parallel+method

pram

1) Компьютерная техника: Parallel Random Access Machines

2) Военный термин: Allied Mine, Poseidon random-access memory, productivity, reliability, availability, and maintainability, program requirements analysis method

3) Техника: Poseidon random access memory, parameter RAM, predictive reliability assessment model, productivity, reliability, availability and maintainability office

4) Сокращение: Productivity, Reliability, Availability & Maintainability

5) Вычислительная техника: параметрическое ОЗУ (parameter RAM - на компьютерах Apple), Parameter Random Access Memory (RAM, IC, Apple)

6) Нефть: отдел контроля производительности, надёжности, эксплуатационной готовности и ремонтопригодности, модель оценки прогнозируемого уровня надёжности (predictive reliability assessment model)

7) Расширение файла: Parallel Random-Access Machine, Parameter/Programmable Random Access Memory

analogue

1. n аналог; вариант

analogue method — метод аналогий

base analogue — аналог основания

natural analogue — природный аналог

partial analogue — частичный аналог

electrical analogue — электрический аналог

2. n биол. аналогичный, функционально подобный орган

3. n вчт. аналог; аналоговое устройство, моделирующее устройство; моделирующая система

analogue machine — аналоговое устройство

analogue correlator — аналоговый коррелятор

analogue integrator — моделирующий интегратор

analogue transducer — аналоговый преобразователь

analogue computer — моделирующее счетное устройство

Синонимический ряд:

1. meaning (noun) definition; denotation; explication; formalization; interpretation; meaning; signification; synonym; terminology

2. parallel (noun) correlate; correspondent; counterpart; countertype; match; parallel

Hopkinson, John

SUBJECT AREA: Electricity, Electronics and information technology, Public utilities

[br]

b. 27 July 1849 Manchester, England

d. 27 August 1898 Petite Dent de Veisivi, Switzerland

[br]

English mathematician and electrical engineer who laid the foundations of electrical machine design.

[br]

After attending Owens College, Manchester, Hopkinson was admitted to Trinity College, Cambridge, in 1867 to read for the Mathematical Tripos. An appointment in 1872 with the lighthouse department of the Chance Optical Works in Birmingham directed his attention to electrical engineering. His most noteworthy contribution to lighthouse engineering was an optical system to produce flashing lights that distinguished between individual beacons. His extensive researches on the dielectric properties of glass were recognized when he was elected to a Fellowship of the Royal Society at the age of 29. Moving to London in 1877 he became established as a consulting engineer at a time when electricity supply was about to begin on a commercial scale. During the remainder of his life, Hopkinson's researches resulted in fundamental contributions to electrical engineering practice, dynamo design and alternating current machine theory. In making a critical study of the Edison dynamo he developed the principle of the magnetic circuit, a concept also arrived at by Gisbert Kapp around the same time. Hopkinson's improvement of the Edison dynamo by reducing the length of the field magnets almost doubled its output. In 1890, in addition to-his consulting practice, Hopkinson accepted a post as the first Professor of Electrical Engineering and Head of the Siemens laboratory recently established at King's College, London. Although he was not involved in lecturing, the position gave him the necessary facilities and staff and student assistance to continue his researches. Hopkinson was consulted on many proposals for electric traction and electricity supply, including schemes in London, Manchester, Liverpool and Leeds. He also advised Mather and Platt when they were acting as contractors for the locomotives and generating plant for the City and South London tube railway. As early as 1882 he considered that an ideal method of charging for the supply of electricity should be based on a two-part tariff, with a charge related to maximum demand together with a charge for energy supplied. Hopkinson was one the foremost expert witnesses of his day in patent actions and was himself the patentee of over forty inventions, of which the three-wire system of distribution and the series-parallel connection of traction motors were his most successful. Jointly with his brother Edward, John Hopkinson communicated the outcome of his investigations to the Royal Society in a paper entitled "Dynamo Electric Machinery" in 1886. In this he also described the later widely used "back to back" test for determining the characteristics of two identical machines. His interest in electrical machines led him to more fundamental research on magnetic materials, including the phenomenon of recalescence and the disappearance of magnetism at a well-defined temperature. For his work on the magnetic properties of iron, in 1890 he was awarded the Royal Society Royal Medal. He was a member of the Alpine Club and a pioneer of rock climbing in Britain; he died, together with three of his children, in a climbing accident.

[br]

Principal Honours and Distinctions

FRS 1878. Royal Society Royal Medal 1890. President, Institution of Electrical Engineers 1890 and 1896.

Bibliography

7 July 1881, British patent no. 2,989 (series-parallel control of traction motors). 27 July 1882, British patent no. 3,576 (three-wire distribution).

1901, Original Papers by the Late J.Hopkinson, with a Memoir, ed. B.Hopkinson, 2 vols, Cambridge.

Further Reading

J.Greig, 1970, John Hopkinson Electrical Engineer, London: Science Museum and HMSO (an authoritative account).

—1950, "John Hopkinson 1849–1898", Engineering 169:34–7, 62–4.

