solved by the use of

устранять затруднение

•

The use of thionyl chloride eliminates this problem.

•

This problem is remedied by prescribing the appropriate vitamin supplements.

•

To circumvent (or obviate) a difficulty, one has to...

•

This problem has been countered (or rectified) by the addition of...

•

The difficulty is easily solved by the use of...

•

To get around this difficulty, many plants have...

•

To overcome (or deal with) the difficulty, you have to...

Arnold, Aza

SUBJECT AREA: Textiles

[br]

b. 4 October 1788 Smithfield, Pawtucket, Rhode Island, USA

d. 1865 Washington, DC, USA

[br]

American textile machinist who applied the differential motion to roving frames, solving the problem of winding on the delicate cotton rovings.

[br]

He was the son of Benjamin and Isabel Arnold, but his mother died when he was 2 years old and after his father's second marriage he was largely left to look after himself. After attending the village school he learnt the trade of a carpenter, and following this he became a machinist. He entered the employment of Samuel Slater, but left after a few years to engage in the unsuccessful manufacture of woollen blankets. He became involved in an engineering shop, where he devised a machine for taking wool off a carding machine and making it into endless slivers or rovings for spinning. He then became associated with a cotton-spinning mill, which led to his most important invention. The carded cotton sliver had to be reduced in thickness before it could be spun on the final machines such as the mule or the waterframe. The roving, as the mass of cotton fibres was called at this stage, was thin and very delicate because it could not be twisted to give strength, as this would not allow it to be drawn out again during the next stage. In order to wind the roving on to bobbins, the speed of the bobbin had to be just right but the diameter of the bobbin increased as it was filled. Obtaining the correct reduction in speed as the circumference increased was partially solved by the use of double-coned pulleys, but the driving belt was liable to slip owing to the power that had to be transmitted.

The final solution to the problem came with the introduction of the differential drive with bevel gears or a sun-and-planet motion. Arnold had invented this compound motion in 1818 but did not think of applying it to the roving frame until 1820. It combined the direct-gearing drive from the main shaft of the machine with that from the cone-drum drive so that the latter only provided the difference between flyer and bobbin speeds, which meant that most of the transmission power was taken away from the belt. The patent for this invention was issued to Arnold on 23 January 1823 and was soon copied in Britain by Henry Houldsworth, although J.Green of Mansfield may have originated it independendy in the same year. Arnold's patent was widely infringed in America and he sued the Proprietors of the Locks and Canals, machine makers for the Lowell manufacturers, for $30,000, eventually receiving $3,500 compensation. Arnold had his own machine shop but he gave it up in 1838 and moved the Philadelphia, where he operated the Mulhausen Print Works. Around 1850 he went to Washington, DC, and became a patent attorney, remaining as such until his death. On 24 June 1856 he was granted patent for a self-setting and self-raking saw for sawing machines.

[br]

Bibliography

28 June 1856, US patent no. 15,163 (self-setting and self-raking saw for sawing machines).

Further Reading

Dictionary of American Biography, Vol. 1.

W.English, 1969, The Textile Industry, London (a description of the principles of the differential gear applied to the roving frame).

D.J.Jeremy, 1981, Transatlantic Industrial Revolution. The Diffusion of Textile Technologies Between Britain and America, 1790–1830, Oxford (a discussion of the introduction and spread of Arnold's gear).

RLH

использование

use, utilization, employment, harnessing, tapping

• ..., что неудовлетворительно для использования их в качестве приближенного базиса. -... which is unsatisfactory for using them as an approximate basis.

• Безусловно, нет ничего нового в использовании... - There is, of course, nothing new in the use of...

• Безусловно, это требует использования... - This, of course, requires the use of...

• Во-вторых, мы должны заметить относительно использования (чего-л). - Secondly, we must comment on the use of...

• Данная задача решается с использованием... - The problem is solved by means of...

• Для дальнейшего использования давайте протабулируем... - For future reference, let us tabulate...

• Другими словами, ничто не удерживает нас от использования... - In other words, there is nothing to prevent us from using...

• Использование таких материалов все еще обсуждается. - The use of such materials is under discussion.

• Нет никаких особых преимуществ в использовании... - There is no special merit in using...

• Нужно быть осторожным при использовании данной формулы. - One must be careful in using this formula.

• Один из способов решения данной проблемы состоит в использовании... - One way of overcoming this problem is to use...

• Одной из возможностей здесь является использование... - One possibility is to use...

• Использование оценки, предоставляемой соотношением (i), ограничено, поскольку... - The bound provided by (i) is of limited use because...

• При использовании... имеются определенные неудобства. - There are certain disadvantages in the use of...

• Пример его/ее использования уже приведен в Главе 2. - An example of its use has already been given in Chapter 2.

• Рассмотрим теперь использование... - Consider now the use of...

• С целью дальнейшего использования заметим здесь... - Let us note here, for future use,...

• Сначала мы обсудим использование (метода и т. п.)... - We first discuss the use of...

• Среди них мы можем упомянуть использование... - Among these may be mentioned the use of...

• Такое (его) использование не является абсолютно правильным, так как... - This usage is not strictly accurate, since...

• Тем не менее, имеется много опасностей в использовании... - Nevertheless, there are many dangers in the use of...

• Часто использование альтернативной формулы (2) имеет свои преимущества. - It is often advantageous to use the alternative formula (2).

• Эта модификация завершается использованием... - The modification is accomplished by using...

• Это затруднение возникает вследствие использования... - This difficulty arises from the use of...

• Эти достоинства (метода) привели к широкому использованию... - These advantages have led to the widespread use of...

• Это объясняется продолжительным использованием... - This accounts for the continued use of...

• Это проделывается с помощью использования двух следующих методов:... - This is done by employing two different methods:...

abarrotado

adj.

crammed, packed, completely full, crowded.

past part.

past participle of spanish verb: abarrotar.

* * *

abarrotado

► participio pasado

1→ link=abarrotar abarrotar

► adjetivo

1 (cosas) packed (de, with), crammed (de, with); (personas) jam-packed (de, with), packed (de, with)

* * *

(f. - abarrotada)

adj.

1) packed

2) crowded

* * *

ADJ [sala, tren] packed, jam-packed

• estar abarrotado de — [+ personas] to be packed o jam-packed with; [+ objetos] to be crammed o jam-packed with

el cine estaba abarrotado (de gente) — the cinema was packed

* * *

- da adjetivo crammed, packed

abarrotado de algo — < de gente> packed o crammed with something

* * *

= congested, packed to capacity, overcrowded, bursting at the seams, stuffed looking, choc-a-block, chock-full, cluttered, densely packed, packed, packed to the rafters.

Ex. To be sure, it still has its congeries of mills and factories, its grimy huddle of frame dwellings and congested tenements, its stark, jagged skyline, but its old face is gradually changing.

Ex. His small foreign-made car strained with the added burden of an interior packed to capacity with personal belongings and a heavily laden U-Haul trailor attached to the rear.

Ex. Cooperative storage of materials on a regional or national basis promises to become the best way of coping with overcrowded libraries.

Ex. The library solved the problems of budget cuts, a library building bursting at the seams, and stock ill matched to some of the courses by switching to the use of on-line search services.

Ex. As one librarian summarized, 'people are not into the stuffed looking, dingy, dust smelling type of libraries anymore... they expect atmospheres more like coffeehouses or nice bookstores'.

Ex. The library was choc-a-block with celebrities and children as they swarmed to see the signing of the new Harry Potter book by its author.

Ex. Herbal cancer remedy is chock-full of drugs.

Ex. They found him in his habitually cluttered office, buried beneath stacks of paperwork.

Ex. The square was humble and nondescript, part of a maze of narrow streets and densely packed shops and houses.

Ex. Here and there, elderly citizens tend tiny, packed shops selling candy and chipped bottles of cold soda.

Ex. The local church was packed to the rafters for the funeral of a much-loved parish priest who died last month aged 69.

----

* abarrotado (de) = teeming with, bursting with, jam-packed (with), filled to capacity.

* * *

- da adjetivo crammed, packed

abarrotado de algo — < de gente> packed o crammed with something

* * *

= congested, packed to capacity, overcrowded, bursting at the seams, stuffed looking, choc-a-block, chock-full, cluttered, densely packed, packed, packed to the rafters.

Ex: To be sure, it still has its congeries of mills and factories, its grimy huddle of frame dwellings and congested tenements, its stark, jagged skyline, but its old face is gradually changing.

Ex: His small foreign-made car strained with the added burden of an interior packed to capacity with personal belongings and a heavily laden U-Haul trailor attached to the rear.

Ex: Cooperative storage of materials on a regional or national basis promises to become the best way of coping with overcrowded libraries.

Ex: The library solved the problems of budget cuts, a library building bursting at the seams, and stock ill matched to some of the courses by switching to the use of on-line search services.

Ex: As one librarian summarized, 'people are not into the stuffed looking, dingy, dust smelling type of libraries anymore... they expect atmospheres more like coffeehouses or nice bookstores'.

Ex: The library was choc-a-block with celebrities and children as they swarmed to see the signing of the new Harry Potter book by its author.

Ex: Herbal cancer remedy is chock-full of drugs.

Ex: They found him in his habitually cluttered office, buried beneath stacks of paperwork.

Ex: The square was humble and nondescript, part of a maze of narrow streets and densely packed shops and houses.

Ex: Here and there, elderly citizens tend tiny, packed shops selling candy and chipped bottles of cold soda.

Ex: The local church was packed to the rafters for the funeral of a much-loved parish priest who died last month aged 69.

* abarrotado (de) = teeming with, bursting with, jam-packed (with), filled to capacity.

* * *

abarrotado -da

adjective

crammed, packed abarrotado DE algo packed o crammed WITH sth

estanterías abarrotadas de adornos shelves crammed with ornaments

el foyer estaba abarrotado de gente the foyer was packed with people

* * *

Del verbo abarrotar: ( conjugate abarrotar)

abarrotado es:

el participio

Multiple Entries:
abarrotado    
abarrotar
abarrotado

◊ -da adjetivo

crammed, packed;
abarrotado de algo ‹ de gente› packed o crammed with sth
abarrotar ( conjugate abarrotar) verbo transitivo ‹sala/teatro› to pack
abarrotado,-a adjetivo packed, crammed [de, with]: no pudimos entrar en el local, estaba abarrotado (de gente), we couldn't get into the place because it was jam-packed with people
abarrotar verbo transitivo to pack, cram [de, with]: el público abarrotaba el teatro, the theatre was packed (with people)

' abarrotado' also found in these entries:
Spanish:
abarrotada
English:
astir
- chock-a-block
- chock-full
- overcrowded
- swarm
- cluttered
- congested
- crowded
- over

* * *

abarrotado, -a adj

1. [lleno] [teatro, autobús] packed (de with); [desván, baúl] crammed (de with)

2. Ven

estar abarrotado de trabajo to have a lot of work

* * *

abarrotado

I adj packed

II part → abarrotar

* * *

abarrotado, -da adj

: packed, crammed

hasta los topes

(v.) = packed to capacity, bursting at the seams, choc-a-block, chock-full, overloaded, packed to the rafters

Ex. His small foreign-made car strained with the added burden of an interior packed to capacity with personal belongings and a heavily laden U-Haul trailor attached to the rear.

Ex. The library solved the problems of budget cuts, a library building bursting at the seams, and stock ill matched to some of the courses by switching to the use of on-line search services.

Ex. The library was choc-a-block with celebrities and children as they swarmed to see the signing of the new Harry Potter book by its author.

Ex. Herbal cancer remedy is chock-full of drugs.

Ex. He dismissed the image of overloaded libraries collapsing under the weight of a surfeit of paper as 'mythology'.

Ex. The local church was packed to the rafters for the funeral of a much-loved parish priest who died last month aged 69.

* * *

(v.) = packed to capacity, bursting at the seams, choc-a-block, chock-full, overloaded, packed to the rafters

Ex: His small foreign-made car strained with the added burden of an interior packed to capacity with personal belongings and a heavily laden U-Haul trailor attached to the rear.

Ex: The library solved the problems of budget cuts, a library building bursting at the seams, and stock ill matched to some of the courses by switching to the use of on-line search services.

Ex: The library was choc-a-block with celebrities and children as they swarmed to see the signing of the new Harry Potter book by its author.

Ex: Herbal cancer remedy is chock-full of drugs.

Ex: He dismissed the image of overloaded libraries collapsing under the weight of a surfeit of paper as 'mythology'.

Ex: The local church was packed to the rafters for the funeral of a much-loved parish priest who died last month aged 69.

incompatible

adj.

incompatible.

* * *

incompatible

► adjetivo

1 incompatible

* * *

adj.

incompatible

* * *

ADJ incompatible

* * *

adjetivo

a) <personas/caracteres> incompatible

b) <cargo/horario>

los dos cargos son incompatibles — the two posts may not be held at the same time

el horario de clases es incompatible con el de mi trabajo — the times of the classes clash with my work hours

* * *

= incompatible, ill matched, unreconciled.

Ex. The moment we compromise among ourselves to adopt rules that are incompatible with ideology then I think we are merely providing the necessity before very long to have these changes brought about.

Ex. The library solved the problems of budget cuts, a library building bursting at the seams, and stock ill matched to some of the courses by switching to the use of on-line search services.

Ex. Any items left unreconciled in the central fund such as bank transfers, should now be reconciled.

----

* algo incompatible = a square peg in a round hole.

* ser incompatible (con) = be irreconcilable (with).

* * *

adjetivo

a) <personas/caracteres> incompatible

b) <cargo/horario>

los dos cargos son incompatibles — the two posts may not be held at the same time

el horario de clases es incompatible con el de mi trabajo — the times of the classes clash with my work hours

* * *

= incompatible, ill matched, unreconciled.

Ex: The moment we compromise among ourselves to adopt rules that are incompatible with ideology then I think we are merely providing the necessity before very long to have these changes brought about.

Ex: The library solved the problems of budget cuts, a library building bursting at the seams, and stock ill matched to some of the courses by switching to the use of on-line search services.

Ex: Any items left unreconciled in the central fund such as bank transfers, should now be reconciled.

* algo incompatible = a square peg in a round hole.

* ser incompatible (con) = be irreconcilable (with).

