computing electronics

Strachey, Christopher

SUBJECT AREA: Electronics and information technology

[br]

b. 16 November 1916 England

d. 18 May 1975 Oxford, England

[br]

English physicist and computer engineer who proposed time-sharing as a more efficient means of using a mainframe computer.

[br]

After education at Gresham's School, London, Strachey went to King's College, Cambridge, where he completed an MA. In 1937 he took up a post as a physicist at the Standard Telephone and Cable Company, then during the Second World War he was involved in radar research. In 1944 he became an assistant master at St Edmunds School, Canterbury, moving to Harrow School in 1948. Another change of career in 1951 saw him working as a Technical Officer with the National Research and Development Corporation, where he was involved in computer software and hardware design. From 1958 until 1962 he was an independent consultant in computer design, and during this time (1959) he realized that as mainframe computers were by then much faster than their human operators, their efficiency could be significantly increased by "time-sharing" the tasks of several operators in rapid succession. Strachey made many contributions to computer technology, being variously involved in the design of the Manchester University MkI, Elliot and Ferranti Pegasus computers. In 1962 he joined Cambridge University Mathematics Laboratory as a senior research fellow at Churchill College and helped to develop the programming language CPL. After a brief period as Visiting Lecturer at the Massachusetts Institute of Technology, he returned to the UK in 1966 as Reader in Computation and Fellow of Wolfeon College, Oxford, to establish a programming research group. He remained there until his death.

[br]

Principal Honours and Distinctions

Distinguished Fellow of the British Computer Society 1972.

Bibliography

1961, with M.R.Wilkes, "Some proposals for improving the efficiency of Algol 60", Communications of the ACM 4:488.

1966, "Systems analysis and programming", Scientific American 25:112. 1976, with R.E.Milne, A Theory of Programming Language Semantics.

Further Reading

J.Alton, 1980, Catalogue of the Papers of C. Strachey 1916–1975.

M.Campbell-Kelly, 1985, "Christopher Strachey 1916–1975. A biographical note", Annals of the History of Computing 7:19.

M.R.Williams, 1985, A History of Computing Technology, London: Prentice-Hall.

See also: Wilkes, Maurice Vincent; Williams, Sir Frederic Calland

KF

Zuse, Konrad

SUBJECT AREA: Electronics and information technology

[br]

b. 22 June 1910 Berlin, Germany

[br]

German civil engineer who developed a series of computers before, during and after the Second World War.

[br]

Zuse grew up in Braunsberg, then in East Prussia, and attended the Technische Hochschule at Berlin-Charlottenburg to study civil engineering. In 1934 he became interested in calculatingmachines and the pursuit of a career in aeronautical engineering. Two years later, having taken a post as a statistician, in his spare time he built a mechanical computer, which he called Z1; for this he used two-state mechanical switches and punched-tape for the program input. This was followed by the design for Z2, which used electromechanical relays.

Called to military service in 1939, he was soon sent to the Henschel aircraft factory, where he completed Z2. Between 1939 and 1941 the German Aeronautical Research Institute supported his development of Z3, which used 2,600 relays and a keyboard input. Taken into immediate use by the aircraft industry, both it and its predecessors were destroyed in air raids. Z4, completed towards the end of the war and using mechanical memory, survived, and with improvements was used in Switzerland until 1960. Other achievements by Zuse included a machine to perform logical calculations (LI) and his Plankalkul, one of the first computer languages. In 1950, with two friends, he formed the Zuse KG company near Bad Hersfeld, Essen, and his first Z5 relay computer was sold to Leitz in 1952. A series of machines followed, a milestone in 1958 being the first transistorized machine, Z22, of which over 200 were made. Finally, in 1969, the company was absorbed by Siemens AG and Zuse returned to scientific research.

[br]

Principal Honours and Distinctions

Honorary Doctorate Berlin Technical University 1960. Honorary Professor Göttingen University 1960.