GW

N+1

1. принцип резервирования N+1

 

принцип резервирования N+1
Системы бесперебойного электроитания (СБЭ), использующие принцип резервирования N+1, представляют собой системы с так называемым "горячим" (т. е. находящимся под нагрузкой) резервом.
[А. Воробьев. Классификация ИБП http://www.osp.ru/lan/2003/10/138056/ с изменениями]

EN

N+1 redundancy
A redundant method based on one module more than needed to fulfill the required performance. For instance, three parallel systems, each rated 2KVA, form a 2+1 redundant system for a 4KVA consumer. Failure of a single UPS will not affect systems operational performance.
[ http://www.upsonnet.com/UPS-Glossary/]

Параллельные тексты EN-RU

N+X redundancy
Load remains secure in the event of a module failure.
One Ensuring a high level of availability while reducing the initial investment.
(N+1) or more (N+X) redundant modules could be added to the system
[GUTOR Electronic LLC]

Резервирование по принципу N+X
Электропитание нагрузки в случае выхода модуля из строя не прерывается.
Обеспечивается высокий уровень эксплуатационной готовности при сокращении первоначальных затрат.
В системе может быть один (резервирование по принципу N+1) или Х (резервирование по принципу N+X) резервных модулей.
[Перевод Интент]

 

 

N + 1 Redundancy ensures maximum uptime and continuous availability

Резервирование по принципу N + 1 минимизирует время простоя и обеспечивает постоянную готовность оборудования

Symmetra Power Array achieves N+1 redundancy and higher through proven power sharing technology.

Power sharing means that all of the power modules in a Power Array run in parallel and share the load evenly.

N+1 redundancy means running one extra module than will support your full load.

В ИБП семейства Symmetra Power Аггау резервирование по принципу N+1 или с более высокой избыточностью реализуется на основе проверенной практикой технологии распределения нагрузки.

Все модули электропитания работают параллельно и несут одинаковую нагрузку.

Резервирование по принципу N+1 означает, что число модулей электропитания превышает на 1 необходимое для питания защищаемых устройств при их работе на максимальную мощность.

In this way, all of the modules support one another.

Таким образом, каждый модуль подстраховывает другие модули

For example, if your computer load is 15kVA, you achieve N+1 with five 4kVA Power Modules.

Например, если максимальная потребляемая мощность компьютерной системы составляет 15 кВА, то для резервирования по принципу N+1 требуется пять модулей электропитания по 4 кВА каждый.

If a module fails or is removed, the other modules instantaneously begin supporting the full load.
It does not matter which module fails because all of the modules are always running and supporting your load.

В случае аварии или отключения одного из модулей нагрузка мгновенно перераспределяется на остальные модули.
Не имеет значения, какой именно из модулей прекратит работу - каждый одновременно выполняет функции и основного и резервного.

Тематики

• источники и системы электропитания

EN

• N+1
• N+1 configurability
• N+1 redundancy
• need plus one

N+1 configurability

1. принцип резервирования N+1

 

принцип резервирования N+1
Системы бесперебойного электроитания (СБЭ), использующие принцип резервирования N+1, представляют собой системы с так называемым "горячим" (т. е. находящимся под нагрузкой) резервом.
[А. Воробьев. Классификация ИБП http://www.osp.ru/lan/2003/10/138056/ с изменениями]

EN

N+1 redundancy
A redundant method based on one module more than needed to fulfill the required performance. For instance, three parallel systems, each rated 2KVA, form a 2+1 redundant system for a 4KVA consumer. Failure of a single UPS will not affect systems operational performance.
[ http://www.upsonnet.com/UPS-Glossary/]

Параллельные тексты EN-RU

N+X redundancy
Load remains secure in the event of a module failure.
One Ensuring a high level of availability while reducing the initial investment.
(N+1) or more (N+X) redundant modules could be added to the system
[GUTOR Electronic LLC]

Резервирование по принципу N+X
Электропитание нагрузки в случае выхода модуля из строя не прерывается.
Обеспечивается высокий уровень эксплуатационной готовности при сокращении первоначальных затрат.
В системе может быть один (резервирование по принципу N+1) или Х (резервирование по принципу N+X) резервных модулей.
[Перевод Интент]

 

 

N + 1 Redundancy ensures maximum uptime and continuous availability

Резервирование по принципу N + 1 минимизирует время простоя и обеспечивает постоянную готовность оборудования

Symmetra Power Array achieves N+1 redundancy and higher through proven power sharing technology.

Power sharing means that all of the power modules in a Power Array run in parallel and share the load evenly.

N+1 redundancy means running one extra module than will support your full load.

В ИБП семейства Symmetra Power Аггау резервирование по принципу N+1 или с более высокой избыточностью реализуется на основе проверенной практикой технологии распределения нагрузки.

Все модули электропитания работают параллельно и несут одинаковую нагрузку.

Резервирование по принципу N+1 означает, что число модулей электропитания превышает на 1 необходимое для питания защищаемых устройств при их работе на максимальную мощность.

In this way, all of the modules support one another.

Таким образом, каждый модуль подстраховывает другие модули

For example, if your computer load is 15kVA, you achieve N+1 with five 4kVA Power Modules.

Например, если максимальная потребляемая мощность компьютерной системы составляет 15 кВА, то для резервирования по принципу N+1 требуется пять модулей электропитания по 4 кВА каждый.

If a module fails or is removed, the other modules instantaneously begin supporting the full load.
It does not matter which module fails because all of the modules are always running and supporting your load.

В случае аварии или отключения одного из модулей нагрузка мгновенно перераспределяется на остальные модули.
Не имеет значения, какой именно из модулей прекратит работу - каждый одновременно выполняет функции и основного и резервного.

