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1 rapid engineer development, heavy operational repair squadron, engineering
REDHORSE, rapid engineer development, heavy operational repair squadron, engineeringэскадрилья быстрого усовершенствования оборудования и сложного эксплуатационного ремонта техникиEnglish-Russian dictionary of planing, cross-planing and slotting machines > rapid engineer development, heavy operational repair squadron, engineering
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2 rapid engineer development, heavy operational repair squadron, engineering
Military: REDHORSEУниверсальный русско-английский словарь > rapid engineer development, heavy operational repair squadron, engineering
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3 REDHORSE
Военный термин: rapid engineer development, heavy operational repair squadron, engineering -
4 REDHORSE
REDHORSE, rapid engineer development, heavy operational repair squadron, engineeringэскадрилья быстрого усовершенствования оборудования и сложного эксплуатационного ремонта техникиEnglish-Russian dictionary of planing, cross-planing and slotting machines > REDHORSE
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5 force(s)
сила; группа; группировка; формирования; части и соединения [подразделения]; мор. отряд; соединение; pl. войска, силы; вооруженные силы, ВС; форсироватьACE mobile force(s), Air — мобильные ВВС ОВС НАТО в Европе
ACE mobile force(s), Land — мобильные СВ ОВС НАТО в Европе
Air forces, Gulf — Бр. ВВС в районе Персидского залива
Air forces, Northern Army Group BBC — Северной группы армий (ОВС НАТО в Европе)
Allied forces, Central [Northern, Southern] Europe — ОВС НАТО на Центрально-Европейском [Северо-Европейском, Южно-Европейском] ТВД
Allied forces, Europe OBC — НАТО в Европе
Allied Land forces, Northern [Southern] Europe — ОСВ НАТО на Северо-Европейском [Южно-Европейском] ТВД
Allied Naval forces, Northern [Southern] Europe — ОВМС НАТО на Северо-Европейском [Южно-Европейском] ТВД
carrier submarine detection [search] and striking force — ПЛ авианосная поисково-ударная группа
earmarked (for assignment) forces — войска [силы], выделенные [предназначенные] для передачи в оперативное подчинение (командования НАТО)
insert a force (into the area) — высаживать десант; десантировать (часть, подразделение)
mobile logistical (support) force — соединение сил [судов] подвижного тылового обеспечения (ВМС)
mobile logistics (support) force — соединение сил [судов] подвижного тылового обеспечения (ВМС)
NATO-earmarked (for assignment) forces — войска, выделенные [предназначенные] для передачи в оперативное подчинение командования НАТО
On-Call Naval force, Mediterranean — оперативное соединение ОВМС НАТО на Средиземном море для действий по вызову
rapid deployment force, Air — авиационный компонент СВР
rapid deployment force, Army — сухопутный компонент СВР
rapid deployment force, Navy — военноморской компонент СВР
special service force (mobile command) — Кан. группа войск специального назначения (мобильного командования)
Standing Naval force, Atlantic — постоянное оперативное соединение ОВМС НАТО на Атлантике
UN Peace Keeping forces, Cyprus — ВС ООН по поддержанию мира на Кипре
US forces, Europe — ВС США в Европейской зоне
— ACE mobile forces— amphibious assault force— BM force— conventional armed forces— counterforce-capable forces— divert forces from— experimental naval forces— fleet-based air force— frontier-guarding force— garrison forces— in force— international forces— link-up force— main battle forces— nuclear forces— special action forces— tactical nuclear-capable forces— unconventional warfare forces— visiting armed force -
6 force(s)
сила; группа; группировка; формирования; части и соединения [подразделения]; мор. отряд; соединение; pl. войска, силы; вооруженные силы, ВС; форсироватьACE mobile force(s), Air — мобильные ВВС ОВС НАТО в Европе
ACE mobile force(s), Land — мобильные СВ ОВС НАТО в Европе
Air forces, Gulf — Бр. ВВС в районе Персидского залива
Air forces, Northern Army Group BBC — Северной группы армий (ОВС НАТО в Европе)
Allied forces, Central [Northern, Southern] Europe — ОВС НАТО на Центрально-Европейском [Северо-Европейском, Южно-Европейском] ТВД
Allied forces, Europe OBC — НАТО в Европе
Allied Land forces, Northern [Southern] Europe — ОСВ НАТО на Северо-Европейском [Южно-Европейском] ТВД
Allied Naval forces, Northern [Southern] Europe — ОВМС НАТО на Северо-Европейском [Южно-Европейском] ТВД
carrier submarine detection [search] and striking force — ПЛ авианосная поисково-ударная группа
earmarked (for assignment) forces — войска [силы], выделенные [предназначенные] для передачи в оперативное подчинение (командования НАТО)
insert a force (into the area) — высаживать десант; десантировать (часть, подразделение)
