-
1 depth of focus
nCINEMAT profundidad de campo fGEOPHYS, PHOTO, PHYS profundidad de foco fTV profundidad de enfoque f -
2 out-of-focus image
расфокусированное изображение; нечеткое изображение; нерезкое изображение -
3 out-of-focus image
1. расфокусированное изображение2. нерезкое изображениеEnglish-Russian big polytechnic dictionary > out-of-focus image
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4 depth of focus scale
nCINEMAT, PHOTO escala de profundidad de foco f -
5 circuit
1) схема; цепь; контур2) канал; линия; тракт3) тлф. шлейф5) круговое движение, движение по окружности || совершать круговое движение, двигаться по окружности•- 2D circuit
- 3D circuit
- absorbing circuit
- absorption circuit
- ac circuit
- acceptor circuit
- adaptive logic circuit
- additive printed circuit
- adjustable threshold logic circuit
- aerial circuit
- alive circuit
- aluminium-gate MOS integrated circuit
- aluminum-gate MOS integrated circuit
- AM detecting circuit
- analog circuit
- ancillary circuit
- AND circuit
- anode circuit
- antenna circuit
- anticlutter circuit
- anticoincidence circuit
- antihunt circuit
- antijamming circuit
- anti-Karp circuit
- antiresonance circuit
- antiresonant circuit
- antisidetone circuit
- aperiodic circuit
- application-specific integrated circuit
- approved circuit
- array integrated circuit
- astable circuit
- autodyne circuit
- automatic start circuit
- averaging circuit
- azimuth-sweep circuit
- back-plate circuit
- back-to-back circuit
- balanced circuit
- base-line marker circuit
- basic circuit
- beta circuit
- beta feedback circuit
- bias circuit
- bidirectional clamping circuit
- bilateral circuit
- bipolar circuit
- bipolar integrated circuit
- bistable circuit
- bistable multivibrator circuit
- black stretch circuit
- black-level restoring circuit
- black-level setting circuit
- blanking circuit
- bootstrap circuit
- bound circuit
- boxcar circuit
- branch circuit
- branched circuit
- bridge circuit
- bridged circuit
- broken circuit
- bubble annihilation circuit
- bubble circuit
- bubble detection circuit
- bubble propagation circuit
- bubble replication circuit
- bubble stretching circuit
- bubble switching circuit
- bubble-domain annihilation circuit
- bubble-domain detection circuit
- bubble-domain propagation circuit
- bubble-domain replication circuit
- bubble-domain stretching circuit
- bubble-domain switching circuit
- bucket-brigade circuit
- buffer circuit
- building-out circuit
- built-up circuit
- bulk-effect integrated circuit
- butterfly circuit
- butterfly tank circuit
- calibrating circuit
- call circuit
- capacitive differentiator circuit
- capacitive oscillatory circuit
- cathode circuit
- central-battery circuit
- ceramic printed circuit
- charge-coupled device integrated circuit
- chemically deposited printed circuit
- chemically reduced printed circuit
- chemically-assembled integrated circuit
- chevron bubble propagation circuit
- chevron bubble-domain propagation circuit
- chip integrated circuit
- cholesteric circuit
- chopping circuit
- chrominance matrix circuit
- chrominance separation circuit
- chrominance take-off circuit
- circuit of graph
- clamping circuit
- clamp-on circuit
- clipping circuit
- clock circuit
- clocked circuit
- close-coupled circuits
- closed circuit
- closed magnetic circuit
- CMOS integrated circuit
- coaxial circuit
- coincidence circuit
- collector circuit
- collector-diffusion isolated integrated circuit
- color processing circuit
- color purity circuit
- color-balance circuit
- color-indexing circuit
- color-killer circuit
- Colpitts oscillatory circuit
- combinational circuit
- combinatorial circuit
- combiner circuit
- common-base circuit
- common-battery circuit
- common-cathode circuit
- common-collector circuit
- common-drain circuit
- common-emitter circuit
- common-gate circuit
- common-grid circuit
- common-source circuit
- common-use circuit
- compander circuit
- comparator circuit
- comparison circuit
- compatible circuit
- compensating circuit
- complementary circuit
- complementary MOS integrated circuit
- complementary symmetry circuit
- complementary symmetry MOS integrated circuit
- complementary-output circuit
- composite circuit
- compound circuit
- compression circuit
- computer circuits
- conference circuit
- consumer integrated circuit
- contiguous-disk bubble propagation circuit
- contiguous-disk bubble-domain propagation circuit
- control circuit
- controller circuit
- convergence circuit
- cord circuit
- core-diode circuit
- core-transistor circuit
- correction input circuit
- COSMOS circuit
- countdown circuits
- counter circuit
- counter timer circuit
- counting circuit
- coupled circuits
- cross-control circuit
- crossed-waveguide circuit
- crosspoint integrated circuit
- cryotron circuit
- cue circuit
- current-access bubble circuit
- current-feedback circuit
- current-limited circuit
- current-source equivalent circuit
- custom circuit
- customer-specific integrated circuit
- custom-wired integrated circuit
- cutoff circuit
- damping circuit
- dash circuit
- data circuit
- dc circuit
- dc restoration circuit
- dead-on-arrival integrated circuit
- decision circuit
- decision making circuit
- decoupling circuit
- dedicated integrated circuit
- deep-submicron integrated circuit
- degenerative circuit
- delay circuit
- delay-insensitive circuit
- delay-sensitive circuit
- delta circuit
- demultiplexing circuit
- deposited integrated circuit
- derived circuit
- despiker circuit
- despiking circuit
- detector circuit
- detuned circuit
- dial toll circuit
- dial-up circuit
- diamond circuit
- die integrated circuit
- dielectric isolated integrated circuit
- differential-frequency circuit
- differentiating circuit
- diffused-isolation integrated circuit
- digital circuit
- digital integrated circuit
- digital logic circuit
- diode array integrated circuit
- diode integrated circuit
- diode-coupled circuit
- diplex circuit
- direct international circuit
- direct transit international circuit
- direct-coupled circuit
- direct-wire circuit
- discharge circuit
- discrete circuit
- discrete-component circuit
- disjunction circuit
- distributed-element circuit
- divided circuit
- dividing circuit
- Doppler tracking circuit
- dot circuit
- double-coincidence circuit
- double-ended cord circuit
- double-ridge easitron circuit
- double-ridge Karp circuit
- double-sided circuit
- double-tuned circuit
- down-scaled integrated circuit
- driven circuit
- dry circuit
- dry-processed integrated circuit
- DTF circuit
- dual-in-line integrated circuit
- duplex circuit
- duplicated circuit
- dynamic-convergence circuit
- dynamic-focus circuit
- dynamic-track following circuit
- earth circuit
- earthed circuit
- E-beam litho circuit
- EC circuit
- Eccles-Jordan circuit
- EITHER-OR circuit
- electric circuit
- electronic circuit
- elevated-electrode integrated circuit
- embossed-foil printed circuit
- emitter-coupled circuit
- emitter-follower logic integrated circuit
- engineering circuit
- epitaxial circuit
- epitaxial passivated integrated circuit
- equalization circuit
- equivalent circuit
- equivalent integrated circuit
- etched printed circuit
- evaporated circuit
- exclusive OR circuit
- expanded-sweep circuit
- expander circuit
- external circuit
- external magnetic circuit
- extra LSI circuit
- face-down integrated circuit
- fail-safe circuit
- fallback circuit
- fan-in circuit
- fan-out circuit
- fast time-constant circuit
- feed circuit
- feedback circuit
- ferrite-diode circuit
- ferrite-transistor circuit
- ferroresonant circuit
- field-access bubble circuit
- field-programmable integrated circuit
- filament circuit
- film integrated circuit
- fine-line integrated circuit
- fine-pattern integrated circuit
- flat-pack integrated circuit
- flexible printed circuit
- flip-chip integrated circuit
- flip-flop circuit
- flux transfer circuit
- flywheel circuit
- forced coupled circuits
- forked circuit
- four-wire circuit
- frame-grounding circuit
- frame-scanning circuit
- free coupled circuits
- freely oscillating coupled circuits
- free-running circuit
- frequency-changing circuit
- full-wave circuit
- fully integrated circuit
- function circuit
- g equivalent circuit
- ganged circuits
- gate circuit
- gate equivalent circuit
- Giacoletto circuit
- Goto-pair circuit
- grid circuit
- grounded circuit
- grounded-base circuit
- grounded-collector circuit
- grounded-emitter circuit
- grounded-grid circuit
- ground-return circuit
- grouping circuit
- guard-ring isolated monolithic integrated circuit
- Gunn-effect circuit
- h equivalent circuit
- half-phantom circuit
- half-wave circuit
- Hamilton circuit
- hardened circuit
- Hartley oscillatory circuit
- Hazeltine neutralizing circuit
- head circuit
- heater circuit
- high-temperature superconductor integrated circuit
- holding circuit
- horizontal scanning circuit
- horizontal sync circuit
- horizontal-deflection circuit
- hotline circuit
- hybrid circuit
- hybrid integrated circuit
- hybrid pi equivalent circuit
- hybrid thin-film circuit
- hybrid thin-film integrated circuit
- hybrid-type circuit
- I2L circuit
- ideal-transformer equivalent circuit
- identification circuit
- idler circuit
- ignition circuit
- image circuit
- impulsing circuit
- inclusive NOR circuit
- inclusive OR circuit
- incoming circuit
- individually wired circuit
- inductance-capacitance coupling circuit
- inductive circuit
- inductive differentiator circuit
- inductive oscillatory circuit
- inductively coupled circuit
- injection circuit
- injection integrated circuit
- input circuit
- inquiry circuit
- insulated-substrate integrated circuit
- integrate-and-dump circuit
- integrated circuit
- integrated injection logic circuit
- integrated optical circuit
- integrating circuit
- interaction circuit
- interface circuit
- inter-integrated circuit
- interlock circuit
- intermediate-frequency circuit
- inverter circuit
- ion-implanted bubble propagation circuit
- ion-implanted bubble-domain propagation circuit
- ion-implanted MOS integrated circuit
- iron circuit
- isolated integrated injection logic circuit
- isolated-substrate solid circuit
- isoplanar integrated circuit
- isoplanar-based integrated circuit
- joint circuit
- joint denial circuit
- Josephson logic integrated circuit
- Josephson-junction logic integrated circuit
- junction circuit
- junction-isolation integrated circuit
- Karp circuit
- keep-alive circuit
- keying circuit
- killer circuit
- label circuit
- ladder circuit
- lagging circuit
- large-scale hybrid integration circuit
- large-scale integration circuit
- laser-configured application-specific integrated circuit
- latched circuit
- latching Boolean circuit
- latching circuit
- leak circuit
- leakage circuit
- leased circuit
- line circuit
- linear circuit
- linear integrated circuit
- line-scan circuit
- line-scanning circuit
- live circuit
- load circuit
- local circuit
- local-battery circuit
- locking circuit
- Loftin-White circuit
- logic circuit
- long-distance telephone circuit
- longitudinal circuit
- losser circuit
- low-energy circuit
- low-temperature superconductor integrated circuit
- L-section circuit
- lumped circuit
- lumped-constant circuit
- made-to-order circuit
- magnetic circuit
- magnetic convergence circuit
- magnetic integrated circuit
- magnetic-core circuit
- majority circuit
- master-slice integrated circuit
- matching circuit
- matrix circuit
- matrix integrated circuit
- McCulloh circuit
- medium-scale integration circuit
- memory circuit
- merged transistor logic integrated circuit
- Mesny circuit
- message circuit
- metal-dielectric-semiconductor integrated circuit
- metallic circuit
- metal-oxide-semiconductor integrated circuit
- metal-oxide-semiconductor large scale integration circuit
- meter-current circuit
- meter-voltage circuit
- microcomputer integrated circuit
- microelectronic integrated circuit
- microenergy logic circuit
- micrologic circuit
- micropower circuit
- microprinted circuit
- microprocessor integrated circuit
- microprocessor logic-support circuit
- microprogrammed circuit
- microwatt circuit
- microwave circuit
- microwave integrated circuit
- mix circuit
- mixing circuit
- molecular integrated circuit
- monobrid integrated circuit
- monolithic integrated circuit
- monolithic microwave integrated circuit
- monophase integrated circuit
- monostable circuit
- MOS integrated circuit
- MOS-on-sapphire integrated circuit
- MTL integrated circuit
- mu circuit
- mu feedback circuit
- multibrid integrated circuit
- multichip integrated circuit
- multidrop circuit
- multifunctional integrated circuit
- multilayer circuit
- multilevel-metallized integrated circuit
- multiphase integrated circuit
- multiplanar circuit
- multiple circuit
- multiple-chip circuit
- multiple-substrate solid circuit
- multipoint circuit
- multistable circuit
- multistage circuit
- muting circuit
- NAND circuit
- nanotube integrated circuit
- n-channel logic MOS integrated circuit
- negative OR circuit
- NEITHER-NOR circuit
- neutral magnetic circuit
- neutralizing circuit
- noise equivalent circuit
- noise suppression circuit
- nondisjunction circuit
- noninductive circuit
- nonlinear circuit
- nonphantomed circuits
- nonredundant circuit
- NOR circuit
- NOT circuit
- NOT-AND circuit
- NOT-OR circuit
- off-the-shelf circuit
- one-chip integrated circuit
- one-sided circuit
- one-wire circuit
- open circuit
- open magnetic circuit
- open-wire circuit
- optical integrated circuit
- optically coupled circuit
- optoelectronic integrated circuit
- optron integrated circuit
- OR circuit
- OR-ELSE circuit
- oscillator circuit
- oscillatory circuit
- output circuit
- overcoupled circuits
- overlap telling circuit
- oxide-isolated integrated circuit
- packaged circuit
- painted printed circuit
- parallel circuit
- parallel LCR circuit
- parallel-resonant circuit
- parallel-series circuit
- passivated integrated circuit
- p-channel logic MOS integrated circuit
- peak-holding circuit
- peaking circuit
- peak-riding clipping circuit
- perforated bubble propagation circuit
- perforated bubble-domain propagation circuit
- periodic circuit
- peripheral integrated circuit
- permalloy circuit
- permanent virtual circuit
- phantom circuit
- phase-advance circuit
- phase-comparison circuit
- phase-compensating circuit
- phase-delay circuit
- phase-equalizing circuit
- phase-inverting circuit
- phase-lag circuit
- phase-shift circuit
- photonic integrated circuit
- physical circuits
- physical equivalent circuit
- pi circuit
- pickax bubble propagation circuit
- pickax bubble-domain propagation circuit
- piezoelectric-crystal equivalent circuit
- pilot circuit
- planar integrated circuit
- planex integrated circuit
- plastic integrated circuit
- plastic-encapsulated integrated circuit
- plate circuit
- plated circuit
- plated printed circuit
- p-n junction isolated integrated circuit
- point-to-point circuit
- polar circuit
- polarized magnetic circuit
- polling circuit
- polymer integrated circuit
- polymer logic circuit
- polymer-based logic circuit
- polyphase circuit
- positioning circuit