Тематики

• источники и системы электропитания

EN

• N+1
• N+1 configurability
• N+1 redundancy
• need plus one

N+1 redundancy

1. принцип резервирования N+1

 

принцип резервирования N+1
Системы бесперебойного электроитания (СБЭ), использующие принцип резервирования N+1, представляют собой системы с так называемым "горячим" (т. е. находящимся под нагрузкой) резервом.
[А. Воробьев. Классификация ИБП http://www.osp.ru/lan/2003/10/138056/ с изменениями]

EN

N+1 redundancy
A redundant method based on one module more than needed to fulfill the required performance. For instance, three parallel systems, each rated 2KVA, form a 2+1 redundant system for a 4KVA consumer. Failure of a single UPS will not affect systems operational performance.
[ http://www.upsonnet.com/UPS-Glossary/]

Параллельные тексты EN-RU

N+X redundancy
Load remains secure in the event of a module failure.
One Ensuring a high level of availability while reducing the initial investment.
(N+1) or more (N+X) redundant modules could be added to the system
[GUTOR Electronic LLC]

Резервирование по принципу N+X
Электропитание нагрузки в случае выхода модуля из строя не прерывается.
Обеспечивается высокий уровень эксплуатационной готовности при сокращении первоначальных затрат.
В системе может быть один (резервирование по принципу N+1) или Х (резервирование по принципу N+X) резервных модулей.
[Перевод Интент]

 

 

N + 1 Redundancy ensures maximum uptime and continuous availability

Резервирование по принципу N + 1 минимизирует время простоя и обеспечивает постоянную готовность оборудования

Symmetra Power Array achieves N+1 redundancy and higher through proven power sharing technology.

Power sharing means that all of the power modules in a Power Array run in parallel and share the load evenly.

N+1 redundancy means running one extra module than will support your full load.

В ИБП семейства Symmetra Power Аггау резервирование по принципу N+1 или с более высокой избыточностью реализуется на основе проверенной практикой технологии распределения нагрузки.

Все модули электропитания работают параллельно и несут одинаковую нагрузку.

Резервирование по принципу N+1 означает, что число модулей электропитания превышает на 1 необходимое для питания защищаемых устройств при их работе на максимальную мощность.

In this way, all of the modules support one another.

Таким образом, каждый модуль подстраховывает другие модули

For example, if your computer load is 15kVA, you achieve N+1 with five 4kVA Power Modules.

Например, если максимальная потребляемая мощность компьютерной системы составляет 15 кВА, то для резервирования по принципу N+1 требуется пять модулей электропитания по 4 кВА каждый.

If a module fails or is removed, the other modules instantaneously begin supporting the full load.
It does not matter which module fails because all of the modules are always running and supporting your load.

В случае аварии или отключения одного из модулей нагрузка мгновенно перераспределяется на остальные модули.
Не имеет значения, какой именно из модулей прекратит работу - каждый одновременно выполняет функции и основного и резервного.

Тематики

• источники и системы электропитания

EN

• N+1
• N+1 configurability
• N+1 redundancy
• need plus one

need plus one

1. принцип резервирования N+1

 

принцип резервирования N+1
Системы бесперебойного электроитания (СБЭ), использующие принцип резервирования N+1, представляют собой системы с так называемым "горячим" (т. е. находящимся под нагрузкой) резервом.
[А. Воробьев. Классификация ИБП http://www.osp.ru/lan/2003/10/138056/ с изменениями]

EN

N+1 redundancy
A redundant method based on one module more than needed to fulfill the required performance. For instance, three parallel systems, each rated 2KVA, form a 2+1 redundant system for a 4KVA consumer. Failure of a single UPS will not affect systems operational performance.
[ http://www.upsonnet.com/UPS-Glossary/]

Параллельные тексты EN-RU

N+X redundancy
Load remains secure in the event of a module failure.
One Ensuring a high level of availability while reducing the initial investment.
(N+1) or more (N+X) redundant modules could be added to the system
[GUTOR Electronic LLC]

Резервирование по принципу N+X
Электропитание нагрузки в случае выхода модуля из строя не прерывается.
Обеспечивается высокий уровень эксплуатационной готовности при сокращении первоначальных затрат.
В системе может быть один (резервирование по принципу N+1) или Х (резервирование по принципу N+X) резервных модулей.
[Перевод Интент]

 

 

N + 1 Redundancy ensures maximum uptime and continuous availability

Резервирование по принципу N + 1 минимизирует время простоя и обеспечивает постоянную готовность оборудования

Symmetra Power Array achieves N+1 redundancy and higher through proven power sharing technology.

Power sharing means that all of the power modules in a Power Array run in parallel and share the load evenly.

N+1 redundancy means running one extra module than will support your full load.

В ИБП семейства Symmetra Power Аггау резервирование по принципу N+1 или с более высокой избыточностью реализуется на основе проверенной практикой технологии распределения нагрузки.

Все модули электропитания работают параллельно и несут одинаковую нагрузку.

Резервирование по принципу N+1 означает, что число модулей электропитания превышает на 1 необходимое для питания защищаемых устройств при их работе на максимальную мощность.

In this way, all of the modules support one another.

Таким образом, каждый модуль подстраховывает другие модули

For example, if your computer load is 15kVA, you achieve N+1 with five 4kVA Power Modules.