* * *

incompatible

adjective

1 ‹personas/caracteres› incompatible

2 ‹cargos/trabajos›

los dos cargos son incompatibles the two posts may not be held concurrently o at the same time

el horario de clases es incompatible con el de mi trabajo the times of the classes clash with my work hours

* * *

incompatible adjetivo ‹personas/caracteres› incompatible;

◊ el horario de clases es incompatible con el de mi trabajo the times of the classes clash with my work hours

incompatible adjetivo incompatible [con, with]
(una pareja) ill-suited

' incompatible' also found in these entries:
Spanish:
reñida
- reñido
English:
ill-suited
- incompatible
- unsuited

* * *

incompatible adj

1. [medicamento, personalidad] incompatible ( con with);

el perdón es incompatible con el rencor forgiveness and resentment are incompatible;

un programa incompatible con versiones anteriores del sistema operativo a program which is incompatible with previous versions of the operating system

2. [cargo]

estos dos puestos son incompatibles the two posts cannot be held by the same person at the same time

* * *

incompatible

adj tb

INFOR incompatible

* * *

incompatible adj

: incompatible, uncongenial

lleno a reventar

(v.) = bursting, bursting at the seams, packed to capacity, packed to the rafters

Ex. The bursting linen cupboard is characteristic of the late 19th century, since people used their linen to decorate interiors.

Ex. The library solved the problems of budget cuts, a library building bursting at the seams, and stock ill matched to some of the courses by switching to the use of on-line search services.

Ex. His small foreign-made car strained with the added burden of an interior packed to capacity with personal belongings and a heavily laden U-Haul trailor attached to the rear.

Ex. The local church was packed to the rafters for the funeral of a much-loved parish priest who died last month aged 69.

* * *

(v.) = bursting, bursting at the seams, packed to capacity, packed to the rafters

Ex: The bursting linen cupboard is characteristic of the late 19th century, since people used their linen to decorate interiors.

Ex: The library solved the problems of budget cuts, a library building bursting at the seams, and stock ill matched to some of the courses by switching to the use of on-line search services.

Ex: His small foreign-made car strained with the added burden of an interior packed to capacity with personal belongings and a heavily laden U-Haul trailor attached to the rear.

Ex: The local church was packed to the rafters for the funeral of a much-loved parish priest who died last month aged 69.

lleno hasta los topes

(v.) = bursting, bursting at the seams, packed to capacity, packed to the rafters

Ex. The bursting linen cupboard is characteristic of the late 19th century, since people used their linen to decorate interiors.

Ex. The library solved the problems of budget cuts, a library building bursting at the seams, and stock ill matched to some of the courses by switching to the use of on-line search services.

Ex. His small foreign-made car strained with the added burden of an interior packed to capacity with personal belongings and a heavily laden U-Haul trailor attached to the rear.

Ex. The local church was packed to the rafters for the funeral of a much-loved parish priest who died last month aged 69.

* * *

(v.) = bursting, bursting at the seams, packed to capacity, packed to the rafters

Ex: The bursting linen cupboard is characteristic of the late 19th century, since people used their linen to decorate interiors.

Ex: The library solved the problems of budget cuts, a library building bursting at the seams, and stock ill matched to some of the courses by switching to the use of on-line search services.

Ex: His small foreign-made car strained with the added burden of an interior packed to capacity with personal belongings and a heavily laden U-Haul trailor attached to the rear.

Ex: The local church was packed to the rafters for the funeral of a much-loved parish priest who died last month aged 69.

desacorde

adj.

1 differing, conflicting (opiniones).

2 discordant, different, conflicting, clashing.

* * *

desacorde

► nombre masculino

1 MÚSICA discordant

2 figurado clashing, discordant, conflicting (colores) clashing

■ opiniones desacordes conflicting opinions

* * *

ADJ

1) (Mús) discordant

2) (=diverso) [opiniones] conflicting; [colores] clashing

* * *

adjetivo <opiniones/versiones> conflicting; < sonidos> discordant; < instrumentos> out of tune

* * *

= ill matched, out of tune.

Ex. The library solved the problems of budget cuts, a library building bursting at the seams, and stock ill matched to some of the courses by switching to the use of on-line search services.

Ex. Soon they started receiving complaints that he left the pianos more out of tune than he found them.

* * *

adjetivo <opiniones/versiones> conflicting; < sonidos> discordant; < instrumentos> out of tune

* * *

= ill matched, out of tune.

Ex: The library solved the problems of budget cuts, a library building bursting at the seams, and stock ill matched to some of the courses by switching to the use of on-line search services.

Ex: Soon they started receiving complaints that he left the pianos more out of tune than he found them.

* * *

desacorde

adjective

1 ‹opiniones/versiones› conflicting

2 ‹sonidos› discordant; ‹instrumentos› out of tune

* * *

desacorde adj

1. [opiniones] differing, conflicting

2. [sonidos, notas musicales] discordant;

[instrumentos] out of tune (with one another)

* * *

desacorde adj

1) : conflicting

2) : discordant

модульный центр обработки данных (ЦОД)

1. modular data center

 

модульный центр обработки данных (ЦОД)
-
[Интент]

Параллельные тексты EN-RU

[ http://loosebolts.wordpress.com/2008/12/02/our-vision-for-generation-4-modular-data-centers-one-way-of-getting-it-just-right/]

[ http://dcnt.ru/?p=9299#more-9299]

Data Centers are a hot topic these days. No matter where you look, this once obscure aspect of infrastructure is getting a lot of attention. For years, there have been cost pressures on IT operations and this, when the need for modern capacity is greater than ever, has thrust data centers into the spotlight. Server and rack density continues to rise, placing DC professionals and businesses in tighter and tougher situations while they struggle to manage their IT environments. And now hyper-scale cloud infrastructure is taking traditional technologies to limits never explored before and focusing the imagination of the IT industry on new possibilities.

В настоящее время центры обработки данных являются широко обсуждаемой темой. Куда ни посмотришь, этот некогда малоизвестный аспект инфраструктуры привлекает все больше внимания. Годами ИТ-отделы испытывали нехватку средств и это выдвинуло ЦОДы в центр внимания, в то время, когда необходимость в современных ЦОДах стала как никогда высокой. Плотность серверов и стоек продолжают расти, все больше усложняя ситуацию для специалистов в области охлаждения и организаций в их попытках управлять своими ИТ-средами. И теперь гипермасштабируемая облачная инфраструктура подвергает традиционные технологии невиданным ранее нагрузкам, и заставляет ИТ-индустрию искать новые возможности.

At Microsoft, we have focused a lot of thought and research around how to best operate and maintain our global infrastructure and we want to share those learnings. While obviously there are some aspects that we keep to ourselves, we have shared how we operate facilities daily, our technologies and methodologies, and, most importantly, how we monitor and manage our facilities. Whether it’s speaking at industry events, inviting customers to our “Microsoft data center conferences” held in our data centers, or through other media like blogging and white papers, we believe sharing best practices is paramount and will drive the industry forward. So in that vein, we have some interesting news to share.

В компании MicroSoft уделяют большое внимание изучению наилучших методов эксплуатации и технического обслуживания своей глобальной инфраструктуры и делятся результатами своих исследований. И хотя мы, конечно, не раскрываем некоторые аспекты своих исследований, мы делимся повседневным опытом эксплуатации дата-центров, своими технологиями и методологиями и, что важнее всего, методами контроля и управления своими объектами. Будь то доклады на отраслевых событиях, приглашение клиентов на наши конференции, которые посвящены центрам обработки данных MicroSoft, и проводятся в этих самых дата-центрах, или использование других средств, например, блоги и спецификации, мы уверены, что обмен передовым опытом имеет первостепенное значение и будет продвигать отрасль вперед.

Today we are sharing our Generation 4 Modular Data Center plan. This is our vision and will be the foundation of our cloud data center infrastructure in the next five years. We believe it is one of the most revolutionary changes to happen to data centers in the last 30 years. Joining me, in writing this blog are Daniel Costello, my director of Data Center Research and Engineering and Christian Belady, principal power and cooling architect. I feel their voices will add significant value to driving understanding around the many benefits included in this new design paradigm.

Сейчас мы хотим поделиться своим планом модульного дата-центра четвертого поколения. Это наше видение и оно будет основанием для инфраструктуры наших облачных дата-центров в ближайшие пять лет. Мы считаем, что это одно из самых революционных изменений в дата-центрах за последние 30 лет. Вместе со мной в написании этого блога участвовали Дэниел Костелло, директор по исследованиям и инжинирингу дата-центров, и Кристиан Белади, главный архитектор систем энергоснабжения и охлаждения. Мне кажется, что их авторитет придаст больше веса большому количеству преимуществ, включенных в эту новую парадигму проектирования.

Our “Gen 4” modular data centers will take the flexibility of containerized servers—like those in our Chicago data center—and apply it across the entire facility. So what do we mean by modular? Think of it like “building blocks”, where the data center will be composed of modular units of prefabricated mechanical, electrical, security components, etc., in addition to containerized servers.

Was there a key driver for the Generation 4 Data Center?

Наши модульные дата-центры “Gen 4” будут гибкими с контейнерами серверов – как серверы в нашем чикагском дата-центре. И гибкость будет применяться ко всему ЦОД. Итак, что мы подразумеваем под модульностью? Мы думаем о ней как о “строительных блоках”, где дата-центр будет состоять из модульных блоков изготовленных в заводских условиях электрических систем и систем охлаждения, а также систем безопасности и т.п., в дополнение к контейнеризованным серверам.
Был ли ключевой стимул для разработки дата-центра четвертого поколения?

If we were to summarize the promise of our Gen 4 design into a single sentence it would be something like this: “A highly modular, scalable, efficient, just-in-time data center capacity program that can be delivered anywhere in the world very quickly and cheaply, while allowing for continued growth as required.” Sounds too good to be true, doesn’t it? Well, keep in mind that these concepts have been in initial development and prototyping for over a year and are based on cumulative knowledge of previous facility generations and the advances we have made since we began our investments in earnest on this new design.

Если бы нам нужно было обобщить достоинства нашего проекта Gen 4 в одном предложении, это выглядело бы следующим образом: “Центр обработки данных с высоким уровнем модульности, расширяемости, и энергетической эффективности, а также возможностью постоянного расширения, в случае необходимости, который можно очень быстро и дешево развертывать в любом месте мира”. Звучит слишком хорошо для того чтобы быть правдой, не так ли? Ну, не забывайте, что эти концепции находились в процессе начальной разработки и создания опытного образца в течение более одного года и основываются на опыте, накопленном в ходе развития предыдущих поколений ЦОД, а также успехах, сделанных нами со времени, когда мы начали вкладывать серьезные средства в этот новый проект.

One of the biggest challenges we’ve had at Microsoft is something Mike likes to call the ‘Goldilock’s Problem’. In a nutshell, the problem can be stated as:

The worst thing we can do in delivering facilities for the business is not have enough capacity online, thus limiting the growth of our products and services.

Одну из самых больших проблем, с которыми приходилось сталкиваться Майкрософт, Майк любит называть ‘Проблемой Лютика’. Вкратце, эту проблему можно выразить следующим образом:

Самое худшее, что может быть при строительстве ЦОД для бизнеса, это не располагать достаточными производственными мощностями, и тем самым ограничивать рост наших продуктов и сервисов.

The second worst thing we can do in delivering facilities for the business is to have too much capacity online.

А вторым самым худшим моментом в этой сфере может слишком большое количество производственных мощностей.

This has led to a focus on smart, intelligent growth for the business — refining our overall demand picture. It can’t be too hot. It can’t be too cold. It has to be ‘Just Right!’ The capital dollars of investment are too large to make without long term planning. As we struggled to master these interesting challenges, we had to ensure that our technological plan also included solutions for the business and operational challenges we faced as well.
So let’s take a high level look at our Generation 4 design

Это заставило нас сосредоточиваться на интеллектуальном росте для бизнеса — refining our overall demand picture. Это не должно быть слишком горячим. И это не должно быть слишком холодным. Это должно быть ‘как раз, таким как надо!’ Нельзя делать такие большие капиталовложения без долгосрочного планирования. Пока мы старались решить эти интересные проблемы, мы должны были гарантировать, что наш технологический план будет также включать решения для коммерческих и эксплуатационных проблем, с которыми нам также приходилось сталкиваться.
Давайте рассмотрим наш проект дата-центра четвертого поколения

Are you ready for some great visuals? Check out this video at Soapbox. Click here for the Microsoft 4th Gen Video.

It’s a concept video that came out of my Data Center Research and Engineering team, under Daniel Costello, that will give you a view into what we think is the future.

From a configuration, construct-ability and time to market perspective, our primary goals and objectives are to modularize the whole data center. Not just the server side (like the Chicago facility), but the mechanical and electrical space as well. This means using the same kind of parts in pre-manufactured modules, the ability to use containers, skids, or rack-based deployments and the ability to tailor the Redundancy and Reliability requirements to the application at a very specific level.

Посмотрите это видео, перейдите по ссылке для просмотра видео о Microsoft 4th Gen:

Это концептуальное видео, созданное командой отдела Data Center Research and Engineering, возглавляемого Дэниелом Костелло, которое даст вам наше представление о будущем.

С точки зрения конфигурации, строительной технологичности и времени вывода на рынок, нашими главными целями и задачами агрегатирование всего дата-центра. Не только серверную часть, как дата-центр в Чикаго, но также системы охлаждения и электрические системы. Это означает применение деталей одного типа в сборных модулях, возможность использования контейнеров, салазок, или стоечных систем, а также возможность подстраивать требования избыточности и надежности для данного приложения на очень специфичном уровне.

Our goals from a cost perspective were simple in concept but tough to deliver. First and foremost, we had to reduce the capital cost per critical Mega Watt by the class of use. Some applications can run with N-level redundancy in the infrastructure, others require a little more infrastructure for support. These different classes of infrastructure requirements meant that optimizing for all cost classes was paramount. At Microsoft, we are not a one trick pony and have many Online products and services (240+) that require different levels of operational support. We understand that and ensured that we addressed it in our design which will allow us to reduce capital costs by 20%-40% or greater depending upon class.