Bibliography

11 April 1936, German patent no. Z23 1391X/42M. 16 June 1941, German patent no. Z391.

1 August 1949, German patent no. 50,746.

1993, The Computer: My Life, Berlin: SpringerVerlag (autobiography).

Further Reading

P.E.Ceruzzi, 1981, "The early computers of Konrad Zuse 1935–45", Annals of the History of Computing 3:241.

M.R.Williams, 1985, A History of Computing Technology, London: Prentice-Hall.

See also: Stibitz, George R.

KF

PCE

1) Компьютерная техника: Portable Computer Enhancement

2) Медицина: полихроматический эритроцит (polychromatic erythrocyte)

3) Американизм: Per Capita Expenditure

4) Военный термин: Patrol Craft, Escort, Patrol Escort, Power Conditioning Equipment, Power Conversion Equipment, probable circular error, professional continuing education

5) Техника: process control engineering

6) Шутливое выражение: Pizza Carton Elevation

7) Религия: Personal Consumption Expenditures

8) Юридический термин: physical capacities evaluation

9) Финансы: доходы от сделок за наличные (price cash earnings)

10) Оптика: phase-change erasable

11) Сокращение: Post-Communist Europe, Postal Computing Environment, Private Consumption Expenditure, Program Cost Estimate, personal consumption expenditure, personal consumption expenditure (s)

12) Физика: Plasma Crystal Experiment

13) Вычислительная техника: process input-output control electronics, punched card equipment

14) Иммунология: полихромные эритроциты

15) Транспорт: Passenger Car Equivalents

16) Силикатное производство: pyrometric cone equivalent

17) Фирменный знак: Performance Chemicals Europe, Progressive Consulting Engineers

18) Менеджмент: preliminary control estimate

19) Сетевые технологии: personal communication electronics, аппаратура управления процессом ввода-вывода, электронные устройства для индивидуальной связи

20) Макаров: огнеупорность по пирометрическому конусу

21) Нефть и газ: (pressure control equipment) оборудование для контроля давления (Карачаганак, Rigless &, WireLine)

SCE

1) Общая лексика: hum. сокр. School of Continuing Education, safety critical elements (SEIC), Scottish Certificate of Education

2) Компьютерная техника: Standard Computing Environment

3) Спорт: Surf Charge Exposition

4) Военный термин: Strategic Crisis Exercise, Student Crisis Exercise, service cryptologic element, stabilization control electronics

5) Техника: service checkout equipment, short-channel effect, signal conditioning equipment, single cycle execute, situation-caused error

6) Религия: Successful Communication Experience

7) Экономика: Европейское кооперативное общество (European Cooperative Society (Société coopérative européenne)), Societas Cooperativa Europaea (то есть European Cooperative Society, Европейское кооперативное общество, новая правовая форма организаций внутри Европейсокго сообщества, соткращенный вариант перевода - ЕКО, возможен)

8) Грубое выражение: Seriously Crap Employers

9) Телекоммуникации: Service Class Environment, Service Creation Environment

10) Сокращение: Safety Consulting Engineers Inc. (USA), Signal Conversion Equipment, Structure Chart Editor

11) Электроника: Signal Conditioning Electronics, Silver Containing Electrode, Standard Calomel Electrode

12) Нефть: perforating-ceramic DPC, perforating-expendable shaped charge

13) Генетика: sister chromatid exchange

14) Связь: Service Creation Environment (IN)

15) Энергетика: system control error

16) Глоссарий компании Сахалин Энерджи: solids control equipment

17) Ядерная физика: Single Charge Exchange

18) Химическое оружие: safety critical element (Olga)

19) Макаров: saturated calomel electrode, сестринские хроматидные обмены, (saturated calomel electrode)(reference electrode) насыщенный каломельный электрод

20) Безопасность: Special Collection Element

21) Нефть и газ: Solids control efficiency

22) Фармация: Summary of Clinical Efficacy

23) Должность: Site Construction Expert

24) Аэропорты: State College, Pennsylvania USA

25) НАСА: Software Capability Evaluation

pce

1) Компьютерная техника: Portable Computer Enhancement

2) Медицина: полихроматический эритроцит (polychromatic erythrocyte)