Например, если максимальная потребляемая мощность компьютерной системы составляет 15 кВА, то для резервирования по принципу N+1 требуется пять модулей электропитания по 4 кВА каждый.

If a module fails or is removed, the other modules instantaneously begin supporting the full load.
It does not matter which module fails because all of the modules are always running and supporting your load.

В случае аварии или отключения одного из модулей нагрузка мгновенно перераспределяется на остальные модули.
Не имеет значения, какой именно из модулей прекратит работу - каждый одновременно выполняет функции и основного и резервного.

Тематики

• источники и системы электропитания

EN

• N+1
• N+1 configurability
• N+1 redundancy
• need plus one

OPM

1) Военный термин: Office of Planning and Management, Office of Procurement and Material, Office of the PM, Office, Personnel Manager

2) Техника: optical power meter, optically projected map, oscillating pressure method, overhaul planning manual

3) Финансы: коэффициент рентабельности операционной прибыли ( Operating Profit Margin)

4) Музыка: Original Pilipino Music, Other Peoples Music

5) Сокращение: Office of Personnel Management (US Government), Organisation Papua Merduka (Free Paupua Movement), other people's money, output per man

6) Вычислительная техника: operator programming method

7) Нефть: наставление по планированию ремонта (overhaul planning manual), профилактическое техническое обслуживание со снятием изделия с эксплуатации (out-of-service preventive maintenance)

8) СМИ: Over Priced Magazine

9) Деловая лексика: Official Parallel Market, Online Project Management, Organizational Process Management

10) Глоссарий компании Сахалин Энерджи: код языка описания технических требований

11) Инвестиции: options pricing model, other people money

12) Сетевые технологии: Online Process Monitor

13) Полимеры: operations per minute

14) Контроль качества: out-of-service preventive maintenance

15) Химическое оружие: Office of Personnel Management

16) Макаров: orbital propulsion module

17) Расширение файла: Operation Per Minute, Output Position Map

18) Правительство: Office of Policy and Management, Office of Purchasing Management

19) Базы данных: Oracle Process Manufacturing

patent

1) патент (охранный документ на изобретение, удостоверяющий признание предложения изобретением, его приоритет и исключительное право на него патентообладателя)

2) патентовать; патентованный; патентный

•

- patent alleged to be infringed

- patent applied for
- patent in force
- patent being in force
- patent for a design
- patent for an invention
- patent for a plant
- patent for improvement
- patent in dispute
- patent on a design
- patent pending
- patent referred to
- patent abroad
- patent of addition
- patent of confirmation
- patent of importation
- patent of improvement
- patent of revalidation
- abandoned patent
- additional patent
- adjudicated patent
- AEC-owned patent
- anticipating patent
- apparatus patent
- art patent
- article patent
- assailable patent
- assigned patent
- atomic energy patent
- attackable patent
- attacked patent
- basic patent
- biological patent
- blocking patent
- blocking-off patent
- borderline patent
- British Letters patent
- broad patent
- business method patent
- cancelled patent
- ceased patent
- chemical patent
- cited patent
- collateral patent
- colonial patent
- combination patent
- Commission-owned patent
- communicated patent
- competing patent
- complementary patent
- composition-of-matter patent
- confirmation patent
- conflicting patent
- contestable patent
- copending patents
- corresponding patents
- deadwood patent
- dead-wood patent
- defective patent
- dependent patent
- design letters patent
- device patent
- disputed patent
- divisional patent
- domestic patent
- dominant patent
- dormant patent
- double patent
- dragnet patent
- drug patent
- duplicate patents
- earlier patent
- economic patent
- electrical patent
- European patent
- exclusive patent
- exercisable patent
- existing patent
- expired patent
- exploitable patent
- extended patent
- extinct patent
- fencing-off patent
- final patent
- foreign patent
- forfeited patent
- fortifying patent
- freed patent
- free-lance patent
- French pharmaceutical patent
- granted patent
- home patent
- importation patent
- improvement patent
- incipient patent
- incontestable patent
- independent patent
- indigenous patent
- industrial patent
- industrial development patent
- infringed patent
- infringing patent
- infringing patents
- inoperative patent
- interdependent patents
- intervening patent
- invalid patent
- issued patent
- joint patent
- key patent
- land patent
- lapsed patent
- later patent
- later-dated patent
- legally effective patent
- letters patent
- licensed patent
- litigious patent
- live patent
- machine patent
- main patent
- manufacture patent
- master patent
- material patent
- mechanical patent
- medical patent
- metallurgical patent
- method patent
- minor patent
- modification patent
- more recent patent
- narrow patent
- national patent
- national patent under the PCT
- native's patent
- new use patent
- non-convention patent
- Nordic patent
- not infringed patent
- nuisance patent
- objected patent
- obstructive patent
- old patent
- operative patent
- original patent
- ornamental design patent
- overlapping patents
- paper patent
- parallel patent
- parent patent
- pending patent
- petty patent
- pharmaceutical patent
- pioneer patent
- plant patent
- pooled patent
- posthumous patent
- practicable patent
- printed patent
- prior patent
- process patent
- product patent
- provisional European patent
- questionable patent
- reference patent
- regional patent
- reinstated patent
- reissue patent
- reissued patent
- related patent
- revoked patent
- scarecrow patent
- secret patent
- senior patent
- shot gun patent
- simultaneous patent
- small patent
- software patent
- standard patent
- strain patent
- strong patent
- structure patent
- subordinate patent
- subsequent patent
- subservient patent
- subsidiary patent
- sued upon patent
- suppressed patent
- transfer of technology patent
- unenforceable patent
- unexpired patent
- universal patent
- unjustified patent
- unused patent
- U. S. patent
- useful model patent
- utility patent
- valid patent
- valuable patent
- void patent
- voidable patent
- weak patent
- withheld patent
- world-wide patent
- worthless patent
- X-series patent
- younger patent
- youngest patent

