first generation computer - significado y definición. Qué es first generation computer
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Qué (quién) es first generation computer - definición

WIKIMEDIA HISTORY ARTICLE
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  • Sir William Thomson]]'s third tide-predicting machine design, 1879–81
  • [[Suanpan]] (The number represented on this abacus is 6,302,715,408.)
  • Altair 8800
  • Trial model of a part of the Analytical Engine, built by Babbage, as displayed at the Science Museum, London
  • <div align="center">Detail of an arithmometer built before 1851. The one-digit multiplier cursor (ivory top) is the leftmost cursor.</div>
  • [[Atanasoff–Berry Computer]] replica at first floor of Durham Center, [[Iowa State University]]
  • Diagram of a 4×4 plane of magnetic core memory in an X/Y line coincident-current setup. X and Y are drive lines, S is sense, Z is inhibit. Arrows indicate the direction of current for writing.
  • programmable]] computing device, and was used to break German ciphers during World War II. It remained unknown, as a military secret, well into the 1970s.
  • The [[Curta]] calculator could also do multiplication and division.
  • Babbage]]'s [[Difference Engine]]
  • EDSAC
  • [[IBM]] punched-card accounting machines, 1936
  • EDVAC
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  • Front panel of the [[IBM 650]]
  • [[Computing hardware]] is a platform for [[information processing]].
  • 8742]], an 8-bit [[microcontroller]] that includes a CPU running at 12&nbsp;MHz, RAM, EPROM, and I/O
  • A set of [[John Napier]]'s calculating tables from around 1680
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  • Pascal]] invented his machine in 1642.
  • A section of the rebuilt [[Manchester Baby]], the first electronic stored-program computer
  • A modern slide rule
  • Torres Quevedo's 1920 electromechanical arithmometer, one of several designs based on Babbage. This prototype automatically performed arithmetic operations and used a typewriter to send commands and print its results.
  • A [[bipolar junction transistor]]
  • A Mk. I Drift Sight. The lever just in front of the bomb aimer's fingertips sets the altitude, the wheels near his knuckles set the wind and airspeed.
  • The University of Manchester Atlas in January 1963
  • Wartime photo of Colossus No. 10
  • Parts from four early computers, 1962. From left to right:  [[ENIAC]] board, [[EDVAC]] board, [[ORDVAC]] board, and [[BRLESC]]-I board, showing the trend toward [[miniaturization]].
  • Z3]], the first fully automatic, digital (electromechanical) computer

first generation computer         
<architecture> A prototype computer based on vacuum tubes and other esoteric technologies. Chronologically, any computer designed before the mid-1950s. Examples include Howard Aiken's Mark 1 (1944), Maunchly and Eckert's ENIAC (1946), and the IAS computer. (1996-11-22)
Vacuum-tube computer         
TYPE OF COMPUTER
First-generation computer; Vacuum tube computer
A vacuum-tube computer, now termed a first-generation computer, is a computer that uses vacuum tubes for logic circuitry. Although superseded by second-generation transistorized computers, vacuum-tube computers continued to be built into the 1960s.
Fifth Generation Computer Systems         
INITIATIVE BY JAPAN TO CREATE COMPUTERS USING MASSIVELY PARALLEL COMPUTING AND LOGIC PROGRAMMING
Fifth generation computer systems project; Fifth-generation computing; Fifth Generation Computer; Fifth-generation computer; Fifth Generation project; Fifth-generation computer systems project; Fifth generation computer system; Fifth-generation computer system; Fifth Generation Computer Systems project; Fifth generation computing; Fifth Generation Project; Fifth Generation computer; Fifth generation computer
The Fifth Generation Computer Systems (FGCS) was a 10-year initiative begun in 1982 by Japan's Ministry of International Trade and Industry (MITI) to create computers using massively parallel computing and logic programming. It aimed to create an "epoch-making computer" with supercomputer-like performance and to provide a platform for future developments in artificial intelligence.

Wikipedia

History of computing hardware

The history of computing hardware covers the developments from early simple devices to aid calculation to modern day computers.

The first aids to computation were purely mechanical devices which required the operator to set up the initial values of an elementary arithmetic operation, then manipulate the device to obtain the result. Later, computers represented numbers in a continuous form (e.g. distance along a scale, rotation of a shaft, or a voltage). Numbers could also be represented in the form of digits, automatically manipulated by a mechanism. Although this approach generally required more complex mechanisms, it greatly increased the precision of results. The development of transistor technology and then the integrated circuit chip led to a series of breakthroughs, starting with transistor computers and then integrated circuit computers, causing digital computers to largely replace analog computers. Metal-oxide-semiconductor (MOS) large-scale integration (LSI) then enabled semiconductor memory and the microprocessor, leading to another key breakthrough, the miniaturized personal computer (PC), in the 1970s. The cost of computers gradually became so low that personal computers by the 1990s, and then mobile computers (smartphones and tablets) in the 2000s, became ubiquitous.