Text 3. SOME FIRST COMPUTER MODELS

Text 3. SOME FIRST COMPUTER MODELS
1. Babbage's Analytical Engine
In 1832, an English inventor and mathematician Charles Babbage was commissioned by the British government to develop a system for calculating the rise and fall of the tides.
Babbage designed a device and called it an analytical engine. It was the first programmable computer, complete with punched cards for data input. Babbage gave the engine the ability to perform different types of mathematical operations. The machine was not confined to simple addition, subtraction, multiplication, or division. It had its own "memory", due to which the machine could use different combinations and sequences of operations to suit the purposes of the operator.
The machine of his dream was never realized in his life. Yet Babbage's idea didn't die with him. Other scientists made attempts to build mechanical, general-purpose, stored-program computers throughout the next century. In 1941 a relay com¬puter was built in Germany by Conrad Zuse. It was a major step toward the realization of Babbage's dream.
2. The Mark I Computer (1937-1944)
In 1944 in the United States, International Business Ma¬chines (IBM) built a machine in cooperation with scientists working at Harvard University under the direction of Prof. Aiken. The machine, called Mark I Automatic Sequence-Con¬trolled Calculator, was built to perform calculations for the Manhattan Project, which led to the development of atomic bomb. It was the largest electromechanical calculator ever built. It used over 3000 electrically actuated switches to control its operations. Although its operations were not controlled electronically, Aiken's machine is often classified as a computer because its instructions, which were entered by means of a punched paper tape, could be altered. The computer could create ballistic tables used by naval artillery.
The relay computer had its problems. Since relays are elec¬tromechanical devices, the switching contacts operate by means of electromagnets and springs. They are slow, very noisy and consume a lot of power.
3. The ABC (1939-1942)
The work on introducing electronics into the design of computers was going on.
The gadget that was the basis for the first computer revolution was the vacuum tube, an electronic device invented early in the twentieth century. The vacuum tube was ideal for use in computers. It had no mechanical moving parts. It switched flows of electrons off and on at rates far faster than possible with any mechanical device. It was relatively reliable, and operated hundreds of hours before failure. The first vacuum tube computer was built at Iowa University at about the same time as the Mark I. The computer, capable to perform thousands of related computations, was called ABC, the Atanasoff-Berry Computer, after Dr. John Atanasoff, a professor of physics and his assis¬tant, Clifford Berry. It used 45 vacuum tubes for internal logic and capacitors for storage. From the ABC a number of vacuumtube digital computers developed.
Soon the British developed a computer with vacuum tubes and used it to decode German messages.

Text 3. SOME FIRST COMPUTER MODELS
 1. Babbage's Analytical Engine
In 1832, an English inventor and mathematician Charles Babbage was commissioned by the British government to develop a system for calculating the rise and fall of the tides.
Babbage designed a device and called it an analytical engine. It was the first programmable computer, complete with punched cards for data input. Babbage gave the engine the ability to perform different types of mathematical operations. The machine was not confined to simple addition, subtraction, multiplication, or division. It had its own "memory", due to which the machine could use different combinations and sequences of operations to suit the purposes of the operator.
The machine of his dream was never realized in his life. Yet Babbage's idea didn't die with him. Other scientists made attempts to build mechanical, general-purpose, stored-program computers throughout the next century. In 1941 a relay com¬puter was built in Germany by Conrad Zuse. It was a major step toward the realization of Babbage's dream.
2. The Mark I Computer (1937-1944)
In 1944 in the United States, International Business Ma¬chines (IBM) built a machine in cooperation with scientists working at Harvard University under the direction of Prof. Aiken. The machine, called Mark I Automatic Sequence-Con¬trolled Calculator, was built to perform calculations for the Manhattan Project, which led to the development of atomic bomb. It was the largest electromechanical calculator ever built. It used over 3000 electrically actuated switches to control its operations. Although its operations were not controlled electronically, Aiken's machine is often classified as a computer because its instructions, which were entered by means of a punched paper tape, could be altered. The computer could create ballistic tables used by naval artillery.
The relay computer had its problems. Since relays are elec¬tromechanical devices, the switching contacts operate by means of electromagnets and springs. They are slow, very noisy and consume a lot of power.
3. The ABC (1939-1942)
The work on introducing electronics into the design of computers was going on.
The gadget that was the basis for the first computer revolution was the vacuum tube, an electronic device invented early in the twentieth century. The vacuum tube was ideal for use in computers. It had no mechanical moving parts. It switched flows of electrons off and on at rates far faster than possible with any mechanical device. It was relatively reliable, and operated hundreds of hours before failure. The first vacuum tube computer was built at Iowa University at about the same time as the Mark I. The computer, capable to perform thousands of related computations, was called ABC, the Atanasoff-Berry Computer, after Dr. John Atanasoff, a professor of physics and his assis¬tant, Clifford Berry. It used 45 vacuum tubes for internal logic and capacitors for storage. From the ABC a number of vacuumtube digital computers developed.
Soon the British developed a computer with vacuum tubes and used it to decode German messages.