* * *

патент (охранный документ, представляющий исключительнее право на осуществление, использование и продажу изобретения в течение определенного срока и на определенно» территории)

Thinking

   1) I Am a Thinking Thing

   But what then am I? A thing which thinks. What is a thing which thinks? It is a thing which doubts, understands, [conceives], affirms, denies, wills, refuses, which also imagines and feels. (Descartes, 1951, p. 153)

   2) Thinking Is Not Independent of the Expression of Thought

   I have been trying in all this to remove the temptation to think that there "must be" a mental process of thinking, hoping, wishing, believing, etc., independent of the process of expressing a thought, a hope, a wish, etc.... If we scrutinize the usages which we make of "thinking," "meaning," "wishing," etc., going through this process rids us of the temptation to look for a peculiar act of thinking, independent of the act of expressing our thoughts, and stowed away in some particular medium. (Wittgenstein, 1958, pp. 41-43)

   3) The Experimental Differentiation of Concrete and Propositional Operations

   Analyse the proofs employed by the subject. If they do not go beyond observation of empirical correspondences, they can be fully explained in terms of concrete operations, and nothing would warrant our assuming that more complex thought mechanisms are operating. If, on the other hand, the subject interprets a given correspondence as the result of any one of several possible combinations, and this leads him to verify his hypotheses by observing their consequences, we know that propositional operations are involved. (Inhelder & Piaget, 1958, p. 279)

   4) In Every Age, Philosophical Thinking Exploits Some Dominant Concepts

   In every age, philosophical thinking exploits some dominant concepts and makes its greatest headway in solving problems conceived in terms of them. The seventeenth- and eighteenth-century philosophers construed knowledge, knower, and known in terms of sense data and their association. Descartes' self-examination gave classical psychology the mind and its contents as a starting point. Locke set up sensory immediacy as the new criterion of the real... Hobbes provided the genetic method of building up complex ideas from simple ones... and, in another quarter, still true to the Hobbesian method, Pavlov built intellect out of conditioned reflexes and Loeb built life out of tropisms. (S. Langer, 1962, p. 54)

   5) The Experimental Differentiation of Deductive and Inductive Reasoning

   Experiments on deductive reasoning show that subjects are influenced sufficiently by their experience for their reasoning to differ from that described by a purely deductive system, whilst experiments on inductive reasoning lead to the view that an understanding of the strategies used by adult subjects in attaining concepts involves reference to higher-order concepts of a logical and deductive nature. (Bolton, 1972, p. 154)

   6) The Power of Machine Thought

   There are now machines in the world that think, that learn and create. Moreover, their ability to do these things is going to increase rapidly until-in the visible future-the range of problems they can handle will be coextensive with the range to which the human mind has been applied. (Newell & Simon, quoted in Weizenbaum, 1976, p. 138)

   7) Thinking Is Sometimes Accompanied by Action and Sometimes Not

   But how does it happen that thinking is sometimes accompanied by action and sometimes not, sometimes by motion, and sometimes not? It looks as if almost the same thing happens as in the case of reasoning and making inferences about unchanging objects. But in that case the end is a speculative proposition... whereas here the conclusion which results from the two premises is an action.... I need covering; a cloak is a covering. I need a cloak. What I need, I have to make; I need a cloak. I have to make a cloak. And the conclusion, the "I have to make a cloak," is an action. (Nussbaum, 1978, p. 40)

   8) The Growth of Philosophy

   It is well to remember that when philosophy emerged in Greece in the sixth century, B.C., it did not burst suddenly out of the Mediterranean blue. The development of societies of reasoning creatures-what we call civilization-had been a process to be measured not in thousands but in millions of years. Human beings became civilized as they became reasonable, and for an animal to begin to reason and to learn how to improve its reasoning is a long, slow process. So thinking had been going on for ages before Greece-slowly improving itself, uncovering the pitfalls to be avoided by forethought, endeavoring to weigh alternative sets of consequences intellectually. What happened in the sixth century, B.C., is that thinking turned round on itself; people began to think about thinking, and the momentous event, the culmination of the long process to that point, was in fact the birth of philosophy. (Lipman, Sharp & Oscanyan, 1980, p. xi)

   9) Thought Is, in Great Part, a Public Activity

   The way to look at thought is not to assume that there is a parallel thread of correlated affects or internal experiences that go with it in some regular way. It's not of course that people don't have internal experiences, of course they do; but that when you ask what is the state of mind of someone, say while he or she is performing a ritual, it's hard to believe that such experiences are the same for all people involved.... The thinking, and indeed the feeling in an odd sort of way, is really going on in public. They are really saying what they're saying, doing what they're doing, meaning what they're meaning. Thought is, in great part anyway, a public activity. (Geertz, quoted in J. Miller, 1983, pp. 202-203)