3) Американизм: Per Capita Expenditure

4) Военный термин: Patrol Craft, Escort, Patrol Escort, Power Conditioning Equipment, Power Conversion Equipment, probable circular error, professional continuing education

5) Техника: process control engineering

6) Шутливое выражение: Pizza Carton Elevation

7) Религия: Personal Consumption Expenditures

8) Юридический термин: physical capacities evaluation

9) Финансы: доходы от сделок за наличные (price cash earnings)

10) Оптика: phase-change erasable

11) Сокращение: Post-Communist Europe, Postal Computing Environment, Private Consumption Expenditure, Program Cost Estimate, personal consumption expenditure, personal consumption expenditure (s)

12) Физика: Plasma Crystal Experiment

13) Вычислительная техника: process input-output control electronics, punched card equipment

14) Иммунология: полихромные эритроциты

15) Транспорт: Passenger Car Equivalents

16) Силикатное производство: pyrometric cone equivalent

17) Фирменный знак: Performance Chemicals Europe, Progressive Consulting Engineers

18) Менеджмент: preliminary control estimate

19) Сетевые технологии: personal communication electronics, аппаратура управления процессом ввода-вывода, электронные устройства для индивидуальной связи

20) Макаров: огнеупорность по пирометрическому конусу

21) Нефть и газ: (pressure control equipment) оборудование для контроля давления (Карачаганак, Rigless &, WireLine)

sce

1) Общая лексика: hum. сокр. School of Continuing Education, safety critical elements (SEIC), Scottish Certificate of Education

2) Компьютерная техника: Standard Computing Environment

3) Спорт: Surf Charge Exposition

4) Военный термин: Strategic Crisis Exercise, Student Crisis Exercise, service cryptologic element, stabilization control electronics

5) Техника: service checkout equipment, short-channel effect, signal conditioning equipment, single cycle execute, situation-caused error

6) Религия: Successful Communication Experience

7) Экономика: Европейское кооперативное общество (European Cooperative Society (Société coopérative européenne)), Societas Cooperativa Europaea (то есть European Cooperative Society, Европейское кооперативное общество, новая правовая форма организаций внутри Европейсокго сообщества, соткращенный вариант перевода - ЕКО, возможен)

8) Грубое выражение: Seriously Crap Employers

9) Телекоммуникации: Service Class Environment, Service Creation Environment

10) Сокращение: Safety Consulting Engineers Inc. (USA), Signal Conversion Equipment, Structure Chart Editor

11) Электроника: Signal Conditioning Electronics, Silver Containing Electrode, Standard Calomel Electrode

12) Нефть: perforating-ceramic DPC, perforating-expendable shaped charge

13) Генетика: sister chromatid exchange

14) Связь: Service Creation Environment (IN)

15) Энергетика: system control error

16) Глоссарий компании Сахалин Энерджи: solids control equipment

17) Ядерная физика: Single Charge Exchange

18) Химическое оружие: safety critical element (Olga)

19) Макаров: saturated calomel electrode, сестринские хроматидные обмены, (saturated calomel electrode)(reference electrode) насыщенный каломельный электрод

20) Безопасность: Special Collection Element

21) Нефть и газ: Solids control efficiency

22) Фармация: Summary of Clinical Efficacy

23) Должность: Site Construction Expert

24) Аэропорты: State College, Pennsylvania USA

25) НАСА: Software Capability Evaluation

DCE

1. data circuit-terminating equipment - оконечная аппаратура схемы обработки данных; оконечное оборудование линии передачи данных;

2. data collection equipment - аппаратура сбора данных;

3. data communications equipment - аппаратура передачи данных; АПД; телекоммуникационное оборудование;

4. data control equipment - аппаратура управления данными;

5. data conversion equipment - аппаратура преобразования данных;