mobile logistical (support) force — соединение сил [судов] подвижного тылового обеспечения (ВМС)
mobile logistics (support) force — соединение сил [судов] подвижного тылового обеспечения (ВМС)
NATO-earmarked (for assignment) forces — войска, выделенные [предназначенные] для передачи в оперативное подчинение командования НАТО
On-Call Naval force, Mediterranean — оперативное соединение ОВМС НАТО на Средиземном море для действий по вызову
rapid deployment force, Air — авиационный компонент СВР
rapid deployment force, Army — сухопутный компонент СВР
rapid deployment force, Navy — военноморской компонент СВР
special service force (mobile command) — Кан. группа войск специального назначения (мобильного командования)
Standing Naval force, Atlantic — постоянное оперативное соединение ОВМС НАТО на Атлантике
UN Peace Keeping forces, Cyprus — ВС ООН по поддержанию мира на Кипре
US forces, Europe — ВС США в Европейской зоне
— ACE mobile forces— amphibious assault force— BM force— conventional armed forces— counterforce-capable forces— divert forces from— experimental naval forces— fleet-based air force— frontier-guarding force— garrison forces— in force— international forces— link-up force— main battle forces— nuclear forces— special action forces— tactical nuclear-capable forces— unconventional warfare forces— visiting armed force -
7 command
командование (организационная единица, лица руководящего состава), управление; соединение; объединение; группа войск; военный округ; команда, приказание; превосходство; контроль; топ. превышение; командовать; управлять; подавать командыData Services (and Administrative) Systems command — командование [управление] статистических (и административно-управленческих) информационных систем
major command, NATO forces — верховное [стратегическое] командование ОВС НАТО
UN command,Rear — командование тыла сил ООН
US Army Forces, Readiness command — СВ командования войск готовности ВС США
— RAF Transportation command— vest command in -
8 Poniatoff, Alexander Mathew
[br]b. 25 March 1892 Kazan District, Russiad. 24 October 1980[br]Russian (naturalized American in 1932) electrical engineer responsible for the development of the professional tape recorder and the first commercially-successful video tape recorder (VTR).[br]Poniatoff was educated at the University of Kazan, the Imperial College in Moscow, and the Technische Hochschule in Karlsruhe, gaining degrees in mechanical and electrical engineering. He was in Germany when the First World War broke out, but he managed to escape back to Russia, where he served as an Air Force pilot with the Imperial Russian Navy. During the Russian Revolution he was a pilot with the White Russian Forces, and escaped into China in 1920; there he found work as an assistant engineer in the Shanghai Power Company. In 1927 he immigrated to the USA, becoming a US citizen in 1932. He obtained a post in the research and development department of the General Electric Company in Schenectady, New York, and later at Dalmo Victor, San Carlos, California. During the Second World War he was involved in the development of airborne radar for the US Navy.In 1944, taking his initials to form the title, Poniatoff founded the AMPEX Corporation to manufacture components for the airborne radar developed at General Electric, but in 1946 he turned to the production of audio tape recorders developed from the German wartime Telefunken Magnetophon machine (the first tape recorder in the truest sense). In this he was supported by the entertainer Bing Crosby, who needed high-quality replay facilities for broadcasting purposes, and in 1947 he was able to offer a professional-quality product and the business prospered.With the rapid post-war boom in television broadcasting in the USA, a need soon arose for a video recorder to provide "time-shifting" of live TV programmes between the different US time zones. Many companies therefore endeavoured to produce a video tape recorder (VTR) using the same single-track, fixed-head, longitudinal-scan system used for audio, but the very much higher bandwidth required involved an unacceptably high tape-speed. AMPEX attempted to solve the problem by using twelve parallel tracks and a machine was demonstrated in 1952, but it proved unsatisfactory.The development team, which included Charles Ginsburg and Ray Dolby, then devised a four-head transverse-scan system in which a quadruplex head rotating at 14,400 rpm was made to scan across the width of a 2 in. (5 cm) tape with a tape-to-head speed of the order of 160 ft/sec (about 110 mph; 49 m/sec or 176 km/h) but with a longitudinal tape speed of only 15 in./sec (0.38 m/sec). In this way, acceptable picture quality was obtained with an acceptable tape consumption. Following a public demonstration on 14 April 1956, commercial