Нашими целями в области затрат были концептуально простыми, но трудно реализуемыми. В первую очередь мы должны были снизить капитальные затраты в пересчете на один мегаватт, в зависимости от класса резервирования. Некоторые приложения могут вполне работать на базе инфраструктуры с резервированием на уровне N, то есть без резервирования, а для работы других приложений требуется больше инфраструктуры. Эти разные классы требований инфраструктуры подразумевали, что оптимизация всех классов затрат имеет преобладающее значение. В Майкрософт мы не ограничиваемся одним решением и располагаем большим количеством интерактивных продуктов и сервисов (240+), которым требуются разные уровни эксплуатационной поддержки. Мы понимаем это, и учитываем это в своем проекте, который позволит нам сокращать капитальные затраты на 20%-40% или более в зависимости от класса.

For example, non-critical or geo redundant applications have low hardware reliability requirements on a location basis. As a result, Gen 4 can be configured to provide stripped down, low-cost infrastructure with little or no redundancy and/or temperature control. Let’s say an Online service team decides that due to the dramatically lower cost, they will simply use uncontrolled outside air with temperatures ranging 10-35 C and 20-80% RH. The reality is we are already spec-ing this for all of our servers today and working with server vendors to broaden that range even further as Gen 4 becomes a reality. For this class of infrastructure, we eliminate generators, chillers, UPSs, and possibly lower costs relative to traditional infrastructure.

Например, некритичные или гео-избыточные системы имеют низкие требования к аппаратной надежности на основе местоположения. В результате этого, Gen 4 можно конфигурировать для упрощенной, недорогой инфраструктуры с низким уровнем (или вообще без резервирования) резервирования и / или температурного контроля. Скажем, команда интерактивного сервиса решает, что, в связи с намного меньшими затратами, они будут просто использовать некондиционированный наружный воздух с температурой 10-35°C и влажностью 20-80% RH. В реальности мы уже сегодня предъявляем эти требования к своим серверам и работаем с поставщиками серверов над еще большим расширением диапазона температур, так как наш модуль и подход Gen 4 становится реальностью. Для подобного класса инфраструктуры мы удаляем генераторы, чиллеры, ИБП, и, возможно, будем предлагать более низкие затраты, по сравнению с традиционной инфраструктурой.

Applications that demand higher level of redundancy or temperature control will use configurations of Gen 4 to meet those needs, however, they will also cost more (but still less than traditional data centers). We see this cost difference driving engineering behavioral change in that we predict more applications will drive towards Geo redundancy to lower costs.

Системы, которым требуется более высокий уровень резервирования или температурного контроля, будут использовать конфигурации Gen 4, отвечающие этим требованиям, однако, они будут также стоить больше. Но все равно они будут стоить меньше, чем традиционные дата-центры. Мы предвидим, что эти различия в затратах будут вызывать изменения в методах инжиниринга, и по нашим прогнозам, это будет выражаться в переходе все большего числа систем на гео-избыточность и меньшие затраты.

Another cool thing about Gen 4 is that it allows us to deploy capacity when our demand dictates it. Once finalized, we will no longer need to make large upfront investments. Imagine driving capital costs more closely in-line with actual demand, thus greatly reducing time-to-market and adding the capacity Online inherent in the design. Also reduced is the amount of construction labor required to put these “building blocks” together. Since the entire platform requires pre-manufacture of its core components, on-site construction costs are lowered. This allows us to maximize our return on invested capital.

Еще одно достоинство Gen 4 состоит в том, что он позволяет нам разворачивать дополнительные мощности, когда нам это необходимо. Как только мы закончим проект, нам больше не нужно будет делать большие начальные капиталовложения. Представьте себе возможность более точного согласования капитальных затрат с реальными требованиями, и тем самым значительного снижения времени вывода на рынок и интерактивного добавления мощностей, предусматриваемого проектом. Также снижен объем строительных работ, требуемых для сборки этих “строительных блоков”. Поскольку вся платформа требует предварительного изготовления ее базовых компонентов, затраты на сборку также снижены. Это позволит нам увеличить до максимума окупаемость своих капиталовложений.
Мы все подвергаем сомнению

In our design process, we questioned everything. You may notice there is no roof and some might be uncomfortable with this. We explored the need of one and throughout our research we got some surprising (positive) results that showed one wasn’t needed.

В своем процессе проектирования мы все подвергаем сомнению. Вы, наверное, обратили внимание на отсутствие крыши, и некоторым специалистам это могло не понравиться. Мы изучили необходимость в крыше и в ходе своих исследований получили удивительные результаты, которые показали, что крыша не нужна.
Серийное производство дата центров

In short, we are striving to bring Henry Ford’s Model T factory to the data center. http://en.wikipedia.org/wiki/Henry_Ford#Model_T. Gen 4 will move data centers from a custom design and build model to a commoditized manufacturing approach. We intend to have our components built in factories and then assemble them in one location (the data center site) very quickly. Think about how a computer, car or plane is built today. Components are manufactured by different companies all over the world to a predefined spec and then integrated in one location based on demands and feature requirements. And just like Henry Ford’s assembly line drove the cost of building and the time-to-market down dramatically for the automobile industry, we expect Gen 4 to do the same for data centers. Everything will be pre-manufactured and assembled on the pad.

Мы хотим применить модель автомобильной фабрики Генри Форда к дата-центру. Проект Gen 4 будет способствовать переходу от модели специализированного проектирования и строительства к товарно-производственному, серийному подходу. Мы намерены изготавливать свои компоненты на заводах, а затем очень быстро собирать их в одном месте, в месте строительства дата-центра. Подумайте о том, как сегодня изготавливается компьютер, автомобиль или самолет. Компоненты изготавливаются по заранее определенным спецификациям разными компаниями во всем мире, затем собираются в одном месте на основе спроса и требуемых характеристик. И точно так же как сборочный конвейер Генри Форда привел к значительному уменьшению затрат на производство и времени вывода на рынок в автомобильной промышленности, мы надеемся, что Gen 4 сделает то же самое для дата-центров. Все будет предварительно изготавливаться и собираться на месте.
Невероятно энергоэффективный ЦОД

And did we mention that this platform will be, overall, incredibly energy efficient? From a total energy perspective not only will we have remarkable PUE values, but the total cost of energy going into the facility will be greatly reduced as well. How much energy goes into making concrete? Will we need as much of it? How much energy goes into the fuel of the construction vehicles? This will also be greatly reduced! A key driver is our goal to achieve an average PUE at or below 1.125 by 2012 across our data centers. More than that, we are on a mission to reduce the overall amount of copper and water used in these facilities. We believe these will be the next areas of industry attention when and if the energy problem is solved. So we are asking today…“how can we build a data center with less building”?

А мы упоминали, что эта платформа будет, в общем, невероятно энергоэффективной? С точки зрения общей энергии, мы получим не только поразительные значения PUE, но общая стоимость энергии, затраченной на объект будет также значительно снижена. Сколько энергии идет на производство бетона? Нам нужно будет столько энергии? Сколько энергии идет на питание инженерных строительных машин? Это тоже будет значительно снижено! Главным стимулом является достижение среднего PUE не больше 1.125 для всех наших дата-центров к 2012 году. Более того, у нас есть задача сокращения общего количества меди и воды в дата-центрах. Мы думаем, что эти задачи станут следующей заботой отрасли после того как будет решена энергетическая проблема. Итак, сегодня мы спрашиваем себя…“как можно построить дата-центр с меньшим объемом строительных работ”?
Строительство дата центров без чиллеров

We have talked openly and publicly about building chiller-less data centers and running our facilities using aggressive outside economization. Our sincerest hope is that Gen 4 will completely eliminate the use of water. Today’s data centers use massive amounts of water and we see water as the next scarce resource and have decided to take a proactive stance on making water conservation part of our plan.

Мы открыто и публично говорили о строительстве дата-центров без чиллеров и активном использовании в наших центрах обработки данных технологий свободного охлаждения или фрикулинга. Мы искренне надеемся, что Gen 4 позволит полностью отказаться от использования воды. Современные дата-центры расходуют большие объемы воды и так как мы считаем воду следующим редким ресурсом, мы решили принять упреждающие меры и включить экономию воды в свой план.

By sharing this with the industry, we believe everyone can benefit from our methodology. While this concept and approach may be intimidating (or downright frightening) to some in the industry, disclosure ultimately is better for all of us.

Делясь этим опытом с отраслью, мы считаем, что каждый сможет извлечь выгоду из нашей методологией. Хотя эта концепция и подход могут показаться пугающими (или откровенно страшными) для некоторых отраслевых специалистов, раскрывая свои планы мы, в конечном счете, делаем лучше для всех нас.

Gen 4 design (even more than just containers), could reduce the ‘religious’ debates in our industry. With the central spine infrastructure in place, containers or pre-manufactured server halls can be either AC or DC, air-side economized or water-side economized, or not economized at all (though the sanity of that might be questioned). Gen 4 will allow us to decommission, repair and upgrade quickly because everything is modular. No longer will we be governed by the initial decisions made when constructing the facility. We will have almost unlimited use and re-use of the facility and site. We will also be able to use power in an ultra-fluid fashion moving load from critical to non-critical as use and capacity requirements dictate.

Проект Gen 4 позволит уменьшить ‘религиозные’ споры в нашей отрасли. Располагая базовой инфраструктурой, контейнеры или сборные серверные могут оборудоваться системами переменного или постоянного тока, воздушными или водяными экономайзерами, или вообще не использовать экономайзеры. Хотя можно подвергать сомнению разумность такого решения. Gen 4 позволит нам быстро выполнять работы по выводу из эксплуатации, ремонту и модернизации, поскольку все будет модульным. Мы больше не будем руководствоваться начальными решениями, принятыми во время строительства дата-центра. Мы сможем использовать этот дата-центр и инфраструктуру в течение почти неограниченного периода времени. Мы также сможем применять сверхгибкие методы использования электрической энергии, переводя оборудование в режимы критической или некритической нагрузки в соответствии с требуемой мощностью.
Gen 4 – это стандартная платформа

Finally, we believe this is a big game changer. Gen 4 will provide a standard platform that our industry can innovate around. For example, all modules in our Gen 4 will have common interfaces clearly defined by our specs and any vendor that meets these specifications will be able to plug into our infrastructure. Whether you are a computer vendor, UPS vendor, generator vendor, etc., you will be able to plug and play into our infrastructure. This means we can also source anyone, anywhere on the globe to minimize costs and maximize performance. We want to help motivate the industry to further innovate—with innovations from which everyone can reap the benefits.

Наконец, мы уверены, что это будет фактором, который значительно изменит ситуацию. Gen 4 будет представлять собой стандартную платформу, которую отрасль сможет обновлять. Например, все модули в нашем Gen 4 будут иметь общепринятые интерфейсы, четко определяемые нашими спецификациями, и оборудование любого поставщика, которое отвечает этим спецификациям можно будет включать в нашу инфраструктуру. Независимо от того производите вы компьютеры, ИБП, генераторы и т.п., вы сможете включать свое оборудование нашу инфраструктуру. Это означает, что мы также сможем обеспечивать всех, в любом месте земного шара, тем самым сводя до минимума затраты и максимальной увеличивая производительность. Мы хотим создать в отрасли мотивацию для дальнейших инноваций – инноваций, от которых каждый сможет получать выгоду.
Главные характеристики дата-центров четвертого поколения Gen4

To summarize, the key characteristics of our Generation 4 data centers are:

Scalable
Plug-and-play spine infrastructure
Factory pre-assembled: Pre-Assembled Containers (PACs) & Pre-Manufactured Buildings (PMBs)
Rapid deployment
De-mountable
Reduce TTM
Reduced construction
Sustainable measures

Ниже приведены главные характеристики дата-центров четвертого поколения Gen 4:

Расширяемость;
Готовая к использованию базовая инфраструктура;
Изготовление в заводских условиях: сборные контейнеры (PAC) и сборные здания (PMB);
Быстрота развертывания;
Возможность демонтажа;
Снижение времени вывода на рынок (TTM);
Сокращение сроков строительства;
Экологичность;

Map applications to DC Class

We hope you join us on this incredible journey of change and innovation!

Long hours of research and engineering time are invested into this process. There are still some long days and nights ahead, but the vision is clear. Rest assured however, that we as refine Generation 4, the team will soon be looking to Generation 5 (even if it is a bit farther out). There is always room to get better.

Использование систем электропитания постоянного тока.

Мы надеемся, что вы присоединитесь к нам в этом невероятном путешествии по миру изменений и инноваций!

На этот проект уже потрачены долгие часы исследований и проектирования. И еще предстоит потратить много дней и ночей, но мы имеем четкое представление о конечной цели. Однако будьте уверены, что как только мы доведем до конца проект модульного дата-центра четвертого поколения, мы вскоре начнем думать о проекте дата-центра пятого поколения. Всегда есть возможность для улучшений.

So if you happen to come across Goldilocks in the forest, and you are curious as to why she is smiling you will know that she feels very good about getting very close to ‘JUST RIGHT’.

Generations of Evolution – some background on our data center designs

Так что, если вы встретите в лесу девочку по имени Лютик, и вам станет любопытно, почему она улыбается, вы будете знать, что она очень довольна тем, что очень близко подошла к ‘ОПИМАЛЬНОМУ РЕШЕНИЮ’.
Поколения эволюции – история развития наших дата-центров

We thought you might be interested in understanding what happened in the first three generations of our data center designs. When Ray Ozzie wrote his Software plus Services memo it posed a very interesting challenge to us. The winds of change were at ‘tornado’ proportions. That “plus Services” tag had some significant (and unstated) challenges inherent to it. The first was that Microsoft was going to evolve even further into an operations company. While we had been running large scale Internet services since 1995, this development lead us to an entirely new level. Additionally, these “services” would span across both Internet and Enterprise businesses. To those of you who have to operate “stuff”, you know that these are two very different worlds in operational models and challenges. It also meant that, to achieve the same level of reliability and performance required our infrastructure was going to have to scale globally and in a significant way.

Мы подумали, что может быть вам будет интересно узнать историю первых трех поколений наших центров обработки данных. Когда Рэй Оззи написал свою памятную записку Software plus Services, он поставил перед нами очень интересную задачу. Ветра перемен двигались с ураганной скоростью. Это окончание “plus Services” скрывало в себе какие-то значительные и неопределенные задачи. Первая заключалась в том, что Майкрософт собиралась в еще большей степени стать операционной компанией. Несмотря на то, что мы управляли большими интернет-сервисами, начиная с 1995 г., эта разработка подняла нас на абсолютно новый уровень. Кроме того, эти “сервисы” охватывали интернет-компании и корпорации. Тем, кому приходится всем этим управлять, известно, что есть два очень разных мира в области операционных моделей и задач. Это также означало, что для достижения такого же уровня надежности и производительности требовалось, чтобы наша инфраструктура располагала значительными возможностями расширения в глобальных масштабах.