6. despin control electronics - электронная аппаратура системы управления стабилизацией;

7. Directorate of Communications-Electronics - Управление связи и радиоэлектроники;

8. distributed computing environment - среда распределенных вычислений

feedback

feedback ['fi:dbæk]

noun

(a) Electronics rétroaction f; (in microphone) effet m Larsen; Computing réaction f, rétroaction f, retour m ou remontée f de l'information;

∎ Electronics positive/negative feedback réactions fpl positives/négatives

(b) (UNCOUNT) (information) réactions fpl, échos mpl;

∎ we haven't had much feedback from them nous n'avons pas eu beaucoup de réactions ou d'échos de leur part;

∎ we welcome feedback from customers nous sommes toujours heureux d'avoir les impressions ou les réactions de nos clients;

∎ we need more feedback nous avons besoin de plus d'information ou d'informations en retour;

∎ this will provide us with much-needed feedback on public opinion ceci nous fournira des informations dont nous avons grand besoin sur l'opinion publique

Shannon, Claude Elwood

SUBJECT AREA: Electronics and information technology, Telecommunications

[br]

b. 30 April 1916 Gaylord, Michigan, USA

[br]

American mathematician, creator of information theory.

[br]

As a child, Shannon tinkered with radio kits and enjoyed solving puzzles, particularly crypto-graphic ones. He graduated from the University of Michigan in 1936 with a Bachelor of Science in mathematics and electrical engineering, and earned his Master's degree from the Massachusetts Institute of Technology (MIT) in 1937. His thesis on applying Boolean algebra to switching circuits has since been acclaimed as possibly the most significant this century. Shannon earned his PhD in mathematics from MIT in 1940 with a dissertation on the mathematics of genetic transmission.

Shannon spent a year at the Institute for Advanced Study in Princeton, then in 1941 joined Bell Telephone Laboratories, where he began studying the relative efficiency of alternative transmission systems. Work on digital encryption systems during the Second World War led him to think that just as ciphers hide information from the enemy, "encoding" information could also protect it from noise. About 1948, he decided that the amount of information was best expressed quantitatively in a two-value number system, using only the digits 0 and 1. John Tukey, a Princeton colleague, named these units "binary digits" (or, for short, "bits"). Almost all digital computers and communications systems use such on-off, or two-state logic as their basis of operation.

Also in the 1940s, building on the work of H. Nyquist and R.V.L. Hartley, Shannon proved that there was an upper limit to the amount of information that could be transmitted through a communications channel in a unit of time, which could be approached but never reached because real transmissions are subject to interference (noise). This was the beginning of information theory, which has been used by others in attempts to quantify many sciences and technologies, as well as subjects in the humanities, but with mixed results. Before 1970, when integrated circuits were developed, Shannon's theory was not the preferred circuit-and-transmission design tool it has since become.

Shannon was also a pioneer in the field of artificial intelligence, claiming that computing machines could be used to manipulate symbols as well as do calculations. His 1953 paper on computers and automata proposed that digital computers were capable of tasks then thought exclusively the province of living organisms. In 1956 he left Bell Laboratories to join the MIT faculty as Professor of Communications Science.

On the lighter side, Shannon has built many devices that play games, and in particular has made a scientific study of juggling.

[br]

Principal Honours and Distinctions

National Medal of Science. Institute of Electrical and Electronics Engineers Medal of Honor, Kyoto Prize.

Bibliography

His seminal paper (on what has subsequently become known as information theory) was entitled "The mathematical theory of communications", first published in Bell System Technical Journal in 1948; it is also available in a monograph (written with Warren Weaver) published by the University of Illinois Press in 1949, and in Key Papers in the Development of Information Theory, ed. David Slepian, IEEE Press, 1974, 1988. For readers who want all of Shannon's works, see N.J.A.Sloane and A.D.Wyner, 1992, The

Collected Papers of Claude E.Shannon.

HO

Stibitz, George R.

