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1 background energy
1) Психология: основной обмен2) Нефть: фоновая энергия -
2 background energy
Англо-русский словарь нефтегазовой промышленности > background energy
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3 background energy
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4 background region
English-Russian big polytechnic dictionary > background region
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5 level
1) уровеньб) ранг; позиция; категория; иерархическое положениев) амплитуда; интенсивность; относительное значениег) нивелир; ватерпас2) регулировать уровень; устанавливать уровень (напр. освещённости)3) приводить к одинаковому уровню; выравнивать; сглаживать; устранять отличия; нивелировать4) громкость || регулировать громкость5) ранжировать; определять позицию; относить к (определённой) категории; устанавливать степень субординации в иерархии6) горизонтальная линия или плоскость; ровная поверхность, плоская поверхность || устанавливать в горизонтальной плоскости; выравнивать; нивелировать; устанавливать по уровню или ватерпасу7) степень (напр. интеграции)10) рлк нацеливать; наводить; прицеливаться•- level of interactivity
- level within factor - acceptor level
- acceptor impurity level
- accuracy level
- activity level
- adaptation level
- algorithmic level
- allowed level
- allowed energy level
- alpha level
- alpha-geometric level
- alphamosaic level
- ambient level
- amplitude-modulation noise level
- atomic energy level
- audio-signal output level
- average picture level
- background level
- back-lobe level
- band-gap level
- band-power level
- band-pressure level
- base level
- behavioral level
- bit level
- black level
- blacker-than-black level
- blanking level
- brightness level
- bus interface level
- call-tone level
- carrier level
- carrier-noise level
- charged trapping level
- charge-storage level
- chorus level
- chromatic level
- circuit noise level
- clamp level
- clearance level
- clipping level
- common level
- compatibility level
- composite picture signal output level
- concentration level
- confidence level
- contamination level
- conventional significance level
- cross-product level - cutoff level
- data-flow level
- datagram level
- data service level
- deep level
- deep-lying level
- defect level - digital signal level
- discrete level
- discrete energy level
- donor level
- donor impurity level
- doping level
- DS level
- effective privilege level
- electric level
- electronic Zeeman level
- energy level
- entry level
- equivalent loudness level
- equivalent peak level
- exchange level
- exchange-split level
- excitation level
- exciton level
- extra level
- facsimile-signal level
- Fermi level
- Fermi characteristic energy level - floating level
- FM noise level
- foreground level
- free energy level
- function level
- functional level
- gate level
- gray level
- ground level
- ground state level
- HFS level
- high level
- higher bias level
- high logic level
- hum level
- hyperfine-structure level
- impedance level
- implementation level
- impurity level
- impurity energy level
- injection level
- input level - intensity level
- interchange level
- intermediate level
- intermediate energy level
- intrinsic level
- inversion level
- inverted level
- ISO 9660 implementation level
- ISO 9660 interchange level
- jet stream level
- jumbo cell level
- layout level
- light level
- line level
- local level
- logic level
- logical device level
- loudness level
- lower level
- lower energy level
- lowest level
- lowest energy level
- low-field level
- low logic level
- luminescent level
- mask level
- maximum record level
- maximum relative side-lobe level
- metastable level
- multiplet level
- neutral level
- noise level
- occupied energy level
- octave-band pressure level
- operate level of echo suppressor
- orbital energy level
- overload level
- partially filled level
- partially occupied level
- peak signal level
- peak sound-pressure level
- pedestal level
- perceived noise level
- perturbed level
- perturbed energy level
- phonon level
- power level
- power spectrum level
- precedence level
- pressure spectrum level
- price level
- printthrough level
- probability level
- program level
- pumping level
- quantization level
- quantizing level
- quasi-Fermi level
- recording level
- redundancy level
- reference level
- reference black level
- reference white level
- register transfer level
- relative co-polar side-lobe level
- relative cross-polar side-lobe level
- reorder level
- requested privilege level
- resistivity level
- resonance level
- risk level
- rotational level
- rotational energy level
- saturation level
- sensation level
- shallow impurity level
- side-lobe level
- signal level
- significance level
- singlet level
- soil level
- sound level
- sound-energy flux density level
- sound-power level
- sound-pressure level
- specific sound-energy flux level
- speech level
- strong-field level
- surface level
- switching level
- sync level
- synchronizing level
- system level
- television level
- testing level
- test's significance level
- threshold level
- through level
- timing level
- tolerable noise level
- transducer overload level
- transmission level
- trapping level
- trigger level
- triplet level
- true level
- turntable spirit level
- unaffected level
- unfilled level
- unfilled energy level
- unoccupied level
- unoccupied energy level
- upper level
- upper energy level
- usable levels
- vacant energy level
- vacuum level
- variable quantizing level
- variation level
- velocity level
- vibrational level
- vibrational energy level
- virtual level
- virtual energy level
- voltage level
- weighted noise level
- white level
- Zeeman energy level
- zero level -
6 level
1) уровеньб) ранг; позиция; категория; иерархическое положениев) амплитуда; интенсивность; относительное значениег) нивелир; ватерпас2) регулировать уровень; устанавливать уровень (напр. освещённости)3) приводить к одинаковому уровню; выравнивать; сглаживать; устранять отличия; нивелировать4) громкость || регулировать громкость5) ранжировать; определять позицию; относить к (определённой) категории; устанавливать степень субординации в иерархии6) горизонтальная линия или плоскость; ровная поверхность, плоская поверхность || устанавливать в горизонтальной плоскости; выравнивать; нивелировать; устанавливать по уровню или ватерпасу7) степень (напр. интеграции)10) рлк. нацеливать; наводить; прицеливаться•- acceptable reliability level
- acceptor impurity level
- acceptor level
- accuracy level
- activity level
- adaptation level
- algorithmic level
- allowed energy level
- allowed level
- alpha level
- alpha-geometric level
- alphamosaic level
- ambient level
- amplitude-modulation noise level
- atomic energy level
- audio-signal output level
- average picture level
- background level
- back-lobe level
- band-gap level
- band-power level
- band-pressure level
- base level
- behavioral level
- bit level
- black level
- blacker-than-black level
- blanking level
- brightness level
- bus interface level
- call-tone level
- carrier level
- carrier-noise level
- charged trapping level
- charge-storage level
- chorus level
- chromatic level
- circuit noise level
- clamp level
- clearance level
- clipping level
- common level
- compatibility level
- composite picture signal output level
- concentration level
- confidence level
- contamination level
- conventional significance level
- cross-product level
- C-scale sound level in decibels
- current privilege level
- cutoff level
- data service level
- data-flow level
- datagram level
- deep level
- deep-lying level
- defect level
- descriptor privilege level
- device level
- digital signal level
- discrete energy level
- discrete level
- donor impurity level
- donor level
- doping level
- DS level
- effective privilege level
- electric level
- electronic Zeeman level
- energy level
- entry level
- equivalent loudness level
- equivalent peak level
- exchange level
- exchange-split level
- excitation level
- exciton level
- extra level
- facsimile-signal level
- Fermi characteristic energy level
- Fermi level
- FIDO/opus/Seadog standard interface level
- filled energy level
- floating level
- FM noise level
- foreground level
- free energy level
- function level
- functional level
- gate level
- gray level
- ground level
- ground state level
- HFS level
- high level
- high logic level
- higher bias level
- hum level
- hyperfine-structure level
- impedance level
- implementation level
- impurity energy level
- impurity level
- injection level
- input level
- input/output privilege level
- integration level
- intensity level
- interchange level
- intermediate energy level
- intermediate level
- intrinsic level
- inversion level
- inverted level
- ISO 9660 implementation level
- ISO 9660 interchange level