It was that intense atmosphere of change that we first started re-evaluating data center technology and processes in general and our ideas began to reach farther than what was accepted by the industry at large. This was the era of Generation 1. As we look at where most of the world’s data centers are today (and where our facilities were), it represented all the known learning and design requirements that had been in place since IBM built the first purpose-built computer room. These facilities focused more around uptime, reliability and redundancy. Big infrastructure was held accountable to solve all potential environmental shortfalls. This is where the majority of infrastructure in the industry still is today.

Именно в этой атмосфере серьезных изменений мы впервые начали переоценку ЦОД-технологий и технологий вообще, и наши идеи начали выходить за пределы общепринятых в отрасли представлений. Это была эпоха ЦОД первого поколения. Когда мы узнали, где сегодня располагается большинство мировых дата-центров и где находятся наши предприятия, это представляло весь опыт и навыки проектирования, накопленные со времени, когда IBM построила первую серверную. В этих ЦОД больше внимания уделялось бесперебойной работе, надежности и резервированию. Большая инфраструктура была призвана решать все потенциальные экологические проблемы. Сегодня большая часть инфраструктуры все еще находится на этом этапе своего развития.

We soon realized that traditional data centers were quickly becoming outdated. They were not keeping up with the demands of what was happening technologically and environmentally. That’s when we kicked off our Generation 2 design. Gen 2 facilities started taking into account sustainability, energy efficiency, and really looking at the total cost of energy and operations.

Очень быстро мы поняли, что стандартные дата-центры очень быстро становятся устаревшими. Они не поспевали за темпами изменений технологических и экологических требований. Именно тогда мы стали разрабатывать ЦОД второго поколения. В этих дата-центрах Gen 2 стали принимать во внимание такие факторы как устойчивое развитие, энергетическая эффективность, а также общие энергетические и эксплуатационные.

No longer did we view data centers just for the upfront capital costs, but we took a hard look at the facility over the course of its life. Our Quincy, Washington and San Antonio, Texas facilities are examples of our Gen 2 data centers where we explored and implemented new ways to lessen the impact on the environment. These facilities are considered two leading industry examples, based on their energy efficiency and ability to run and operate at new levels of scale and performance by leveraging clean hydro power (Quincy) and recycled waste water (San Antonio) to cool the facility during peak cooling months.

Мы больше не рассматривали дата-центры только с точки зрения начальных капитальных затрат, а внимательно следили за работой ЦОД на протяжении его срока службы. Наши объекты в Куинси, Вашингтоне, и Сан-Антонио, Техас, являются образцами наших ЦОД второго поколения, в которых мы изучали и применяли на практике новые способы снижения воздействия на окружающую среду. Эти объекты считаются двумя ведущими отраслевыми примерами, исходя из их энергетической эффективности и способности работать на новых уровнях производительности, основанных на использовании чистой энергии воды (Куинси) и рециклирования отработанной воды (Сан-Антонио) для охлаждения объекта в самых жарких месяцах.

As we were delivering our Gen 2 facilities into steel and concrete, our Generation 3 facilities were rapidly driving the evolution of the program. The key concepts for our Gen 3 design are increased modularity and greater concentration around energy efficiency and scale. The Gen 3 facility will be best represented by the Chicago, Illinois facility currently under construction. This facility will seem very foreign compared to the traditional data center concepts most of the industry is comfortable with. In fact, if you ever sit around in our container hanger in Chicago it will look incredibly different from a traditional raised-floor data center. We anticipate this modularization will drive huge efficiencies in terms of cost and operations for our business. We will also introduce significant changes in the environmental systems used to run our facilities. These concepts and processes (where applicable) will help us gain even greater efficiencies in our existing footprint, allowing us to further maximize infrastructure investments.

Так как наши ЦОД второго поколения строились из стали и бетона, наши центры обработки данных третьего поколения начали их быстро вытеснять. Главными концептуальными особенностями ЦОД третьего поколения Gen 3 являются повышенная модульность и большее внимание к энергетической эффективности и масштабированию. Дата-центры третьего поколения лучше всего представлены объектом, который в настоящее время строится в Чикаго, Иллинойс. Этот ЦОД будет выглядеть очень необычно, по сравнению с общепринятыми в отрасли представлениями о дата-центре. Действительно, если вам когда-либо удастся побывать в нашем контейнерном ангаре в Чикаго, он покажется вам совершенно непохожим на обычный дата-центр с фальшполом. Мы предполагаем, что этот модульный подход будет способствовать значительному повышению эффективности нашего бизнеса в отношении затрат и операций. Мы также внесем существенные изменения в климатические системы, используемые в наших ЦОД. Эти концепции и технологии, если применимо, позволят нам добиться еще большей эффективности наших существующих дата-центров, и тем самым еще больше увеличивать капиталовложения в инфраструктуру.

This is definitely a journey, not a destination industry. In fact, our Generation 4 design has been under heavy engineering for viability and cost for over a year. While the demand of our commercial growth required us to make investments as we grew, we treated each step in the learning as a process for further innovation in data centers. The design for our future Gen 4 facilities enabled us to make visionary advances that addressed the challenges of building, running, and operating facilities all in one concerted effort.

Это определенно путешествие, а не конечный пункт назначения. На самом деле, наш проект ЦОД четвертого поколения подвергался серьезным испытаниям на жизнеспособность и затраты на протяжении целого года. Хотя необходимость в коммерческом росте требовала от нас постоянных капиталовложений, мы рассматривали каждый этап своего развития как шаг к будущим инновациям в области дата-центров. Проект наших будущих ЦОД четвертого поколения Gen 4 позволил нам делать фантастические предположения, которые касались задач строительства, управления и эксплуатации объектов как единого упорядоченного процесса.

Тематики

• ЦОДы (центры обработки данных)

Синонимы

• модульный ЦОД

EN

• modular data center

no coincidente

(adj.) = ill matched

Ex. The library solved the problems of budget cuts, a library building bursting at the seams, and stock ill matched to some of the courses by switching to the use of on-line search services.

* * *

(adj.) = ill matched

Ex: The library solved the problems of budget cuts, a library building bursting at the seams, and stock ill matched to some of the courses by switching to the use of on-line search services.

Huygens, Christiaan

SUBJECT AREA: Horology

[br]

b. 14 April 1629 The Hague, the Netherlands

d. 8 June 1695 The Hague, the Netherlands

[br]

Dutch scientist who was responsible for two of the greatest advances in horology: the successful application of both the pendulum to the clock and the balance spring to the watch.

[br]

Huygens was born into a cultured and privileged class. His father, Constantijn, was a poet and statesman who had wide interests. Constantijn exerted a strong influence on his son, who was educated at home until he reached the age of 16. Christiaan studied law and mathematics at Ley den University from 1645 to 1647, and continued his studies at the Collegium Arausiacum in Breda until 1649. He then lived at The Hague, where he had the means to devote his time entirely to study. In 1666 he became a Member of the Académie des Sciences in Paris and settled there until his return to The Hague in 1681. He also had a close relationship with the Royal Society and visited London on three occasions, meeting Newton on his last visit in 1689. Huygens had a wide range of interests and made significant contributions in mathematics, astronomy, optics and mechanics. He also made technical advances in optical instruments and horology.

Despite the efforts of Burgi there had been no significant improvement in the performance of ordinary clocks and watches from their inception to Huygens's time, as they were controlled by foliots or balances which had no natural period of oscillation. The pendulum appeared to offer a means of improvement as it had a natural period of oscillation that was almost independent of amplitude. Galileo Galilei had already pioneered the use of a freely suspended pendulum for timing events, but it was by no means obvious how it could be kept swinging and used to control a clock. Towards the end of his life Galileo described such a. mechanism to his son Vincenzio, who constructed a model after his father's death, although it was not completed when he himself died in 1642. This model appears to have been copied in Italy, but it had little influence on horology, partly because of the circumstances in which it was produced and possibly also because it differed radically from clocks of that period. The crucial event occurred on Christmas Day 1656 when Huygens, quite independently, succeeded in adapting an existing spring-driven table clock so that it was not only controlled by a pendulum but also kept it swinging. In the following year he was granted a privilege or patent for this clock, and several were made by the clockmaker Salomon Coster of The Hague. The use of the pendulum produced a dramatic improvement in timekeeping, reducing the daily error from minutes to seconds, but Huygens was aware that the pendulum was not truly isochronous. This error was magnified by the use of the existing verge escapement, which made the pendulum swing through a large arc. He overcame this defect very elegantly by fitting cheeks at the pendulum suspension point, progressively reducing the effective length of the pendulum as the amplitude increased. Initially the cheeks were shaped empirically, but he was later able to show that they should have a cycloidal shape. The cheeks were not adopted universally because they introduced other defects, and the problem was eventually solved more prosaically by way of new escapements which reduced the swing of the pendulum. Huygens's clocks had another innovatory feature: maintaining power, which kept the clock going while it was being wound.

Pendulums could not be used for portable timepieces, which continued to use balances despite their deficiencies. Robert Hooke was probably the first to apply a spring to the balance, but his efforts were not successful. From his work on the pendulum Huygens was well aware of the conditions necessary for isochronism in a vibrating system, and in January 1675, with a flash of inspiration, he realized that this could be achieved by controlling the oscillations of the balance with a spiral spring, an arrangement that is still used in mechanical watches. The first model was made for Huygens in Paris by the clockmaker Isaac Thuret, who attempted to appropriate the invention and patent it himself. Huygens had for many years been trying unsuccessfully to adapt the pendulum clock for use at sea (in order to determine longitude), and he hoped that a balance-spring timekeeper might be better suited for this purpose. However, he was disillusioned as its timekeeping proved to be much more susceptible to changes in temperature than that of the pendulum clock.

[br]

Principal Honours and Distinctions

FRS 1663. Member of the Académie Royale des Sciences 1666.

Bibliography

For his complete works, see Oeuvres complètes de Christian Huygens, 1888–1950, 22 vols, The Hague.

1658, Horologium, The Hague; repub., 1970, trans. E.L.Edwardes, Antiquarian

Horology 7:35–55 (describes the pendulum clock).

1673, Horologium Oscillatorium, Paris; repub., 1986, The Pendulum Clock or Demonstrations Concerning the Motion ofPendula as Applied to Clocks, trans.

R.J.Blackwell, Ames.

The balance spring watch was first described in Journal des Sçavans 25 February 1675, and translated in Philosophical Transactions of the Royal Society (1675) 4:272–3.

Further Reading

H.J.M.Bos, 1972, Dictionary of Scientific Biography, ed. C.C.Gillispie, Vol. 6, New York, pp. 597–613 (for a fuller account of his life and scientific work, but note the incorrect date of his death).

R.Plomp, 1979, Spring-Driven Dutch Pendulum Clocks, 1657–1710, Schiedam (describes Huygens's application of the pendulum to the clock).

S.A.Bedini, 1991, The Pulse of Time, Florence (describes Galileo's contribution of the pendulum to the clock).

J.H.Leopold, 1982, "L"Invention par Christiaan Huygens du ressort spiral réglant pour les montres', Huygens et la France, Paris, pp. 154–7 (describes the application of the balance spring to the watch).

A.R.Hall, 1978, "Horology and criticism", Studia Copernica 16:261–81 (discusses Hooke's contribution).

DV

Sommeiller, Germain

SUBJECT AREA: Civil engineering, Mining and extraction technology

[br]

b. 15 March 1815 St Jeoire, Haute-Savoie, France

d. 11 July 1874 St Jeoire, Haute-Savoie, France

[br]

French civil engineer, builder of the Mont Cénis tunnel in the Alps.

[br]

Having been employed in railway construction in Sardinia, Sommeiller was working as an engineer at the University of Turin when, in 1857, he was commissioned to take charge of the French part in the construction of the 13 km (8 mile) tunnel under Mont Cénis between Modane, France, and Bardonècchia, Italy. This was to be the first long-distance tunnel through rock in the Alps driven from two headings with no intervening shafts; it is a landmark in the history of technology thanks to the use of a number of pioneering techniques in its construction.

As steam power was unsuitable because of the difficulties in transmitting power over long distances, Sommeiller developed ideas for the use of compressed-air machinery, first mooted by Daniel Colladon of Geneva in 1855; this also solved the problems of ventilation. He also decided to adapt the principle of his compressed-air ram to supply extra power to locomotives on steep gradients. In 1860 he took out a patent in France for a combined compressor-pump, and in 1861 his first percussion drill, mounted on a carriage, was introduced. Although it was of little use at first, Sommeiller improved his drill through trial and error, including the use of the diamond drill-crowns patented by Georges Auguste Leschot in 1862. The invention of dynamite by Alfred Nobel contributed decisively to the speedy completion of the tunnel by the end of 1870, several years ahead of schedule.

[br]

Further Reading

A.Schwenger-Lerchenfeld, 1884, Die Überschienung der Alpen, Berlin; reprint 1983, Berlin: Moers, pp. 60–77 (explains how the use of compressed air for rock drilling in the Mont Cénis tunnel was a complex process of innovations to which several engineers contributed).

W.Bersch, 1898, Mit Schlägel und Eisen, Vienna: reprint 1985 (with introd. by W.Kroker), Dusseldorf, pp. 242–4.

WK

решение

solution, decision, determination

• Альтернативное решение, данное Смитом [1], состоит в следующем... - An alternative solution given by Smith [lj is...

• Более стандартным (= обычным) является представление решения в терминах... - It is more usual to express the solution in terms of...

• Более удобные формы решения были получены Смитом [1]. - More convenient forms of solution have been obtained by Smith [1].

• Более удовлетворительное в этом отношении решение получается... - A more satisfactory solution in this regard is obtained by...

• Будем искать решение в виде... - Let us seek a solution of the form...

• В подобных случаях можно использовать приближенное решение. - In such cases, approximate solutions may be used.

• В этом случае наше решение более не является точным, потому что... - Our solution is no longer exact in this case, because...

• Давайте использовать это решение, чтобы получить... - Let us use this solution to obtain...