    10) In Thinking, Everything Needs to Be Made as Simple as Possible

   Everything should be made as simple as possible, but not simpler. (Einstein, quoted in Minsky, 1986, p. 17)

    11) The Conditions for the Construction of Formal Thought

   What, in effect, are the conditions for the construction of formal thought? The child must not only apply operations to objects-in other words, mentally execute possible actions on them-he must also "reflect" those operations in the absence of the objects which are replaced by pure propositions. Thus, "reflection" is thought raised to the second power. Concrete thinking is the representation of a possible action, and formal thinking is the representation of a representation of possible action.... It is not surprising, therefore, that the system of concrete operations must be completed during the last years of childhood before it can be "reflected" by formal operations. In terms of their function, formal operations do not differ from concrete operations except that they are applied to hypotheses or propositions [whose logic is] an abstract translation of the system of "inference" that governs concrete operations. (Piaget, quoted in Minsky, 1986, p. 237)

    12) Language Enables the Rehearsal of Thought and, Thereby, Commitment to Long- Term Memory

   [E]ven a human being today (hence, a fortiori, a remote ancestor of contemporary human beings) cannot easily or ordinarily maintain uninterrupted attention on a single problem for more than a few tens of seconds. Yet we work on problems that require vastly more time. The way we do that (as we can observe by watching ourselves) requires periods of mulling to be followed by periods of recapitulation, describing to ourselves what seems to have gone on during the mulling, leading to whatever intermediate results we have reached. This has an obvious function: namely, by rehearsing these interim results... we commit them to memory, for the immediate contents of the stream of consciousness are very quickly lost unless rehearsed.... Given language, we can describe to ourselves what seemed to occur during the mulling that led to a judgment, produce a rehearsable version of the reaching-a-judgment process, and commit that to long-term memory by in fact rehearsing it. (Margolis, 1987, p. 60)

метод параллельного наведения

косм. parallel navigation method

asymptotic

1) асимптотический
2) асимптотика
3) полусходящийся ∙ arcwise asymptotic value ≈ дуговое асимптотическое значение asymptotic confidence interval ≈ асимптотический доверительный интервал asymptotic equipartition property ≈ свойство асимптотической равнораспределенности asymptotic essential component ≈ асимптотическая существенная компонента asymptotic expansion formula ≈ формула асимптотического разложения ( функции) asymptotic passage theorem ≈ теорема об асимптотическом поведении переходных вероятностей asymptotic power series expansion ≈ разложение в асимптотический степенной ряд asymptotic sequential design ≈ асимптотический последовательный план basic asymptotic estimate ≈ основная асимптотическая оценка central asymptotic problem ≈ центральная асимптотическая проблема doubly asymptotic triangle ≈ дважды асимптотический треугольник first asymptotic distribution ≈ первое предельное распределение multiply asymptotic series ≈ многократно асимптотический ряд negatively asymptotic point ≈ отрицательно асимптотическая точка pointwise asymptotic value ≈ точечное асимптотическое значение positively asymptotic point ≈ положительно асимптотическая точка simple asymptotic sieve ≈ простое асимптотическое решето trebly asymptotic triangle ≈ трижды асимптотический треугольник uniform asymptotic representation ≈ равномерное асимптотическое представление virtually asymptotic net ≈ виртуально асимптотическая сеть - asymptotic expression - asymptotic fairness - asymptotic fibration - asymptotic field - asymptotic flatness - asymptotic form - asymptotic formula - asymptotic frequency - asymptotic function - asymptotic geodesic - asymptotic growth - asymptotic helicity - asymptotic hexagon - asymptotic hyperplane - asymptotic inadmissibility - asymptotic independence - asymptotic inequality - asymptotic information - asymptotic integration - asymptotic interpolation - asymptotic invariance - asymptotic iteration - asymptotic law - asymptotic learning - asymptotic likelihood - asymptotic limit - asymptotic line - asymptotic linearity - asymptotic mean - asymptotic method - asymptotic mimimum - asymptotic minimax - asymptotic model - asymptotic moment - asymptotic nature - asymptotic negligibility - asymptotic net - asymptotic normalcy - asymptotic normality - asymptotic operator - asymptotic optimality - asymptotic optimum - asymptotic order - asymptotic parabola - asymptotic parallel - asymptotic path - asymptotic period - asymptotic phase - asymptotic plane - asymptotic point - asymptotic power - asymptotic prediction - asymptotic prime - asymptotic probability - asymptotic problem - asymptotic property - asymptotic proportionality - asymptotic ratio - asymptotic recurrence - asymptotic region - asymptotic relation - asymptotic representation - asymptotic resolvent - asymptotic restriction - asymptotic result - asymptotic root - asymptotic scaling - asymptotic semiform - asymptotic sequence - asymptotic series - asymptotic set - asymptotic shape - asymptotic sieve - asymptotic simplicity - asymptotic slope - asymptotic smallness - asymptotic solution - asymptotic spot - asymptotic stability - asymptotic state - asymptotic sufficiency - asymptotic sum - asymptotic surface - asymptotic symbol - asymptotic symmetry - asymptotic technique - asymptotic test - asymptotic theor - asymptotic theorem - asymptotic tract - asymptotic trajectory - asymptotic transformation - asymptotic triangle - asymptotic twistor - asymptotic unbiasedness - asymptotic value - asymptotic variable - asymptotic variance - asymptotic vector - isothermally asymptotic