- jet stream level
- jumbo cell level
- layout level
- level of details
- level of integration
- level of interactivity
- level within factor
- light level
- line level
- local level
- logic level
- logical device level
- loudness level
- low logic level
- lower energy level
- lower level
- lowest energy level
- lowest level
- low-field level
- luminescent level
- mask level
- maximum record level
- maximum relative side-lobe level
- metastable level
- multiplet level
- neutral level
- noise level
- occupied energy level
- octave-band pressure level
- operate level of echo suppressor
- orbital energy level
- overload level
- partially filled level
- partially occupied level
- peak signal level
- peak sound-pressure level
- pedestal level
- perceived noise level
- perturbed energy level
- perturbed level
- phonon level
- power level
- power spectrum level
- precedence level
- pressure spectrum level
- price level
- printthrough level
- probability level
- program level
- pumping level
- quantization level
- quantizing level
- quasi-Fermi level
- recording level
- redundancy level
- reference black level
- reference level
- reference white level
- register transfer level
- relative co-polar side-lobe level
- relative cross-polar side-lobe level
- reorder level
- requested privilege level
- resistivity level
- resonance level
- risk level
- rotational energy level
- rotational level
- saturation level
- sensation level
- shallow impurity level
- side-lobe level
- signal level
- significance level
- singlet level
- soil level
- sound level
- sound-energy flux density level
- sound-power level
- sound-pressure level
- specific sound-energy flux level
- speech level
- strong-field level
- surface level
- switching level
- sync level
- synchronizing level
- system level
- television level
- testing level
- test's significance level
- threshold level
- through level
- timing level
- tolerable noise level
- transducer overload level
- transmission level
- trapping level
- trigger level
- triplet level
- true level
- turntable spirit level
- unaffected level
- unfilled energy level
- unfilled level
- unoccupied energy level
- unoccupied level
- upper energy level
- upper level
- usable levels
- vacant energy level
- vacuum level
- variable quantizing level
- variation level
- velocity level
- vibrational energy level
- vibrational level
- virtual energy level
- virtual level
- voltage level
- weighted noise level
- white level
- Zeeman energy level
- zero levelThe New English-Russian Dictionary of Radio-electronics > level
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7 level
1) уровень || устанавливать (регулировать) уровень3) энергетический уровень, уровень энергии4) степень5) градация10) нивелир || нивелировать11) уровень, ватерпас || устанавливать по уровню13) значение ( расчётного параметра)15) планировать, производить планировку ( грунта); разравнивать16) выравнивать(ся) ( о цвете)17) ровно ложиться ( о краске); растекаться с образованием ровной поверхности ( о краске или лаке)19) связь, радио громкость21) горизонтальный полёт || лететь горизонтально•to level off — 1. достигать равновесия; стабилизировать(ся) 2. выпрямлять ( кривую) 3. выравнивать ( положение воздушного судна) 4. приближаться к предельному значению 5. планировать; разравнивать 6. устанавливаться на постоянном уровне;to remain level — выдерживать горизонтальное положение;to reverse a level end-for-end — менять местами концы уровня;-
actuation level
-
addressing level
-
adit level
-
aerodrome level
-
air level
-
alert level
-
allowable level
-
ambient light level
-
ambient noise level
-
amplitude levels
-
amplitude-modulation noise level
-
approach noise level
-
ash level
-
atomic energy level
-
atomic level
-
audio-signal output level
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average picture level
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average sidelobe level
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background level
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background noise level
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backlobe level
-
backup water level
-
band level
-
band-gap level
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base level
-
basic impulse level
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behavioral level
-
benchmark level
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bin-filling level
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binocular level
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black level
-
blacker-than-black level
-
black-out level
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bound level
-
breath sample level
-
bubble level
-
builder's level
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bulk trap level
-
burden level
-
calibration level
-
carpenter's level
-
carrier level
-
carrier noise level
-
certificated noise level
-
charge level
-
charge-storage level
-
chroma level
-
circuit noise level
-
cleanliness level
-
cloud level
-
commanded speed level
-
concentration level
-
condemnation level
-
condensation level
-
confidence level
-
constraint level
-
contamination level
-
control program level
-
conversion level
-
corona level
-
cracking level
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crosscut level
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cross-product level
-
cruising level
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crusher level
-
curb level
-
cutoff level
-
dam crest level
-
datum level
-
decision level
-
deep-lying level
-
deep level
-
defect level
-
derating level
-
device level
-
direct current level
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direct sound level
-
donor level
-
doping level
-
downstream water level
-
drainage level
-
drawdown level
-
drive level
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dumpy level
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dust level
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Egault level
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electrical level of vacancy
-
electromagnetic interference level
-
energy level
-
engineer's level
-
equilibrium-xenon level
-
excitation level
-
exploration level
-
failure rate level
-
failure level
-
Fermi characteristic energy level
-
Fermi level
-
first-order level
-
flight level
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float level
-
flood-control storage level
-
fluid level
-
foreplate level
-
formation level
-
foundation level
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free energy level
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freezing level
-
fuel irradiation level
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geodetic level
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geostrophic wind level
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glass level
-
grade level
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gray level
-
ground level
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ground vibrational level
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groundwater level
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gyro level
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half-tide level
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hand level
-
haulage level
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headwater level
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heat-treated strength level
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high injection level
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highest water level
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high-water level
-
hum level
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illumination level
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impounded water level
-
impulse insulation level
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impurity level
-
injection level
-
input level
-
insulation level
-
integration level
-
intensity level
-
interference level
-
internal surge level
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interrupt level
-
intrinsic level
-
invert level
-
inverted level
-
light level
-
line level
-
loadout level
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local level
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logical level
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loudness level
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lower level
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low-pressure level
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low-water level
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luminance level
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main level
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manning level
