The Analysis
8 — 11: You are not modern at all and you don't want to be. You are suspicious of new things and don't make an effort to find out about them. You would prefer to live in the past. It's nice that you can appreciate the simple things in life but you must be careful not to get left behind. You are too traditional.
12 — 16: You are not very modern but you are not completely old-fashioned either. You like to live in a world that has the good things from the past and some of the good things from the present too.
17 — 20: You are modern. You know a lot about what is happening around you and obviously enjoy progress. On the other hand, you are sensible and don't worry about buying and doing all the latest things just because they are fashionable.
21 — 24: Yes. You are very modern. Being up-to-date is very important to you. Sometimes perhaps it is too important. Remember that new things are not always the best things. Be careful not to become obsessed with every new thing that comes along. Some things are just clever marketing crazes that will complicate your life.
2.24 Prepare reports on the topics of unit 2 or retell one of the texts.
Unit three Computer Generations
Topics for Essays, Oral or Written Reports
The evolutionofcomputersinterms ofgenerations.
If therewerenocomputerstheyhadtobethoughtout.
Can a Person Do Without Computers Now?
The artificial Brains Will Soon Totally Replace the Human ones.
Prereading Discussion
1. How many computers’ generations do you know?
2. When and where was the first computer designed?
3. Who was its author?
4. What do the generations of computers differ in?
5. What generation computer do you have at home?
6. If you had a computer before what was it?
Text 3A History of Computers
a) read the article to know more about the subject & make a back translation.
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(1) Let us take a look at the history of the computers that we know today. The very first calculating device used was the ten fingers of a man's hands. This, in fact, is why today we still count in tens and multiples of tens. (2) Then the abacus was invented, a bead frame in which the beads are moved from left to right. People went on using some form of abacus well into the 16th century, and it is still being used in some parts of the world because it can be understood without knowing how to read. (3) During the 17th and 18th centuries many people tried to find easy ways of calculating. J.Napier, a Scotsman, devised a mechanical way of multiplying and dividing, which is how the modern slide rule works. (4) Henry Briggs used Napier's ideas to produce logarithm tables, which all mathematicians use today. (5) Calculus, another branch of mathematics, was independently invented by both Sir Isaac Newton, an Englishman, and Leibnitz, a German mathematician. (6) The first real calculating machine appeared in 1820 as the result of several people's experiments. This type of machine, which saves a great deal of time and reduces the possibility of making mistakes, depends on a series of ten-toothed gear wheels. (7) In 1830 Charles Babbage, an Englishman, designed a machine that was called "The Analytical Engine"1. This machine, which Babbage showed at the Paris Exhibition in 1855, was an attempt to cut out the human being altogether, except for providing the machine with the necessary facts about the problem to be solved. He never finished this work, but many of his ideas were the basis for building today's computers. (8) In 1930, the first analog computer was built by American named Vannevar Bush. This device was used in Word War II to help aim guns. (9) Mark I2, the name given to the first digital computer, was completed in 1944. The men responsible for this invention were Professor Howard Aiken and some people from IBM3. This was the first machine that could figure out long lists of mathematical problems all at a very fast rate. (10) In 1946 two engineers at the University of Pennsylvania, J. Eckert and J. Maushly, build the first digital computer using parts called vacuum tubes. They named their new invention ENIAC4. (11) Another important advancement in computers came in 1947, when John von Newmann developed the idea of keeping instructions for the computer inside the computer's memory. (12) The first generation of computers, which used vacuum tubes, came out in 1950. UNIVAC I5 is an example of these computers which could perform thousand of calculations per second. (13) In 1960, the second generation of computers was developed and these could perform work ten times faster than their predecessors. The reason for this extra speed was the use of transistors instead of vacuum tubes. Second-generation computers were smaller, faster and more dependable than first-generation computers. (14) The third-generation computers appeared on the market in 1965. These computers could do a million calculations a second, which is 1000 times as many as first-generation computers. Unlike second-generation computers, these are controlled by tiny integrated circuits and are consequently smaller and more dependable. (15) Fоurth-generation computers have now arrived, and the integrated circuits that are being developed have been greatly reduced in size. (16) This is due to microminiaturization, which means that the circuits are much smaller than before; as many as 1000 tiny circuits now fit onto a single chip. A chip is a square or rectangular piece of silicon, usually from 1/10 to 1/4 inch, upon which several layers of an integrated circuit are etched or imprinted, after which the circuit is encapsulated in plastic or metal. Fourth-generation computers are 50 times faster than third-generation computers and can complete approximately 1,000,000 instructions per second. |
