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Remember the following synonyms

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  1. A few common expressions are enough for most telephone conversations. Practice these telephone expressions by completing the following dialogues using the words listed below.
  2. A Remember and forget
  3. A) Answer the following questions about yourself.
  4. A) Consider the synonyms; match words with their definitions.
  5. A) Think of ONE noun to complete all of the following collocations
  6. Abby: The Body Remembering; Energy That Heals
  7. Agree or disagree with the statements using the following

drawback - disadvantage - shortcoming

tedious - boring

Task 1 Pronounce the following words correctly

inertia - [G`n6¦XF;XiE] language - [`lQ€gwidJ] circuit - [sNkit] triode - [`traioud] tedious - [`tIdiFs] mnemonics - [nimOniks] scheme - [skGm]  

Task 2 Remember the formation of the following negatives.

reliable - unreliable limited - unlimited experienced - inexperienced developed - undeveloped used - unused determined - undetermined efficient - inefficient numeric - nonnumeric

Task 3. Match A and B.

1 machine language 1 внутренние схемы
2 first generation computers 2 цикл выборки
3 control unit 3 язык машинного кода
4 internal circuits 4 научно-технические расчеты
5 instruction cycle 5 ртутные линии задержки
6 fetch cycle 6 блок контроля / центральный процессор
7 mercury delay line 7 обработка платежных ведомостей
8 symbolic language 8 проблема теплоотвода и технического обслуживания
9 primary internal storage medium 9 язык символического кодирования
10 execution cycle 10 схема переадресации
11 floating-point arithmetic 11 цикл выполнения программы
12 payroll processing 12 основная внутренняя память
13 scientific computations 13 компьютеры первого поколения
14 address modification scheme 14 арифметика с плавающей точкой
15 heat and maintenance problem 15 командный цикл

Task 4 Express your opinion on the following:

1 What kind of drawbacks do mechanical computers have?

2 What is the main difference between mechanical and electronic computers?

3 What were the criteria for the division of computers into generations?

Task 5 Comment on the following.

1 First-generation machines were mostly programmed in machine language, but writing a machine language program was cumbersome and time consuming. What was done to make programming easier? How were most first-generation computers programmed?

2 First-generation computers had many design shortcomings. Specify the most important.

3 First-generation computers had such design and operating characteristics as: vacuum tubes in electronic circuits and mercury delay lines for memory; processing speed of 2000 instructions per second. Do you know some more?

Task 6 Find 5 sentences with the present participle in the text and translate them.

 

Text 1 FIRST GENERATION COMPUTERS. HISTORY OF DEVELOPMENT (PART 1)

1943-1947

First-generation computers were extremely large and had poor reliability. They used vacuum tubes to control internal operations, generated considerable heat, and required a lot of floor space. Although first-generation computers were much faster than earlier mechanical or electromechanical devices, they were very slow compared to today's computers, and their internal storage capacity was limited.

Punched cards were used to enter data into the computer. The holes were punched according to a coding scheme (much like Hollerith's cards), and a special-purpose machine (card reader) was used to translate them into machine language for the computer. The machine language information was often stored on magnetic drums, cylinders coated with magnetizable material, rotating at high speeds. Read/write heads suspended just above the rotating surface of the drum either wrote on the drum by magnetizing small spots or read from it by interpreting the already magnetized spots. Numbers were manipulated by the computer according to the instructions, or program, given to it. The results of these operations were punched on blank cards, which could then be read by humans.

Only binary-coded machine language was used in early computers. With hard­ware costs dominating the developments of first-generation computers, the use of system software to relieve the user of low-level programming was just beginning.

1943. During 1940 and 1941, Atanasoff and Berry met with John W. Mauchly and showed him their work. Mauchly, working at the Moore School of Electrical Engineering of the University of Pennsylvania, then began formulating his own ideas on how a general-purpose computer might be built. Mauchly 's ideas came to the attention of J. Presper Eckert, Jr., a graduate engineering student at the Moore School, and the team of Mauchly and Eckert was formed. In 1943 they designed their first electronic computer, ENIAC (Electronic Number Integrator and Calculator). It used 140 kilowatts of electricity and contained about 18,000 vacuum tubes, 70,000 resistors, and 10,000 capacitors, occupied a space of 1500 square feet, and weighed about 30 tons. The computing elements consisted of many components linked by close to a million hand-soldered connections. The I/O system consisted of modified IBM card readers and punches. ENIAC had a limited storage capacity of only 20 ten-digit numbers (it took 12 vacuum tubes to store one decimal digit), used a 100-kilohertz clock, and could perform 5000 additions or 300 multiplications per second. By today's standards, ENIAC was very slow; however, when delivered in 1946, it represented a major advance in computational power. It was instrumental, for better or worse, in bringing the world into the atomic age.

Dr. John von Neumann recommended in a research report that the binary number system, employing only the digits 0 and 1, be applied in computer design. He also proposed that instructions to control the computer, as well as data, should be stored within the computer. The EDSAC(Electronic Delay Storage Au­tomatic Calculator), built at Cambridge University in 1949, was the first computer to incorporate these ideas. It was not faster than ENIAC, but it did use the binary number system, and its instructions were stored internally. These instructions were called a program; hence the name stored-program.

1947. The SSEC (Selective Sequence Electronic Calculator) was installed at IBM New York World Headquarters in 1947 and was used through 1952. At about the same time, IBM built a machine that could multiply six-digit numbers by counting electronic pulses. This machine, which was simply a tabulating machine connected to some vacuum tubes, was known as the IBM 603 electronic multiplier.


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Читайте в этой же книге: COMPUTERS OVERVIEW | Text 1 Mechanical calculators Part 1 | Text 2 Mechanical Calculators Part 2 | Verbs to remember |
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