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mantle level
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masking level
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mason's level
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mass activity cleanliness level
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maximum controllable level
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maximum flood level
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maximum operating level
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maximum rated sound-power level
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maximum recording level
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maximum water level
-
mean annoyance level
-
measurement level
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mechanic's level
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meniscus level
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metal level
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metastable level
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mezzanine level
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minimum drawdown level
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mining level
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multiplet level
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nesting level
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neutron level
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no activity cleanliness level
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noise equivalent level
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noise level
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normal level
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normal maximum operating level
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normal pool level
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normaltopwater level
-
normalwater level
-
nose swab level
-
occupational level
-
occupied level
-
octane level
-
oil level
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operating level
-
operational cleanliness level
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output level
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overload level
-
particulate level
-
peak level
-
peak recording level
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peak signal level
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peak white level
-
pedestal level
-
pendulum level
-
perceived noise level
-
permissible level
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phonon level
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plumb level
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pollution level
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power level
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power monitoring level
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power spectrum level
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PPM level
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precise level
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predetermined level
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pressure level
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priority level
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production level
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protective level
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pumping level
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quantization level
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quieting level
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radiation level
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reactor power level
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received signal level
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recording level
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redundancy level
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reference fare level
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reference level
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reliability level
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resonance level
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response level
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reverberant sound level
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river-bed level
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safe-health level
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saturation level
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sea level
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self-leveling level
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sensation level
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sidelobe level
-
siege level
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significance level
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slack level
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slag level
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snorkel level
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solar flux level
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sound pressure level
-
sound level
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speech level
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spirit level
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stage level
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staggered flight levels
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standard isobaric level
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static level
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steady-state noise level
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stress intensity level
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striding level
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summer oil level
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surface level
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susceptibility level
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switching surge level
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switching-surge protective level
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sync level
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tailwater level
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target level of safety
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testing level
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thermal noise level
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threshold level
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tilting level
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toxicity level
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transition level
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transmission level
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trigger level
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upper level
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upstream level
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user level
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vacuum level
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variable quantizing level
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ventilation level
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vibration level
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voltage level
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volume units level
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water level
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white level
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winter oil level
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working level
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wye level
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Y-level
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zero level
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zero transmission level -
8 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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9 density
1) плотность; удельный вес2) густота; интенсивность3) концентрация•- annealing pulse energy density
- available acceleration power density
- background density
- bulk density
- density of the material
- energy density
- failure density
- failure probability density
- hole density
- information density
- laser power density
- magnetic flux density
- maximum energy radiant density
- maximum power radiant density
- maximum radiation density