- potentiometer circuit
- potted circuit
- power adder circuit
- preemphasis circuit
- presetting circuit
- primary circuit
- primary series circuit
- printed circuit
- printed wiring circuit
- printed-component circuit
- program circuit
- programmed interconnection pattern large-scale integration circuit
- propagation circuit
- proprietary integrated circuit
- pulse-actuated circuit
- pulse-shaping circuit
- pulsing circuit
- pump circuit
- pumping circuit
- purity circuit
- push-pull circuit
- push-push circuit
- push-to-talk circuit
- push-to-type circuit
- quadruplex circuit
- quasi-bistable circuit
- quasi-monostable circuit
- quenching circuit
- quiet-tuning circuit
- r equivalent circuit
- radiating circuit
- radiation hardened integrated circuit
- radio circuit
- radio communication circuit
- radio-frequency integrated circuit
- radio-receiving circuit
- radio-transmitting circuit
- range-marker circuit
- range-sweep circuit
- range-tracking circuit
- rapid single flux quantum circuit
- RC circuit
- RCG circuit
- RCTL circuit
- RDTL circuit
- reactance control circuit
- reaction circuit
- reactive circuit
- read-and-write circuit
- redundant circuit
- reflex circuit
- regenerative circuit
- rejector circuit
- repeat circuit
- reset circuit
- reset control circuit
- reshaping circuit
- resistance-capacitance circuit
- resistance-inductance circuit
- resistance-inductance-capacitance circuit
- resistor-capacitor-transistor logic circuit
- resistor-coupled transistor logic circuit
- resistor-diode-transistor logic circuit
- resistor-transistor logic circuit
- resonant circuit
- retroactive circuit
- reverberation-controlled gain circuit
- right-plane circuit
- ring circuit
- ring-and-bar circuit
- ringdown circuit
- ringing circuit
- RL circuit
- RLC circuit
- RSFQ circuit
- RTL circuit
- sample-and-hold circuit
- sampling circuit
- scaled integrated circuit
- scale-of-eight circuit
- scale-of-ten circuit
- scale-of-two circuit
- scaling circuit
- scanning circuit
- scrambler circuit
- screened circuit
- sealed circuit
- sealed-junction integration circuit
- selective circuit
- self-holding circuit
- self-repairing circuit
- self-saturating circuit
- semiconductor integrated circuit
- semiconductor-magnetic circuit
- semicustom integrated circuit
- separation circuit
- series circuit
- series RLC circuit
- series-peaking circuit
- series-resonant circuit
- service circuit
- short circuit
- shunt circuit
- shunt-peaking circuit
- shunt-series circuit
- side circuits
- sidetone suppression circuit
- signal circuit
- signal-processing circuit
- silent circuit
- silicon integrated circuit
- silicon-on-sapphire integrated circuit
- simple parallel circuit
- simplex circuit
- single-chip integrated circuit
- single-ended circuit
- single-mask level bubble circuit
- single-phase circuit
- single-ridge easitron circuit
- single-ridge Karp circuit
- single-shot trigger circuit
- single-trip trigger circuit
- single-tuned circuit
- single-wire circuit
- slave circuit
- sliding short circuit
- slow-wave circuit
- small outline integrated circuit
- small-scale integrated circuit
- smoothing circuit
- sneak circuit
- software circuit
- solid-state circuit
- spare circuit
- spark circuit
- speaker circuit
- sprayed printed circuit
- square-rooting circuit
- squaring circuit
- squelch circuit
- stacked circuit
- staggered circuits
- stamped printed circuit
- standard scale circuit
- star-connected circuit
- starting circuit
- start-stop circuit
- static-induction transistor integrated circuit
- stenode circuit
- stick circuit
- stopper circuit
- storage circuit
- straightforward circuit
- stripline circuit
- submicron integrated circuit
- subscriber line interface circuit
- subscriber-line audio-processing circuit
- superconducting tank circuit
- superimposed circuit
- superposed circuit
- supervising circuit
- support circuit
- sweep circuit
- switch virtual circuit
- switched circuit
- switching circuit
- sync separator circuit
- sync stretch circuit
- synchronous circuit
- T2L circuit
- talk-back circuit
- tank circuit
- tantalum thin-film circuit
- tap circuit
- tapped circuit
- tapped resonant circuit
- tapped-capacitor circuit
- tapped-capacitor resonant circuit
- tapped-coil circuit
- tapped-coil resonant circuit
- tapped-inductor circuit
- tapped-inductor resonant circuit
- T-bar bubble propagation circuit
- T-bar bubble-domain propagation circuit
- T-circuit
- telegraph circuit
- telephone circuit
- telling circuit
- terminating circuit
- Thevenin equivalent circuit
- thick-film circuit
- thin-film circuit
- three-dimensional circuit
- three-phase circuit
- threshold circuit
- through circuit
- tie-line circuit
- time-base circuit
- time-delay circuit
- toll-circuit
- totem-pole circuit
- transfer circuit
- transformer-coupled circuit
- transistor equivalent circuit
- transistor-transistor logic circuit
- traveling-wave-tube interaction circuit
- tributary circuit
- trigger circuit
- trunk circuit
- trunk terminating circuit
- trunk-junction circuit
- tse circuit
- TTL circuit
- tube circuit
- tube equivalent circuit
- tuned circuit
- tuning circuit
- twin-circuit
- twin-T circuit
- two-dimensional circuit
- two-state circuit
- two-way circuit
- two-wire circuit
- UHS integrated circuit
- ultra-audion circuit
- ultra-high-speed integrated circuit
- unbalanced circuit
- undefined function circuit
- underdamped circuit
- unilateral circuit
- unipolar integrated circuit
- universal cord circuit
- vacuum integrated circuit
- vacuum-deposited integrated circuit
- vapor-deposited printed circuit
- vertical deflection circuit
- vertical scanning circuit
- vertical sync circuit
- very high-speed integrated circuit
- very large-scale integration circuit
- V-groove isolated integrated injection logic circuit
- vibrating circuit
- video circuit
- virtual circuit
- voltage-feedback circuit
- voltage-source equivalent circuit
- wafer-on-scale integrated circuit
- warning circuit
- watch integrated circuit
- waveguide circuit
- waveguide short circuit
- weakly superconducting circuit
- weighting circuit
- welded electronic circuit
- white circuit
- wire circuit
- wired circuit
- wire-wrapped circuit
- writing circuit
- X-bar bubble propagation circuit
- X-bar bubble-domain propagation circuit
- XNOR circuit
- XOR circuit
- X-ray litho integrated circuit
- y equivalent circuit
- Y-bar bubble propagation circuit
- Y-bar bubble-domain propagation circuit
- Y-connected circuit
- z equivalent circuit
- zig-zag asymmetrical permalloy-wedges circuit
- zigzag permalloy track circuitThe New English-Russian Dictionary of Radio-electronics > circuit
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6 FS
1) Общая лексика: For Sale (Продам, Продаю - в объявлениях), TEO, ТЭО, технико-экономическое обоснование2) Компьютерная техника: Field Separator3) Геология: Field Stones4) Спорт: Fantasy Schedule, frontside (в скейтбординге: способ подъезда к цели)5) Военный термин: Flight Service, Flying Screen, Force Support, Fort Smith, French ship, Friendly Status, factor of safety, far side, fast screening, fast slew, feasibility study, federal standard, female soldier, field security, field service, field station, fighter squadron, filler for smoke, fin-stabilized, final settlement, financial statement, fire support, fire switch, firing set, firing station, first stage, flame shielding, flashless, smokeless, flight safety, flight sergeant, flight simulator, flight surgeon, flying status, foreign service, foresight, forward scatter, forward support, frequency shift, frequency stability, frequency standard, future system6) Техника: Foot Stone, fail-safe, fail-soft, failure sensing, false signature, far field, fast forward, fast speed relay, fast-shear, fatal failure, fault sequence, fault signaling, feasible solution, feedback, stabilized, field size, field-of-vision stop, filtration fraction, fine fill, fine sand, finishing superheater, finite state machine, fishing for, fixed focus, fixed storage, flat face, flight software, flip-flop, focusing scale, focusing screen, follow shot, forward scattering, frac finder, frequency shifting, full of fluid, full scale, full shot, full side, functional selector, fusible link, ФС, функциональный стандарт, полная шкала (full scale)7) Шутливое выражение: Funny Stuff8) Химия: Free State9) Математика: Finite Size, Finite Sup, ряд Фурье (Fourier series)10) Метеорология: Forest Service11) Юридический термин: Florida Statutes12) Бухгалтерия: Fact Sheet, financial statements13) Ветеринария: female spayed (самка после овариэктомии, стерилизованная)14) Грубое выражение: Fat Shit, Full Screen15) Металлургия: Flat Slip16) Политика: French Southern and Antarctic Lands17) Телекоммуникации: Frame Status, File Services (SNA)18) Сокращение: (type abbreviation) Corvette (guided missile; G), Field Standard, Fin-Stabilised, Fire Station, Firing Section for missile system, Full Standard, Sulphur Trioxide / Chlorsulphonic Acid Smoke (Chemical warfare mixture), female soldered, forged steel, full size, functional schematic, fuselage station, sulfur trioxide chlorsulfonic acid, finish specification (number), freight supply (vessel), free stock19) Физиология: Flexibility Syndrome, Frozen Section20) Электроника: Frequency Synthesizer21) Вычислительная техника: File System, file separator, Frame Status (FDDI, Token Ring), File System (LVM), разделитель файлов22) Нефть: float shoe, башмак с обратным клапаном (float shoe), запас прочности (factor of safety), обнаружение неисправности (failure sensing), обслуживание в промысловых условиях, передача сигнала о неисправности (fault signaling), техническое обоснование (feasibility study), федеральные технические условия (США; Federal specifications), федеральный стандарт (США; Federal standard), коэффициент надёжности (factor of safety), техническое обслуживание в условиях эксплуатации (field service)23) Биохимия: Free Sterols, Freeze Substitution24) Космонавтика: пм, Forest Service (USA)25) Картография: fixed station, flagstaff, fog signal station, fog siren, fundamental station26) Бумажная промышленность: felt side27) Банковское дело: окончательный расчёт (final settlement), полный расчёт (final settlement)28) Транспорт: Food Stop, Forward Seating, Freight And Supply29) Силикатное производство: flame spraying30) СМИ: Future Shock31) Деловая лексика: Four Star, Full Service32) Бурение: изучение возможности применения (feasibility study; стадия технического проектирования)33) Планирование: Завершение (этапа) до начала (другого) (Finish to Start - описание взаимосвязи двух этапов в графике выполнения работ)34) Сетевые технологии: de-facto standard, file server, разделитель полей, файл-сервер, файловый сервер35) Полимеры: Faraday Society, Federal Specifications, filmstrip36) Автоматика: file structure37) Контроль качества: Federal Specification, free slack, full-scale38) Медицинская техника: fractional shortening (ЭхоКГ)39) Химическое оружие: chlorosulfonic acid40) Военно-морской флот: French Ship (перед названиями военных кораблей ВМФ Франции)41) Велосипеды: full suspension.42) Расширение файла: File Separation43) Нефть и газ: flow switch, functional safety, (сокр. от) field dpecialist = полевой специалист (работник полевой партии/отряда, напр., в полевой геофизике, ГИС, обслуживании скважин)44) Электротехника: fast-speed, fuel scheduling45) Ebay. Free Shipping46) ООН: Firing Squad47) Общественная организация: Fabian Society48) Должность: Forensic Science, Fully Successful49) NYSE. Four Seasons Hotels, Inc.50) Единицы измерений: Fixed Scale51) Парашютный спорт: групповая акробатика (вид парашютного спорта) -
7 Fs
1) Общая лексика: For Sale (Продам, Продаю - в объявлениях), TEO, ТЭО, технико-экономическое обоснование2) Компьютерная техника: Field Separator3) Геология: Field Stones4) Спорт: Fantasy Schedule, frontside (в скейтбординге: способ подъезда к цели)5) Военный термин: Flight Service, Flying Screen, Force Support, Fort Smith, French ship, Friendly Status, factor of safety, far side, fast screening, fast slew, feasibility study, federal standard, female soldier, field security, field service, field station, fighter squadron, filler for smoke, fin-stabilized, final settlement, financial statement, fire support, fire switch, firing set, firing station, first stage, flame shielding, flashless, smokeless, flight safety, flight sergeant, flight simulator, flight surgeon, flying status, foreign service, foresight, forward scatter, forward support, frequency shift, frequency stability, frequency standard, future system6) Техника: Foot Stone, fail-safe, fail-soft, failure sensing, false signature, far field, fast forward, fast speed relay, fast-shear, fatal failure, fault sequence, fault signaling, feasible solution, feedback, stabilized, field size, field-of-vision stop, filtration fraction, fine fill, fine sand, finishing superheater, finite state machine, fishing for, fixed focus, fixed storage, flat face, flight software, flip-flop, focusing scale, focusing screen, follow shot, forward scattering, frac finder, frequency shifting, full of fluid, full scale, full shot, full side, functional selector, fusible link, ФС, функциональный стандарт, полная шкала (full scale)7) Шутливое выражение: Funny Stuff8) Химия: Free State9) Математика: Finite Size, Finite Sup, ряд Фурье (Fourier series)10) Метеорология: Forest Service11) Юридический термин: Florida Statutes12) Бухгалтерия: Fact Sheet, financial statements13) Ветеринария: female spayed (самка после овариэктомии, стерилизованная)14) Грубое выражение: Fat Shit, Full Screen15) Металлургия: Flat Slip16) Политика: French Southern and Antarctic Lands17) Телекоммуникации: Frame Status, File Services (SNA)18) Сокращение: (type abbreviation) Corvette (guided missile; G), Field Standard, Fin-Stabilised, Fire Station, Firing Section for missile system, Full Standard, Sulphur Trioxide / Chlorsulphonic Acid Smoke (Chemical warfare mixture), female soldered, forged steel, full size, functional schematic, fuselage station, sulfur trioxide chlorsulfonic acid, finish specification (number), freight supply (vessel), free stock19) Физиология: Flexibility Syndrome, Frozen Section20) Электроника: Frequency Synthesizer21) Вычислительная техника: File System, file separator, Frame Status (FDDI, Token Ring), File System (LVM), разделитель файлов22) Нефть: float shoe, башмак с обратным клапаном (float shoe), запас прочности (factor of safety), обнаружение неисправности (failure sensing), обслуживание в промысловых условиях, передача сигнала о неисправности (fault signaling), техническое обоснование (feasibility study), федеральные технические условия (США; Federal specifications), федеральный стандарт (США; Federal standard), коэффициент надёжности (factor of safety), техническое обслуживание в условиях эксплуатации (field service)23) Биохимия: Free Sterols, Freeze Substitution24) Космонавтика: пм, Forest Service (USA)25) Картография: fixed station, flagstaff, fog signal station, fog siren, fundamental station26) Бумажная промышленность: felt side27) Банковское дело: окончательный расчёт (final settlement), полный расчёт (final settlement)28) Транспорт: Food Stop, Forward Seating, Freight And Supply29) Силикатное производство: flame spraying30) СМИ: Future Shock31) Деловая лексика: Four Star, Full Service32) Бурение: изучение возможности применения (feasibility study; стадия технического проектирования)33) Планирование: Завершение (этапа) до начала (другого) (Finish to Start - описание взаимосвязи двух этапов в графике выполнения работ)34) Сетевые технологии: de-facto standard, file server, разделитель полей, файл-сервер, файловый сервер35) Полимеры: Faraday Society, Federal Specifications, filmstrip36) Автоматика: file structure37) Контроль качества: Federal Specification, free slack, full-scale38) Медицинская техника: fractional shortening (ЭхоКГ)39) Химическое оружие: chlorosulfonic acid40) Военно-морской флот: French Ship (перед названиями военных кораблей ВМФ Франции)41) Велосипеды: full suspension.42) Расширение файла: File Separation43) Нефть и газ: flow switch, functional safety, (сокр. от) field dpecialist = полевой специалист (работник полевой партии/отряда, напр., в полевой геофизике, ГИС, обслуживании скважин)44) Электротехника: fast-speed, fuel scheduling45) Ebay. Free Shipping46) ООН: Firing Squad47) Общественная организация: Fabian Society48) Должность: Forensic Science, Fully Successful49) NYSE. Four Seasons Hotels, Inc.50) Единицы измерений: Fixed Scale51) Парашютный спорт: групповая акробатика (вид парашютного спорта) -