асимптотический

asymptotic асимптотический

viscosimeter

вискозиметр

viscosimeter for gasoline — вискозиметр Сейболта;

viscosimeter for immersion method — иммерсионный [погружной\] вискозиметр

-
capillary viscosimeter
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coaxial-cylinder viscosimeter
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cone-plate viscosimeter
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constant-shear viscosimeter
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cup-and-ball viscosimeter
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Doolittle viscosimeter
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drilling fluid viscosimeter
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efflux viscosimeter
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Faber viscosimeter
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falling needle viscosimeter
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falling sphere viscosimeter
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float viscosimeter
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funnel viscosimeter
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high-rate-of-shear viscosimeter
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Hoppler viscosimeter
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ink viscosimeter
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kinematic viscosimeter
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liquid viscosimeter
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McMichael viscosimeter
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Mitchell viscosimeter
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oscillating-cylinder viscosimeter
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oscillating-disk viscosimeter
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Ostwald viscosimeter
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parallel-disk viscosimeter
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porous septum viscosimeter
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pressure viscosimeter
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Redwood admiralty viscosimeter
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Redwood standard viscosimeter
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rolling-ball viscosimeter
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rotary viscosimeter
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Saybolt universal viscosimeter
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Sinclair pressure viscosimeter
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Stokes viscosimeter
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surface viscosimeter
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tar viscosimeter
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torsion viscosimeter
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variable head viscosimeter
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vibrating-plate viscosimeter

distribution

1) распределение

2) пароприемный
3) раздавание
4) раздача
5) спектр
6) распространение
7) обобщенная функция
8) размещение
9) расположение
10) россыпь
11) распределенность
– bimodal distribution
– binomial distribution
– bivariate distribution
– call distribution
– circular distribution
– conditional distribution
– contagious distribution
– continuous distribution
– current distribution
– density distribution
– discontinuous distribution
– discrete distribution
– dissection of a distribution
– dissection of distribution
– distribution amplifier
– distribution board
– distribution box
– distribution cabinet
– distribution coefficient
– distribution coefficient
– distribution cost
– distribution curve
– distribution device
– distribution diagram
– distribution function
– distribution in time
– distribution law
– distribution network
– distribution of a sample
– distribution of demand
– distribution of eigenvalues
– distribution of gas
– distribution parameter
– distribution pattern
– distribution plant
– distribution plate
– distribution shaft
– distribution substation
– distribution valve
– Dryuvesteyn distribution
– energy distribution
– error distribution
– failure distribution
– fiducial distribution
– folded distribution
– frequency distribution
– Gaussian distribution
– genotype distribution
– heterogeneous distribution
– hypergeometric distribution
– inhomogeneous distribution
– joint distribution
– Junge distribution
– kurtosis of a distribution
– level-density distribution
– limiting distribution
– linear distribution
– load distribution
– logarithmic-series distribution
– lognormal distribution
– marginal distribution
– Maxwellian distribution
– multidimensional distribution
– multimodal distribution
– multinomial distribution
– multivariate distribution
– parent distribution
– probability distribution
– pulse-height distribution
– random distribution
– range of a distribution
– remainder of the distribution
– sampling distribution
– sex distribution
– simultaneous distribution
– span of distribution
– state of distribution
– tail of the distribution
– tempered distribution
– Treanor distribution
– uniform distribution
– unimodal distribution

asymptotically normal distribution — асимптотически-нормальное распределение

automatic call distribution — искатель вызовов

bivariate normal distribution — двумерное нормальное распределение

color distribution coefficient — <opt.> коэффициент цвета

compound frequency distribution — <math.> плотность распределения осредненная

degree of non-singularity of a distribution — мера невырожденности распределения

distribution density curve — кривая плотности

distribution function analyzer — анализатор функции распределения

distribution of exponential type — распределение экспоненциального типа

distribution power transformer — трансформатор силовой линейный

grand canonical distribution — <math.> ансамбль большой канонический

inverted beta distribution — <math.> квантили бета-распределения

load distribution unit — <engin.> блок распределения нагрузки

logarithmically normal distribution — логарифмически-нормальное распределение

moment distribution method — метод перераспределения моментов

multipoint distribution system — многоадресная система распределения ТВ-программ

negative binomial distribution — биномиальное распределение

non-singular normal distribution — собственное нормальное распределение

parallel distribution in the large — параллельностное распределение в целом

particle size distribution — <ecol.> состав гранулометрический

sample distribution function — выборочная функция

singular normal distribution — несобственное нормальное распределение

solid of light distribution — <opt.> тело фотометрическое

spectral distribution curve — спектральная кривая

submerged distribution plate — затопленный пароприемный лист

resonance

1) резонанс

2) <engin.> резонансный
– cabinet resonance
– mode of resonance
– over due to resonance
– parallel resonance
– paramagnetic resonance
– Ramsey resonance
– resonance bridge
– resonance circuit
– resonance condition
– resonance curve
– resonance escape
– resonance fluorescence
– resonance frequency
– resonance indicator
– resonance inducing
– resonance lamp
– resonance line
– resonance loop
– resonance loss
– resonance luminescence
– resonance method
– resonance oscillations
– resonance peak
– resonance radiation
– resonance resistance
– resonance scattering
– resonance transition
– resonance tube
– series resonance
– sharpness of resonance
– space resonance
– submultiple resonance
– voltage resonance

cyclotron resonance maser — <phys.> мазер циклотронного резонанса

nuclear magnetic resonance — <phys.> резонанс магнитный ядерный

nuclear quadrupole resonance — <phys.> резонанс квадрупольный ядерный

proton magnetic resonance — <chem.> резонанс протонный магнитный

LAM

1) Компьютерная техника: Local Area Multicomputer, Local Area Multiprocessor, line access module