produc-tion of studio-quality machines began to revolutionize the production and distribution of TV programmes, and the perfecting of time-base correctors which could stabilize the signal timing to a few nanoseconds made colour VTRs a practical proposition. However, AMPEX did not rest on its laurels and in the face of emerging competition from helical scan machines, where the tracks are laid diagonally on the tape, the company was able to demonstrate its own helical machine in 1957. Another development was the Videofile system, in which 250,000 pages of facsimile could be recorded on a single tape, offering a new means of archiving information. By 1986, quadruplex VTRs were obsolete, but Poniatoff's role in making television recording possible deserves a place in history.Poniatoff was President of AMPEX Corporation until 1955 and then became Chairman of the Board, a position he held until 1970.[br]Further ReadingA.Abrahamson, 1953, "A short history of television recording", Part I, JSMPTE 64:73; 1973, Part II, Journal of the Society of Motion Picture and Television Engineers, 82:188 (provides a fuller background).Audio Biographies, 1961, ed. G.A.Briggs, Wharfedale Wireless Works, pp. 255–61 (contains a few personal details about Poniatoff's escape from Germany to join the Russian Navy).E.Larsen, 1971, A History of Invention.Charles Ginsburg, 1981, "The horse or the cowboy. Getting television on tape", Journal of the Royal Television Society 18:11 (a brief account of the AMPEX VTR story).KF / GB-NBiographical history of technology > Poniatoff, Alexander Mathew
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9 plan
план; замысел; порядок; система; плановая таблица; планировать; организовыватьlogistical capability plan, fiscal year — план возможностей тылового обеспечения на финансовый год
— air plan— CAS plan— CBR plan— chemical operations plan— contingency operations plan— contingent operations plan— day plan— logistical plan— net plan— war plan -
10 Noyce, Robert
SUBJECT AREA: Electronics and information technology[br]b. 12 December 1927 Burlington, Iowa, USA[br]American engineer responsible for the development of integrated circuits and the microprocessor chip.[br]Noyce was the son of a Congregational minister whose family, after a number of moves, finally settled in Grinnell, some 50 miles (80 km) east of Des Moines, Iowa. Encouraged to follow his interest in science, in his teens he worked as a baby-sitter and mower of lawns to earn money for his hobby. One of his clients was Professor of Physics at Grinnell College, where Noyce enrolled to study mathematics and physics and eventually gained a top-grade BA. It was while there that he learned of the invention of the transistor by the team at Bell Laboratories, which included John Bardeen, a former fellow student of his professor. After taking a PhD in physical electronics at the Massachusetts Institute of Technology in 1953, he joined the Philco Corporation in Philadelphia to work on the development of transistors. Then in January 1956 he accepted an invitation from William Shockley, another of the Bell transistor team, to join the newly formed Shockley Transistor Company, the first electronic firm to set up shop in Palo Alto, California, in what later became known as "Silicon Valley".From the start things at the company did not go well and eventually Noyce and Gordon Moore and six colleagues decided to offer themselves as a complete development team; with the aid of the Fairchild Camera and Instrument Company, the Fairchild Semiconductor Corporation was born. It was there that in 1958, contemporaneously with Jack K. Wilby at Texas Instruments, Noyce had the idea for monolithic integration of transistor circuits. Eventually, after extended patent litigation involving study of laboratory notebooks and careful examination of the original claims, priority was assigned to Noyce. The invention was most timely. The Apollo Moon-landing programme announced by President Kennedy in May 1961 called for lightweight sophisticated navigation and control computer systems, which could only be met by the rapid development of the new technology, and Fairchild was well placed to deliver the micrologic chips required by NASA.In 1968 the founders sold Fairchild Semicon-ductors to the parent company. Noyce and Moore promptly found new backers and set up the Intel Corporation, primarily to make high-density memory chips. The first product was a 1,024-bit random access memory (1 K RAM) and by 1973 sales had reached $60 million. However, Noyce and Moore had already realized that it was possible to make a complete microcomputer by putting all the logic needed to go with the memory chip(s) on a single integrated circuit (1C) chip in the form of a general purpose central processing unit (CPU). By 1971 they had produced the Intel 4004 microprocessor, which sold for US$200, and within a year the 8008 followed. The personal computer (PC) revolution had begun! Noyce eventually left Intel, but he remained active in microchip technology and subsequently founded Sematech Inc.