8 fs
1) Общая лексика: For Sale (Продам, Продаю - в объявлениях), TEO, ТЭО, технико-экономическое обоснование2) Компьютерная техника: Field Separator3) Геология: Field Stones4) Спорт: Fantasy Schedule, frontside (в скейтбординге: способ подъезда к цели)5) Военный термин: Flight Service, Flying Screen, Force Support, Fort Smith, French ship, Friendly Status, factor of safety, far side, fast screening, fast slew, feasibility study, federal standard, female soldier, field security, field service, field station, fighter squadron, filler for smoke, fin-stabilized, final settlement, financial statement, fire support, fire switch, firing set, firing station, first stage, flame shielding, flashless, smokeless, flight safety, flight sergeant, flight simulator, flight surgeon, flying status, foreign service, foresight, forward scatter, forward support, frequency shift, frequency stability, frequency standard, future system6) Техника: Foot Stone, fail-safe, fail-soft, failure sensing, false signature, far field, fast forward, fast speed relay, fast-shear, fatal failure, fault sequence, fault signaling, feasible solution, feedback, stabilized, field size, field-of-vision stop, filtration fraction, fine fill, fine sand, finishing superheater, finite state machine, fishing for, fixed focus, fixed storage, flat face, flight software, flip-flop, focusing scale, focusing screen, follow shot, forward scattering, frac finder, frequency shifting, full of fluid, full scale, full shot, full side, functional selector, fusible link, ФС, функциональный стандарт, полная шкала (full scale)7) Шутливое выражение: Funny Stuff8) Химия: Free State9) Математика: Finite Size, Finite Sup, ряд Фурье (Fourier series)10) Метеорология: Forest Service11) Юридический термин: Florida Statutes12) Бухгалтерия: Fact Sheet, financial statements13) Ветеринария: female spayed (самка после овариэктомии, стерилизованная)14) Грубое выражение: Fat Shit, Full Screen15) Металлургия: Flat Slip16) Политика: French Southern and Antarctic Lands17) Телекоммуникации: Frame Status, File Services (SNA)18) Сокращение: (type abbreviation) Corvette (guided missile; G), Field Standard, Fin-Stabilised, Fire Station, Firing Section for missile system, Full Standard, Sulphur Trioxide / Chlorsulphonic Acid Smoke (Chemical warfare mixture), female soldered, forged steel, full size, functional schematic, fuselage station, sulfur trioxide chlorsulfonic acid, finish specification (number), freight supply (vessel), free stock19) Физиология: Flexibility Syndrome, Frozen Section20) Электроника: Frequency Synthesizer21) Вычислительная техника: File System, file separator, Frame Status (FDDI, Token Ring), File System (LVM), разделитель файлов22) Нефть: float shoe, башмак с обратным клапаном (float shoe), запас прочности (factor of safety), обнаружение неисправности (failure sensing), обслуживание в промысловых условиях, передача сигнала о неисправности (fault signaling), техническое обоснование (feasibility study), федеральные технические условия (США; Federal specifications), федеральный стандарт (США; Federal standard), коэффициент надёжности (factor of safety), техническое обслуживание в условиях эксплуатации (field service)23) Биохимия: Free Sterols, Freeze Substitution24) Космонавтика: пм, Forest Service (USA)25) Картография: fixed station, flagstaff, fog signal station, fog siren, fundamental station26) Бумажная промышленность: felt side27) Банковское дело: окончательный расчёт (final settlement), полный расчёт (final settlement)28) Транспорт: Food Stop, Forward Seating, Freight And Supply29) Силикатное производство: flame spraying30) СМИ: Future Shock31) Деловая лексика: Four Star, Full Service32) Бурение: изучение возможности применения (feasibility study; стадия технического проектирования)33) Планирование: Завершение (этапа) до начала (другого) (Finish to Start - описание взаимосвязи двух этапов в графике выполнения работ)34) Сетевые технологии: de-facto standard, file server, разделитель полей, файл-сервер, файловый сервер35) Полимеры: Faraday Society, Federal Specifications, filmstrip36) Автоматика: file structure37) Контроль качества: Federal Specification, free slack, full-scale38) Медицинская техника: fractional shortening (ЭхоКГ)39) Химическое оружие: chlorosulfonic acid40) Военно-морской флот: French Ship (перед названиями военных кораблей ВМФ Франции)41) Велосипеды: full suspension.42) Расширение файла: File Separation43) Нефть и газ: flow switch, functional safety, (сокр. от) field dpecialist = полевой специалист (работник полевой партии/отряда, напр., в полевой геофизике, ГИС, обслуживании скважин)44) Электротехника: fast-speed, fuel scheduling45) Ebay. Free Shipping46) ООН: Firing Squad47) Общественная организация: Fabian Society48) Должность: Forensic Science, Fully Successful49) NYSE. Four Seasons Hotels, Inc.50) Единицы измерений: Fixed Scale51) Парашютный спорт: групповая акробатика (вид парашютного спорта) -
9 depth
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10 modular data center
модульный центр обработки данных (ЦОД)
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[Интент]Параллельные тексты EN-RU
[ 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 designЭто 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 поколенияAre 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 сомнениюIn 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 чиллеровWe 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 платформаFinally, 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 Gen4To 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 measuresНиже 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 designsТак 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-центровWe 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
Синонимы
EN
Англо-русский словарь нормативно-технической терминологии > modular data center
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11 error
1) ошибка; погрешность2) искажение•error in indication — погрешность показания ( прибора); погрешность отсчёта;errors in the same sense — погрешности одного знака;error on the safe side — погрешность в сторону увеличения запаса прочности;to accumulate errors — накапливать погрешности;to combine errors — суммировать погрешности;to compensate error — 1. компенсировать ошибку ( показаний прибора) 2. возд. списывать (устранять) девиацию радиокомпаса;to distribute error of closure — геод. разбрасывать невязку;to hold measurement errors to... — удерживать погрешности измерений в пределах...;to introduce an error — вносить погрешность;to negate errors — исключать погрешности; компенсировать погрешности;to reduce errors — 1. уменьшать (снижать) погрешности 2. приводить погрешности ( к определённым условиям или определённому виду)error of approximation — погрешность приближения, погрешность аппроксимацииerror of closure — геод. невязкаerror or connection — геод. невязкаerror of direction — ошибка в определении направленияerror of division (error of graduation) — погрешность градуировкиerror of indication — погрешность показания ( прибора); погрешность отсчётаerror of observation — 1. погрешность наблюдения; погрешность отсчёта 2. геод. ошибка измерения, ошибка наблюденияerror of omission — 1. пропуск, пробел 2. упущениеerror of position — 1. погрешность в определении положения или местоположения 2. геод. координатная невязкаerror of traverse — геод. линейная невязка-
absolute error
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acceptable error
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accidental error
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accumulated error
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accumulative error
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accuracy error
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across-track error
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actual error
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additive error
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admissible error
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aggregate error
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airborne equipment error
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aliasing error
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alignment error
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along-track error
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altering error
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altimeter error
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ambiguity error
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amplitude error
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angular error
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appreciable error
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approximation error
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arithmetic error
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assigned error
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assumed error
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azimuth error
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backlash error
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base error
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basic error
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beam landing error
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bearing error
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bias error
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bias stability error
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bit error
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block mean-squared error
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boresight error
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burst error
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calibration error
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chaining error
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chip error
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chroma error
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closing error
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closure error in leveling
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closure error of angles
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closure error of azimuths
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closure error
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collimation error
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color error
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color-hue error
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color-purity error
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color-registration error
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combined error
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common error
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compass error
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compass turning error
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compensating errors
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complementary error
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component error
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composite error
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composition error
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computational error
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computation error
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computed error
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concealed error
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conformity error
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connection error
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consistent error
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constant error
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contributing error
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conventional error
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copying error
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course error
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crude error
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cumulative error
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cyclic error
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data error
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datum error
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day-to-day error
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dead-path error
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delay error
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detected error
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digital error
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displacement error
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distance error
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dynamic error
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dynamic phase error
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end errors
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erratic error
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estimated error
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estimation error
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excessive error
