no television hookup.   

1978  DEC introduces the VAX 11/780, a 32-bit computer that becomes popular for technical and scientific applications.

1977 - 1978



1978  Wordstar is introduced and goes on to become a widely used word processor with CP/M systems and later on DOS computers.

1978  Tom DeMarco’s Structured Analysis and System Specification popularizes structured analysis.

1978  Ron Rivest, Adi Shamir, and Leonard Adelman propose the RSA cipher as a public-key cryptosystem for enciphering digital transmissions. 1978  Intel’s first 16-bit processor, the 8086, debuts.

1979  Benoit Mandelbrot continues his research into fractals by generating a Mandelbrot set, derived from z(n + 1) = z(n) * z(n) - (0).

1978 - 1979


1979  The first electronic spreadsheet program, Don Bricklin’s and Bob Franston’s VisiCalc, is unveiled on May 11 and proves to be the “killer app” for early PCs.

1979  Motorola introduces the 68000 chip, which will later support the Macintosh. 

1979  Digital videodisks appear through the efforts of Sony and Philips.

1979  Cellular telephones are tested in Japan and Chicago.

1979


1980  IBM selects PC-DOS from upstart Microsoft as the operating system for its new PC.

1980  After a long development period, the Ada language emerges. Developed by the US Department of Defense, it is designed for process control and embedded applications. 

1980  Wayne Ratliff develops dBase II, the first version of a PC database program. It goes on to enjoy wide market success.

1981  The open-architecture IBM PC is launched in August, signaling to corporate America that desktop computing is going mainstream.

1980 - 1981


1982  Columbia Data Products produces the first IBM PC “clone.” Compaq soon follows with its own version. 

1982  John Warnock develops the PostScript page-description language and with Charles Geschke founds Adobe Systems. 

1982  Autodesk is founded and ships the first version of AutoCAD later that year.

1983  By including graphics such as pie charts and bar graphs, Lotus 1-2-3 does for the IBM PC what VisiCalc did for the Apple II.

1983  A Josephson junction is developed on the basis of Brian Josephson’s 1962 prediction, bringing higher speed and lower power dissipation to ICs. 

1983  The IBM PC-XT heads for market success, while the PC Junior faces quick extinction.

1983  Completion of the TCP/IP switchover marks the creation of the global Internet.

1982 - 1983


1983  Though not destined for commercial success, Apple’s Lisa, launched in May, shows what can be done with a mouse, icons, and pulldown menus.

1983  Thinking Machines Corp. and Ncube are founded, providing a boost to parallel processing.

1983  At AT&T Bell Labs, Bjarne Stroustrup continues work on C++, an OO extension to C.

1983


1984  In January, the Macintosh is unveiled with a publicity campaign that includes an Orwellian-themed ad during the Super Bowl.

1984  Apple gives computer graphics a boost with its MacPaint program.

1984  MIDI (Musical Instrument Digital Interface) standards are developed for interfacing computers and digital music synthesizers.

1984  The CD-ROM, introduced by Sony and Philips, provides significantly greater storage capacity for digital data.

1984


1984  Motorola introduces the MC68020 with 250,000 transistors.

1984  A motion picture, The Last Starfighter, uses extensive supercomputer-generated graphics. 

1984  NEC manufactures a 256-Kbit chip, and IBM introduces a 1-Mbit RAM chip.

1984  In Neuromancer, novelist William Gibson coins the term “cyberspace.”

1984  Beginning in August, Intel’s 16-bit 80286 chip, installed in IBM’s new PC AT, expands desktop computer capabilities. 1984  In Neuromancer, novelist William Gibson coins the term “cyberspace.”

1984


1985  Supercomputer speeds reach 1 billion operations per second with the release of the Cray 2 and Thinking Machines’ parallelprocessor Connection Machine.

1985  Inmos introduces transputers, featuring concurrent processing architecture. 

1985  The National Science Foundation establishes four national supercomputing centers. 

1985  With the development of Windows 1.0, Microsoft brings Macintosh-like features to DOS-compatible computers.

1985  The Omnibot 2000 from Tony Kyogo can move, talk, and carry objects.

1985


1985  In October, Intel introduces the 80386 chip with 32-bit processing and on-chip memory management.

1985  Paul Brainard’s PageMaker becomes the first PC desktop publishing program and is widely used, first on the Macintosh and later on IBM compatibles.