[br]Principal Honours and DistinctionsFranklin Institute Stuart Ballantine Medal 1966. National Academy of Engineering 1969. National Academy of Science. Institute of Electrical and Electronics Engineers Medal of Honour 1978; Cledo Brunetti Award (jointly with Kilby) 1978. Institution of Electrical Engineers Faraday Medal 1979. National Medal of Science 1979. National Medal of Engineering 1987.Bibliography1955, "Base-widening punch-through", Proceedings of the American Physical Society.30 July 1959, US patent no. 2,981,877.Further ReadingT.R.Reid, 1985, Microchip: The Story of a Revolution and the Men Who Made It, London: Pan Books.KF -
11 Sarnoff, David
[br]b. 27 February 1891 Uzlian, Minsk (now in Belarus)d. 12 December 1971 New York City, New York, USA[br]Russian/American engineer who made a major contribution to the commercial development of radio and television.[br]As a Jewish boy in Russia, Sarnoff spent several years preparing to be a Talmudic Scholar, but in 1900 the family emigrated to the USA and settled in Albany, New York. While at public school and at the Pratt Institute in Brooklyn, New York, he helped the family finances by running errands, selling newspapers and singing the liturgy in the synagogue. After a short period as a messenger boy with the Commercial Cable Company, in 1906 he became an office boy with the Marconi Wireless Telegraph Company of America (see G. Marconi). Having bought a telegraph instrument with his first earnings, he taught himself Morse code and was made a junior telegraph operator in 1907. The following year he became a wireless operator at Nantucket Island, then in 1909 he became Manager of the Marconi station at Sea Gate, New York. After two years at sea he returned to a shore job as wireless operator at the world's most powerful station at Wanamaker's store in Manhattan. There, on 14 April 1912, he picked up the distress signals from the sinking iner Titanic, remaining at his post for three days.Rewarded by rapid promotion (Chief Radio Inspector 1913, Contract Manager 1914, Assistant Traffic Manager 1915, Commercial Manager 1917) he proposed the introduction of commercial radio broadcasting, but this received little response. Consequently, in 1919 he took the job of Commercial Manager of the newly formed Radio Corporation of America (RCA), becoming General Manager in 1921, Vice- President in 1922, Executive Vice-President in 1929 and President in 1930. In 1921 he was responsible for the broadcasting of the Dempsey-Carpentier title-fight, as a result of which RCA sold $80 million worth of radio receivers in the following three years. In 1926 he formed the National Broadcasting Company (NBC). Rightly anticipating the development of television, in 1928 he inaugurated an experimental NBC television station and in 1939 demonstrated television at the New York World Fair. Because of his involvement with the provision of radio equipment for the armed services, he was made a lieutenant-colonel in the US Signal Corps Reserves in 1924, a full colonel in 1931 and, while serving as a communications consultant to General Eisenhower during the Second World War, Brigadier General in 1944.With the end of the war, RCA became a major manufacturer of television receivers and then invested greatly in the ultimately successful development of shadowmask tubes and receivers for colour television. Chairman and Chief Executive from 1934, Sarnoff held the former post until his retirement in 1970.[br]Principal Honours and DistinctionsFrench Croix de Chevalier d'honneur 1935, Croix d'Officier 1940, Croix de Commandant 1947. Luxembourg Order of the Oaken Crown 1960. Japanese Order of the Rising Sun 1960. US Legion of Merit 1946. UN Citation 1949. French Union of Inventors Gold Medal 1954.KFSee also: Zworykin, Vladimir Kosma -
12 progress
1. nounour progress has been slow — wir sind nur langsam vorangekommen
in progress — im Gange
progress of science/civilization — wissenschaftlicher/kultureller Fortschritt
make progress — vorankommen; [Student, Patient:] Fortschritte machen
make good progress [towards recovery] — [Patient:] sich gut erholen
2. intransitive verbsome progress was made — es wurden einige Fortschritte erzielt
1) (move forward) vorankommen2) (be carried on, develop) Fortschritte machen3. transitive verbprogress towards something — einer Sache (Dat.) näherkommen