- melting threshold energy density
- microimage line density
- obstacle density
- optical line density
- polar density
- power density
- power surface density
- profile departure density
- recording density
- residual flux density
- source density
- spectral density
- strain energy density
- surface energy density
- tap density
- transmission density
- usage density
- workholding densityEnglish-Russian dictionary of mechanical engineering and automation > density
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10 radiation
излучение; радиация; испускание-
absorbed radiation
-
absorbed solar radiation
-
acoustic radiation
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actinic radiation
-
activating radiation
-
alpha-particle radiation
-
alpha radiation
-
anisotropic neutron radiation
-
atmospheric radiation
-
atmospheric thermal radiation
-
auroral radiation
-
back radiation
-
backfire radiation
-
background radiation
-
backscattered radiation
-
backward radiation
-
band-to-band radiation
-
beam solar radiation
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beta radiation
-
blackbody radiation
-
broadside radiation
-
capture radiation
-
Cerenkov radiation
-
characteristic radiation
-
circular radiation
-
circumsolar radiation
-
coherent radiation
-
collision radiation
-
concentrated solar radiation
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corpuscular radiation
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cosmic radiation
-
cyclotron radiation
-
daily solar radiation
-
decay radiation
-
deceleration radiation
-
densely ionizing radiation
-
diffuse sky radiation
-
diffused radiation
-
diffuse radiation
-
diffusion neutron radiation
-
dipole radiation
-
direct solar radiation
-
directed radiation
-
direct radiation
-
directional neutron radiation
-
direct-ionizing radiation
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Earth-emitted radiation
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Earth radiation
-
Earth-reflected radiation
-
electromagnetic radiation
-
electron radiation
-
end-fire radiation
-
extra-terrestrial radiation
-
extraterrestrial solar radiation
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far red radiation
-
forward-scattered radiation
-
free-space radiation
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fringe radiation
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gamma radiation
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global solar radiation
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hard radiation
-
head-on radiation
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high-energy radiation
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high-level radiation
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hourly solar radiation
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impact radiation
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incident radiation
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incoherent radiation
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incoming solar radiation
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indirect-ionizing radiation
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infrared radiation
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intersolid radiation
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ionizing radiation
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isotopic neutron radiation
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K-capture radiation
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laser radiation
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lateral radiation
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leakage radiation
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long-lived radiation
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long-range radiation
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low-energy radiation
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low-level radiation
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microwave radiation
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mixed radiation
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monochromatic radiation
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monthly solar radiation
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multimodal radiation
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multiple radiation
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natural background radiation
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natural radiation
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net radiation
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neutron radiation
-
nocturnal radiation
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noncoherent radiation
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nonionizing radiation
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nonluminous radiation
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nonpolarized radiation
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nuclear radiation
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omnidirectional radiation
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optical radiation
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outgoing radiation
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out-of-band radiation
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particle radiation
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penetrating radiation
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polarized radiation
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primary radiation
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proton radiation
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pulse radiation
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radiation of conductors
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radio radiation
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radioactive radiation
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radio-wave radiation
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Raman radiation
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receiver radiation
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red radiation
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residual radiation
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resonance radiation
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return radiation
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roentgen radiation
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scattered radiation
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scene radiation
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secondary radiation
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sewage gamma radiation
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short-lived radiation
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short-range radiation
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sidelobe radiation
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single-mode radiation
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sky radiation
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slowing-down radiation
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soft radiation
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solar radiation
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space radiation
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spurious radiation
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steady-state radiation
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stimulated radiation
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suppressed radiation
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synchrotron radiation
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terrestrial radiation
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thermal radiation
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total solar radiation
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transient radiation
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ultraviolet radiation
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upwelling radiation
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visible radiation
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X-radiation
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yearly solar radiation -
11 radiation
1) радиация
2) излучение
3) лучеиспускание
4) радиометрический
5) лучистый
6) радиационный
7) радиоизлучение
– absorb radiation
– actinic radiation
– activating radiation
– annihilation radiation
– attenuate radiation