SUBJECT AREA: Electronics and information technology

[br]

b. 20 April 1904 York, Pennsylvania, USA

[br]

American mathematician responsible for the conception of the Bell Laboratories "Complex " computer.

[br]

Stibitz spent his early years in Dayton, Ohio, and obtained his first degree at Denison University, Granville, Ohio, his MS from Union College, Schenectady, New York, in 1927 and his PhD in mathematical physics from Cornell University, Ithaca, New York, in 1930. After working for a time for General Electric, he joined Bell Laboratories to work on various communications problems. In 1937 he started to experiment at home with telephone relays as the basis of a calculator for addition, multiplication and division. Initially this was based on binary arithmetic, but later he used binary-coded decimal (BCD) and was able to cope with complex numbers. In November 1938 the ideas were officially taken up by Bell Laboratories and, with S.B.Williams as Project Manager, Stibitz built a complex-number computer known as "Complex", or Relay I, which became operational on 8 January 1940.

With the outbreak of the Second World War, he was co-opted to the National Defence Research Council to work on anti-aircraft (AA) gun control, and this led to Bell Laboratories Relay II computer, which was completed in 1943 and which had 500 relays, bi-quinary code and selfchecking of errors. A further computer, Relay III, was used for ballistic simulation of actual AA shell explosions and was followed by more machines before and after Stibitz left Bell after the end of the war. Stibitz then became a computer consultant, involved in particular with the development of the UNIVAC computer by John Mauchly and J.Presper Eckert.

[br]

Principal Honours and Distinctions

Institute of Electrical and Electronics Engineers Emanuel R.Priore Award 1977.

Bibliography

1957, with J.A.Larrivee, Mathematics and Computers, New York: McGraw-Hill. 1967, "The Relay computer at the Bell Laboratories", Datamation 35.

Further Reading

E.Loveday, 1977, "George Stibitz and the Bell Labs Relay computer", Datamation 80. M.R.Williams, 1985, A History of Computing Technology, London: Prentice-Hall.

KF

Wirth, Niklaus

SUBJECT AREA: Electronics and information technology

[br]

fl. late 1960s Zurich, Switzerland

[br]

Swiss computer engineer noted for his development of the high-level computer language PASCAL.

[br]

For many years Wirth was Professor of Computing Science at Zurich Federal Polytechnic School. In 1969, seeking a high-level computer language suitable for teaching programming as a systematic activity, he invented PASCAL, which is now widely used with personal computers (PCs). Unlike BASIC, which is checked and run a line at a time, PASCAL programs are compiled (i.e. they are fully checked for consistency) before they are actually run.

[br]

Principal Honours and Distinctions

Institute of Electrical and Electronics Engineers Emanuel R.Piore Award 1983.

Bibliography

1971, "The programming language PASCAL", Acta Informatica 1:35.

Further Reading

R.L.Wexelblat (ed.), 1981, History of Programming Languages, London: Academic Press.

See also: Kemeny, John G.; Kurtz, Thomas E.

KF

CCE

1) Общая лексика: Current Control Estimate (SEIC)

2) Медицина: Clinical Care Extender

3) Военный термин: Chief of Communications/Electronics, Chief, Corps of Engineers, Contingency Communications Element, combat communications equipment, combat control element, command control equipment, commercial construction equipment, communications control equipment

4) Техника: Chief Construction Engineer, Consultative Committee for Electricity, charge composition Explorer, computer command engineer

5) Юридический термин: Continuing Criminal Enterprise, непрерывная преступная деятельность

6) Сокращение: Combat Contingency Element

7) Вычислительная техника: Connection Control Entity, (visual basic) Control Creation Edition (VB, ActiveX, MS)

8) Экология: carbon chloroform extract

9) Глоссарий компании Сахалин Энерджи: Current Control Estimate (сах), Current Control Estimate

10) Менеджмент: current control estimate or contract control estimate

11) Образование: Certified Childbirth Educator, Crystal City Evening Toastmasters Club

12) Сетевые технологии: Collaborative Communications Environment, Collaborative Computing Environment, среда совместных вычислений

13) Контроль качества: complex control equipment

14) Должность: Certified Computer Examiner, Computer Communication Engineering, Customised Conditions Of Employment

15) NYSE. Coca Cola Enterprises, Inc.