• Данное решение противоречит физическому смыслу в том, что... - A nonphysical aspect of this solution is that...

• Данные результаты могут быть использованы для проверки численного решения. - These results provide a useful check on numerical solutions.

• Для этой дилеммы не существует настоящего решения. - There is no real solution to this dilemma.

• Другой способ решения задачи начинается с уравнения... - Another attack on the problem starts from the equation...

• Еще более общие решения могли бы быть сконструированы (с помощью и т. п.)... - Still more general solutions may be constructed by...

• Здесь рассматривается общий метод получения этих решений. - A general method of obtaining these solutions is considered here.

• Имеются три способа решения такой задачи. - There are three ways of attacking such a problem.

• Итак, мы могли бы попытаться найти решение уравнения (1)... - Thus we may attempt to find a solution of (1) by...

• Качественное поведение решения легко представить графически, если... - The nature of the solution is easily pictured if we...

• Мы будем использовать это решение, чтобы построить... - We shall use this solution to construct...

• Мы ввели широкий спектр методов для решения... - We have introduced a wide range of procedures for solving...

• На интервале [0,1] имеется ровно одно решение х. - There is exactly one solution x in the interval [0,1].

• На самом деле данная проблема заключается в решении... - The problem is really one of solving...

• Наиболее элементарным способом решения уравнения (1) является... - The most elementary approach to the solution of (1) is...

• Нам необходимо определить решение... - We need to determine the solution of...

• Общее решение здесь невозможно, так как... - No general resolution is possible, since...

• Обоснованием для этой схемы решения служит то, что... - The justification for this solution scheme is that...

• Однако решения все еще могут быть получены, обращаясь к чисто численным методам. - Solutions can still be obtained, however, by resorting to purely numerical methods.

• Одно такое решение дается (формулой и т. п.)... - One such solution is given by...

• Окончательное решение является компромиссом между... - The final solution is a compromise between...

• Она (задача) будет иметь решение тогда и только тогда, когда... - This will have a solution if and only if...

• Очевидно, что эти решения не так ценны, как... - Clearly these solutions are not as valuable as...

• Перед тем как упростить данное решение, давайте проверим... - Before simplifying this solution, let us examine...

• Под решением этой задачи мы понимаем... - By solving this problem we mean that...

• Подобные решения наиболее полезны для вычисления... - Such solutions are most useful for calculating...

• Полное решение дается... - The full solution is given by...

• Получим теперь решение... - We shall now derive a solution of...

• Поучительно провести детальное решение... - It is instructive to carry out in detail the solution of...

• Прежде чем приступить к решению уравнения (3), мы сначала обсудим... - Preparatory to solving Eq. (3), we will first discuss...

• При а < 0 у уравнения (1) решение не существует. - Equation (1) has no solution for a < 0.

• При решении данной задачи валено отметить, что... - In solving this problem it is important to notice that...

• Приближенное решение получается... - The approximate solution is obtained by...

• Проблема... до сих пор не имеет удовлетворительного решения. - The problem of... has not yet been solved satisfactorily.

• Процесс решения усложняется наличием... - The solution process is complicated by the presence of...

• Решение может существовать только при выполнении следующих условий. - A solution can exist only under the following conditions.

• Решение не существует при р > 0. - A solution does not exist when p > 0.

• Решение подобной проблемы легко выводится из рассмотрения... - The solution to such a problem is readily deduced by considering...

• Решение этой дилеммы было предложено Смитом [1] в 1980 г. - A way out of this dilemma was proposed in 1980 by Smith [1].

• Решения этих уравнений можно получить графически (с помощью и т. п.)... - Solutions to these equations can be obtained graphically by...

• Решения этого уравнения называются... - Solutions to this equation are called...

• Решения этой задачи легко вытекают из... - Solutions of this problem follow readily from...

• Следовательно, мы обязаны изучить решения (уравнения и т. п.)... - We must therefore study solutions to...

• Следовательно, необходимое решение принимает вид:... - The required solution is therefore...

• Следовательно, полное решение имеет вид... - The complete solution is therefore...

• Следовательно, у нас получилось формальное решение для... - We therefore have a formal solution for...

• Следующий пример демонстрирует этот тип решения. - The next example demonstrates this type of solution.

• Существует много способов решения данной задачи. - There are many ways to solve this problem.

• Существуют разные пути решения этой задачи. - There are various ways of tackling this problem.

• Теперь у нас имеется полное решение для... - We now have a complete solution for...

• То, что данное решение является единственным, следует из... - That this solution is unique follows from...

• Точное решение возможно только если... - An exact solution is only possible if...

• Точные решения уравнения (1) могут быть получены в терминах известных функций, когда... - Exact solutions to (1) can be obtained in terms of known functions when...

• Чтобы завершить это решение, мы должны... - То complete the solution, we must...

• Эта глава представляет один подход к решению... - This chapter presents one approach to the solution of...

• Эта техника обеспечивает рациональный базис, на основе которого инженеры могут принимать решение относительно... - The technique provides a rational basis on which engineers can make decisions about...

• Эти уравнения имеют нетривиальное решение, только если... - These equations have a nontrivial solution only if...

• Эти уравнения редко имеют аналитические решения. - Analytical solutions to these equations are seldom possible.

• Это не будет точным решением, так как... - This will not be an exact solution since...

• Это решение можно получить наиболее просто, используя... - The solution is most readily obtained by the use of...

• Это решение основано на предположении, что... - This solution is based on the assumption that...

• Это решение основывается на предположении, что... - This solution is based on the assumption that...

• Это решение приложимо только если... - This solution applies strictly only when...

• Это уравнение имеет одно и только одно решение. - This equation has one and only one solution.

• Этот фундаментальный подход полезен при решении... - This fundamental approach is useful in solving...

Adamson, Daniel

SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering, Metallurgy, Steam and internal combustion engines

[br]

b. 1818 Shildon, Co. Durham, England

d. January 1890 Didsbury, Manchester, England

[br]

English mechanical engineer, pioneer in the use of steel for boilers, which enabled higher pressures to be introduced; pioneer in the use of triple-and quadruple-expansion mill engines.

[br]

Adamson was apprenticed between 1835 and 1841 to Timothy Hackworth, then Locomotive Superintendent on the Stockton \& Darlington Railway. After this he was appointed Draughtsman, then Superintendent Engineer, at that railway's locomotive works until in 1847 he became Manager of Shildon Works. In 1850 he resigned and moved to act as General Manager of Heaton Foundry, Stockport. In the following year he commenced business on his own at Newton Moor Iron Works near Manchester, where he built up his business as an iron-founder and boilermaker. By 1872 this works had become too small and he moved to a 4 acre (1.6 hectare) site at Hyde Junction, Dukinfield. There he employed 600 men making steel boilers, heavy machinery including mill engines fitted with the American Wheelock valve gear, hydraulic plant and general millwrighting. His success was based on his early recognition of the importance of using high-pressure steam and steel instead of wrought iron. In 1852 he patented his type of flanged seam for the firetubes of Lancashire boilers, which prevented these tubes cracking through expansion. In 1862 he patented the fabrication of boilers by drilling rivet holes instead of punching them and also by drilling the holes through two plates held together in their assembly positions. He had started to use steel for some boilers he made for railway locomotives in 1857, and in 1860, only four years after Bessemer's patent, he built six mill engine boilers from steel for Platt Bros, Oldham. He solved the problems of using this new material, and by his death had made c.2,800 steel boilers with pressures up to 250 psi (17.6 kg/cm²).

He was a pioneer in the general introduction of steel and in 1863–4 was a partner in establishing the Yorkshire Iron and Steel Works at Penistone. This was the first works to depend entirely upon Bessemer steel for engineering purposes and was later sold at a large profit to Charles Cammell \& Co., Sheffield. When he started this works, he also patented improvements both to the Bessemer converters and to the engines which provided their blast. In 1870 he helped to turn Lincolnshire into an important ironmaking area by erecting the North Lincolnshire Ironworks. He was also a shareholder in ironworks in South Wales and Cumberland.

He contributed to the development of the stationary steam engine, for as early as 1855 he built one to run with a pressure of 150 psi (10.5 kg/cm) that worked quite satisfactorily. He reheated the steam between the cylinders of compound engines and then in 1861–2 patented a triple-expansion engine, followed in 1873 by a quadruple-expansion one to further economize steam. In 1858 he developed improved machinery for testing tensile strength and compressive resistance of materials, and in the same year patents for hydraulic lifting jacks and riveting machines were obtained.

He was a founding member of the Iron and Steel Institute and became its President in 1888 when it visited Manchester. The previous year he had been President of the Institution of Civil Engineers when he was presented with the Bessemer Gold Medal. He was a constant contributor at the meetings of these associations as well as those of the Institution of Mechanical Engineers. He did not live to see the opening of one of his final achievements, the Manchester Ship Canal. He was the one man who, by his indomitable energy and skill at public speaking, roused the enthusiasm of the people in Manchester for this project and he made it a really practical proposition in the face of strong opposition.

[br]

Principal Honours and Distinctions

President, Institution of Civil Engineers 1887.

President, Iron and Steel Institute 1888. Institution of Civil Engineers Bessemer Gold Medal 1887.

Further Reading

Obituary, Engineer 69:56.

Obituary, Engineering 49:66–8.

Obituary, Proceedings of the Institution of Civil Engineers 100:374–8.

H.W.Dickinson, 1938, A Short History of the Steam Engine, Cambridge University Press (provides an illustration of Adamson's flanged seam for boilers).

R.L.Hills, 1989, Power from Steam. A History of the Stationary Steam Engine, Cambridge University Press (covers the development of the triple-expansion engine).

RLH

с помощью

. при помощи

•

These problems have been solved using (or employing, or by application of) the Schrodinger equation.

•

This is usually accomplished via internal conversion.

•

These compounds may be separated by fractional crystallization or through the agency of enzymes.

•

Samples are prepared by different methods.

•

The levers are operated by ( means of) precision cams.

•

The low-frequency components are attenuated by the use of a coupling capacitor.

•

The temperature coefficients were determined through the use of...

•

This is more easily achieved with ( the use of) inorganic phosphors.

•

The readings are made with the help (or aid) of a microscope.

completo

adj.

1 complete, entire, integral, uncut.

2 complete, total, exhaustive, out-and-out.

3 complete, full-length, all-inclusive, all-round.

4 complete, concluded, done, finished.

5 square, hearty.

pres.indicat.

1^st person singular (yo) present indicative of spanish verb: completar.

* * *

completo

► adjetivo

1 (terminado) finished, completed

2 (lleno) full

\

FRASEOLOGÍA

al completo full up, filled to capacity

por completo completely

* * *

(f. - completa)

adj.

1) complete

2) full

* * *

1. ADJ

1) (=entero) [dieta] balanced; [colección] complete; [texto, informe] full, complete; [felicidad] complete, total; [panorama] full

tomamos una comida ligera pero completa — we had a light but full meal

un coche con equipamiento completo — a car with a full range of fittings

un laboratorio de idiomas con equipamiento completo — a fully-equipped language lab

las poesías completas de San Juan de la Cruz — the complete poems of San Juan de la Cruz

trabajar a tiempo completo — to work full time

jornada 1), obra 2), b), pensión 3)

2) (=lleno) full; [hotel] full, fully booked

completo — [en pensión, hostal] no vacancies; [en taquilla] sold out

al completo: el tren está al completo — the train is full

el hotel estaba al completo — the hotel was fully booked o full

asistió el ayuntamiento al completo — the entire council was present

3) (=total) [éxito, fracaso] complete, total

la película fue un completo fracaso — the film was a complete o total flop

por completo — [desaparecer, desconocer] completely

ha quedado destruido por completo — it was completely destroyed

se me olvidó por completo — I completely forgot

la niebla cubrió por completo el paisaje — the fog completely covered the countryside

está dedicado por completo a su trabajo — he is totally dedicated to his work

su partido apoyaba por completo la iniciativa — his party fully supported the initiative, his party gave its full support to the initiative

el problema quedará resuelto por completo — the problem will be solved once and for all

4) (=terminado)

la novela está ya casi completa — the novel is almost finished

5) (=bien hecho)

ha entregado un trabajo muy completo — he's handed in a very thorough piece of work

este libro es pequeño, pero bastante completo — this book is small, but quite comprehensive

6) (=polifacético) [actor, deportista] all-round

un atleta muy completo — an all-round athlete

2.

SM Chile hot dog ( with salad)

* * *

I

- ta adjetivo

1)

a) ( entero) complete

la baraja no está completa — this deck isn't complete

las obras completas de Neruda — the complete works of Neruda

la serie completa — the whole series

b) (total, absoluto) complete, total

por completo — completely

c) ( exhaustivo) < explicación> detailed; <obra/diccionario> comprehensive; <tesis/ensayo> thorough

d) <deportista/actor> complete, very versatile

2) ( lleno) full

el tren iba completo — the train was full

completo — ( en hostal) no vacancies; ( en taquilla) sold out

II

masculino (Chi) hot dog (with all the trimmings)

* * *

= complete, comprehensive, entire, exhaustive, full [fuller -comp., fullest -sup.], full-blown, full-bodied, full-featured, full-fledged, full-length, full-scale, full-service, thorough, total, well-rounded, end to end, supine, enriched, all-round, whole, utter, all-inclusive, fully formed, fully featured, the works!, unmitigaged, fully blown.

Ex. The main entry is the complete catalogue record of the document.

Ex. One of the factors to consider in the selection of a data base is whether the data base is comprehensive or not.

Ex. Plainly such representative sections may not be present in many documents, but sometimes an extract from the results, conclusions or recommendations of a document may serve to identify the key issues covered by the entire document.

Ex. The enumeration of isolates should be exhaustive or complete for the subject area.

Ex. Since recall goes up as precision goes down, it is clearly not possible to achieve in general a system which gives full recall at the same time as full precision.

Ex. Reference transactions can range from the ready-reference, or short-answer question, to the full-blown research inquiry to establish methodology.

Ex. By adulthood the child's literary consciousness has grown into a full-bodied appreciation of the work of the great imaginative writers.

Ex. The EPIC service is a full-featured on-line reference system that provides subject access, and keyword and Boolean searching to a variety of databases.

Ex. Once the functional and informal network seeks to widen its influence, it becomes a full-fledged institution.