– background radiation
– backscatter radiation
– be exposed to radiation
– beta radiation
– black-body radiation
– burst of radiation
– capture radiation
– channel radiation
– Cherenkov radiation
– coherent radiation
– continuous radiation
– cooling by radiation
– corpuscular radiation
– cyclotron radiation
– delayed radiation
– diffuse radiation
– dipole radiation
– direct radiation
– directional radiation
– downwelling radiation
– electromagnetic radiation
– emergent radiation
– emit radiation
– exciting radiation
– expose to radiation
– far infra-red radiation
– flux of radiation
– fringe radiation
– gamma radiation
– gammaa radiation
– hardness of radiation
– high-energy radiation
– impact radiation
– incident radiation
– induce radiation
– infra-red radiation
– invisible radiation
– ionizing radiation
– isotropic radiation
– laser radiation
– low-energy radiation
– luminous radiation
– maser radiation
– microwave radiation
– mixed radiation
– monofrequency radiation
– multipole radiation
– noncoherent radiation
– nuclear radiation
– omnidirectional radiation
– penetrating radiation
– pertaining to radiation
– plasma radiation
– polarize radiation
– primary radiation
– prompt radiation
– pumping radiation
– quadrupole radiation
– radiation ageing
– radiation balance
– radiation constant
– radiation cooling
– radiation counter
– radiation damage
– radiation detector
– radiation dose
– radiation efficiency
– radiation field
– radiation fog
– radiation hazard
– radiation indicator
– radiation inversion
– radiation level
– radiation method
– radiation monitor
– radiation monitoring
– radiation oxidation
– radiation path
– radiation pattern
– radiation plant
– radiation pressure
– radiation protection
– radiation pyrometer
– radiation reaction
– radiation safety
– radiation sickness
– radiation source
– radiation spectrometer
– radiation spectroscopy
– radiation temperature
– radiation transfer
– radiation vulcanizate
– radiation vulcanization
– radiation zone
– radio-frequency radiation
– radioactive radiation
– receiver radiation
– recombination radiation
– reflected radiation
– reinforce radiation
– residual radiation
– resonance radiation
– scatter radiation
– scattered radiation
– secondary radiation
– selective radiation
– short-wave radiation
– single-frequency radiation
– solar radiation
– spectral radiation
– spontaneous radiation
– steady-state radiation
– stray radiation
– strong radiation
– synchroton radiation
– terrestrial radiation
– thermal radiation
– total radiation
– transmitted radiation
– ultra-violet radiation
– upwelling radiation
– visible radiation
monochromatic radiation pyromete — пирометр частичного излучения
occupational radiation dose — профессиональная доза облучения
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12 level
1) уровень
2) ватерпас
3) ватерпасный
4) выверять по уровню
5) горизонтировать
6) заравнивать
7) нивелир
8) нивелировать
9) разравнивать
10) сувальдный
11) уровнь
12) уровнять
13) устанваливаться
14) ступень
15) горизонтальный
16) ровный
17) ровно
18) выравнивать
– above sea level
– acceptor level
– acidity level
– background level
– binocular level
– black level
– blacker-than-black level
– blanking level
– block level
– capture level
– carpenter's level
– charging level
– clamp level
– cloud level
– confidence level
– cross-talk level
– cut-off level
– datum level
– deep-lying level
– donor level
– draw level
– drawdown level
– dummy level
– empty level
– energy level
– excitation level
– excited level
– Fermi level
– fill level
– filled level
– flux level
– frame level
– grizzly level
– ground level
– hand level
– high-water level
– hum level
– hunting for a level
– hydrogenic level
– illumination level
– injection level
– insulation level
– integration level
– intensity level
– intermediate level
– inversion level
– ionization level
– ionized level
– level airplane
– level amplifier
– level balance
– level blocking
– level bubble
– level checker
– level circuit
– level control
– level crosscut
– level crossing
– level curve
– level datum
– level detector
– level flight
– level gauge
– level ground
– level inverter
– level line
– level lock
– level logic
– level monitoring
– level multiple
– level net
– level of confidence
– level of hierarchy
– level of low waters
– level pillar
– level shaft
– level shears
– level shift
– level splints
– level splitting
– level square
– level surface
– level the plane
– level vial
– limiting level
– loudness level
– low water level
– low-lying level
– low-water level
– main level
– mean sea level
– noise level
– occupied level
– occupy level
– on a level with
– output level
– overload level
– oxidation level
– pond level
– power level
– precise level
– pumping level
– quantization level
– quantum level
– radiation level
– recording level
– reduce to sea level
– reduction to sea level
– redundancy level
– reference level
– regulator of level
– reside at level
– rotational level
– sea level
– sea level pressure
– set up a level
– significance level
– sound level
– spare level
– spirit level
– striding level
– threshold level
– tilt a level
– tilting level
– top up level
– top up the level
– transmission level
– volume level
– Wannier-Stark level
– when level
– white level
– working level
– zero level
automatic level gage — автур, уровнемер автоматический
coded at the machine-language level — <comput.> над машинными кодами
high water level — <geol.> горизонт высоких вод
line of precise level — <geod.> линия точного нивелирования
population of rotational level — заполненность вращательных уровней
sound level meter — измеритель силы звука, < radio> импульсмессер
suspended level viscometer — вискозиметр с подвешенным уровнем
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13 absorption
1) абсорбция, поглощение3) бтх образование комплекса антиген - антитело•-
acoustic absorption
-
aerosol absorption
-
alpha absorption
-
anisotropic absorption
-
atmospheric absorption
-
auroral absorption
-
background absorption
-
bandgap absorption
-
beta absorption
-
braking energy absorption
-
characteristic absorption
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Compton absorption
-
continuum absorption
-
critical absorption
-
cyclotron absorption
-
deviation absorption
-
dichroic absorption
-
dielectric absorption
-
differential absorption
-
digit absorption
-
edge absorption
-
electrochemical absorption
-
energy absorption
-
epithermal absorption
-
equivalent absorption
-
exciton absorption
-
extrinsic absorption
-
fission absorption
-
fractional absorption
-
free carrier absorption
-
friction shock absorption
-
fundamental absorption
-
gamma absorption
-
gray absorption
-
ground absorption
-
heat absorption
-
horsepower absorption
-
impurity absorption
-
infrared absorption
-
interband absorption
-
intraband absorption
-
intracavity absorption
-
intrinsic absorption
-
ionospheric absorption
-
isothermic absorption
-
lattice absorption
-
light absorption
-
majority-carrier absorption
-
majority absorption
-
microwave absorption
-
minority-carrier absorption
-
minority absorption
-
moisture absorption
-
negative absorption
-
neutral absorption
-
neutron absorption
-
non fission absorption
-
nondeviative absorption
-
nuclear absorption
-
oil absorption
-
optical absorption
-
oxygen absorption
-
paramagnetic resonance absorption
-
parasitic absorption
-
plasma absorption
-
polar-cap absorption
-
preferential absorption
-
radiation absorption
-
radiative absorption
-
rainfall absorption
-
refrigerant absorption
-
resonance absorption
-
selective absorption
-
sensible heat absorption
-
side-lobe absorption
-
solar energy absorption
-
solar radiation absorption
-
sound absorption
-
spin-phonon absorption
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stimulated absorption
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structural absorption
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surface-state absorption
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thermal absorption
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ultrasonic absorption
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water absorption
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water vapor absorption
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X-ray absorption -
14 mode
2) мода, вид [форма, тип\] колебаний; вид [тип\] волн5) вчт. состояние6) швейн. мода•-
ablative pit-forming mode
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abnormal mode
-
acceleration mode
-
access mode
-
accumulation mode
-
acoustic mode
-
acquisition mode
-
active mode
-
adaptive control mode
-
addressing mode
-
air-liquefaction mode
-
alternate mode
-
anticipation mode
-
approach mode
-
assemble mode
-
astable vibration mode
-
astable mode
-
automatic mode
-
automatic opening mode
-
automatic skinning mode
-
autopilot heading mode
-