16) Хобби: Certified Coin Exchange

Center

- Center for Innovative Computer Applications

- Center for Networked Information Discovery and Retrieval

- Asia Pacific Network Information Center

- Defense Data Network Network Information Center

- Electronics Research Center

- European Space Technology Center

- International Computation Center

- International Patent Documentation Center

- Internet Network Information Center

- Internet Network Operations Center

- National Center for Supercomputing Applications

- National Crime Information Center

- National Computing Center

- National Fraud Information Center

- National Information Technology Center

- On-line Computer Library Center

- Palo Alto Research Center

Conference

- Conference of European Postal and Telecommunications Operators

- Conference on Data Systems and Languages

- Coordinating Conference for Military Export Controls

- Electrical and Electronic Measurements Test Instrument Conference

- Extraordinary Administrative Radio Conference

- International Conference on Magnetics

- International Solid-State Circuit Conference

- National Aerospace Electronics Conference

- National Educational Computing Conference

- World Conference on Computers in Education

- World Administrative Radio Conference

- World Administrative Telegraph and Telephone Conference

- World Radiocommunication Conference

equipment

оборудование; аппаратура

- airport surface detection equipment

- ancillary equipment
- antenna-pattern-measuring equipment
- artwork equipment
- automatic answerback equipment
- automatic calling equipment
- automatic computing equipment
- automatic control equipment
- automatic data processing equipment
- automatic test equipment
- auxiliary equipment
- auxiliary ground equipment
- baseband equipment
- BIT equipment
- built-in test equipment
- business equipment
- CAD equipment
- calling equipment
- channelizing equipment
- ciphony equipment
- clean-room equipment
- commercial equipment
- common equipment
- communications-electronics equipment
- component-insertion equipment
- component-placement equipment
- computer-aided design equipment
- computer-assisted design equipment
- computer-based equipment
- consumer equipment
- control and switching equipment
- controlling equipment
- customer premises equipment
- data circuit-terminating equipment
- data communication equipment
- data-logging equipment
- data-processing equipment
- data terminal equipment
- data-transmission equipment
- desoldering equipment
- dialing equipment
- diffusion equipment
- diffusion processing equipment
- digital intercontinental conversion equipment
- digital multiplex equipment
- digital multiplexing equipment
- disk playing equipment
- display equipment
- distance-measuring equipment
- domestic radio equipment
- E-beam equipment
- ECM equipment
- electron-beam equipment
- electronic equipment
- electronic countermeasures equipment
- electronic data gathering equipment
- electronic skyscreen equipment
- electronic test equipment
- error-control equipment
- etchant regeneration equipment
- evacuating equipment
- facsimile transmission equipment
- fire-control equipment
- ground communications equipment
- ground control equipment
- ground data equipment
- ground guidance equipment
- ground instrumentation equipment
- ground-support equipment
- handheld electronic equipment
- high-end stereo equipment
- high-performance equipment
- hybrid soldering equipment
- hydrothermal equipment
- IC processing equipment
- industrial heating equipment
- industrial, scientific and medical equipment
- input equipment
- insertion equipment
- instrumentation equipment
- interference suppression equipment
- ion-implantation equipment
- ionospheric sounding equipment
- lead forming equipment
- line equipment
- lithographic equipment
- lithography equipment
- low-end stereo equipment
- manipulating equipment
- mask-making equipment
- microlithographic equipment
- mobile telephone equipment
- monophonic equipment
- multiplexing equipment
- noise measuring equipment
- off-line equipment
- on-line equipment
- output equipment
- palmtop electronic equipment
- peripheral equipment
- photolithographic equipment
- photolithography equipment
- photomask-making equipment
- photoresist developing equipment
- placement equipment
- processing equipment
- projection aligning equipment
- projection-printing equipment
- radar interface and control equipment
- radar pilotage equipment
- radar-processing equipment
- radio receiving equipment
- radio sighting equipment
- radio transmitting equipment
- random-access computer equipment
- receiving equipment
- reception equipment
- recording equipment
- reel-to-reel equipment
- remote-control equipment
- reproduction equipment
- resist developing equipment
- semiconductor production equipment
- signal-conversion equipment
- simulation equipment
- single-channel per carrier PCM multiple access demand assignment equipment
- slotted standing-wave ratio measuring equipment
- soldering equipment
- standby equipment
- step-and-repeat equipment
- stereo equipment
- stereophonic equipment
- tabulating equipment
- telemetric equipment
- telemetry automatic reduction equipment
- terminal equipment
- test equipment
- test and monitoring equipment
- training equipment
- trimming equipment
- ultrasonic equipment
- ultrasonic testing equipment
- user equipment
- versatile automatic test equipment
- wafer-fabrication equipment
- wafer handling equipment
- wire-bonding equipment