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Text 3. SOME FIRST COMPUTER MODELS 1. Babbage's Analytical EngineIn 1832, an English inventor and mathematician Charles Babbage was commissioned by the British government to develop a system for calculating the rise and fall of the tides.Babbage designed a device and called it an analytical engine. It was the first programmable computer, complete with punched cards for data input. Babbage gave the engine the ability to perform different types of mathematical operations. The machine was not confined to simple addition, subtraction, multiplication, or division. It had its own "memory", due to which the machine could use different combinations and sequences of operations to suit the purposes of the operator.The machine of his dream was never realized in his life. Yet Babbage's idea didn't die with him. Other scientists made attempts to build mechanical, general-purpose, stored-program computers throughout the next century. In 1941 a relay com¬puter was built in Germany by Conrad Zuse. It was a major step toward the realization of Babbage's dream.2. The Mark I Computer (1937-1944)In 1944 in the United States, International Business Ma¬chines (IBM) built a machine in cooperation with scientists working at Harvard University under the direction of Prof. Aiken. The machine, called Mark I Automatic Sequence-Con¬trolled Calculator, was built to perform calculations for the Manhattan Project, which led to the development of atomic bomb. It was the largest electromechanical calculator ever built. It used over 3000 electrically actuated switches to control its operations. Although its operations were not controlled electronically, Aiken's machine is often classified as a computer because its instructions, which were entered by means of a punched paper tape, could be altered. The computer could create ballistic tables used by naval artillery.The relay computer had its problems. Since relays are elec¬tromechanical devices, the switching contacts operate by means of electromagnets and springs. They are slow, very noisy and consume a lot of power.3. The ABC (1939-1942)The work on introducing electronics into the design of computers was going on.The gadget that was the basis for the first computer revolution was the vacuum tube, an electronic device invented early in the twentieth century. The vacuum tube was ideal for use in computers. It had no mechanical moving parts. It switched flows of electrons off and on at rates far faster than possible with any mechanical device. It was relatively reliable, and operated hundreds of hours before failure. The first vacuum tube computer was built at Iowa University at about the same time as the Mark I. The computer, capable to perform thousands of related computations, was called ABC, the Atanasoff-Berry Computer, after Dr. John Atanasoff, a professor of physics and his assis¬tant, Clifford Berry. It used 45 vacuum tubes for internal logic and capacitors for storage. From the ABC a number of vacuumtube digital computers developed.Soon the British developed a computer with vacuum tubes and used it to decode German messages.

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текст, 3.первые модели компьютера1.бэббидж аналитической двигательв 1832 году, английским изобретателем и математик чарльз бэббидж была по заказу британского правительства разработать систему для расчета подъем и падение приливы.бэббидж разработали устройство называется аналитический двигателя.это был первый программируемый компьютер, в комплекте с кулаками карты для ввода данных.бэббидж дал двигатель способность выполнять различные виды математических операций.машина была не только простое сложение и вычитание, умножения или отдела.он имеет свою собственную "память", из - за чего машина могла использовать различные комбинации и последовательности операций, с учетом целей оператора.машину своей мечты никогда не был реализован в его жизни.тем не менее бэббидж идея не умереть вместе с ним.другие ученые пытались создавать механические, общего назначения, записанная программа компьютеров в следующем столетии.в 1941 году реле com ¬ комп, была построена в германии конрада цузе.это стало важным шагом в направлении осуществления бэббидж мечты.2.марк, я компьютер (1937-1944)в 1944 году в соединенных штатах, международной бизнес - ма ¬ chines (IBM) построил машину в сотрудничестве с учеными, работающими в гарвардском университете под руководством профессора эйкен.машина называется марк я автоматической последовательности con ¬ trolled калькулятор, был построен для проведения расчетов по манхэттенский проект, который привел к разработке атомной бомбы.это была крупнейшая электромеханический калькулятор строили.он использовал более 3000 электрически действие переключатели, контролировать его деятельность.хотя в своей деятельности не контролируются в электронном виде, эйкен машина зачастую квалифицируются как компьютер, потому что его инструкции, которые были введены в виде ударил бумажную ленту, могут быть изменены.компьютер может создать баллистические таблицы, используемые в военно - морской артиллерии.реле компьютер имеет свои проблемы.поскольку реле вот elec ¬ tromechanical устройств переключения контакты действуют через электромагнитов и источники.они медленно, очень шумно и потребляют много энергии.3.ABC (1939-1942)работа по внедрению электроники в разработке компьютеров происходит.гаджет, который является основой для первой компьютерной революции является вакуумный, электронное устройство придумал в начале двадцатого века.вакуумные трубы был идеально подходит для компьютеров.у него нет механических движущихся частей.он подменил потоки электронов и на ставки гораздо быстрее, чем можно с любого механического устройства.он был сравнительно надежным, и действуют сотни часов до отказа.первый вакуумный компьютер был построен в университет айовы примерно в то же время, как марк. компьютер, способный выполнять тысячи смежных задач, звали ABC, компьютер атанасова - берри, после того, как доктор джон атанасов, профессор физики и его асис ¬ tant, клиффорд берри.он использовал 45 вакуумные трубы для внутренней логики и конденсаторов для хранения.от ABC ряд vacuumtube цифровых вычислительных машин.вскоре в великобритании разработана компьютерная с вакуумной трубки и использовал его, чтобы декодировать сообщения германии.

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