autoposition mode
-
avalanche mode
-
axial mode
-
background mode
-
backward mode
-
backward propagating mode
-
backward scattering mode
-
backward scatter mode
-
backward traveling mode
-
bare resonator mode
-
basic mode
-
batch mode
-
birefringent mode
-
block mode
-
block-multiplex mode
-
bound modes
-
broadcast mode
-
buckling mode
-
burst mode
-
calibration mode
-
capture mode
-
cavity flipping mode
-
cavity mode
-
central mode
-
character generation mode
-
character mode
-
characteristic mode
-
charge-coupling mode
-
circularly polarized mode
-
cladding mode
-
clockwise polarized mode
-
coherently locked modes
-
cold mode
-
collective modes
-
command mode
-
common failure mode
-
common mode
-
compatibility mode
-
competing modes
-
compute mode
-
confined mode
-
constant cutting speed mode
-
constant speed mode
-
contention mode
-
continuous mode
-
continuous path mode
-
continuous-wave mode
-
contour modes
-
contradirectional modes
-
control mode
-
conversational mode
-
cooling mode
-
co-orbital mode
-
coplanar mode
-
core-guided mode
-
core mode
-
counterclockwise polarized mode
-
counterrotating circularly polarized modes
-
counting mode
-
coupled modes
-
cross polarized modes
-
cubic mode
-
current mode
-
current saving mode
-
cutoff mode
-
cutting mode
-
damped mode
-
data-processing mode
-
Debye-like mode
-
Debye mode
-
deceleration mode
-
deflected mode
-
degenerated mode
-
degenerate mode
-
depletion mode
-
design mode
-
dialog mode
-
difference mode
-
differential mode
-
diffraction-limited mode
-
diffusive mode
-
discrete mode
-
dispersion modes
-
display mode
-
distributed-feedback mode
-
DNC mode
-
dominant mode
-
double-pass mode
-
drift mode
-
dual-processing mode
-
duplex mode
-
dynamic mode
-
dynamic-scattering mode
-
E mode
-
edge mode
-
edit mode
-
eigen mode
-
electromagnetic mode
-
elementary mode
-
Emn mode
-
emulation mode
-
energy dissipating mode
-
enhancement mode
-
equal-loss modes
-
equally spaced modes
-
erase mode
-
evanescent mode
-
even mode
-
excited mode
-
exciting mode
-
executive mode
-
extensional mode
-
extraordinary mode
-
Fabry-Perot mode
-
face shear modes
-
fast mode
-
faulted mode
-
fiber mode
-
filamentary mode
-
first mode
-
flexural mode
-
forced mode
-
force mode
-
foreground mode
-
foreground-background mode
-
forward mode
-
forward propagating mode
-
forward scattering mode
-
forward scatter mode
-
forward shear mode
-
forward traveling mode
-
fracture mode
-
free-running mode
-
free-space mode
-
frequency-division multiplex mode
-
frequency-shift-keying mode
-
full program mode
-
full-duplex mode
-
fundamental mode
-
gated mode
-
gate mode
-
Gaussian mode
-
generator mode
-
go-ahead mode
-
graphics mode
-
graphic mode
-
guidance mode
-
guided-wave mode
-
guided mode
-
half-duplex mode
-
heating mode
-
height-lock mode
-
higher-order mode
-
high-frequency mode
-
high-loss mode
-
high-pass mode
-
high-resolution mode
-
Hmn mode
-
horizontally polarized mode
-
idler mode
-
independent mode
-
index mode
-
injected mode
-
injection-locked mode
-
in-phase modes
-
in-plane mode
-
insert mode
-
integer mode
-
interacting modes
-
interactive mode
-
internally trapped mode
-
interpretive mode
-
interrupt mode
-
inverter mode
-
isolated mode
-
jog mode
-
kernel mode
-
keyboard mode
-
laser mode
-
lasing mode
-
lattice mode
-
launched mode
-
leaking mode
-
leaky mode
-
left-hand polarized mode
-
left polarized mode
-
length extentional mode
-
length flexural mode
-
length modes
-
length-width flexural mode
-
light mode
-
linearly polarized mode
-
load mode
-
local mode
-
locate mode
-
lock mode
-
long coherence length mode
-
long wavelength mode
-
longitudinal mode
-
loopback mode
-
low-frequency mode
-
low-pass mode
-
low-resolution mode
-
lugdown mode
-
macro-by-macro mode
-
magnetron mode
-
main mode
-
malfunction mode
-
manual mode
-
manual skinning mode
-
mapping mode
-
maser mode
-
master mode
-
matched mode
-
measurement mode
-
message mode
-
mirror image mode
-
mixed mode
-
mode of behavior
-
mode of deformation
-
mode of excitation
-
mode of failure
-
mode of functioning
-
mode of propagation
-
mode of test
-
mode of transport
-
mode-locked mode
-
mode-match mode
-
monopulse mode
-
move mode
-
multiple-frame mode
-
multiplexed mode
-
multiplex mode
-
multitask mode
-
native mode
-
natural mode
-
nonaxial mode
-
noncounting mode
-
nondegenerate mode
-
nondegenerative mode
-
nonoscillating mode
-
nonpropagating mode
-
nonradiative mode
-
nonresonant mode
-
nonspiking mode
-
nontransparent mode
-
normal mode
-
odd mode
-
off mode
-
off-axis mode
-
off-design mode
-
off-line mode
-
off-normal mode
-
on-line mode
-
on-link mode
-
opening fracture mode
-
opening mode
-
operating mode
-
optical mode
-
ordinary mode
-
original mode
-
orthogonally polarized modes
-
oscillating mode
-
oscillation mode
-
oscillatory mode
-
out-of-plane mode
-
overtype mode
-
parallel mode
-
parametric mode
-
parasitic mode
-
partially suppressed mode
-
path following mode
-
path modifying mode
-
penetration mode
-
periodic mode
-
perturbed mode
-
photographing mode
-
photon-counting mode
-
pipelined mode
-
plane mode
-
plane polarized mode
-
plasma mode
-
plasma-guide mode
-
playback mode
-
point-to-point path mode
-
polarization mode
-
polarization-bistable mode
-
polarized mode
-
posttrigger mode
-
power-down mode
-
p-polarized mode
-
pretrigger mode
-
principal mode
-
priviledged mode
-
propagating mode
-
propagation mode
-
pulse counting mode
-
pulsed mode
-
pump mode
-
push-pull mode
-
Q-spoiled mode
-
Q-switched mode
-
quadrupole mode
-
quantum noise limited mode
-
radial mode
-
radially polarized mode
-
radiating mode
-
radiation mode
-
rail mode
-
ranging mode
-
ready mode
-
real-time mode
-
receive mode
-
record mode
-
rectifier mode
-
reflected mode
-
reflection mode
-
reflective mode
-
refracted mode
-
refrigeration mode
-
repetitive Q-switched mode
-
request mode
-
resonant mode
-
resonator mode
-
retropropulsion mode
-
return beam mode
-
reverse bias mode
-
reversible recording mode
-
right-hand polarized mode
-
right polarized mode
-
run mode
-
sample-and-hold mode
-
satellite mode
-
saturation mode
-
scanning mode
-
scan mode
-
scope mode
-
screen mode
-
search mode
-
selected mode
-
selector mode
-
self-ammoniation mode
-
self-heating mode
-
self-locked mode
-
self-Q-switched mode
-
self-refresh mode
-
self-reporting mode
-
self-trapping mode
-
serial mode
-
series mode
-
setup mode
-
severe wear mode
-
shear mode of crack initiation
-
shear mode
-
side mode
-
signal mode
-
simplex mode
-
simulation mode
-
single block mode
-
single mode
-
single Q-switched mode
-
single-channel mode
-
single-character mode
-
single-pulse mode
-
single-step mode
-
slave mode
-
slightly coupled modes
-
spatial mode
-
spectral mode
-
spiking mode
-
split-screen mode
-
s-polarized mode
-
spurious mode
-
spurious pulse mode
-
square mode
-
stable mode
-
standby mode
-
standing-wave mode
-
start-stop mode
-
static mode
-
stationary mode
-
steady state mode
-
stiffened mode
-
still-frame mode
-
storage mode
-
store-and-forward mode
-
stretching mode
-
stripped cladding modes
-
strong mode
-
strongly excited mode
-
substrate mode
-
superradiant mode
-
supervisor mode
-
switching mode
-
symmetric modes
-
synchronously pumped mode
-
tape auto mode
-
teaching mode
-
tearing mode
-
thickness-extensional modes
-
time compression mode
-
time mode
-
time-difference mode
-
time-shared mode
-
torsional modes
-
track-and-hold mode
-
tracking mode
-
transcribe mode
-
transfer mode
-
transformed mode
-
transient mode
-
transit mode
-
transit-time mode
-
transmission mode
-
transparent mode
-
transverse mode
-
TRAPATT mode
-
trapped mode
-
trapped plasma avalanche transit time mode
-
traveling-wave mode
-
triggering mode
-
trimming mode
-
truncated mode
-
tuning mode
-
tunneling mode
-
twist mode
-
two-level mode
-
unattended mode
-
uncoupled modes
-
undamped mode
-
unmanned mode
-
unperturbed mode
-
unstable mode
-
unstiffened mode
-
vertically polarized mode
-
vibration mode
-
vibration-free mode
-
virtual mode
-
voting mode
-
waiting mode
-
walk-off mode
-
warped mode
-
wave mode
-
wavefront watched modes
-
waveguide mode
-
wavy slip mode
-
wear mode
-
whispering modes
-
whistler mode
-
width modes
-
write mode
-
zero-order mode -
15 gas
1. газ, газообразное вещество || выделять газ; наполнять газом, насыщать газом2. горючее; газолин; бензин || заправлять горючим— acid gas— dry gas— end gas— exit gas— fat gas— flue gas— free gas— fuel gas— lean gas— net gas— oil gas— rich gas— rock gas— sour gas— town gas— trip gas— wet gas
* * *
high altitude liquid petroleum gas — сжиженный нефтяной газ с повышенным содержанием бутана (для применения в условиях пониженного атмосферного давления)
— dry gas— foul gas— lean gas— lift gas— oil gas— rich gas— rock gas— sour gas— tank gas— wet gas
* * *
1. газ2. горючее, бензин
* * *
* * *