1985


1986  An article in the Wall Street Journal helps to popularize the concept and term CASE, for computer-aided software engineering. 

1986  The four-processor Cray XP performs 713 million floating-point operations per second.

1987  Experimental 4-and 16-Mbit chips areintroduced. 

1987  Watts Humphrey (pictured) and William Sweet, of the Software Engineering Institute, publish a “process maturity framework,” which becomes the Capability Maturity Model, designed to help predict a developer’s ability to produce reliable software.

1986 - 1987


1988  Motorola’s 32-bit 88000 series of RISC microprocessors offer processing speeds of up to 17 million instructions per second. 

1988  Graduate student Robert Morris Jr. reveals the need for greater network security by releasing a worm program into the Internet on November 2.

1988  Barry Boehm publishes a description of the spiral model of software development, which recognizes the need to incrementally build systems.

1988  Steve Jobs’ Next computer debuts but, despite advanced features, attracts too few buyers to compete in the market. 1988  Graduate student Robert Morris Jr. reveals the need for greater network security by releasing a worm program into the Internet on November 2. 

1988


1989  Tim Berners-Lee proposes the World Wide Web project to CERN (European Council for Nuclear Research). 

1989  Intel’s 80486 chip with 1.2 million transistors is introduced in April. 

1989  Seymour Cray founds Cray Computer Corp. and begins developing the Cray 3 using gallium arsenide chips. 

1989  The first set of SPEC benchmarks is released, facilitating machine performance comparisons for scientific computation tasks. 

1990  Microsoft introduces Windows 3.0 in May, intensifying its legal dispute with Apple over the software’s “look and feel” resemblance to the Macintosh operating system.

1989 - 1990


1990  Scientists at Bell Labs demonstrate the first all-optical processor on January 29. 

1990  Hewlett-Packard and IBM both announce RISC-based computers. 

1990  Intel’s i486 and iPSC/860, and Motorola’s 68040 become available.

1990  Berners-Lee writes the initial prototype for the World Wide Web, which uses his other creations: URLs, HTML, and HTTP.

1990  Arpanet is officially decommissioned.

1991  The Japanese Ministry of Trade and Industry abandons its program to build a fifth-generation computer and plans instead for a sixth-generation computer to be based on neural networks. 

1991  Cray Research unveils the Cray Y-MP C90 with 16 processors and a speed of 16 Gflops.

1991  IBM, Motorola, and Apple’s PowerPC alliance is announced on July 30. 

1990 - 1991



1992  After generating great concern in early March, the Michelangelo virus results in little actual damage. 

1992  In March, the first M-bone audio multicast is transmitted on the Net.

1992  DEC introduces the first chip to implement its 64-bit RISC Alpha architecture.

1993  Apple releases the Newton, the first popular personal digital assistant. It uses a stylus pen, and the first generation suffers from poor handwriting recognition.

1992 - 1993


1993  Intel’s Pentium is introduced in March.

1993  Students and staff at the University of Illinois’ National Center for Supercomputing Applications create a graphical user interface for Internet navigation called NCSA Mosaic.

1994  In April, Jim Clark and Marc Andreesen found Netscape Communications (originally Mosaic Communications). 

1994  Leonard Adleman of the University of Southern California demonstrates that DNA can be used as a computing medium. 

1994  Netscape’s first browser becomes available in September and creates a rapidly growing body of Web surfers.

1993 - 1994


1995  Toy Story is the first full-length feature movie completely computer generated.

1995  The Java programming language, unveiled in May, enables platformindependent application development. “Duke” is the first applet.

1995  Windows 95 is launched on August 24 with great fanfare.

1995  Amazon.com went online.

1996  The Intel Pentium Pro is announced.

1995 - 1996



1997 IBM DeepBlue computer beats world champion Gary Kasparovin a chess match.

1997 distributed.net launched as a worldwide distributedcomputing effort attempting to solve large scale problems using otherwise idle computers.

1998 Google incorporated.

1998 Intel achieves45 million transistors in a CPUchip, a 100 MHzPentium using photography with 180-nanometer line widths.