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exposure error
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extreme error
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fatal error
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fixed error
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flight technical error
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focusing error
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focus error
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folding error
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following error
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forecast error
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form error
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fractional error
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frequency error
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full-scale error
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gaging error
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gamma error
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gang error
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geometrical error
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geometric error
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glide path angular error
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graduation error
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gross error
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group-delay error
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guidance error
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guide positional error
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gyrocompass error
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hard error
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hardware error
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head-penetration error
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heeling error
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height-keeping error
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horizontal phase error
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hue error
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human error
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implementation error
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inbound error
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index error
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indicated displacement error
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indication error
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individual error
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inherent error
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inherited error
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initial error
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input error
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instrumental error
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instrument error
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interference error
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interlace error
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interpolation error
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interval error
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intolerable error
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intrinsic error
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introduced error
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ionosphere error
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lead error
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leveling error
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limiting error
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linear error
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linearity error
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logical error
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longitudinal error
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long-term error
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machine error
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marginal error
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maximum error
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maximum likely error
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maximum relative error
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maximum zero error
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mean error
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mean square error
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measurement error
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minimum error
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minimum mean-square error
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minimum prediction error
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mismatch error
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mispositioning error
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momentary error
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multiple error
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navigation error
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near-extreme error
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negative error
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noise error
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nominal error
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nonlinear error
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observation error
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observed error
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offset error
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omission error
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operator's error
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optimistic error
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outbound error
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output error
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overall error
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overlay error
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parity check error
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parity error
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partial error
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particular error
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parts-to-platen error
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patching error
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path following error
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peak error
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peak-to-peak error
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permissible error
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personal error
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pessimistic error
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phase error
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pitch error
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platen-to-machine error
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pointing error
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position error
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position following error
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positional error
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positioning error
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positive error
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predicted following error
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prediction error
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probable error
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procedural error
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propagation delay error
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quadrantal error
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quadratic phase error
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quadrature error
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quantization error
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radial displacement error
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radiation error
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random error
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range error
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ratio error
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reader error
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reading error
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reasonable error
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recoverable error
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reduced error
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reference limiting error
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registration error
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relative error
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residual error
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resistance error
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resolution error
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resultant error
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root-mean-square error
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rounding error
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routine/routine interface error
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run-time error
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sampling error
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saturation error
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scale calibration error
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scale error
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scanning error
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select error
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sequence error
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servo excess error
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servo following error
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sextant error
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shade error
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shading error
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sighting error
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significant error
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single error
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skew error
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slide-position error
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soft error
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software error
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speed error
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sporadic error
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standard error
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static error
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statistical error
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steady-state error
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steering error
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step-up error
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substitution error
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superposition error
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systematic error
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tape speed errors
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targeting error
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temperature error
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temporary error
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tilt error
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time error
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time-base error
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tool setting error
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total error
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tracking error
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transfer error
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transient error
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true error
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truncation error
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typing error
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typographic error
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unconcealable error
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uncorrectable error
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undetected error
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unrecoverable error
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unsuspected error
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user clock time bias error
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velocity error
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vertical phase error
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voltage error
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weighted mean error
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wiring error
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zero end error
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zero error
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zero setting error
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zero-drift error -
12 image
1) образ
2) изображение
3) отображение
4) отражение
5) изображать
6) отображать
7) отражаемый
– acoustic image
– auditory image
– blow up the image
– bright-field image
– color image
– contrast image
– dark-field image
– diffraction image
– diffuse image
– distort the image
– distorted image
– double image
– electronic image
– erect image
– false image
– false-color image
– ghost image
– holographic image
– homeomorphic image
– image antenna
– image attenuation
– image channel
– image contrast
– image converter
– image curve
– image dissector
– image distance
– image distortion
– image drift
– image effect
– image flicker
– image frequency
– image gradation
– image iconoscope
– image impedance
– image intensifier
– image interference
– image inversion
– image of a point
– image orthicon
– image plane