Ex. Plays and music performances put on by staff and children require less arduous preparation than a full-length public performance.

Ex. Obviously, staff will have to be instructed in the use of the new system, be it word processing or a full-scale circulation system.

Ex. In other words, they want us to start from scratch and come up with a plan for a full-service center, which might then be used as a model for the other regional centers.

Ex. Timely and thorough planning is essential.

Ex. This situation requires a very skilled information worker if total disaster is to be avoided.

Ex. This has produced the matriarchal system in society on the one hand, and well-rounded libraries organized under the slogan 'Libraries are for wallowing in' on the other.

Ex. Next morning the heap, now damp right through, was set up on one end of the horse (later called the bank), a bench long enough to take two piles of paper end to end, and about as high as the coffin of the press.

Ex. 'I was saying that we shouldn't have a supine acceptance for temporary limitations'.

Ex. Union Catalogues may also decide that they need more enriched records because of specific needs.

Ex. The finest and most influential of these French italics were the work of Robert Granjon, an artist of the stature of his countryman and near-contemporary Garamont and one of the greatest all-round type designers of any period.

Ex. One of them will take instructions and data from a whole roomful of girls armed with simple keyboard punches.

Ex. There is little to be said for this grudging acceptance or utter rejection of pseudonyms.

Ex. It is not an all-inclusive listing of materials on this topic.

Ex. The film's supple structure, surprisingly light touch, and bravura performances make it perhaps the most fully formed, half-hearted goof ever.

Ex. The technology has matured sufficiently that it's now cheap and relatively easy to set up a fully featured repository in quite a short time.

Ex. Whole cities laid to waste, heroes falling in battle, death of gods, the works!.

Ex. Only Bush could take a horrible situation and create an unmitigated disaster.

Ex. This time it's a hairline fracture rather than a fully blown break of a metatarsal, however the result is the same.

----

* alojamiento en régimen de pensión completa = full-board accommodation.

* a tiempo completo = full-time.

* base de datos completa = full-provision database.

* base de datos de texto completo = full text database.

* catalogación completa = full cataloguing.

* catálogo de obras completas = back catalogue.

* curso a tiempo completo = full-time course.

* de forma completa = in full.

* de página completa = full-page.

* de pantalla completa = full-screen.

* detenerse por completo = come to + a standstill, be at a standstill.

* dominar por completo = sweep + the board.

* edición completa = full edition.

* el + Nombre + más completo = the + Nombre + to end all + Nombre.

* estar al completo = overbook.

* fuego + destruir por completo = fire + gut.

* información de texto completo = full-text information.

* letra cuya impresión en papel no está completa = broken letter.

* nombre completo = full name.

* obras completas = collected works.

* pagar por completo = pay off.

* pantalla de información completa = full information display, full information screen.

* pararse por completo = come to + a standstill, be at a standstill.

* pensión completa = food and board, bed and board, full board, full-board accommodation.

* por completo = fully.

* ser completo = be all inclusive.

* texto completo = full text.

* * *

I

- ta adjetivo

1)

a) ( entero) complete

la baraja no está completa — this deck isn't complete

las obras completas de Neruda — the complete works of Neruda

la serie completa — the whole series

b) (total, absoluto) complete, total

por completo — completely

c) ( exhaustivo) < explicación> detailed; <obra/diccionario> comprehensive; <tesis/ensayo> thorough

d) <deportista/actor> complete, very versatile

2) ( lleno) full

el tren iba completo — the train was full

completo — ( en hostal) no vacancies; ( en taquilla) sold out

II

masculino (Chi) hot dog (with all the trimmings)

* * *

= complete, comprehensive, entire, exhaustive, full [fuller -comp., fullest -sup.], full-blown, full-bodied, full-featured, full-fledged, full-length, full-scale, full-service, thorough, total, well-rounded, end to end, supine, enriched, all-round, whole, utter, all-inclusive, fully formed, fully featured, the works!, unmitigaged, fully blown.

Ex: The main entry is the complete catalogue record of the document.

Ex: One of the factors to consider in the selection of a data base is whether the data base is comprehensive or not.

Ex: Plainly such representative sections may not be present in many documents, but sometimes an extract from the results, conclusions or recommendations of a document may serve to identify the key issues covered by the entire document.

Ex: The enumeration of isolates should be exhaustive or complete for the subject area.

Ex: Since recall goes up as precision goes down, it is clearly not possible to achieve in general a system which gives full recall at the same time as full precision.

Ex: Reference transactions can range from the ready-reference, or short-answer question, to the full-blown research inquiry to establish methodology.

Ex: By adulthood the child's literary consciousness has grown into a full-bodied appreciation of the work of the great imaginative writers.

Ex: The EPIC service is a full-featured on-line reference system that provides subject access, and keyword and Boolean searching to a variety of databases.

Ex: Once the functional and informal network seeks to widen its influence, it becomes a full-fledged institution.

Ex: Plays and music performances put on by staff and children require less arduous preparation than a full-length public performance.

Ex: Obviously, staff will have to be instructed in the use of the new system, be it word processing or a full-scale circulation system.

Ex: In other words, they want us to start from scratch and come up with a plan for a full-service center, which might then be used as a model for the other regional centers.

Ex: Timely and thorough planning is essential.

Ex: This situation requires a very skilled information worker if total disaster is to be avoided.

Ex: This has produced the matriarchal system in society on the one hand, and well-rounded libraries organized under the slogan 'Libraries are for wallowing in' on the other.

Ex: Next morning the heap, now damp right through, was set up on one end of the horse (later called the bank), a bench long enough to take two piles of paper end to end, and about as high as the coffin of the press.

Ex: 'I was saying that we shouldn't have a supine acceptance for temporary limitations'.

Ex: Union Catalogues may also decide that they need more enriched records because of specific needs.

Ex: The finest and most influential of these French italics were the work of Robert Granjon, an artist of the stature of his countryman and near-contemporary Garamont and one of the greatest all-round type designers of any period.

Ex: One of them will take instructions and data from a whole roomful of girls armed with simple keyboard punches.

Ex: There is little to be said for this grudging acceptance or utter rejection of pseudonyms.

Ex: It is not an all-inclusive listing of materials on this topic.

Ex: The film's supple structure, surprisingly light touch, and bravura performances make it perhaps the most fully formed, half-hearted goof ever.

Ex: The technology has matured sufficiently that it's now cheap and relatively easy to set up a fully featured repository in quite a short time.

Ex: Whole cities laid to waste, heroes falling in battle, death of gods, the works!.

Ex: Only Bush could take a horrible situation and create an unmitigated disaster.

Ex: This time it's a hairline fracture rather than a fully blown break of a metatarsal, however the result is the same.

* alojamiento en régimen de pensión completa = full-board accommodation.

* a tiempo completo = full-time.

* base de datos completa = full-provision database.

* base de datos de texto completo = full text database.

* catalogación completa = full cataloguing.

* catálogo de obras completas = back catalogue.

* curso a tiempo completo = full-time course.

* de forma completa = in full.

* de página completa = full-page.

* de pantalla completa = full-screen.

* detenerse por completo = come to + a standstill, be at a standstill.

* dominar por completo = sweep + the board.

* edición completa = full edition.

* el + Nombre + más completo = the + Nombre + to end all + Nombre.

* estar al completo = overbook.

* fuego + destruir por completo = fire + gut.

* información de texto completo = full-text information.

* letra cuya impresión en papel no está completa = broken letter.

* nombre completo = full name.

* obras completas = collected works.

* pagar por completo = pay off.

* pantalla de información completa = full information display, full information screen.

* pararse por completo = come to + a standstill, be at a standstill.

* pensión completa = food and board, bed and board, full board, full-board accommodation.

* por completo = fully.

* ser completo = be all inclusive.

* texto completo = full text.

* * *

completo¹ -ta

adjective

A

1 (con todas sus partes) complete

esta baraja no está completa this deck isn't complete, there's a card/there are some cards missing from this deck

las obras completas de Neruda the complete works of Neruda

la serie completa the whole series

la gama más completa the fullest o most complete range

pensión, jornada

2 (total, absoluto) complete, total

no hay felicidad completa there's no such thing as complete happiness

por completo completely

lo olvidé por completo I completely forgot about it, I forgot all about it

3

(exhaustivo): una explicación muy completa a very full o detailed explanation

uno de los diccionarios más completos one of the most comprehensive dictionaries

un trabajo muy completo a very thorough piece of work

4 ‹deportista/actor› complete, very versatile

B (lleno) full

el tren iba completo the train was full

el hotel está completo the hotel is full o fully booked

[ S ] completo (en un hostal) no vacancies; (en una taquilla) sold out

completo²

masculine

( Chi)

hot dog ( with all the trimmings)

* * *

 

Del verbo completar: ( conjugate completar)

completo es:

1ª persona singular (yo) presente indicativo

completó es:

3ª persona singular (él/ella/usted) pretérito indicativo

Multiple Entries:
completar    
completo
completar ( conjugate completar) verbo transitivo

a) ( terminar) to finish, complete

b) (AmL) ‹cuestionario/impreso› to complete, fill out o in

completo

◊ -ta adjetivo

1

a) ( entero) complete;

◊ las obras completas de Neruda the complete works of Neruda

b) (total, absoluto) complete, total;

◊ lo olvidé por completo I completely forgot about it

c) ( exhaustivo) ‹ explicación› detailed;

‹obra/diccionario› comprehensive;
‹tesis/ensayo› thorough

d) ‹deportista/actor› complete, very versatile

2 ( lleno) ‹vagón/hotel› full;
( on signs) completo ( en hostal) no vacancies;
( en taquilla) sold out
completar verbo transitivo to complete
completo,-a adjetivo
1 (entero, total) complete
2 (lleno) full
3 (versátil) versatile, complete
4 (exhaustivo) comprehensive
♦ Locuciones: al completo, full up o to capacity
por completo, completely
' completo' also found in these entries:
Spanish:
absoluta
- absoluto
- acabada
- acabado
- calcinar
- completa
- entera
- entero
- íntegra
- íntegro
- parcial
- plena
- pleno
- radical
- tiempo
- toda
- todo
- alimento
- integral
- trabajar
- trabajo
English:
book up
- clam up
- clean
- collected
- complete
- completely
- dedication
- entirely
- envelop
- forge
- full
- full-time
- groundwork
- outright
- slip
- stranglehold
- strength
- utter
- all
- book
- capacity
- comprehensive
- reversal
- strict
- uncut

* * *

completo, -a

♦ adj

1. [entero] complete;

nombre completo full name;

las obras completas de un autor the complete works of an author;

vino toda la familia al completo the entire family came

2. [lleno] full;

[en cartel] [hotel] no vacancies; [aparcamiento] full; [en taquilla] sold out

el vagón está o [m5] va completo the Br carriage o US car is full;

todos los hoteles de la ciudad están al completo all the hotels in town are full

3. [perfecto] complete;

un deportista muy completo an all-round athlete o Br sportsman;

un espectáculo muy completo a very well-rounded production

4. [rotundo] complete;

un completo silencio complete o total silence;

fue un completo éxito/fracaso it was a complete success/a complete o total failure;

es un completo caballero he's an absolute o the complete gentleman;

es un completo mentiroso he's a complete liar

5. CSur [café, té, chocolate] = served with toast, butter, cakes and pastries

♦ nm

Chile = hot dog with all the trimmings

♦ por completo loc adv

completely;

han desaparecido por completo they have completely disappeared;

se dedica por completo a la música she devotes herself full-time to music

* * *

completo

adj complete; autobús, teatro full;

por completo completely;

al completo whole, entire

* * *

completo, -ta adj

1) : complete

2) : perfect, absolute

3) : full, detailed

♦ completamente adv

* * *

completo adj

1. (entero) complete

las obras completas the complete works

2. (lleno) full

el teatro está completo the theatre is full

por completo completely

дистанционное техническое обслуживание

1. remote sevice
2. remote maintenance

 

дистанционное техническое обслуживание
Техническое обслуживание объекта, проводимое под управлением персонала без его непосредственного присутствия.
[ОСТ 45.152-99 ]

Параллельные тексты EN-RU из ABB Review. Перевод компании Интент

Service from afar

Дистанционный сервис

ABB’s Remote Service concept is revolutionizing the robotics industry

Разработанная АББ концепция дистанционного обслуживания Remote Service революционизирует робототехнику

ABB robots are found in industrial applications everywhere – lifting, packing, grinding and welding, to name a few. Robust and tireless, they work around the clock and are critical to a company’s productivity. Thus, keeping these robots in top shape is essential – any failure can lead to serious output consequences. But what happens when a robot malfunctions?

Роботы АББ используются во всех отраслях промышленности для перемещения грузов, упаковки, шлифовки, сварки – всего и не перечислить. Надежные и неутомимые работники, способные трудиться день и ночь, они представляют большую ценность для владельца. Поэтому очень важно поддерживать их в надлежащей состоянии, ведь любой отказ может иметь серьезные последствия. Но что делать, если робот все-таки сломался?

ABB’s new Remote Service concept holds the answer: This approach enables a malfunctioning robot to alarm for help itself. An ABB service engineer then receives whole diagnostic information via wireless technology, analyzes the data on a Web site and responds with support in just minutes. This unique service is paying off for customers and ABB alike, and in the process is revolutionizing service thinking.

Ответом на этот вопрос стала новая концепция Remote Service от АББ, согласно которой неисправный робот сам просит о помощи. C помощью беспроводной технологии специалист сервисной службы АББ получает всю необходимую диагностическую информацию, анализирует данные на web-сайте и через считанные минуты выдает рекомендации по устранению отказа. Эта уникальная возможность одинаково ценна как для заказчиков, так и для самой компании АББ. В перспективе она способна в корне изменить весь подход к организации технического обслуживания.

Every minute of production downtime can have financially disastrous consequences for a company. Traditional reactive service is no longer sufficient since on-site service engineer visits also demand great amounts of time and money. Thus, companies not only require faster help from the service organization when needed but they also want to avoid disturbances in production.

Каждая минута простоя производства может привести к губительным финансовым последствиям. Традиционная организация сервиса, предусматривающая ликвидацию возникающих неисправностей, становится все менее эффективной, поскольку вызов сервисного инженера на место эксплуатации робота сопряжен с большими затратами времени и денег. Предприятия требуют от сервисной организации не только более быстрого оказания помощи, но и предотвращения возможных сбоев производства.

