АвтоАвтоматизацияАрхитектураАстрономияАудитБиологияБухгалтерияВоенное делоГенетикаГеографияГеологияГосударствоДомДругоеЖурналистика и СМИИзобретательствоИностранные языкиИнформатикаИскусствоИсторияКомпьютерыКулинарияКультураЛексикологияЛитератураЛогикаМаркетингМатематикаМашиностроениеМедицинаМенеджментМеталлы и СваркаМеханикаМузыкаНаселениеОбразованиеОхрана безопасности жизниОхрана ТрудаПедагогикаПолитикаПравоПриборостроениеПрограммированиеПроизводствоПромышленностьПсихологияРадиоРегилияСвязьСоциологияСпортСтандартизацияСтроительствоТехнологииТорговляТуризмФизикаФизиологияФилософияФинансыХимияХозяйствоЦеннообразованиеЧерчениеЭкологияЭконометрикаЭкономикаЭлектроникаЮриспунденкция

Computer networks

Читайте также:
  1. Calculation of internal water supply networks
  2. Can You Teach Creativity to a Computer?
  3. Computer structure
  4. Computers and algorithms
  5. Computers in my life
  6. Fig. 3.67 A general plan of construction site with engineering networks
  7. Introduction to Computer Graphics
  8. Social networks
  9. Sony Computer Entertainment Europe Ltd
  10. The nature and objectives of fifth generation computers
  11. Types of Computer Operation

 

Computer networks link computers by communication lines and software protocols, allowing data to be exchanged rapidly and reliably. Traditionally, networks have been split between wide area networks (WANs) and local area networks (LANs). A WAN is a network connected over long distance telephone lines, and a LAN is a localized network usually in one building or a group of buildings close together. The distinction, however, is becoming blurred. It is now possible to connect up LANs remotely over telephone links so that they look as though they are a single LAN. Originally, networks were used to provide terminal access to another computer and to transfer files between computers. Today, networks carry e-mail, provide access to public databases and bulletin boards, and are beginning to be used for distributed systems. Networks also allow users in one locality to share expensive resources, such as printers and disk-systems.

Distributed computer systems are built using networked computers that co-operate to perform tasks. In this environment each part of the networked system does what it is best at. The high-quality bit-mapped graphics screen of a personal computer or workstation provides a good user interface. The mainframe, on the other hand, can handle large numbers of queries and return the results to the users. In a distributed environment, a user might use his PC to make a query against a central database. The PC passes the query, written in a special language (e.g. Structured Query Language-SQL), to the mainframe, which then parses the query, returning to the user only the data requested. The user might then use his PC to draw graphs based on the data. By passing back to the user's PC only the specific information requested, network traffic is reduced. If the whole file were transmitted, the PC would then have to perform the query itself, reducing the efficiency of both network and PC.

In the 1980s, at least 100,000 LANs were set up in laboratories and offices around the world. During the early part of this decade, synchronous orbit satellites lowered the price of long-distance telephone calls, enabling computer data and television signals to be distributed more cheaply around the world. Since then, fiber-optic cable has been installed on a large scale, enabling vast amounts of data to be transmitted at a very high speed using light signals.

The impact of fiber optics will be considerable to reduce the price of network access. Global communication and computer networks will become more and more a part of professional and personal lives as the price of microcomputers and network access drops. At the same time, distributed computer networks should improve our work environments and technical abilities.


 

Key

Unit I

I.

A frequency range tool consequently fiber sample lesion hostile missile bore fraction simplify cauterize valuable vaporize tissue   B enormous extremely machine-tool unprecedented precise coherent induce   C amplification light beam exposure time  

II.

1) e; 2) g; 3) i; 4) b; 5) h; 6) j; 7) d; 8) c; 9) f; 10) a.

III.

A B C D
1) b; 1) c; 1) d; 1) d;
2) a, b; 2) c; 2) a; 2) a;
3) c; 3) d; 3) c; 3) b;
4) a, b; 4) a; 4) b; 4) b.

IV.

1. эмиссия, испускание

2. распространять (ся)

3. мощный, сильный

4. относительность

5. точный

6. рассеивать

7. частота

8. выборочно, избирательно

9. здоровье

10. предложение

V.

scientif ic – научный

power ful – мощный, сильный

effect ive – эффективный, действенный, результативный

success ful – успешный

select ive – избирательный, выборочный

communica tive – коммуникабельный, контактный, общительный

industri al – промышленный

direction al – направленный

spaci ous – обширный, просторный

molecul ar – молекулярный

chemic al – химический

VI.

emit – radiate

produce – manufacture

propagate – spread

highly – very

enormous – huge

spot – place

precise – accurate

use – apply

amount – quantity

cause – bring about

speed – velocity

detect – find out

reduction – decrease

simplify – facilitate

bore – drill

propose – suggest

VII.

a) 5; b) 13; c) 14; d) 1; e) 15; f) 12; g) 11; h) 10; i) 2; j) 7; k) 6; l) 3; m) 9; n) 8; o) 4.


1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 | 23 | 24 | 25 | 26 | 27 | 28 |

Поиск по сайту:



Все материалы представленные на сайте исключительно с целью ознакомления читателями и не преследуют коммерческих целей или нарушение авторских прав. Студалл.Орг (0.005 сек.)