– image principle
– image ratio
– image scale
– image space
– image strip
– image tremor
– image visibility
– in-focus image
– inverse image
– latent image
– line image
– method of image
– mirror image
– negative image
– off-axis image
– out-of-focus image
– paraxial image
– positive image
– radiographic image
– real image
– reconstruct the image
– reduce the image
– reproduction of image
– reversed image
– sharp image
– silver image
– soft image
– source image
– speckle image
– split image
– static image
– statistical image
– tactile image
– television image
– translation of image
– true-sided image
– view the image
– virtual image
– visible image
encapsulated image intensifier — герметизированный оптикоэлектронный преобразователь
image camera tube — передающая телевизионная ЭЛТ с переносом изображения
image interference ratio — < radio> коэффициент зеркальных помех
image pick-up tube — передающая телевизионная электронно-лучевая трубка
image transfer constant — <comput.> постоянная передачи
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13 assembly
1) сборка, монтаж2) сборочная единица; узел; сборная деталь3) агрегат; сборочная группа•- adapter-and-tool assembly
- antifriction roller assembly
- applicator assembly
- assembly of N-order
- assembly of parts in batch quantities
- automated assembly
- automatized assembly
- auxiliary storage and playback assembly
- ball screw-and-nut assembly
- ballnut assembly
- base jaw assembly
- base-and-top jaw assembly
- beam assembly
- bearing assembly
- bench assembly
- bolted assembly
- brake assembly
- cable assembly
- cam-actuated assembly
- cap screw assembly
- carrier assembly
- chip flushing assembly
- chuck assembly
- clamp assembly
- collet assembly
- collet-and-chuck assembly
- computer-aided automatic assembly
- connector assembly
- contact assembly
- control assembly
- coupling assembly
- crosshead movement assembly
- cushion assembly
- cutter assembly
- cutting head assembly
- cutting tool assembly
- cylinder block-and-piston assembly
- driving assembly
- dual template assembly
- encapsulated assembly
- error-corrective assembly
- fabricated assembly
- fastener assembly
- feed nut assembly
- feeding assembly
- final assembly
- fine focus assembly for laser
- fine focus assembly
- fixture assembly
- flexible assembly
- flow assembly
- flowline assembly
- fuel injection pump assembly
- gear assembly
- generic assembly
- governor assembly
- grinding wheel assembly
- guide assembly
- head assembly
- head-and-disk assembly
- hole saw assembly
- hook assembly
- hose assembly
- hydraulic pallet assembly
- hydraulic pump assembly
- improper assembly
- injected metal assembly
- integrated assembly
- interchangeable assembly
- intermediate assembly
- IR assembly
- jaw assembly
- keying assembly
- kit assembly
- large scale robot assembly
- laser assembly
- layered assembly
- lockup assembly
- LSI assembly
- main assembly
- mast assembly
- mechanical engineering assemblys
- modular assembly
- mold assembly
- motor assembly
- mounting assembly
- multicomponent assembly
- multistation machining assembly
- O.D. grinding assembly
- offending assembly
- oil seal assembly
- PCB assembly
- pickoff assembly
- piston-cylinder assembly
- plain bearing assembly
- plugboard assembly
- power steering assembly
- printed board assembly
- print-wire assembly
- profile slide assembly
- programmable assembly
- progressive assembly
- pushbutton assembly
- rectifier assembly
- relay-based assembly
- right-angle drive assembly
- right-angled drive assembly
- robotic assembly
- robotized assembly
- rotating basket assembly
- safety assembly
- saw head assembly
- sawing assembly
- selective assembly
- semiconductor assembly
- semifinished assembly
- series assembly
- setup bar assembly
- shake-free assembly
- slide assembly
- SMC assembly
- snap-in part assembly
- solid assembly
- spindle assembly
- spindle-head assembly
- stock spindle assembly
- stone assembly
- stop assembly
- stud assembly
- suction pickup assembly
- swing spindle assembly
- swing-arm assembly
- threaded assembly
- tool arm assembly
- tool assembly
- tool carriage and slide assembly
- tool changer assembly
- toolholder assembly
- top jaw assembly
- top-and-base jaw assembly
- torque-coupling assembly
- traction drive roll assembly
- transmission assembly
- triangular assembly
- trivet/turnbuckle assembly
- trolley pole assembly
- turnbuckle assembly
- turntable-based assembly
- twin-column assembly
- ultrasonic drilling assembly
- unified assembly
- unit assembly
- unitary assembly
- universal drive assembly
- variant engine assembly
- variant model assembly
- warning assembly
- weld assembly
- welded assembly
- wheel-dressing assembly
- wire feed assembly
- workholder assembly
- workpiece drive assembly
- workpiece/pallet assembly
- workpiece-retaining assembly
- wrist assemblyEnglish-Russian dictionary of mechanical engineering and automation > assembly
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14 near cash
!гос. фин. The resource budget contains a separate control total for “near cash” expenditure, that is expenditure such as pay and current grants which impacts directly on the measure of the golden rule.This paper provides background information on the framework for the planning and control of public expenditure in the UK which has been operated since the 1998 Comprehensive Spending Review (CSR). It sets out the different classifications of spending for budgeting purposes and why these distinctions have been adopted. It discusses how the public expenditure framework is designed to ensure both sound public finances and an outcome-focused approach to public expenditure.The UK's public spending framework is based on several key principles:"consistency with a long-term, prudent and transparent regime for managing the public finances as a whole;" "the judgement of success by policy outcomes rather than resource inputs;" "strong incentives for departments and their partners in service delivery to plan over several years and plan together where appropriate so as to deliver better public services with greater cost effectiveness; and"the proper costing and management of capital assets to provide the right incentives for public investment.The Government sets policy to meet two firm fiscal rules:"the Golden Rule states that over the economic cycle, the Government will borrow only to invest and not to fund current spending; and"the Sustainable Investment Rule states that net public debt as a proportion of GDP will be held over the economic cycle at a stable and prudent level. Other things being equal, net debt will be maintained below 40 per cent of GDP over the economic cycle.Achievement of the fiscal rules is assessed by reference to the national accounts, which are produced by the Office for National Statistics, acting as an independent agency. The Government sets its spending envelope to comply with these fiscal rules.Departmental Expenditure Limits ( DEL) and Annually Managed Expenditure (AME)"Departmental Expenditure Limit ( DEL) spending, which is planned and controlled on a three year basis in Spending Reviews; and"Annually Managed Expenditure ( AME), which is expenditure which cannot reasonably be subject to firm, multi-year limits in the same way as DEL. AME includes social security benefits, local authority self-financed expenditure, debt interest, and payments to EU institutions.More information about DEL and AME is set out below.In Spending Reviews, firm DEL plans are set for departments for three years. To ensure consistency with the Government's fiscal rules departments are set separate resource (current) and capital budgets. The resource budget contains a separate control total for “near cash” expenditure, that is expenditure such as pay and current grants which impacts directly on the measure of the golden rule.To encourage departments to plan over the medium term departments may carry forward unspent DEL provision from one year into the next and, subject to the normal tests for tautness and realism of plans, may be drawn down in future years. This end-year flexibility also removes any incentive for departments to use up their provision as the year end approaches with less regard to value for money. For the full benefits of this flexibility and of three year plans to feed through into improved public service delivery, end-year flexibility and three year budgets should be cascaded from departments to executive agencies and other budget holders.Three year budgets and end-year flexibility give those managing public services the stability to plan their operations on a sensible time scale. Further, the system means that departments cannot seek to bid up funds each year (before 1997, three year plans were set and reviewed in annual Public Expenditure Surveys). So the credibility of medium-term plans has been enhanced at both central and departmental level.Departments have certainty over the budgetary allocation over the medium term and these multi-year DEL plans are strictly enforced. Departments are expected to prioritise competing pressures and fund these within their overall annual limits, as set in Spending Reviews. So the DEL system provides a strong incentive to control costs and maximise value for money.There is a small centrally held DEL Reserve. Support from the Reserve is available only for genuinely unforeseeable contingencies which departments cannot be expected to manage within their DEL.AME typically consists of programmes which are large, volatile and demand-led, and which therefore cannot reasonably be subject to firm multi-year limits. The biggest single element is social security spending. Other items include tax credits, Local Authority Self Financed Expenditure, Scottish Executive spending financed by non-domestic rates, and spending financed from the proceeds of the National Lottery.AME is reviewed twice a year as part of the Budget and Pre-Budget Report process reflecting the close integration of the tax and benefit system, which was enhanced by the introduction of tax credits.AME is not subject to the same three year expenditure limits as DEL, but is still part of the overall envelope for public expenditure. Affordability is taken into account when policy decisions affecting AME are made. The Government has committed itself not to take policy measures which are likely to have the effect of increasing social security or other elements of AME without taking steps to ensure that the effects of those decisions can be accommodated prudently within the Government's fiscal rules.Given an overall envelope for public spending, forecasts of AME affect the level of resources available for DEL spending. Cautious estimates and the AME margin are built in to these AME forecasts and reduce the risk of overspending on AME.Together, DEL plus AME sum to Total Managed Expenditure (TME). TME is a measure drawn from national accounts. It represents the current and capital spending of the public sector. The public sector is made up of central government, local government and public corporations.Resource and Capital Budgets are set in terms of accruals information. Accruals information measures resources as they are consumed rather than when the cash is paid. So for example the Resource Budget includes a charge for depreciation, a measure of the consumption or wearing out of capital assets."Non cash charges in budgets do not impact directly on the fiscal framework. That may be because the national accounts use a different way of measuring the same thing, for example in the case of the depreciation of departmental assets. Or it may be that the national accounts measure something different: for example, resource budgets include a cost of capital charge reflecting the opportunity cost of holding capital; the national accounts include debt interest."Within the Resource Budget DEL, departments have separate controls on:"Near cash spending, the sub set of Resource Budgets which impacts directly on the Golden Rule; and"The amount of their Resource Budget DEL that departments may spend on running themselves (e.g. paying most civil servants’ salaries) is limited by Administration Budgets, which are set in Spending Reviews. Administration Budgets are used to ensure that as much money as practicable is available for front line services and programmes. These budgets also help to drive efficiency improvements in departments’ own activities. Administration Budgets exclude the costs of frontline services delivered directly by departments.The Budget preceding a Spending Review sets an overall envelope for public spending that is consistent with the fiscal rules for the period covered by the Spending Review. In the Spending Review, the Budget AME forecast for year one of the Spending Review period is updated, and AME forecasts are made for the later years of the Spending Review period.The 1998 Comprehensive Spending Review ( CSR), which was published in July 1998, was a comprehensive review of departmental aims and objectives alongside a zero-based analysis of each spending programme to determine the best way of delivering the Government's objectives. The 1998 CSR allocated substantial additional resources to the Government's key priorities, particularly education and health, for the three year period from 1999-2000 to 2001-02.Delivering better public services does not just depend on how much money the Government spends, but also on how well it spends it. Therefore the 1998 CSR introduced Public Service Agreements (PSAs). Each major government department was given its own PSA setting out clear targets for achievements in terms of public service improvements.The 1998 CSR also introduced the DEL/ AME framework for the control of public spending, and made other framework changes. Building on the investment and reforms delivered by the 1998 CSR, successive spending reviews in 2000, 2002 and 2004 have:"provided significant increase in resources for the Government’s priorities, in particular health and education, and cross-cutting themes such as raising productivity; extending opportunity; and building strong and secure communities;" "enabled the Government significantly to increase investment in public assets and address the legacy of under investment from past decades. Departmental Investment Strategies were introduced in SR2000. As a result there has been a steady increase in public sector net investment from less than ¾ of a per cent of GDP in 1997-98 to 2¼ per cent of GDP in 2005-06, providing better infrastructure across public services;" "introduced further refinements to the performance management framework. PSA targets have been reduced in number over successive spending reviews from around 300 to 110 to give greater focus to the Government’s highest priorities. The targets have become increasingly outcome-focused to deliver further improvements in key areas of public service delivery across Government. They have also been refined in line with the conclusions of the Devolving Decision Making Review to provide a framework which encourages greater devolution