In 2006, ABB developed a new approach to better meet customer’s expectations: Using the latest technologies to reach the robots at customer sites around the world, ABB could support them remotely in just minutes, thereby reducing the need for site visits. Thus the new Remote Service concept was quickly brought to fruition and was launched in mid-2007. Statistics show that by using the system the majority of production stoppages can be avoided.

В 2006 г. компания АББ разработала новый подход к удовлетворению ожиданий своих заказчиков. Использование современных технологий позволяет специалистам АББ получать информацию от роботов из любой точки мира и в считанные минуты оказывать помощь дистанционно, в результате чего сокращается количество выездов на место установки. Запущенная в середине 2007 г. концепция Remote Service быстро себя оправдала. Статистика показывает, что её применение позволило предотвратить большое число остановок производства.

Reactive maintenance The hardware that makes ABB Remote Service possible consists of a communication unit, which has a function similar to that of an airplane’s so-called black box 1. This “service box” is connected to the robot’s control system and can read and transmit diagnostic information. The unit not only reads critical diagnostic information that enables immediate support in the event of a failure, but also makes it possible to monitor and analyze the robot’s condition, thereby proactively detecting the need for maintenance.

Устранение возникающих неисправностей Аппаратное устройство, с помощью которого реализуется концепция Remote Service, представляет собой коммуникационный блок, работающий аналогично черному ящику самолета (рис. 1). Этот блок считывает диагностические данные из контроллера робота и передает их по каналу GSM. Считывается не только информация, необходимая для оказания немедленной помощи в случае отказа, но и сведения, позволяющие контролировать и анализировать состояние робота для прогнозирования неисправностей и планирования технического обслуживания.

If the robot breaks down, the service box immediately stores the status of the robot, its historical data (as log files), and diagnostic parameters such as temperature and power supply. Equipped with a built-in modem and using the GSM network, the box transmits the data to a central server for analysis and presentation on a dedicated Web site. Alerts are automatically sent to the nearest of ABB’s 1,200 robot service engineers who then accesses the detailed data and error log to analyze the problem.

При поломке робота сервисный блок немедленно сохраняет данные о его состоянии, сведения из рабочего журнала, а также значения диагностических параметров (температура и характеристики питания). Эти данные передаются встроенным GSM-модемом на центральный сервер для анализа и представления на соответствующем web-сайте. Аварийные сообщения автоматически пересылаются ближайшему к месту аварии одному из 1200 сервисных инженеров-робототехников АББ, который получает доступ к детальной информации и журналу аварий для анализа возникшей проблемы.

A remotely based ABB engineer can then quickly identify the exact fault, offering rapid customer support. For problems that cannot be solved remotely, the service engineer can arrange for quick delivery of spare parts and visit the site to repair the robot. Even if the engineer must make a site visit, service is faster, more efficient and performed to a higher standard than otherwise possible.

Специалист АББ может дистанционно идентифицировать отказ и оказать быструю помощь заказчику. Если неисправность не может быть устранена дистанционно, сервисный инженер организовывает доставку запасных частей и выезд ремонтной бригады. Даже если необходимо разрешение проблемы на месте, предшествующая дистанционная диагностика позволяет минимизировать объем работ и сократить время простоя.

Remote Service enables engineers to “talk” to robots remotely and to utilize tools that enable smart, fast and automatic analysis. The system is based on a machine-to-machine (M2M) concept, which works automatically, requiring human input only for analysis and personalized customer recommendations. ABB was recognized for this innovative solution at the M2M United Conference in Chicago in 2008 Factbox.

Remote Service позволяет инженерам «разговаривать» с роботами на расстоянии и предоставляет в их распоряжение интеллектуальные средства быстрого автоматизированного анализа. Система основана на основе технологии автоматической связи машины с машиной (M2M), где участие человека сводится к анализу данных и выдаче рекомендаций клиенту. В 2008 г. это инновационное решение от АББ получило приз на конференции M2M United Conference в Чикаго (см. вставку).

Proactive maintenance 

Remote Service also allows ABB engineers to monitor and detect potential problems in the robot system and opens up new possibilities for proactive maintenance.

Прогнозирование неисправностей

Remote Service позволяет инженерам АББ дистанционно контролировать состояние роботов и прогнозировать возможные неисправности, что открывает новые возможности по организации профилактического обслуживания.

The service box regularly takes condition measurements. By monitoring key parameters over time, Remote Service can identify potential failures and when necessary notify both the end customer and the appropriate ABB engineer. The management and storage of full system backups is a very powerful service to help recover from critical situations caused, for example, by operator errors.

Сервисный блок регулярно выполняет диагностические измерения. Непрерывно контролируя ключевые параметры, Remote Service может распознать потенциальные опасности и, при необходимости, оповещать владельца оборудования и соответствующего специалиста АББ. Резервирование данных для возможного отката является мощным средством, обеспечивающим восстановление системы в критических ситуациях, например, после ошибки оператора.

The first Remote Service installation took place in the automotive industry in the United States and quickly proved its value. The motherboard in a robot cabinet overheated and the rise in temperature triggered an alarm via Remote Service. Because of the alarm, engineers were able to replace a faulty fan, preventing a costly production shutdown.

Первая система Remote Service была установлена на автозаводе в США и очень скоро была оценена по достоинству. Она обнаружила перегрев материнской платы в шкафу управления роботом и передала сигнал о превышении допустимой температуры, благодаря чему инженеры смогли заменить неисправный вентилятор и предотвратить дорогостоящую остановку производства.

MyRobot: 24-hour remote access

Having regular access to a robot’s condition data is also essential to achieving lean production. At any time, from any location, customers can verify their robots’ status and access maintenance information and performance reports simply by logging in to ABB’s MyRobot Web site. The service enables customers to easily compare performances, identify bottlenecks or developing issues, and initiate the most

Сайт MyRobot: круглосуточный дистанционный доступ

Для того чтобы обеспечить бесперебойное производство, необходимо иметь регулярный доступ к информации о состоянии робота. Зайдя на соответствующую страницу сайта MyRobot компании АББ, заказчики получат все необходимые данные, включая сведения о техническом обслуживании и отчеты о производительности своего робота. Эта услуга позволяет легко сравнивать данные о производительности, обнаруживать возможные проблемы, а также оптимизировать планирование технического обслуживания и модернизации. С помощью MyRobot можно значительно увеличить выпуск продукции и уменьшить количество выбросов.

Award-winning solution

In June 2008, the innovative Remote Service solution won the Gold Value Chain award at the M2M United Conference in Chicago. The value chain award honors successful corporate adopters of M2M (machine–to-machine) technology and highlights the process of combining multiple technologies to deliver high-quality services to customers. ABB won in the categoryof Smart Services.

Приз за удачное решение

В июне 2008 г. инновационное решение Remote Service получило награду Gold Value Chain (Золотая цепь) на конференции M2M United Conference в Чикаго. «Золотая цепь» присуждается за успешное масштабное внедрение технологии M2M (машина – машина), а также за достижения в объединении различных технологий для предоставления высококачественных услуг заказчикам. АББ одержала победу в номинации «Интеллектуальный сервис».

Case study: Tetley Tetley GB Ltd is the world’s second-largest manufacturer and distributor of tea. The company’s manufacturing and distribution business is spread across 40 countries and sells over 60 branded tea bags. Tetley’s UK tea production facility in Eaglescliffe, County Durham is the sole producer of Tetley tea bags 2.

Пример применения: Tetley Компания TetleyGB Ltd является вторым по величине мировым производителем и поставщиком чая. Производственные и торговые филиалы компании имеются в 40 странах, а продукция распространяется под 60 торговыми марками. Чаеразвесочная фабрика в Иглсклифф, графство Дарем, Великобритания – единственный производитель чая Tetley в пакетиках (рис. 2).

ABB offers a flexible choice of service agreements for both new and existing robot installations, which can help extend the mean time between failures, shorten the time to repair and lower the cost of automated production.

Предлагаемые АББ контракты на выполнение технического обслуживания как уже имеющихся, так и вновь устанавливаемых роботов, позволяют значительно увеличить среднюю наработку на отказ, сократить время ремонта и общую стоимость автоматизированного производства.

Robots in the plant’s production line were tripping alarms and delaying the whole production cycle. The spurious alarms resulted in much unnecessary downtime that was spent resetting the robots in the hope that another breakdown could be avoided. Each time an alarm was tripped, several hours of production time was lost. “It was for this reason that we were keen to try out ABB’s Remote Service agreement,” said Colin Trevor, plant maintenance manager.

Установленные в технологической линии роботы выдавали аварийные сигналы, задерживающие выполнение производственного цикла. Ложные срабатывания вынуждали перезапускать роботов в надежде предотвратить возможные отказы, в результате чего после каждого аварийного сигнала производство останавливалось на несколько часов. «Именно поэтому мы решили попробовать заключить с АББ контракт на дистанционное техническое обслуживание», – сказал Колин Тревор, начальник технической службы фабрики.

To prevent future disruptions caused by unplanned downtime, Tetley signed an ABB Response Package service agreement, which included installing a service box and system infrastructure into the robot control systems. Using the Remote Service solution, ABB remotely monitors and collects data on the “wear and tear” and productivity of the robotic cells; this data is then shared with the customer and contributes to smooth-running production cycles.

Для предотвращения ущерба в результате незапланированных простоев Tetley заключила с АББ контракт на комплексное обслуживание Response Package, согласно которому системы управления роботами были дооборудованы сервисными блоками с необходимой инфраструктурой. С помощью Remote Service компания АББ дистанционно собирает данные о наработке, износе и производительности роботизированных модулей. Эти данные предоставляются заказчику для оптимизации загрузки производственного оборудования.

Higher production uptime

Since the implementation of Remote Service, Tetley has enjoyed greatly reduced robot downtime, with no further disruptions caused by unforeseen problems. “The Remote Service package has dramatically changed the plant,” said Trevor. “We no longer have breakdown issues throughout the shift, helping us to achieve much longer periods of robot uptime. As we have learned, world-class manufacturing facilities need world-class support packages. Remote monitoring of our robots helps us to maintain machine uptime, prevent costly downtime and ensures my employees can be put to more valuable use.”

Увеличение полезного времени

С момента внедрения Remote Service компания Tetley была приятно удивлена резким сокращением простоя роботов и отсутствием незапланированных остановок производства. «Пакет Remote Service резко изменил ситуацию на предприятии», – сказал Тревор. «Мы избавились от простоев роботов и смогли резко увеличить их эксплуатационную готовность. Мы поняли, что для производственного оборудования мирового класса необходим сервисный пакет мирового класса. Дистанционный контроль роботов помогает нам поддерживать их в рабочем состоянии, предотвращать дорогостоящие простои и задействовать наш персонал для выполнения более важных задач».

Service access

Remote Service is available worldwide, connecting more than 500 robots. Companies that have up to 30 robots are often good candidates for the Remote Service offering, as they usually have neither the engineers nor the requisite skills to deal with robotics faults themselves. Larger companies are also enthusiastic about Remote Service, as the proactive services will improve the lifetime of their equipment and increase overall production uptime.

Доступность сервиса

Сеть Remote Service охватывает более 700 роботов по всему миру. Потенциальными заказчиками Remote Service являются компании, имеющие до 30 роботов, но не имеющие инженеров и техников, способных самостоятельно устранять их неисправности. Интерес к Remote Service проявляют и более крупные компании, поскольку они заинтересованы в увеличении срока службы и эксплуатационной готовности производственного оборудования.

In today’s competitive environment, business profitability often relies on demanding production schedules that do not always leave time for exhaustive or repeated equipment health checks. ABB’s Remote Service agreements are designed to monitor its customers’ robots to identify when problems are likely to occur and ensure that help is dispatched before the problem can escalate. In over 60 percent of ABB’s service calls, its robots can be brought back online remotely, without further intervention.

В условиях современной конкуренции окупаемость бизнеса часто зависит от соблюдения жестких графиков производства, не оставляющих времени для полномасштабных или периодических проверок исправности оборудования. Контракт Remote Service предусматривает мониторинг состояния роботов заказчика для прогнозирования возможных неисправностей и принятие мер по их предотвращению. В более чем 60 % случаев для устранения неисправности достаточно дистанционной консультации в сервисной службе АББ, дальнейшего вмешательства не требуется.

ABB offers a flexible choice of service agreements for both new and existing robot installations, which helps extend the mean time between failures, shorten the time to repair and lower the total cost of ownership. With four new packages available – Support, Response, Maintenance and Warranty, each backed up by ABB’s Remote Service technology – businesses can minimize the impact of unplanned downtime and achieve improved production-line efficiency.

Компания АББ предлагает гибкий выбор контрактов на выполнение технического обслуживания как уже имеющихся, так и вновь устанавливаемых роботов, которые позволяют значительно увеличить среднюю наработку на отказ, сократить время ремонта и эксплуатационные расходы. Четыре новых пакета на основе технологии Remote Service – Support, Response, Maintenance и Warranty – позволяют минимизировать внеплановые простои и значительно повысить эффективность производства.

The benefits of Remote Sevice are clear: improved availability, fewer service visits, lower maintenance costs and maximized total cost of ownership. This unique service sets ABB apart from its competitors and is the beginning of a revolution in service thinking. It provides ABB with a great opportunity to improve customer access to its expertise and develop more advanced services worldwide.

Преимущества дистанционного технического обслуживания очевидны: повышенная надежность, уменьшение выездов ремонтных бригад, уменьшение затрат на обслуживание и общих эксплуатационных расходов. Эта уникальная услуга дает компании АББ преимущества над конкурентами и демонстрирует революционный подход к организации сервиса. Благодаря ей компания АББ расширяет доступ заказчиков к опыту своих специалистов и получает возможность более эффективного оказания технической помощи по всему миру.

Тематики

• тех. обсл. и ремонт средств электросвязи

Обобщающие термины

• виды технического обслуживания и ремонта

EN

• remote maintenance
• remote sevice

Русско-английский словарь нормативно-технической терминологии > дистанционное техническое обслуживание

adsimilo

as-sĭmŭlo ( adsĭmŭlo, Ritschl, Lachmann, Fleck., B. and K., Rib., Halm in Tac.; assĭmŭlo, Merk.; adsĭmĭlo, Halm in Quint., Tisch.), āvi, ātum, 1, v. a. and n.