1) газ, газообразное вещество || выделять газ; наполнять газом, насыщать газом2) горючее; газолин; бензин || заправлять горючим•gas in place — запасы газа в коллекторе;
gas in reservoir — пластовой газ;
gas in-situ — газ в пластовых условиях;
gas in solution — растворённый газ;
no gas to surface — газ на поверхность не поступает;
gas originally in place — первоначальные запасы газа в коллекторе;
to boost gas along to its destination — повышать давление газа для доставки его к месту назначения;
to make the gas — выделять газ;
to sweeten gas — удалять из газа соединения серы;
- gas of radiation-chemical originto take-off casing-head gas — отбирать нефтяной газ на устье скважины;
- gas of stratal water
- absorbed gas
- accompanying gas
- acid gas
- active gas
- actual gas
- adsorbed gas
- aerogen gas
- air gas
- air-free gas
- air-producer gas
- alky gas
- all-weather liquefied petroleum gas
- ammonia synthesis gas
- annular gas
- artificial gas
- associated gas
- associated dissolved gas
- associated petroleum gas
- aviation gas
- background gas
- biochemical natural gas
- blanket gas
- blowdown gas
- blue gas
- bottled gas
- Braden head gas
- burned gas
- burning gas
- butane-enriched water gas
- butane-propane gas
- by-product gas
- cap gas
- carbon-dioxide gas
- carbureted gas
- carbureted hydrogen gas
- carbureted water gas
- carrier gas
- casing-head gas
- city gas
- coercible gas
- coke oven gas
- combination gas
- combustible gas
- combustion gas
- commercial gas
- commercial rock gas
- compressed gas
- compressed natural gas
- condensed gas
- condensed natural gas
- conditioned gas
- consumer gas
- conventional gas
- converted gas
- corrosive gas
- crude gas
- cumulative gas injected
- cushion gas
- cylinder gas
- dehydrated petroleum gas
- diluted gas
- dispersed gas
- dissolved gas
- distillation gas
- domestic gas
- drive gas
- dry gas
- dry petroleum gas
- dump gas
- end gas
- enriched gas
- entrained gas
- escaping gas
- exhaust gas
- exit gas
- expansion gas
- extraneous gas
- extremely dry gas
- fat gas
- filtered flue gas
- fire gas
- fixed gas
- flammable gas
- flare gas
- flash gas
- flue gas
- fluorocarbon gas
- flush gas
- formation gas
- formation water gas
- foul gas
- free gas
- fuel gas
- full-stream gas
- fume-laden gas
- furnace gas
- gaslift gas
- gas-well gas
- green gas
- heating gas
- helium-bearing natural gas
- high gas
- high-altitude liquid petroleum gas
- high-BTU gas
- high-calorific gas
- high-line gas
- highly corrosive gas
- high-pressure gas
- high-purity gas
- household fuel gas
- humid gas
- hydrocarbon gas
- ideal gas
- illuminating gas
- immobile gas
- imperfect gas
- imported gas
- inactive gas
- included gas
- incoming gas
- indifferent gas
- industrial gas
- inert gas
- inflammable gas
- initial gas in reservoir
- injected gas
- in-place petroleum gas
- ionized gas
- kerosene gas
- kiln gas
- lean gas
- lean petroleum gas
- liberated gas
- lift gas
- lighting gas
- liquefied gas
- liquefied hydrocarbon gas
- liquefied natural gas
- liquefied petroleum gas
- liquid gas
- liquid natural gas
- liquid petroleum gas
- live gas
- low-boiling gas
- low-calorific gas
- low-pressure petroleum gas
- low-thermal-value fuel gas
- makeup gas
- manufactured gas
- manure gas
- marsh gas
- medium-energy coal-derived gas
- metamorphic natural gas
- methane-rich gas
- mixed gas
- mud gas
- naphtha gas
- native gas
- natural gas
- net gas
- noble gas
- nonassociated gas
- nonassociated natural gas
- noncondensable gas
- noncorrosive gas
- nonhydrocarbon gas
- nonpurified gas
- nonrecoverable gas
- nonstripped petroleum gas
- noxious gas
- occluded gas
- off gas
- oil gas
- oil-dissolved gas
- oil-water gas
- oil-well gas
- olefiant gas
- onboard-stored gas
- oxyhydrogen gas
- paraffin gas
- peat gas
- perfect gas
- petroleum gas
- pipeline gas
- poor gas
- power gas
- processed gas
- produced gas
- producer gas
- product gas
- purchased gas
- purge gas
- radiogenic gas
- purifield gas
- quenching gas
- radioactive gas
- radon gas
- raw natural gas
- reactivation gas
- receiver gas
- recirculated gas
- recoverable gas
- recoverable petroleum gas
- refinery gas
- regeneration gas
- residual gas
- residue gas
- retained gas
- rich gas
- rich petroleum gas
- rock gas
- sales gas
- sedimentary natural gas
- separator gas
- shale gas
- shallow gas
- shocked gas
- sludge gas
- solute gas
- solution gas
- sour gas
- sour petroleum gas
- spent gas
- stabilizer gas
- stack gas
- stillage gas
- stripped gas
- stripped petroleum gas
- stripper gas
- substitute natural gas
- sulfur dioxide gas
- sulfurous gas
- sweet gas
- synthetic gas
- tail gas
- tank gas
- town gas
- toxic gas
- transborder gas
- transcontinental gas
- transported gas
- trapped gas
- treated gas
- trip gas
- unassociated gas
- underground storage gas
- undissolved gas
- unstripped gas
- vadose gas
- washed gas
- waste gas
- water gas
- water-dissolved gas
- well head gas
- wet gas
- wet field gas
- wet petroleum gas
- zero-hydrogen-index gas* * * -
16 line
1) линия || проводить линии, линовать2) матем. прямая3) черта; штрих || штриховать4) контур, очертание5) кривая ( на графике)6) геофиз. профиль8) геод. ход9) экватор10) линия ( единица длины)13) мн. ч. границы, пределы ( земельного участка)14) граничить15) направление движения, курс16) располагать(ся) в одну линию; устанавливать соосно17) трубопровод; нитка трубопровода (см. тж
pipeline) || прокладывать трубопровод, тянуть нитку трубопровода18) водовод19) облицовка ( внутренняя) || облицовывать ( внутри)20) футеровка || футеровать21) горн. обшивка || обшивать22) строит. причалка ( в каменных работах)24) конвейер25) номенклатура продукции; серия изделий26) мн. ч. теоретический чертёж ( судна)27) железнодорожный путь; линия28) (электрическая) линия; (электрическая) цепь; провод; шина29) линия связи; линия передачи ( данных или сигналов)30) строка программного кода, развёртки изображения, набора31) ярус ( орудие лова рыбы)32) лён; льняная пряжа33) нефт. струна ( оснастки талевой системы)•to be in line with one another — располагаться (лежать) на одной линии;to close contour line — геод. замыкать горизонталь;to connect a line from... to... — подсоединять линию одним концом к..., а другим к...;to feed off a line from a drum — сматывать канат с барабана;to figure (to index, to number) a contour line — геод. оцифровывать горизонталь;to pay out a line — разматывать канат;to reeve a line — 1. натягивать канат перед подъёмом 2. пропускать талевый канат через кронблочный шкив ( от лебёдки);to run a line (in)to — подводить линию к чему-л.;to run out a contour line — геод. проводить горизонталь;to snap a chalk line — отбивать линию с помощью (мелёного) шнура;to line up — 1. располагать(ся) на одной линии 2. настраивать; регулировать;to valve off a line — перекрывать трубопровод задвижкойline of action — 1. линия действия силы 2. машиностр. линия зацепленияline of flux — линия силового поля (электрического, магнитного, гравитационного)line of rivets — ряд заклёпокline of sight — 1. визирная ось 2. линия прямой видимости 3. линия визированияline of thrust — 1. линия распора ( арки) 2. линия действия равнодействующей бокового давления грунта ( в подпорной стене)-
T-line
-
absorption line
-
ac line
-
access line
-
acoustic bulk-wave delay line
-
acoustic delay line
-
acoustic line
-
action line
-
active line
-
adiabatic line
-
admission line
-
aerial line
-
aftercooler water line
-
air intake line
-
air line
-
aircraft break line
-
aircraft production break line
-
ammonia line
-
anti-Stokes line
-
arrival line
-
assembly line
-
automated line
-
automatic transfer line
-
auxiliary line
-
available line
-
avoiding line
-
back line
-
backbone transmission line
-
background line
-
backing line
-
backup line
-
backwash line
-
bailing line
-
balanced line
-
bank line
-
base line
-
bead-supported line
-
bead line
-
bearing line
-
beef dressing line
-
belt pitch line
-
bipolar line
-
bisecting line
-
bit line
-
black line
-
blast line
-
blast-furnace line
-
bleed line
-
bleeder line
-
blowing line
-
bottling line
-
brake line
-
branch bus line
-
branch line
-
branch main line
-
bridging line
-
broad-gage line
-
broadside lines
-
broken line
-
building line
-
bundle-conductor line
-
buoy line
-
burn line
-
burnt lines
-
bus line
-
buttock line
-
bypass line
-
cable line
-
cable pole line
-
calf line
-
can assembly line
-
capacitor-compensated transmission line
-
capacity line
-
car line
-
carrier line
-
casing line
-
catalyst transfer line
-
catenary line
-
cathead line
-
caving line
-
cell line
-
cementing line
-
center line
-
chain line
-
chalk line
-
channel line
-
character line
-
charging line
-
choke line
-
choker line
-
circle line
-
circular main line
-
cleaning line
-
clear line
-
clock line
-
closed refrigerant line
-
closing-head line
-
coastal line
-
coast line
-
coaxial line
-
code line
-