and local flexibility. Technical Notes were introduced in SR2000 explaining how performance against each PSA target will be measured; and"not only allocated near cash spending to departments, but also – since SR2002 - set Resource DEL plans for non cash spending.To identify what further investments and reforms are needed to equip the UK for the global challenges of the decade ahead, on 19 July 2005 the Chief Secretary to the Treasury announced that the Government intends to launch a second Comprehensive Spending Review (CSR) reporting in 2007.A decade on from the first CSR, the 2007 CSR will represent a long-term and fundamental review of government expenditure. It will cover departmental allocations for 2008-09, 2009-10 and 2010 11. Allocations for 2007-08 will be held to the agreed figures already announced by the 2004 Spending Review. To provide a rigorous analytical framework for these departmental allocations, the Government will be taking forward a programme of preparatory work over 2006 involving:"an assessment of what the sustained increases in spending and reforms to public service delivery have achieved since the first CSR. The assessment will inform the setting of new objectives for the decade ahead;" "an examination of the key long-term trends and challenges that will shape the next decade – including demographic and socio-economic change, globalisation, climate and environmental change, global insecurity and technological change – together with an assessment of how public services will need to respond;" "to release the resources needed to address these challenges, and to continue to secure maximum value for money from public spending over the CSR period, a set of zero-based reviews of departments’ baseline expenditure to assess its effectiveness in delivering the Government’s long-term objectives; together with"further development of the efficiency programme, building on the cross cutting areas identified in the Gershon Review, to embed and extend ongoing efficiency savings into departmental expenditure planning.The 2007 CSR also offers the opportunity to continue to refine the PSA framework so that it drives effective delivery and the attainment of ambitious national standards.Public Service Agreements (PSAs) were introduced in the 1998 CSR. They set out agreed targets detailing the outputs and outcomes departments are expected to deliver with the resources allocated to them. The new spending regime places a strong emphasis on outcome targets, for example in providing for better health and higher educational standards or service standards. The introduction in SR2004 of PSA ‘standards’ will ensure that high standards in priority areas are maintained.The Government monitors progress against PSA targets, and departments report in detail twice a year in their annual Departmental Reports (published in spring) and in their autumn performance reports. These reports provide Parliament and the public with regular updates on departments’ performance against their targets.Technical Notes explain how performance against each PSA target will be measured.To make the most of both new investment and existing assets, there needs to be a coherent long term strategy against which investment decisions are taken. Departmental Investment Strategies (DIS) set out each department's plans to deliver the scale and quality of capital stock needed to underpin its objectives. The DIS includes information about the department's existing capital stock and future plans for that stock, as well as plans for new investment. It also sets out the systems that the department has in place to ensure that it delivers its capital programmes effectively.This document was updated on 19 December 2005.Near-cash resource expenditure that has a related cash implication, even though the timing of the cash payment may be slightly different. For example, expenditure on gas or electricity supply is incurred as the fuel is used, though the cash payment might be made in arrears on aquarterly basis. Other examples of near-cash expenditure are: pay, rental.Net cash requirement the upper limit agreed by Parliament on the cash which a department may draw from theConsolidated Fund to finance the expenditure within the ambit of its Request forResources. It is equal to the agreed amount of net resources and net capital less non-cashitems and working capital.Non-cash cost costs where there is no cash transaction but which are included in a body’s accounts (or taken into account in charging for a service) to establish the true cost of all the resourcesused.Non-departmental a body which has a role in the processes of government, but is not a government public body, NDPBdepartment or part of one. NDPBs accordingly operate at arm’s length from governmentMinisters.Notional cost of a cost which is taken into account in setting fees and charges to improve comparability with insuranceprivate sector service providers.The charge takes account of the fact that public bodies donot generally pay an insurance premium to a commercial insurer.the independent body responsible for collecting and publishing official statistics about theUK’s society and economy. (At the time of going to print legislation was progressing tochange this body to the Statistics Board).Office of Government an office of the Treasury, with a status similar to that of an agency, which aims to maximise Commerce, OGCthe government’s purchasing power for routine items and combine professional expertiseto bear on capital projects.Office of the the government department responsible for discharging the Paymaster General’s statutoryPaymaster General,responsibilities to hold accounts and make payments for government departments and OPGother public bodies.Orange bookthe informal title for Management of Risks: Principles and Concepts, which is published by theTreasury for the guidance of public sector bodies.Office for NationalStatistics, ONS60Managing Public Money————————————————————————————————————————"GLOSSARYOverdraftan account with a negative balance.Parliament’s formal agreement to authorise an activity or expenditure.Prerogative powerspowers exercisable under the Royal Prerogative, ie powers which are unique to the Crown,as contrasted with common-law powers which may be available to the Crown on the samebasis as to natural persons.Primary legislationActs which have been passed by the Westminster Parliament and, where they haveappropriate powers, the Scottish Parliament and the Northern Ireland Assembly. Begin asBills until they have received Royal Assent.arrangements under which a public sector organisation contracts with a private sectorentity to construct a facility and provide associated services of a specified quality over asustained period. See annex 7.5.Proprietythe principle that patterns of resource consumption should respect Parliament’s intentions,conventions and control procedures, including any laid down by the PAC. See box 2.4.Public Accountssee Committee of Public Accounts.CommitteePublic corporationa trading body controlled by central government, local authority or other publiccorporation that has substantial day to day operating independence. See section 7.8.Public Dividend finance provided by government to public sector bodies as an equity stake; an alternative to Capital, PDCloan finance.Public Service sets out what the public can expect the government to deliver with its resources. EveryAgreement, PSAlarge government department has PSA(s) which specify deliverables as targets or aimsrelated to objectives.a structured arrangement between a public sector and a private sector organisation tosecure an outcome delivering good value for money for the public sector. It is classified tothe public or private sector according to which has more control.Rate of returnthe financial remuneration delivered by a particular project or enterprise, expressed as apercentage of the net assets employed.Regularitythe principle that resource consumption should accord with the relevant legislation, therelevant delegated authority and this document. See box 2.4.Request for the functional level into which departmental Estimates may be split. RfRs contain a number Resources, RfRof functions being carried out by the department in pursuit of one or more of thatdepartment’s objectives.Resource accountan accruals account produced in line with the Financial Reporting Manual (FReM).Resource accountingthe system under which budgets, Estimates and accounts are constructed in a similar wayto commercial audited accounts, so that both plans and records of expenditure allow in fullfor the goods and services which are to be, or have been, consumed – ie not just the cashexpended.Resource budgetthe means by which the government plans and controls the expenditure of resources tomeet its objectives.Restitutiona legal concept which allows money and property to be returned to its rightful owner. Ittypically operates where another person can be said to have been unjustly enriched byreceiving such monies.Return on capital the ratio of profit to capital employed of an accounting entity during an identified period.employed, ROCEVarious measures of profit and of capital employed may be used in calculating the ratio.Public Privatepartnership, PPPPrivate Finance Initiative, PFIParliamentaryauthority61Managing Public Money"————————————————————————————————————————GLOSSARYRoyal charterthe document setting out the powers and constitution of a corporation established underprerogative power of the monarch acting on Privy Council advice.Second readingthe second formal time that a House of Parliament may debate a bill, although in practicethe first substantive debate on its content. If successful, it is deemed to denoteParliamentary approval of the principle of the proposed legislation.Secondary legislationlaws, including orders and regulations, which are made using powers in primary legislation.Normally used to set out technical and administrative provision in greater detail thanprimary legislation, they are subject to a less intense level of scrutiny in Parliament.European legislation is,however,often implemented in secondary legislation using powers inthe European Communities Act 1972.Service-level agreement between parties, setting out in detail the level of service to be performed.agreementWhere agreements are between central government bodies, they are not legally a contractbut have a similar function.Shareholder Executive a body created to improve the government’s performance as a shareholder in businesses.Spending reviewsets out the key improvements in public services that the public can expect over a givenperiod. It includes a thorough review of departmental aims and objectives to find the bestway of delivering the government’s objectives, and sets out the spending plans for the givenperiod.State aidstate support for a domestic body or company which could distort EU competition and sois not usually allowed. See annex 4.9.Statement of Excessa formal statement detailing departments’ overspends prepared by the Comptroller andAuditor General as a result of undertaking annual audits.Statement on Internal an annual statement that Accounting Officers are required to make as part of the accounts Control, SICon a range of risk and control issues.Subheadindividual elements of departmental expenditure identifiable in Estimates as single cells, forexample cell A1 being administration costs within a particular line of departmental spending.Supplyresources voted by Parliament in response to Estimates, for expenditure by governmentdepartments.Supply Estimatesa statement of the resources the government needs in the coming financial year, and forwhat purpose(s), by which Parliamentary authority is sought for the planned level ofexpenditure and income.Target rate of returnthe rate of return required of a project or enterprise over a given period, usually at least a year.Third sectorprivate sector bodies which do not act commercially,including charities,social and voluntaryorganisations and other not-for-profit collectives. See annex 7.7.Total Managed a Treasury budgeting term which covers all current and capital spending carried out by the Expenditure,TMEpublic sector (ie not just by central departments).Trading fundan organisation (either within a government department or forming one) which is largely orwholly financed from commercial revenue generated by its activities. Its Estimate shows itsnet impact, allowing its income from receipts to be devoted entirely to its business.Treasury Minutea formal administrative document drawn up by the Treasury, which may serve a wide varietyof purposes including seeking Parliamentary approval for the use of receipts asappropriations in aid, a remission of some or all of the principal of voted loans, andresponding on behalf of the government to reports by the Public Accounts Committee(PAC).62Managing Public Money————————————————————————————————————————GLOSSARY63Managing Public MoneyValue for moneythe process under which organisation’s procurement, projects and processes aresystematically evaluated and assessed to provide confidence about suitability, effectiveness,prudence,quality,value and avoidance of error and other waste,judged for the public sectoras a whole.Virementthe process through which funds are moved between subheads such that additionalexpenditure on one is met by savings on one or more others.Votethe process by which Parliament approves funds in response to supply Estimates.Voted expenditureprovision for expenditure that has been authorised by Parliament. Parliament ‘votes’authority for public expenditure through the Supply Estimates process. Most expenditureby central government departments is authorised in this way.Wider market activity activities undertaken by central government organisations outside their statutory duties,using spare capacity and aimed at generating a commercial profit. See annex 7.6.Windfallmonies received by a department which were not anticipated in the spending review.———————————————————————————————————————— -
15 FS