* * *1. ['prəuɡres, ]( American[) 'pro-] noun1) (movement forward; advance: the progress of civilization.) die Entwicklung2) (improvement: The students are making (good) progress.) der Fortschritt2. [prə'ɡres] verb1) (to go forward: We had progressed only a few miles when the car broke down.) fortschreiten2) (to improve: Your French is progressing.) vorwärtskommen•- academic.ru/58269/progressive">progressive3. noun(the progressive (tense) (also the continuous tense): The sentence `They were watching TV'. is in the progressive.)- progressively- progressiveness
- in progress* * *pro·gressI. n[ˈprəʊgres, AM ˈprɑ:g-]to make slow/good \progress langsam/gut vorwärtskommen [o vorankommen\progress was slow in the early stages of the project in seinem Anfangsstadium kam das Projekt nur schleppend voranto make [good/slow] \progress [gute/langsame] Fortschritte machento be in \progress im Gange sein; ADMIN in Bearbeitung seinthe talks are in \progress die Gespräche laufen [gerade]5.<pl -es>II. vi[prə(ʊ)ˈgres, AM prəˈ-]1. (develop) Fortschritte machenhow's the work \progressing? wie geht's mit der Arbeit voran?the patient seems to be \progressing well der Patient scheint gute Fortschritte zu machenwe started talking about literature then \progressed to politics wir begannen über Literatur zu sprechen und kamen dann auf Politik* * *['prəʊgres]1. n1) no pl (= movement forwards) Fortschreiten nt, Vorwärtskommen nt; (MIL) Vorrücken nt, Vordringen ntwe made slow progress through the mud —
2) no pl (= advance) Fortschritt m; (COMPUT) (Verarbeitungs)status mto make (good/slow) progress — (gute/langsame) Fortschritte machen
3)"silence please, meeting in progress" — "Sitzung! Ruhe bitte"
4) (obs: journey) Reise f2. vi[prə'gres]1) (= move, go forward) sich vorwärtsbewegen, vorwärtsschreitenby the third day the enemy/expedition had progressed as far as... — am dritten Tag war der Feind bis... vorgerückt or vorgedrungen/die Expedition bis... vorgedrungen or gekommen
2)as the game progressed — im Laufe des Spiels
3) (= improve, make progress student, patient) Fortschritte machenhow far have you progressed since our last meeting? —
investigations are progressing well — die Untersuchungen kommen gut voran or machen gute Fortschritte
we are, in fact, progressing toward(s) a solution —
that civilization is constantly progressing (toward(s) a state of perfection) — dass sich die Zivilisation ständig (auf einen Zustand der Perfektion hin) weiterentwickelt
4)the employee progresses upwards through the company hierarchy — der Angestellte macht seinen Weg durch die Firmenhierarchie
3. vt[prə'gres] (ESP COMM) matters etc weiterverfolgen* * *A s [ˈprəʊɡres; US ˈprɑɡ-] (nur sg außer 8)2. fig Fortschritt m, -schritte pl:to make progress → B 3;progress chart Ist-Leistungskurve f;progress engineer Entwicklungsingenieur(in);progress report Tätigkeits-, Zwischenbericht m3. fig fortschreitende Entwicklung:in progress im Werden (begriffen) ( → A 6)4. fig Fortschreiten n5. MIL Vordringen n6. fig Fortgang m, (Ver)Lauf m:to be in progress im Gange sein ( → A 3);in progress of time im Laufe der Zeit7. fig Überhandnehmen n, Umsichgreifen n:the disease made rapid progress die Krankheit griff schnell um sich1. fig fortschreiten, weitergehen, seinen Fortgang nehmen:as the game progressed SPORT mit fortlaufender Spieldauer2. MIL vordringen3. sich (fort-, weiter)entwickeln, gedeihen ( beide:to zu) (Vorhaben etc):to progress towards completion seiner Vollendung entgegengehen4. fig überhandnehmen, um sich greifenin in dat)prog. abk1. program (programme) Progr.2. progress3. progressive* * *1. nounprogress of science/civilization — wissenschaftlicher/kultureller Fortschritt
make progress — vorankommen; [Student, Patient:] Fortschritte machen
2. intransitive verbmake good progress [towards recovery] — [Patient:] sich gut erholen
1) (move forward) vorankommen2) (be carried on, develop) Fortschritte machen3. transitive verbprogress towards something — einer Sache (Dat.) näherkommen
* * *n.Entwicklung f.Fortgang -¨e m.Fortschritt m. v.fortschreiten v.seinen Fortgang nehmen ausdr. -
13 Maudslay, Henry
SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering[br]b. 22 August 1771 Woolwich, Kent, Englandd. 15 February 1831 Lambeth, London, England[br]English precision toolmaker and engineer.