2) Медицина: Lactational Amenorrhoea Method

3) Военный термин: Light Attack Munition, Louisiana Maneuvers, Loitering Attack Munition

4) Телекоммуникации: Lobe Attachment Unit (Token Ring)

5) Сокращение: Land Attack Missile, Laser Aiming Module, Lock Assembly Machine (robotic machine that operates on software integrated circuits that sends and receives data from the computer to a signal controller interface (to make Arrow locks)), Long Aerial Mine, Master of Liberal Arts, laminate, lymphangioleiomyomatosis

6) Физиология: Laminectomy

7) Вычислительная техника: lobe access module, Local Area Multicomputer (Parallel Computing)

8) Фирменный знак: Lyn Ashley Music

9) Океанография: Limited Area Model

10) Макаров: "look-at-me", longitudinal acoustic mode, продольные акустические моды

11) Расширение файла: Streaming audio metafile (Netscape Media Player)

12) Должность: Land Air Mech

13) Чат: Leave A Message

14) NYSE. Latin American Investment Fund, Inc.

Lam

1) Компьютерная техника: Local Area Multicomputer, Local Area Multiprocessor, line access module

2) Медицина: Lactational Amenorrhoea Method

3) Военный термин: Light Attack Munition, Louisiana Maneuvers, Loitering Attack Munition

4) Телекоммуникации: Lobe Attachment Unit (Token Ring)

5) Сокращение: Land Attack Missile, Laser Aiming Module, Lock Assembly Machine (robotic machine that operates on software integrated circuits that sends and receives data from the computer to a signal controller interface (to make Arrow locks)), Long Aerial Mine, Master of Liberal Arts, laminate, lymphangioleiomyomatosis

6) Физиология: Laminectomy

7) Вычислительная техника: lobe access module, Local Area Multicomputer (Parallel Computing)

8) Фирменный знак: Lyn Ashley Music

9) Океанография: Limited Area Model

10) Макаров: "look-at-me", longitudinal acoustic mode, продольные акустические моды

11) Расширение файла: Streaming audio metafile (Netscape Media Player)

12) Должность: Land Air Mech

13) Чат: Leave A Message

14) NYSE. Latin American Investment Fund, Inc.

lam

1) Компьютерная техника: Local Area Multicomputer, Local Area Multiprocessor, line access module

2) Медицина: Lactational Amenorrhoea Method

3) Военный термин: Light Attack Munition, Louisiana Maneuvers, Loitering Attack Munition

4) Телекоммуникации: Lobe Attachment Unit (Token Ring)

5) Сокращение: Land Attack Missile, Laser Aiming Module, Lock Assembly Machine (robotic machine that operates on software integrated circuits that sends and receives data from the computer to a signal controller interface (to make Arrow locks)), Long Aerial Mine, Master of Liberal Arts, laminate, lymphangioleiomyomatosis

6) Физиология: Laminectomy

7) Вычислительная техника: lobe access module, Local Area Multicomputer (Parallel Computing)

8) Фирменный знак: Lyn Ashley Music

9) Океанография: Limited Area Model

10) Макаров: "look-at-me", longitudinal acoustic mode, продольные акустические моды

11) Расширение файла: Streaming audio metafile (Netscape Media Player)

12) Должность: Land Air Mech

13) Чат: Leave A Message

14) NYSE. Latin American Investment Fund, Inc.

Intrakutannaht

Intrakutannaht f

■ Vertikal oder horizontal in der Lederhaut liegende und damit von außen unsichtbare Naht.

subcuticular suture

■ Method of skin closure involving placement of stitches in the subcuticular tissues parallel with the line of the wound.

composition

1) композиция; смесь; состав

2) компоновка

3) полигр. набор

4) матем. композиция, произведение

5) (векторное) сложение

6) составление; формирование; приготовление

7) лингв. словообразование

8) сочинение, создание (напр. музыкального произведения)

9) геол. строение, структура

•

fallacy of composition — ошибочная композиция

graphing by composition — графическое построение путём сложения ординат

normal law of composition — алг. нормальный закон композиции

- amalgamated composition

- associative composition

- circle composition

- commutative composition

- composition of algorithms

- composition of automata

- composition of causes

- composition of classes

- composition of forces

- composition of functions

- composition of groups

- composition of kernels

- composition of relations

- composition of sets

- composition of tensors

- composition of transformations

- composition of vectors

- cycle composition

- direct composition

- extended composition

- finishing composition

- flush-left composition

- free composition

- functional composition

- fuzzy composition

- general composition

- granulometric composition

- homogenous composition

- hot-type composition

- igniter composition

- induced composition

- injective composition

- interlined composition

- job composition

- leaf composition

- line composition

- machine composition

- metal-type composition

- multiplicative composition

- normal composition

- operation of composition

- parallel composition

- principle of composition

- regular composition

- secondary composition

- sequential composition

- starch composition

- stochiometric composition

- ternary composition

- touch method composition