1. factor of safety - запас прочности; коэффициент безопасности; коэффициент запаса прочности; коэффициент надёжности;2. fail-safe - отказоустойчивый;3. fail-soft - с амортизацией отказов;4. failure sensing - обнаружение неисправности;5. false signature - ложные признаки;6. far field - поле в дальней зоне;7. far side - дальняя сторона;8. fast forward - ускоренная перемотка (ленты) вперёд;9. fast slew - быстрые искажения;10. fast speed relay - быстродействующее реле;11. fast-shear - быстрый сдвиговый;12. fatal failure - катастрофический отказ;13. fault sequence - последовательность нарушений;14. fault signaling - передача сигнала о неисправности; сигнализация о неисправности;15. feasibility study - технико-экономическое обоснование;16. feasible solution - допустимое решение;17. Federal Specifications - Федеральная спецификация; федеральные технические условия;18. Federal standard - федеральный стандарт;19. feedback, stabilized - стабилизированная обратная связь;20. feet per second - число футов в секунду; фут/сек; 0,3048 м/сек;21. femtosecond - фемтосекунда; 10-15 с;22. field-of-vision stop - диафрагма поля зрения;23. field separator - разделитель полей;24. field service - техническое обслуживание в условиях эксплуатации; обслуживание в промысловых условиях;25. field size - размер поля;26. file separator - разделитель файлов;27. file server - сервер файлов;28. file system - файловая система;29. filmstrip - киноплёнка; диафильм;30. filtration fraction - фильтрационная фракция;31. fine fill - мелкий закладочный материал;32. fine sand - мелкий песок; мелкозернистый песок;33. finishing superheater - последняя ступень пароперегревателя;34. finite state machine - конечный автомат;35. fishing for - ловильные работы (по извлечению предметов из скважины);36. fixed focus - фиксированная фокусировка;37. fixed storage - постоянное запоминающее устройство;38. flat face - плоская грань; плоский торец;39. flight simulator - лётный тренажёр;40. flight software - средства программного обеспечения полёта;41. flip-flop - триггер, триггерная схема; бистабильная ячейка; бистабильный мультивибратор;42. float shoe - башмак с обратным клапаном;43. flow switch - переключатель расхода; переключатель потока;44. focusing scale - шкала расстояний;45. focusing screen - фокусировочный экран; матовое стекло;46. follow shot - кадр; снятый в движении; съёмка в движении;47. forged steel - кованая сталь;48. forward scatter - рассеяние в направлении распространения; рассеяние вперёд;49. forward scattering - рассеяние в прямом направлении; рассеяние в направлении распространения;50. frac finder - каротаж для определения трещиноватости;51. Frame Status - состояние кадра;52. free stock - свободный резерв;53. frequency shift [shifting] - сдвиг частоты; уход частоты; частотная манипуляция; ЧМ;54. frequency stability - стабильность частоты;55. full of fluid - заполненный флюидом;56. full scale - полная шкала; максимум измеряемой величины; натурный, полноразмерный, полномасштабный;57. full shot - среднеобщий план;58. full side - грузовая сторона;59. full size - полный размер;60. functional selector - функциональный селектор;61. fusible link - плавкая перемычка -
16 image
1. изображение; изображать, получать изображение, формировать изображение2. отпечаток3. фотографический снимок, фотоснимок4. отображение; отображатьaerial image — изображение «в воздухе»
5. пробельные элементы печатной формы6. слепое изображениеblueline image — синий оттиск, «синька»
camera image — изображение, образованное объективом фотокамеры
charge image — зарядное изображение; зарядный рельеф
conductivity image — электропроводящее изображение, изображение, обладающее электропроводностью
7. изображение на копииimage receiving plate — пластина, воспринимающая изображение
coded image — закодированное изображение; графический объект
8. изображение на оригиналеvideophone image — изображение, переданное по видеотелефону
9. проявленное изображение10. проявленный фотоснимокdirect image — изображение, полученное непосредственно на форме или бумаге
dye image — красочное изображение, изображение, образованное красителем
electrostatic charged image — зарядное изображение, зарядный рельеф
film image — плёночное изображение, изображение на фотоплёнке
first-generation image — изображение первого поколения, изображение-оригинал
11. плоское изображениеunsharp image — нечеткое изображение; нерезкое изображение
12. малоконтрастное изображение; вялое изображениеfrost image — изображение, образуемое узорами, напоминающими узоры на замёрзшем стекле
image transfer — передача изображения; перенос изображения
13. термопроявленное изображение14. термографическое изображениеinfrared absorbing image — изображение, поглощающее инфракрасное излучение
live and reference image — "живое " и опорное изображение
binary image — двоичное отображение; бинарное изображение
15. прообраз16. зеркальное изображениеmetal-plated image — изображение, усиленное путём нанесения на него тонкой плёнки металла
moving projected image — изображение, получаемое путём развёртки с помощью оптической системы
negative image — негативное изображение, негатив
nitrogen gas image — изображение, образованное пузырьками азота
out-of-focus image — изображение не в фокусе, нерезкое изображение
persistent conductivity image — изображение, сформированное на основе устойчивой внутренней проводимости
point image — точечное изображение, изображение, разбитое на точки
positive image — позитивное изображение, позитив
reproduced image — репродуцированное изображение; изображение, отпечатанное фотографическим способом
17. изображение, оставшееся на офсетной поверхности после получения оттиска18. остаточное изображениеrippled image — мелкорельефное изображение, мелкий рельеф
surface charge image — поверхностное зарядное изображение; поверхностный зарядный рельеф
test image — тестовое изображение, контрольное изображение; мира
toned image — изображение, проявленное тонером
toner image — изображение, проявленное тонером, порошковое изображение
rotate image — вращать изображение; вращение изображения
19. видимое изображение20. визуальное изображениеimage bearing surface — поверхность, несущая изображение
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17 area
1) площадь; пространство3) поверхность4) (производственный) участок; помещение; площадка5) рабочая ячейка ( склада)•equal in area — равновеликий;area of base — площадь основания, площадь подошвы фундаментаarea of bearing — 1. площадь опоры 2. строит. площадка опиранияarea of contact — площадь поверхности контактаarea of diagram — площадь эпюры; площадь графикаarea of fracture — 1. поверхность излома 2. площадь поперечного сечения в месте разрушенияarea of occurrence — возд. район происшествияarea of water section — гидр. площадь живого сечения потокаarea of well influence — зона влияния колодца или скважины-
absorption area
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active area
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actual contact area
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actuating area
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actuation probability area
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addressable area
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adjustment control area
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advisory area
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air intake hazard area
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aircraft parking area
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airflow separation area
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airport construction area
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airport prohibited area
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airport service area
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air-route area
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alighting area
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alloy storage area
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annulus area
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antenna effective area
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antenna area
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antinode area
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aperture area
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approach area
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ash-disposal area
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auditory area
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backwater area
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bare area
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base area
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bearing surface area
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binding area
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blade area
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blade-exit area
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blind area
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blind drainage area
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boarding area
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bolted area
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bonding area
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bond area
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bore area
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bubble-melt surface area
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buffer area
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building area
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built-up area
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burning area
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catalyst surface area
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catchment area
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caved area
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central equipment area
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centralized telecine area
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centralized traffic area
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centralized video tape area
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charge-makeup area
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charging area
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chip area
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choke-tube area
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circling approach area
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clean processing area
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clearance area
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climb-out area
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clinch area
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coal area
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coherence area
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cold area
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commanded area
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common area
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compression area
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concrete area
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cone effect area
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congested area
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connector area
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conservation area
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constant area
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contact area
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contact spot area
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contaminated area
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contamination control area
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contiguous area
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contour area of contact
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control area
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controlled access area
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cooling area
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corrosion area
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coverage area
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crimp area
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critical area
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cross-sectional area
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cross-section area
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cutting area
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cylinder annular area
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dangerous area
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data-rich area
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data-sparse area
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data-void area
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decontamination area
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demixing area
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design wing area
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developed area
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developed blade area
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development area
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die attach area
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diked area
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direct transit area
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discharge area
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display area
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disposal area
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dot area
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downstream area
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drainage area
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drainless area
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dry area
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dynamic area
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echoing area
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echo area
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effective area
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effective braking area
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effective cross-sectional area
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effective cross-section area
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effective screening area
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effects area
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electrical contact area
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electroded area
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elemental area
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enclosed working area
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end safety area
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engineering area
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environmentally fragile area
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exchange area
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exclusion area
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exhaust area
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expanded blade area
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expanded area
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exposure area
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face area
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fan blast area
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felling area