1997 - 1998


1999  Napster launched, demonstrating the potential for peer-to-peer computing.

1999  SETI@home launched as the second large-scale distributed computing project.

2000  C# programming language announced with Anders Hejlsberg being primary designer. 

2000  The Y2K problem comes and goes.

2000  First USB flash drives sold.

1999 - 2000


2001  Wikipedia founded, with content from tens of thousands of volunteers and substantially replacing pre-digital-age encyclopedias.

2001  iPod introduced, becoming a "game changer" for the world of portable music players.

2002  Earth Simulator highly parallel vector supercomputer system developed by the Japanese government for running global climate models. 

2002  One billion PCs have been sold (according to a Gartner study). 

2002  Indian computer scientists Manindra Agrawal, Neeraj Kayal, and Nitin Saxena discover the "Agrawal-Kayal-Saxena class" of algorithms for finding primes in polynomial time. 

2002  MIT OpenCourseware introduced.

2001 - 2002


2003  Skype introduced as an inexpensive, easy-to-use way to make video and voice “phone calls” over the Internet.

2003  iTunes store launched, bringing the recording industry into the Internet age with billions of singles sold. 

2003  Mozilla Foundation formed, a spin-out from Netscape.

2004  Mark Zuckerberg’s creation Facebook is incorporated and over time gains more than a billion users, becoming the communication and sharing approach for young people of the early 21st century.

2004  Gmail introduced.

2003 - 2004


2005  IBM sells it PC business to Lenovo, maintaining only a minority share in the technology and business it originally created.

2005  European Parliament rejects the proposed "directive on the patentability of computer-implemented inventions." 

2005  YouTube incorporated, providing a way for anyone to publish videos to a potential worldwide audience.

2006  60th anniversary of the IEEE Computer Society.

2006  Twitter introduced, allowing people to share their thoughts minute by minute.

2005 - 2006


2007  Amazon Kindle ebook reader introduced, contributing to significant changes in the publishing industry.

2007  802.11-2007 consolidation of 802.11 in support of continued spread of wireless communications.

2007  60th anniversary of the ACM.

2007  iPhone introduced, bringing technological and competitive upheaval to the smart phone industry. 

2007  Estonia conducts a general election allowing voting via the Internet.

2008  Hulu launched, a significant instance of integration of computing and television, supporting a variety of devices for "TV" viewing.

2007 - 2008


2009  30th anniversary of the Annals of the History of Computing.

2010  Computer History Museum exhibits "Revolution: The First 2000 Years of Computing.

2010  iPad introduced, invigorating the tablet computer market.

2010  2 anniversary of the revolutionary T X typesetting and font design system.

2009 - 2010


Credits - 
Deep Blue, 1997-1998: used with permission of IBM. 

Anders Hejlsberg, 1999-2000: used with permission of Microsoft. 

Earth Simulator, 2001-2002: photo coprighted by the Japan Agency for Marine-Earth Science and Technology; used with permission of JAMSTEC. 

Kindle, 2007-2008: image by Matthias Bärwolff. 

Computer History Museum,  2009-2010:  image provided by the CHM.
TeX and Metafont book, 2009-2010: used with permission of the American Mathematical Society. 

Logos shown, 1997-2010:  these belong to, respectively: distributed.net, Google, Napster, SETI@home, Wikipedia, Skype, Facebook, YouTube, Twitter, and ACM. 

The IEEE Computer Society History Committee members at the time of the committee's 2012 update of this timeline (through 2010) were Matthias Bärwolff, Stephen Diamond, Susan Hayden (Society staff), Lars Heide, Anne Marie Kelly (Society staff), Stanley Mazor, Raymond Miller, V. Rajaraman, Andrew Russell, Tom Van Vleck, Andreu Veà, David Walden (committee chair), Michael Williams, Akihiko Yamada, and Jeffrey Yost. 

This committee emphasizes that their timeline selections are not a yearly "best of" list but rather interesting examples of what was happening in the world of computing at the time.  In particular, during the update years (1997-2010) applications of computing came more readily to mind than fundamental advances in technology. 

Send corrections and comments to historycontact@computer.org