Давайте взглянем на историю компьютеров с позиций сегодняшнего дня. Самым первым вычислительным устройством были десять пальцев рук человека. Это фактически и стало причиной того, что мы и сегодня считаем десятками и кратными им числами. Затем были изобретены счеты, рамка с косточками, в которой кости двигались слева направо. Люди продолжали использовать некоторый тип счет даже в 16-м веке, и они используются и до сих пор в некоторых частях света потому, что могут быть понятны даже тем, кто не умеет читать. В течение 17-го и 18-го веков многие пытались найти простые способы вычисления. Шотландец Д. Напье изобрел механический способ умножения и деления, по принципу которого работают современная логарифмическая линейка. Г. Бриггс использовал идеи Напье для выпуска таблиц логарифмов, которые используются всеми математиками сегодня. Исчисления - другая область математики, была независимо друг от друга изобретена англичанином сэром Исааком Ньютоном и немецким математиком Лейбницем. Первая настоящая вычислительная машина появилась в 1820 году как результат ряда экспериментов. Работа этого типа машин, которые экономили большое количество времени и уменьшали вероятность ошибок, основана на использовании ряда 10-зубчатых передаточных колес. В 1830 году Чарльз Бэббидж, англичанин, спроектировал машину, которая была названа "Аналитическая машина". Эта машина, которую Бэббидж продемонстрировал на парижской выставке в 1885 году, была попыткой полностью заменить мыслительную деятельность человека, если не считать обеспечения машины фактами, необходимыми для решения задачи. Он не закончил эту работу, но многие его идеи послужили основой для построения сегодняшних компьютеров. В 1930 году американцем В. Бушем был построен первый аналоговый компьютер. Этот прибор использовался во Второй Мировой войне для наводки орудий. Марк 1, как был назван первый цифровой компьютер, был закончен в 1944 году. Создатели этого компьютера - профессор Г. Айкен и сотрудники фирмы IBM. Это была первая машина, которая могла с большой скоростью обрабатывать длинные списки математических выкладок. В 1946 году двое инженеров Д. Эккерт и Д. Мошли в Университете Пенсильвании построили первый цифровой компьютер на вакуумных лампах. Они назвали свое новое изобретение ЭНИАК. Другое важное достижение в компьютерах сделано в 1947 году, когда Д. Ньюман выдвинул идею хранения инструкций для компьютера в его памяти. Первое поколение компьютеров, использующих вакуумные лампы, появилось в 1950 году. УНИВАК 1 - это пример таких компьютеров, способных производить тысячи вычислений в секунду. В 1960 году, было разработано второе поколение компьютеров, и они имели в десять раз большую производительность, чем их предшественники. Причиной такой повышенной скорости было использование транзисторов вместо вакуумных ламп. Компьютеры второго поколения были меньше, быстрее и более надежны, чем компьютеры первого поколения. Компьютеры третьего поколения появились на рынке в 1965 году. Эти компьютеры могли производить миллион операций в секунду, в 1000 раз больше, чем компьютеры первого поколения. В отличие от компьютеров второго поколения эти компьютеры управляются миниатюрными интегральными схемами и, следовательно, они меньше в размерах и более надежны. Сейчас появились компьютеры четвертого поколения, причем разрабатываемые интегральные схемы значительно уменьшились в размерах. Это следствие микроминиатюризации, которая означает, что схемы становятся еще много меньше, чем ранее; на одном кристалле теперь размещается 1000 схем. Кристалл - это квадратный или прямоугольный кусок кремния, обычно от 0,1 до 0,25 дюйма, на котором напыляется или впечатывается несколько слоев интегральной схемы, после чего схема герметически запаковывается в пластиковую или металлическую оболочку. Компьютеры четвертого поколения в 50 раз быстрее компьютеров третьего поколения и могут выполнять порядка 1 000 000 операций в секунду. |
(P.Brown, N.Mullen. English for Computer Science, 1987).
b) Read the following Definitions to know more about the terms.
NB 1Analytical Engine - a programmable calculator designed by British scientist, Charles Babbage (mid 1830s). Although never completed due to lack of funds and constant redesign, it was a major advance and contained the principles of the stored program computer.
2Mark I - an electromechanical calculator designed by professor Howard Aiken, built by IBM and installed at Harvard in 1944. It strung 78 adding machines together to perform three calculations per second. It was 51 feet long, weighed five tons and used punched cards and typewriters for I/O. Made of 765,000 parts, it sounded like a thousand knitting needles according to Admiral Grace Hopper. The experience helped IBM develop its own computers a few years later.
3IBM - International Business Machines Corporation, Armonk, NY - The world's largest computer company.
4ENIAC - (Electronic Numerical Integrator And Calculator) the first operational electronic digital computer developed for the U.S. Army by John Eckert and John
Mauchly at the University of Pennsylvania. Completed in 1946, it was decimal-based, used 18,000 vacuum tubes, took up 1,800 square feet and performed 5,000 additions/second. Today, the equivalent technology is used in a watch.
5UNIVAC I - (UNIVersal Automatic Computer) the first commercially-successful computer, introduced in 1951 by Remington Rand. Over 40 systems were sold. Its memory was made of mercury-filled acoustic delay lines that held 1,000 12-digit numbers. It used magnetic tapes that stored 1MB of data at a density of 128 cpi (Characters Per Inch). In 1952, it predicted Eisenhower's victory over Stevenson, and UNIVAC became synonymous with computer (for a while).
c) Ask each other questions about:
1. what stands for ENIAC; 2. what stands for UNIVAC 1; 3. what stands for IBM; 4. what is ‘a chip’; 4. what was the very first calculating device used; 5. what is called a bead frame in which the beads are moved from left to right; 6. what device is based on the principle of a mechanical way of multiplying and dividing; 7. what branch of mathematics was invented by both Sir Isaac Newton & Leibnitz; 8. when the first real calculating machine appeared; 9. what is the Analytical Engine inventor’s name.