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fenced-off area
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fetch area
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fill area
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film-editing area
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filter effective area
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filter open area
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filtering area
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finished-products storage area
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fixed area
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flame area
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flooded area
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flood-free area
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flooding area
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floor area
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flow area
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focus area
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forbidden area
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free-surface area
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fringe area
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functional area
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furnace area
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fusing area
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fusion area
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gases shear area
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gasket surface area
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gassy area
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gathering area
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gob area
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graticule area
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gray-scale picture area
-
gross cross-sectional area
-
gross cross-section area
-
gross irrigable area
-
ground contact area
-
gutter area
-
hard-core area
-
hard-to-reach area
-
hearth area
-
heat dissipation area
-
heat-affected area
-
heating area
-
heat-transfer area
-
high-activity area
-
high-beat area
-
high-radiation area
-
holding area
-
hot area
-
housing area
-
illuminated area
-
image area
-
impact area
-
impression area
-
inactive area
-
ingot-stripping area
-
input area
-
instantaneous area of flame front
-
instruction area
-
intended landing area
-
interfacial area
-
interference area
-
interlocking area
-
inundated area
-
junction area
-
knuckle area
-
land area
-
landing area
-
lateral area
-
lift irrigation area
-
lift-off area
-
link overlapped area
-
living area
-
living floor area
-
load-and-unload area
-
load-carrying area
-
loading area
-
loadout area
-
localized areas of wear
-
low-radiation area
-
makeup area
-
maneuvering area
-
man-impacted area
-
manned area
-
manual setting-up area
-
melting area
-
mesa area
-
metropolitan area
-
mining area
-
mirror area
-
mold conditioning area
-
mold opening area
-
moment area
-
movement area
-
mush area
-
natural area
-
net cross-sectional area
-
net cross-section area
-
neutron migration area
-
nominal contact area
-
noncontact area
-
nonimage area
-
nonmoving area
-
nonoccupied area
-
nonprinting area
-
nonstorage area
-
nonutilizable area
-
normally occupied area
-
nose area
-
nuclear area
-
numbering area
-
obstructed landing area
-
open area
-
open flow area
-
outgassed area
-
output area
-
overrun safety area
-
pallet area
-
patch area
-
pattern area
-
payable area
-
percent shear area
-
personnel and utility area
-
phosphor area
-
photolithographic area
-
picture area
-
poor-reception area
-
port area
-
presentation area
-
pressing area
-
prewarming area
-
primary area
-
primary service area
-
printing area
-
production area
-
production control area
-
programmed operating area
-
prohibited area
-
projectedblade area
-
projected area
-
propeller disk area
-
protected area
-
quality-control area
-
quality area
-
quench area
-
quiet area
-
radar area
-
radiation-control area
-
real area of contact
-
recording area
-
record area
-
refining area
-
regeneration area
-
reinforcing steel area
-
rerecording area
-
reservoir surface area
-
reservoir area
-
residential area
-
resident area
-
residential floor area
-
restricted area
-
retarder area
-
rig deck area
-
risk area
-
robot area
-
roof contact area
-
rubbing path area
-
rudder area
-
run-up area
-
rural area
-
safe operating area
-
safety area
-
sail area
-
save area
-
scanned area
-
scrap-consuming area
-
scrap-disposal area
-
scrap-grading area
-
scratch area
-
screen area
-
sealing area
-
seal area
-
search area
-
secondary area
-
sectional area
-
section area
-
seeking area
-
segregated area
-
service area
-
serviceable area
-
setting-up area
-
shaded area
-
shadow area
-
shareable area
-
shoe pad transition area
-
shooting area
-
sintering area
-
site area
-
skip area
-
slag-line area
-
slot area
-
slowing-down area of neutron
-
snow-covered area
-
solid area
-
sound area
-
sound-track area
-
special work permit area
-
specific floor area
-
specific surface area
-
spliced area
-
spoil area
-
stack area
-
stockline area
-
stool conditioning area
-
storage area
-
stripped area
-
subsidence area
-
superheated area
-
surface area
-
switching area
-
takeoff area
-
takeoff flight path area
-
tape area
-
taphole area
-
target area
-
technical-equipment area
-
technical area
-
telecine area
-
tension area
-
terminal area
-
terminal control area
-
test area
-
throat area
-
tongs area of pipe
-
tool service area
-
tool-presetting area
-
total area
-
total irrigation area
-
total tuyere area
-
transient area
-
turnaround area
-
tuyere area
-
type area
-
unattacked area
-
undershoot area
-
ungaged area
-
uniform area
-
unobstructed landing area
-
upstream area
-
urban area
-
usable area
-
user area
-
valve fillet area
-
valve seating face area
-
video tape recording area
-
video tape area
-
viewing area
-
vision control area
-
vulnerable area
-
waste area
-
waste-metal area
-
waste-storage area
-
water catchment area
-
waterplane area
-
water-surface area
-
wear track area
-
weld metal area
-
well drainage area
-
wellhead area
-
wetted area
-
wildlife area
-
window area
-
worked-out area
-
working area
-
yard area
-
yoke area -
18 hologram
-
aberrated hologram
-
aberration-free hologram
-
absorption hologram
-
achromatic fringe hologram
-
acoustical hologram
-
acoustic hologram
-
addressing hologram
-
amplitude-modulation hologram
-
amplitude hologram
-
amplitude-phase hologram
-
analog hologram
-
angularly encoded holograms
-
aplanatic hologram
-
astigmatic hologram
-
axial hologram
-
back-reference beam hologram
-
bandwidth reduced hologram
-
beat frequency hologram
-
bichromated gelatin hologram
-
binary hologram
-
black-and-white hologram
-
bleached hologram
-
Bragg-effect hologram
-
Bragg hologram
-
bright-field hologram
-
carrier frequency hologram
-
coded hologram
-
code-transform hologram
-
coding reference beam hologram
-
coherent hologram
-
color encoded hologram
-
color encode hologram
-
colored hologram
-
color hologram
-
complementary hologram
-
complex hologram
-
composite hologram
-
compound-image hologram
-
computed hologram
-
contact-copy hologram
-
continuous-exposure hologram
-
contour hologram
-
copied hologram
-
coupling hologram
-
dark-field hologram
-
data hologram
-
deep hologram
-
deflecting hologram
-
Denisyuk hologram
-
denser hologram
-
developed hologram
-
dichromatic hologram
-
difference frequency hologram
-
diffused hologram
-
diffuse hologram
-
digitally generated hologram
-
digitized hologram
-
diminished hologram
-
discrete-point hologram
-
discriminating hologram
-
displacement hologram
-
Doppler-imaged hologram
-
double-exposed hologram
-
double-exposure hologram
-
double-pulse hologram
-
double-recorded hologram
-
duplicated hologram
-
electrically erasable hologram
-
electron hologram
-
embossed hologram
-
encoded hologram
-
enlarged hologram
-
erasable hologram
-
evanescent waves hologram
-
evanescent hologram
-
exposed hologram
-
far-field hologram
-
ferroelectric hologram
-
filtered hologram
-
fine detailed hologram
-
flat substrate hologram
-
focused-image hologram
-
Fourier-transform hologram
-
Fourier hologram
-
Fraunhofer diffraction hologram
-
Fraunhofer hologram
-
frequency encoded hologram
-
Fresnel diffraction hologram
-
Fresnel hologram
-
frozen-fringe hologram
-
full channel hologram
-
full color hologram
-
full view hologram
-
Gabor-type hologram
-
Gabor hologram
-
gamma-ray hologram
-
ghost hologram
-
gray hologram
-
high bit-density hologram
-
high storage-density hologram
-
high-contrast hologram
-
high-efficiency hologram
-
highly redundant hologram
-
high-resolution hologram
-
horizontal parallax only hologram
-
horizontal parallax hologram
-
image hologram
-
image plane hologram
-
incoherent hologram
-
infinite fringe hologram
-
in-focus hologram
-
infrared hologram
-
in-line hologram
-
in-situ developing hologram
-
instant hologram
-
interference hologram
-
ionic hologram
-
isoplanatic hologram
-
large-aperture hologram
-
laser hologram
-
latent hologram
-
Leith-Upatnieks hologram
-
lens-assisted hologram
-
lensless hologram
-
light hologram
-
line hologram
-
linearly recorded hologram
-
Lippmann-Bragg hologram
-
liquid hologram
-
liquid-crystal hologram
-
low-noise hologram
-
magnetic hologram
-
magnetooptic hologram
-
magnified hologram
-
master hologram
-
memory hologram
-
microscopic hologram
-
microwave hologram
-
mixed hologram
-
monochrome hologram
-
multichannel hologram
-
multicolor hologram
-
multiexposed hologram
-
multiple-exposed hologram
-
multiple hologram
-
multiple-exposure hologram
-
multiple-object beam hologram
-
multiple-phase hologram
-
multiplexed hologram
-
multiplex hologram
-
multiplexing hologram
-
near-field hologram
-
nonlinearly recorded hologram
-
nonoptical hologram
-
nonredundant hologram
-
object-beam coded hologram
-
off-axis hologram
-
offset hologram
-
on-axis hologram
-
optical hologram
-
optically erasable hologram
-
optically formed hologram
-
optically generated hologram
-
optically recorded hologram
-
original hologram
-
overdeveloped hologram
-
overexposed hologram
-
panoramic hologram
-
phase hologram
-
phase-contrast hologram
-
phase-modulated hologram
-
phase-modulating hologram
-
photochromic hologram
-
photoetched hologram
-
photographic hologram
-
photopolymer hologram
-
photoreduced hologram
-
planar hologram
-
plane hologram
-
polarization hologram
-
postexposure hologram
-
preexposure hologram
-
primary color hologram
-
processed hologram
-
pulsed laser hologram
-
radar hologram
-
rainbow hologram
-
readable hologram
-
reconstructed hologram
-
recorded hologram
-
reduced bandwidth hologram
-
redundant hologram
-
reference hologram
-
reflectance hologram
-
reflection-reconstructed hologram
-
reflection hologram
-
reflection-reflection hologram
-
reflection-transmission hologram
-
reflective-type hologram
-
reflective hologram
-
refractive beam hologram
-
relief hologram
-
replicated hologram
-
ring hologram
-
sampled hologram
-
sample hologram
-
sampling hologram
-
scalar hologram
-
scaled hologram
-
scale hologram
-
scanned detector hologram
-
scanned source hologram
-
secondary hologram
-
sector-scan hologram
-
self-developing hologram
-
sequentially exposed hologram
-
single-color hologram
-
single-exposed hologram
-
single-layer hologram
-
slightly overlapping holograms
-
slit hologram
-
sound wave hologram
-
sound hologram
-
space-division multiplexed hologram
-
spatial carrier hologram
-
spatial frequency encoded hologram
-
speckle-free hologram
-
spectroscopic hologram
-
spherical substrate hologram
-
split-beam hologram
-
stereographic hologram
-
strip hologram
-
strobed hologram
-
stroboscopic hologram
-
subchannel hologram
-
superimposed holograms
-
surface hologram
-
surface-relief hologram
-
thermally developed hologram
-
thermally erasable hologram
-
thermochromic hologram
-
thermoplastic hologram
-
thick film hologram
-
thick hologram
-
thick-coated hologram
-
thin film hologram
-
thin hologram
-
three-dimensional hologram
-
three-exposure hologram
-
time-averaged hologram
-
time-multiple-exposure hologram
-
total internal reflection hologram
-
total reflection hologram
-
transmission-reflection hologram
-
transmission-transmission hologram
-
transmissive hologram
-
transparent hologram
-
true color hologram
-
two-beam hologram
-
two-color hologram
-
two-dimensional hologram
-
two-exposure hologram
-
unbleached hologram
-
underdeveloped hologram
-
underexposed hologram
-
undersampled hologram
-
uniaxial hologram
-
visible-light hologram
-
volume hologram
-
white-light hologram
-
wide-angle hologram
-
xerographic hologram
-
X-ray hologram
-
zone plate hologram -
19 depth
1) глубина
2) высота борта
3) глубинный
4) глубокость
5) углубленность
6) энгранаж
– bed depth
– collapse depth
– cutting depth
– definition in depth
– depth clearance
– depth filter
– depth gauge
– depth indicator
– depth of an element
– depth of cut
– depth of drilling
– depth of fading
– depth of fill
– depth of focus
– depth of foundation
– depth of girder
– depth of letter
– depth of mining
– depth of occurrence
– depth of page
– depth of reed
– depth of seeding
– depth of submergence
– depth of thread
– depth of throat
– depth of tooth
– depth of truss
– depth of vault
– depth on sill
– depth recorder
– depth recording
– depth scale
– depth sensor
– depth water
– frost-proof depth
– harness depth
– hoisting depth
– in depth
– modulation depth
– molded depth
– occur at depth
– operating depth
– piston depth
– planting depth
– ploughing depth
– precipitation depth
– sense of depth
– skin depth
– slag depth
– structural depth
– tonnage depth
– web depth
– well depth
– wetted depth
echo depth sounder — <tech.> эхолот
insertable depth pump — <energ.> насос глубинный вставной
-
20 fixed
1) постоянный
2) заделанный
3) зафиксированный
4) неперестраиваемый
5) неразводной
6) несъемный
7) закрепленный
8) неподвижный
9) стационарный
10) защемленный
11) назначенный
12) неизменный
13) условленный
14) установленный
15) нелетучий
16) твердый
– fixed address
– fixed antenna
– fixed arch
– fixed automaton
– fixed axoid
– fixed beam
– fixed bed reduction
– fixed blade
– fixed block
– fixed bridge
– fixed capacitor
– fixed capital
– fixed carbon
– fixed centrode
– fixed charge
– fixed charges
– fixed chlorine
– fixed contact
– fixed coupling
– fixed cylinder
– fixed frequency
– fixed graphite
– fixed head
– fixed hoist
– fixed joint
– fixed mask
– fixed notion
– fixed pier
– fixed point
– fixed potassium
– fixed price
– fixed resistance
– fixed resistor
– fixed sample-size
– fixed scale
– fixed spindle
– fixed support
– fixed target
– fixed time
– fixed weight
– hold fixed
– holding fixed
– if we hold fixed
– of fixed sign
– set up fixed frequency
fixed point computation — вычисление с фиксированной запятой
- 1
- 2
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