I.

Lit., to make one thing like another, to consider as similar, to compare (in the class. period rare):

Linquitur, ut totis animalibus adsimulentur,

that they are like complete animals, Lucr. 2, 914:

nolite ergo adsimulari iis,

be like them, Vulg. Matt. 6, 8; 7, 24:

simile ex specie comparabili aut ex conferundā atque adsimulandā naturā judicatur,

Cic. Inv. 1, 28, 42:

pictor, perceptā semel imitandi ratione, adsimulabit quidquid acceperit,

Quint. 7, 10, 9:

nec cohibere parietibus deos neque in ullam humani oris speciem adsimulare,

Tac. G. 9:

convivia assimulare freto,

Ov. M. 5, 6:

formam totius Britanniae bipenni adsimulavere,

Tac. Agr. 10; so id. A. 1, 28; 15, 39:

os longius illi adsimulat porcum,

Claud. Eid. 2, 6:

cui adsimilāstis me,

Vulg. Isa. 46, 5; ib. Marc. 4, 30:

quam (naturam) Gadareus primus adsimulāsse aptissime visus est,

to have designated by very suitable comparisons, Suet. Tib. 57. —

II.

To represent something that is not, as real, to imitate, counterfeit, to pretend, to feign, simulate; constr. usu. with acc.; ante - class. with inf., acc. and inf., or with quasi; v. assimilis (mostly poet. or in post - Aug. prose).

(α).

With acc.:

has bene ut adsimules nuptias,

Ter. And. 1, 1, 141:

clipeumque jubasque Divini adsimulat capitis,

Verg. A. 10, 639:

Assimulavit anum,

Ov. M. 14, 656:

odium cum conjuge falsum Phasias assimulat,

id. ib. 7, 298:

fictos timores,

Sil. 7, 136:

sermonem humanum,

Plin. 8, 30, 44, § 106:

me sic adsimulabam, quasi stolidum,

Plaut. Ep. 3, 3, 40:

se laetum,

Ter. Heaut. 5, 1, 15:

amicum me,

id. Phorm. 1, 2, 78.—

(β).

With simple inf.: furere adsimulavit, Pac. ap. Cic. Off. 3, 26, 98:

amare,

Plaut. Cist. 1, 1, 98.—

(γ).

With acc. and inf.:

ego me adsimulem insanire,

Plaut. Men. 5, 2, 79:

adsimulet se Tuam esse uxorem,

id. Mil. 3, 1, 195:

Nempe ut adsimulem me amore istius differri,

id. ib. 4, 4, 27; id. Poen. 3, 1, 57; id. Truc. 2, 4, 36; 2, 5, 11; 2, 5, 19:

venire me adsimulabo,

Ter. And. 4, 3, 20; id. Phorm. 5, 6, 53 al.—

(δ).

With quasi:

adsimulato quasi hominem quaesiveris,

Plaut. Ep. 2, 2, 11: Ad. Ita nos adsimulabimus. Co. Sed ita adsimulatote, quasi ego sim peregrinus, id. Poen. 3, 2, 23; id. Stich. 1, 2, 27:

adsimulabo quasi nunc exeam,

Ter. Eun. 3, 2, 8.—And absol.:

Obsecro, Quid si adsimulo, satin est?

Ter. Phorm. 1, 4, 33.—

► The much-discussed question, whether adsimilo or adsimulo is the best orthog.

(cf. Gron. Diatr. Stat. c. 6, p. 72 sq., and Hand ad h. l.; Quint. 7, 10, 9 Spald.; id. 10, 2, 11 Frotscher; Suet. Tib. 57 Bremi; Tac. G. 9 Passow; id. Agr. 10 Walch; Bessel, Misc. Phil. Crit. 1, 5 al.), is perh. solved in the foll. remarks: Such is the affinity of the sound of ŭ and ĭ in Lat., that when they stand in two successive syllables, separated by the semivowel l, the u is accommodated to the i. Thus, from consŭl arises consĭlĭum; from exsŭl, exsĭlĭum; from famŭl, famĭlĭa; so the terminations ĭlis and ŭlus, not ŭlis and ĭlus (these few, mutĭlus, nubĭlus, pumĭlus, [p. 181] rutĭlus, appear to be founded in the u of the first syllable; but for the heteroclites gracila, sterila, etc., a nom. sing. gracilus, sterilus, etc., is no more needed than for Bacchanal orum, a nom. Bacchanalium, and for carioras, Manil. ap. Varr. L. L. 7, § 28 MSS., a form cariorus, a, um); and so it is also explained, that from the orig. facul and difficul arose faculter, facultas; difficulter, difficultas; not facŭlis, facŭliter, facŭlītas; difficŭlis, difficŭlĭter, difficŭlĭtas; but facilis, faciliter, facilitas; difficilis, difficiliter, difficilitas. This principle, applied to the derivatives of simul, shows the correctness of the orthography simulo, simulatio, simulator, with similis, similitudo, similitas; adsimulo, adsimulatio, adsimulator, with adsimilis; dissimulo, dissimulatio, dissimulator, with dissimilis and dissimilitudo, etc.; cf. Diom. p. 362 P.: Similo non dicimus, sed similis est. Sane dixerunt auctores simulat per u, hoc est homoiazei. But since the copyists knew that the more rare signif. of making like was not generically connected in the words simulare and adsimulare with the more usual one of imitating, dissembling, they wrote, where the former was required, sim i lo, adsim i lo, and gave occasion thereby to the entirely unfounded supposition that the ancients wrote, for the signif. making like, similo, adsimilo; for that of imitating, feigning, simulo, adsimulo Fr.—Hence, assĭmŭlātus ( ads-), a, um, P. a.

A.

Made similar, similar, like:

totis mortalibus adsimulata Ipsa quoque ex aliis debent constare elementis,

Lucr. 2, 980:

montibus adsimulata Nubila,

id. 6, 189:

litterae lituraeque omnes adsimulatae,

Cic. Verr. 2, 2, 77:

Italia folio querno adsimulata,

Plin. 3, 5, 6, § 43:

phloginos ochrae Atticae adsimulata,

id. 37, 10, 66, § 179:

favillae adsimilatus,

Vulg. Job, 30, 19:

adsimilatus Filio Dei,

ib. Heb. 7, 3.—

B.

Imitated, i. e. feigned, pretended, dissembled:

familiaritas adsimulata,

Cic. Clu. 13:

virtus,

id. Cael. 6, 14:

adsimulatā castrorum consuetudine,

Nep. Eum. 9, 4:

alia vera, alia adsimulata,

Liv. 26, 19:

minus sanguinis ac virium declamationes habent quam orationes, quod in illis vera, in his adsimilata materia est,

Quint. 10, 2, 12; 9, 2, 31 al.— Comp., sup., and adv. not in use.—

* assĭmŭlanter ( ads-), adv. (qs. from the P. a. assimulans, which is not found), in a similar manner: dicta haec, Nigid. ap. Non. p. 40, 25. ‡ * assĭpondĭum, ii, n. [as-pondus], the weight of one as, a pound weight, Varr. L. L. 5, § 169 Müll.

adsimulatus

as-sĭmŭlo ( adsĭmŭlo, Ritschl, Lachmann, Fleck., B. and K., Rib., Halm in Tac.; assĭmŭlo, Merk.; adsĭmĭlo, Halm in Quint., Tisch.), āvi, ātum, 1, v. a. and n.

I.

Lit., to make one thing like another, to consider as similar, to compare (in the class. period rare):

Linquitur, ut totis animalibus adsimulentur,

that they are like complete animals, Lucr. 2, 914:

nolite ergo adsimulari iis,

be like them, Vulg. Matt. 6, 8; 7, 24:

simile ex specie comparabili aut ex conferundā atque adsimulandā naturā judicatur,

Cic. Inv. 1, 28, 42:

pictor, perceptā semel imitandi ratione, adsimulabit quidquid acceperit,

Quint. 7, 10, 9:

nec cohibere parietibus deos neque in ullam humani oris speciem adsimulare,

Tac. G. 9:

convivia assimulare freto,

Ov. M. 5, 6:

formam totius Britanniae bipenni adsimulavere,

Tac. Agr. 10; so id. A. 1, 28; 15, 39:

os longius illi adsimulat porcum,

Claud. Eid. 2, 6:

cui adsimilāstis me,

Vulg. Isa. 46, 5; ib. Marc. 4, 30:

quam (naturam) Gadareus primus adsimulāsse aptissime visus est,

to have designated by very suitable comparisons, Suet. Tib. 57. —

II.

To represent something that is not, as real, to imitate, counterfeit, to pretend, to feign, simulate; constr. usu. with acc.; ante - class. with inf., acc. and inf., or with quasi; v. assimilis (mostly poet. or in post - Aug. prose).

(α).

With acc.:

has bene ut adsimules nuptias,

Ter. And. 1, 1, 141:

clipeumque jubasque Divini adsimulat capitis,

Verg. A. 10, 639:

Assimulavit anum,

Ov. M. 14, 656:

odium cum conjuge falsum Phasias assimulat,

id. ib. 7, 298:

fictos timores,

Sil. 7, 136:

sermonem humanum,

Plin. 8, 30, 44, § 106:

me sic adsimulabam, quasi stolidum,

Plaut. Ep. 3, 3, 40:

se laetum,

Ter. Heaut. 5, 1, 15:

amicum me,

id. Phorm. 1, 2, 78.—

(β).

With simple inf.: furere adsimulavit, Pac. ap. Cic. Off. 3, 26, 98:

amare,

Plaut. Cist. 1, 1, 98.—

(γ).

With acc. and inf.:

ego me adsimulem insanire,

Plaut. Men. 5, 2, 79:

adsimulet se Tuam esse uxorem,

id. Mil. 3, 1, 195:

Nempe ut adsimulem me amore istius differri,

id. ib. 4, 4, 27; id. Poen. 3, 1, 57; id. Truc. 2, 4, 36; 2, 5, 11; 2, 5, 19:

venire me adsimulabo,

Ter. And. 4, 3, 20; id. Phorm. 5, 6, 53 al.—

(δ).

With quasi:

adsimulato quasi hominem quaesiveris,

Plaut. Ep. 2, 2, 11: Ad. Ita nos adsimulabimus. Co. Sed ita adsimulatote, quasi ego sim peregrinus, id. Poen. 3, 2, 23; id. Stich. 1, 2, 27:

adsimulabo quasi nunc exeam,

Ter. Eun. 3, 2, 8.—And absol.:

Obsecro, Quid si adsimulo, satin est?

Ter. Phorm. 1, 4, 33.—

► The much-discussed question, whether adsimilo or adsimulo is the best orthog.

(cf. Gron. Diatr. Stat. c. 6, p. 72 sq., and Hand ad h. l.; Quint. 7, 10, 9 Spald.; id. 10, 2, 11 Frotscher; Suet. Tib. 57 Bremi; Tac. G. 9 Passow; id. Agr. 10 Walch; Bessel, Misc. Phil. Crit. 1, 5 al.), is perh. solved in the foll. remarks: Such is the affinity of the sound of ŭ and ĭ in Lat., that when they stand in two successive syllables, separated by the semivowel l, the u is accommodated to the i. Thus, from consŭl arises consĭlĭum; from exsŭl, exsĭlĭum; from famŭl, famĭlĭa; so the terminations ĭlis and ŭlus, not ŭlis and ĭlus (these few, mutĭlus, nubĭlus, pumĭlus, [p. 181] rutĭlus, appear to be founded in the u of the first syllable; but for the heteroclites gracila, sterila, etc., a nom. sing. gracilus, sterilus, etc., is no more needed than for Bacchanal orum, a nom. Bacchanalium, and for carioras, Manil. ap. Varr. L. L. 7, § 28 MSS., a form cariorus, a, um); and so it is also explained, that from the orig. facul and difficul arose faculter, facultas; difficulter, difficultas; not facŭlis, facŭliter, facŭlītas; difficŭlis, difficŭlĭter, difficŭlĭtas; but facilis, faciliter, facilitas; difficilis, difficiliter, difficilitas. This principle, applied to the derivatives of simul, shows the correctness of the orthography simulo, simulatio, simulator, with similis, similitudo, similitas; adsimulo, adsimulatio, adsimulator, with adsimilis; dissimulo, dissimulatio, dissimulator, with dissimilis and dissimilitudo, etc.; cf. Diom. p. 362 P.: Similo non dicimus, sed similis est. Sane dixerunt auctores simulat per u, hoc est homoiazei. But since the copyists knew that the more rare signif. of making like was not generically connected in the words simulare and adsimulare with the more usual one of imitating, dissembling, they wrote, where the former was required, sim i lo, adsim i lo, and gave occasion thereby to the entirely unfounded supposition that the ancients wrote, for the signif. making like, similo, adsimilo; for that of imitating, feigning, simulo, adsimulo Fr.—Hence, assĭmŭlātus ( ads-), a, um, P. a.

A.

Made similar, similar, like:

totis mortalibus adsimulata Ipsa quoque ex aliis debent constare elementis,

Lucr. 2, 980:

montibus adsimulata Nubila,

id. 6, 189:

litterae lituraeque omnes adsimulatae,

Cic. Verr. 2, 2, 77:

Italia folio querno adsimulata,

Plin. 3, 5, 6, § 43:

phloginos ochrae Atticae adsimulata,

id. 37, 10, 66, § 179:

favillae adsimilatus,

Vulg. Job, 30, 19:

adsimilatus Filio Dei,

ib. Heb. 7, 3.—

B.

Imitated, i. e. feigned, pretended, dissembled:

familiaritas adsimulata,

Cic. Clu. 13:

virtus,

id. Cael. 6, 14:

adsimulatā castrorum consuetudine,

Nep. Eum. 9, 4:

alia vera, alia adsimulata,

Liv. 26, 19:

minus sanguinis ac virium declamationes habent quam orationes, quod in illis vera, in his adsimilata materia est,

Quint. 10, 2, 12; 9, 2, 31 al.— Comp., sup., and adv. not in use.—

* assĭmŭlanter ( ads-), adv. (qs. from the P. a. assimulans, which is not found), in a similar manner: dicta haec, Nigid. ap. Non. p. 40, 25. ‡ * assĭpondĭum, ii, n. [as-pondus], the weight of one as, a pound weight, Varr. L. L. 5, § 169 Müll.