Center

в соч.

- Asia Pacific Network Information Center

- Center for Innovative Computer Applications
- Center for Networked Information Discovery and Retrieval
- Defense Data Network Network Information Center
- Electronics Research Center
- European Space Technology Center
- International Computation Center
- International Patent Documentation Center
- Internet Network Information Center
- Internet Network Operations Center
- National Center for Supercomputing Applications
- National Computing Center
- National Crime Information Center
- National Fraud Information Center
- National Information Technology Center
- On-line Computer Library Center
- Palo Alto Research Center

Conference

в соч.

- Conference of European Postal and Telecommunications Operators

- Conference on Data Systems and Languages
- Coordinating Conference for Military Export Controls
- Electrical and Electronic Measurements Test Instrument Conference
- Extraordinary Administrative Radio Conference
- International Conference on Magnetics
- International Solid-State Circuit Conference
- National Aerospace Electronics Conference
- National Educational Computing Conference
- World Administrative Radio Conference
- World Administrative Telegraph and Telephone Conference
- World Conference on Computers in Education
- World Radiocommunication Conference

equipment

оборудование; аппаратура

- airport surface detection equipment

- ancillary equipment
- antenna-pattern-measuring equipment
- artwork equipment
- automatic answerback equipment
- automatic calling equipment
- automatic computing equipment
- automatic control equipment
- automatic data processing equipment
- automatic test equipment
- auxiliary equipment
- auxiliary ground equipment
- baseband equipment
- BIT equipment
- built-in test equipment
- business equipment
- CAD equipment
- calling equipment
- channelizing equipment
- ciphony equipment
- clean-room equipment
- commercial equipment
- common equipment
- communications-electronics equipment
- component-insertion equipment
- component-placement equipment
- computer-aided design equipment
- computer-assisted design equipment
- computer-based equipment
- consumer equipment
- control and switching equipment
- controlling equipment
- customer premises equipment
- data circuit-terminating equipment
- data communication equipment
- data terminal equipment
- data-logging equipment
- data-processing equipment
- data-transmission equipment
- desoldering equipment
- dialing equipment
- diffusion equipment
- diffusion processing equipment
- digital intercontinental conversion equipment
- digital multiplex equipment
- digital multiplexing equipment
- disk playing equipment
- display equipment
- distance-measuring equipment
- domestic radio equipment
- E-beam equipment
- ECM equipment
- electron-beam equipment
- electronic countermeasures equipment
- electronic data gathering equipment
- electronic equipment
- electronic skyscreen equipment
- electronic test equipment
- error-control equipment
- etchant regeneration equipment
- evacuating equipment
- facsimile transmission equipment
- fire-control equipment
- ground communications equipment
- ground control equipment
- ground data equipment
- ground guidance equipment
- ground instrumentation equipment
- ground-support equipment
- handheld electronic equipment
- high-end stereo equipment
- high-performance equipment
- hybrid soldering equipment
- hydrothermal equipment
- IC processing equipment
- industrial heating equipment
- industrial, scientific and medical equipment
- input equipment
- insertion equipment
- instrumentation equipment
- interference suppression equipment
- ion-implantation equipment
- ionospheric sounding equipment
- lead forming equipment
- line equipment
- lithographic equipment
- lithography equipment