[br]Henry Maudslay was the third son of an ex-soldier and storekeeper at Woolwich Arsenal. At the age of 12 he was employed at the Arsenal filling cartridges; two years later he was transferred to the woodworking department, adjacent to the smithy, to which he moved when 15 years old. He was a rapid learner, and three years later Joseph Bramah took him on for the construction of special tools required for the mass-production of his locks. Maudslay was thus employed for the next eight years. He became Bramah's foreman, married his housekeeper, Sarah Tindale, and, unable to better himself, decided to leave and set up on his own. He soon outgrew his first premises in Wells Street and moved to Margaret Street, off Oxford Street, where some examples of his workmanship were displayed in the window. These caught the attention of a visiting Frenchman, de Bacquancourt; he was a friend of Marc Isambard Brunel, who was then in the early stages of designing the block-making machinery later installed at Portsmouth dockyard.Brunel wanted first a set of working models, as he did not think that the Lords of the Admiralty would be capable of understanding engineering drawings; Maudslay made these for him within the next two years. Sir Samuel Bentham, Inspector-General of Naval Works, agreed that Brunel's system was superior to the one that he had gone some way in developing; the Admiralty approved, and an order was placed for the complete plant. The manufacture of the machinery occupied Maudslay for the next six years; he was assisted by a draughtsman whom he took on from Portsmouth dockyard, Joshua Field (1786–1863), who became his partner in Maudslay, Son and Field. There were as many as eighty employees at Margaret Street until, in 1810, larger premises became necessary and a new works was built at Lambeth Marsh where, eventually, there were up to two hundred workers. The new factory was flanked by two houses, one of which was occupied by Maudslay, the other by Field. The firm became noted for its production of marine steam-engines, notably Maudslay's table engine which was first introduced in 1807.Maudslay was a consummate craftsman who was never happier than when working at his bench or at a machine tool; he was also one of the first engineers to appreciate the virtues of standardization. Evidence of this appreciation is to be found in his work in the development of the Bramah lock and then on the machine tools for the manufacture of ship's blocks to Marc Brunel's designs; possibly his most important contribution was the invention in 1797 of the metal lathe. He made a number of surface plates of the finest quality. The most celebrated of his numerous measuring devices was a micrometer-based machine which he termed his "Lord Chancellor" because, in the machine shop, it represented the "final court of appeal", measuring to one-thousandth of an inch.[br]Further Reading1934–5, "Maudslay, Sons \& Field as general engineers", Transactions of the Newcomen Society 15, London.1963, Engineering Heritage, Vol. 1, London: Institution of Mechanical Engineers. L.T.C.Rolt, 1965, Tools for the Job, London: Batsford.W.Steeds, 1969, A History of Machine Tools 1700–1910, Oxford: Oxford University Press.IMcN -
14 Strachey, Christopher
SUBJECT AREA: Electronics and information technology[br]b. 16 November 1916 Englandd. 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 DistinctionsDistinguished Fellow of the British Computer Society 1972.Bibliography1961, 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 ReadingJ.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.KF
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Kelly Johnson (engineer) — Clarence Kelly Johnson Clarence Leonard Kelly Johnson Born February 27, 1910(1910 02 27) Ishpeming, Michigan, USA Died … Wikipedia
Draining and development of the Everglades — Satellite image of the northern Everglades with developed areas in 2001, including the Everglades Agricultural Area (in red), Water Conservation Areas 1, 2, and 3, a … Wikipedia
Morgantown Personal Rapid Transit — Info Locale Morgantown, WV … Wikipedia
research and development — Introduction abbreviation R and D, or R & D, in industry, two intimately related processes by which new products and new forms of old products are brought into being through technological innovation. Introduction and definitions … Universalium
Defence Research and Development Organisation — Sanskrit: बलस्य मूलं विज्ञानम् Strength s Origin is in Science [1] Agency overvi … Wikipedia
Brownfield (software development) — Brownfield development is a term commonly used in the IT industry to describe problem spaces needing the development and deployment of new software systems in the immediate presence of existing (legacy) software applications/systems. This implies … Wikipedia
18th Engineer Brigade (United States) — Infobox Military Unit unit name= 18th Engineer Brigade caption=18th Engineer Brigade shoulder sleeve insignia dates= 1921 07 29 1946 06 01 1947 06 15 1949 03 16 1954 10 25 1963 03 26 1965 07 16 1971 09 20 1977 10 21 1992 10 15 2004 06 06 Present… … Wikipedia
Louisiana Department of Transportation and Development — The Louisiana Department of Transportation and Development (DOTD)[1] is a state government organization in charge of maintaining public transportation, roadways, bridges, canals, select levees, floodplain management, port facilities, commercial… … Wikipedia