- low-end stereo equipment
- manipulating equipment
- mask-making equipment
- microlithographic equipment
- mobile telephone equipment
- monophonic equipment
- multiplexing equipment
- noise measuring equipment
- off-line equipment
- on-line equipment
- output equipment
- palmtop electronic equipment
- peripheral equipment
- photolithographic equipment
- photolithography equipment
- photomask-making equipment
- photoresist developing equipment
- placement equipment
- processing equipment
- projection aligning equipment
- projection-printing equipment
- radar interface and control equipment
- radar pilotage equipment
- radar-processing equipment
- radio receiving equipment
- radio sighting equipment
- radio transmitting equipment
- random-access computer equipment
- receiving equipment
- reception equipment
- recording equipment
- reel-to-reel equipment
- remote-control equipment
- reproduction equipment
- resist developing equipment
- semiconductor production equipment
- signal-conversion equipment
- simulation equipment
- single-channel per carrier PCM multiple access demand assignment equipment
- slotted standing-wave ratio measuring equipment
- soldering equipment
- standby equipment
- step-and-repeat equipment
- stereo equipment
- stereophonic equipment
- tabulating equipment
- telemetric equipment
- telemetry automatic reduction equipment
- terminal equipment
- test and monitoring equipment
- test equipment
- training equipment
- trimming equipment
- ultrasonic equipment
- ultrasonic testing equipment
- user equipment
- versatile automatic test equipment
- wafer handling equipment
- wafer-fabrication equipment
- wire-bonding equipment

traffic

traffic [ˈtræfɪk]

(verb: preterite, past participle trafficked)

1. noun

   a. (on roads) circulation f ; (other) trafic m

• road traffic circulation f routière

• holiday traffic circulation f des grands départs

• traffic is heavy il y a beaucoup de circulation

• traffic out of Paris la circulation dans le sens Paris-province

• traffic in and out of Heathrow Airport le trafic à destination et en provenance de l'aéroport de Heathrow

   b. ( = illegal trade) trafic m (in de)

2. intransitive verb

• to traffic in sth faire le commerce de qch

3. compounds

► traffic calming noun mesures de ralentissement de la circulation en ville

► traffic circle noun (US) rond-point m

► traffic cone noun cône m de signalisation

► traffic control tower noun tour f de contrôle

► traffic cop (inf) noun

≈ agent m de police

► traffic court noun (US) tribunal où sont jugées les infractions au code de la route

► traffic duty noun

• to be on traffic duty faire la circulation ► traffic jam noun bouchon m

► traffic lights plural noun feux mpl de signalisation

• to go through the traffic lights at red passer au rouge

• the traffic lights were green le feu était vert ► traffic offence noun infraction f au code de la route

► traffic police noun police f de la route

► traffic warden noun (British) contractuel (le) m(f)

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✎ The French word trafic has only one f.

* * *

['træfɪk] 1.

noun

1) Automobile circulation f; Aviation, Nautical, Railways trafic m

traffic into/out of London — la circulation vers/en sortant de Londres

to hold up the traffic — provoquer un bouchon

air/passenger traffic — trafic aérien/de voyageurs

2) ( dealing) (in drugs, arms, slaves, goods) trafic m (in de); ( in ideas) mouvement m (in de)

3) Electronics, Computing, Telecommunications trafic m

2.

noun modifier [ accident, problem, regulations] de la circulation

traffic flow — circulation f

3.

intransitive verb (p prés etc - ck-)

to traffic in — faire du trafic de [drugs, cocaine, arms, stolen goods]

IDE

noun

COMPUTING ( abbreviation integrated drive electronics) IDE m