coil buildup line
-
coil cutup line
-
coil packaging line
-
coil slitting line
-
cold adjustment line
-
comb line
-
command line
-
comment line
-
common-use line
-
communications line
-
communication line
-
commuter line
-
compartment line
-
composed line
-
compressibility line
-
computation line
-
concentric line
-
concurrent lines
-
condensate line
-
conductor line
-
constant pass line
-
constant-pressure line
-
construction lines
-
contact line
-
contact-wire line
-
continuous annealing line
-
continuous assorting line
-
continuous pickling line
-
continuous processing line
-
contour line
-
control line
-
convergence line
-
copy lines
-
corrugating line
-
coupled transmission lines
-
course line
-
crease line
-
crosscutting line
-
cryoresistive transmission line
-
current line
-
current-flow line
-
curved line
-
cutoff line
-
cutting line
-
cutting-up line
-
cut-to-length line
-
cutup line
-
cylinder block line
-
cylinder head line
-
dash-dotted line
-
dashed line
-
data line
-
datum line
-
dc line
-
dead line
-
dedicated line
-
deenergized line
-
deflection line
-
delay bar line
-
delay line
-
delivery line
-
departure line
-
depth line
-
dial-up line
-
dial line
-
dimension line
-
direct line
-
discharge line
-
disengaged line
-
dispersive delay line
-
dispersive transmission line
-
display line
-
distributed-constant line
-
distribution trunk line
-
distribution line
-
district heating line
-
divergence line
-
divergent lines
-
diverter line
-
divide line
-
dot line
-
double line
-
double-circuit line
-
double-track line
-
double-wall fuel injection line
-
double-wire line
-
drag lines
-
drain line
-
drainage line
-
drawing line
-
dressed line
-
drilling line
-
drilling mud line
-
drive line
-
dropout line
-
dry-adiabatic line
-
duplex line
-
earth-return line
-
efficiency line
-
effluent disposal line
-
elastic line
-
electric flux line
-
electric lines of force
-
electrified line
-
electrified main line
-
electrolytic cleaning line
-
electrolytic tinning line
-
electrolytic zinc-plating line
-
emission line
-
enable line
-
end hardening line
-
end line
-
endless line
-
energized line
-
energy grade line
-
energy line
-
engaged line
-
engine-shutdown line
-
engraved line
-
equalized delay line
-
equalizing line
-
equilibrium state line
-
equipotential line
-
even-numbered line
-
excavation line
-
exchange line
-
exhaust crossover line
-
exhaust line
-
extraction line
-
extra-high-voltage transmission line
-
extra-high-voltage line
-
face line
-
fast line
-
fathon line
-
fault line
-
faulted line
-
feed line
-
feeder line
-
feedwater line
-
fiber-optic line
-
fiber line
-
fiducial line
-
field line
-
filling line
-
filling shunt line
-
fill-up pipe line
-
fill-up line
-
film neutral line
-
fin line
-
finish line
-
finishing roll line
-
fire line
-
firing line
-
fit line
-
flare line
-
flat line
-
flexible line
-
flexible transfer line
-
flight line
-
floor line
-
flow line
-
flow priority line
-
flowmeter red line
-
fluidlift line
-
flux line
-
fly line
-
flyback line
-
flying shear line
-
FMS line
-
foam line
-
folded delay line
-
forbidden line
-
four-wire line
-
fractional line
-
fraction line
-
frame line
-
frontage line
-
frontal line
-
frost line
-
fuel cross-feed line
-
fuel injection line
-
fuel line
-
fuel return line
-
fuel supply line
-
full line
-
full-duplex line
-
fusion line
-
gage line
-
gas line
-
gasket contact line
-
gasoline line
-
gathering line
-
gating signal line
-
generating line
-
geodetic line
-
ghost lines
-
glass line
-
glide slope limit line
-
gorge line
-
grade line
-
graduated line
-
grating delay line
-
grinding line
-
groundwater line
-
guy line
-
H lines
-
hair line
-
half-duplex line
-
half-wave transmission line
-
half-wave line
-
hard line
-
hardwired production line
-
haulage line
-
haulback line
-
head hardening line
-
heading line
-
heat flow lines
-
heater line
-
heating-gas line
-
heavy line
-
heavy-traffic line
-
help line
-
hem line
-
hemp center wire line
-
hidden line
-
high-pressure line
-
high-side line
-
high-temperature hot-water transmission line
-
high-voltage power line
-
high-voltage line
-
high-voltage transmission line
-
home line
-
hook line
-
horizontal line
-
hot line
-
hot metal line
-
hot-dip tinning line
-
hot-vapor line
-
housing line
-
hump engine line
-
hydraulic grade line
-
hydraulic line
-
hydrochloric acid pickling line
-
hyperfine line
-
ideal line
-
idle line
-
ignition line
-
improvement line
-
inclined line
-
inclusion line
-
incoming line
-
indented line
-
individual line
-
infinite line
-
influence line
-
inhaul line
-
initial line
-
injection line
-
intake line
-
interconnecting line
-
interconnection line
-
interdigital line
-
interswitch line
-
isobar line
-
isobathic line
-
isoclinal line
-
isodynamic line
-
isogonic line
-
isolux line
-
iso-stress line
-
isothermal line
-
isotropic line
-
jack line
-
jerk line
-
jog line
-
junction line
-
justified line
-
kill line
-
killed line
-
knuckle line
-
ladder line
-
lag line
-
land line
-
laser line
-
lead line
-
leased line
-
less robotized line
-
level line
-
leveling line
-
leviathan line
-
life line
-
lifting line
-
liquidus line
-
live line
-
load line
-
loaded line
-
loading line
-
local line
-
log line
-
logical line
-
logic line
-
long line
-
long-distance line
-
long-distance thermal transmission line
-
long-distance transmission line
-
loop line
-
loss-free line
-
lossy line
-
lot line
-
low-loss line
-
low-pressure fuel feed line
-
low-side line
-
low-temperature hot-water transmission line
-
low-voltage transmission line
-
low-voltage line
-
lubber's line
-
lubber line
-
luminance delay line
-
luminescence line
-
lumped-constant line
-
magnetic delay line
-
magnetic field lines
-
magnetic flux line
-
magnetic lines of force
-
magnetic superlattice line
-
main line
-
main refinery drainage line
-
main supply line
-
margin line
-
marine line
-
matched line
-
meander line
-
medium-voltage line
-
message line
-
metal line
-
meter-gage line
-
microslip line
-
microstrip line
-
midship line
-
mill line
-
mold match line
-
mold preparation line
-
molded line
-
monophase line
-
monopolar line
-
mooring line
-
moving line
-
mud line
-
mud-return line
-
multidrop line
-
multihop line
-
multiparty line
-
multiple-conductor line
-
multiplexed line
-
multipoint line
-
multirobot machining line
-
multistrand continuous pickle line
-
multiterminal line
-
narrow-gage line
-
Neumann lines
-
neutral line
-
nondedicated line
-
nonresonant line
-
nonswitched line
-
nontransposed transmission line
-
nontransposed line
-
nonuniform electrical transmission line
-
number line
-
observing line
-
obstacle clearance line
-
obstacle line
-
odd-numbered line
-
oil gathering line
-
oil line
-
oil pressure line
-
oil scavenge line
-
one-pole line
-
one-track line
-
one-wire line
-
open-circuit line
-
open-ended line
-
open-wire line
-
operating line
-
optical fiber communication line
-
order-wire line
-
oscillating line
-
outcrop line
-
outgoing line
-
outhaul line
-
overflow line
-
overhead cable line
-
overhead high-voltage line
-
overhead line
-
overhead low-voltage line
-
overhead transmission line
-
oxygen supply line
-
paced assembly line
-
packaging line
-
parallel lines
-
parameter line
-
parting line
-
party line
-
pass line
-
pedal line
-
performance line
-
periodic line
-
phreatic line
-
pickling line
-
pilot line
-
pitch line of groove
-
pitch line
-
plating line
-
Plimsoll line
-
plumb line
-
pneumatic conveying line
-
point-to-point line
-
polar line
-
pole line
-
polymer drain line
-
power bus line
-
power line
-
power transmission line
-
pressure inlet line
-
pressure jump line
-
pressure line
-
pressure relief line
-
primary line
-
priming line
-
printer line
-
printing line
-
private line
-
processing line
-
product line
-
production line
-
projective line
-
propagation line
-
pull line
-
pumping-out line
-
purse line
-
push-pull pickling line
-
radar line of sight
-
radio-frequency line
-
radio-optical line of distance
-
railway line
-
Raman line
-
raster line
-
ready line
-
reception line
-
recirculated line
-
reclaiming line
-
recoil line
-
reference line
-
reflection line
-
reflux line
-
refraction line
-
refresh line
-
relay repeater line
-
relay line
-
relief line
-
remote line
-
repeater line
-
resonant line
-
return line
-
reversed line
-
rhumb line
-
ring-and-bar structure-delay line
-
river line
-
robot transfer line
-
robotized line
-
roll line
-
roll parting line
-
roller line
-
roof lines
-
rotary-shear line
-
rotary-slitting line
-
routing line
-
rundown line
-
running line
-
runway center line
-
sand line
-
satellite communications line
-
satellite line
-
saturation line
-
scale line
-
scanning line
-
scan line
-
scavenge line
-
scrap processing line
-
screen line
-
scrubbing line
-
scrubbing-and-drying line
-
sea line
-
sealing line
-
secant line
-
secondary line
-
section line
-
seismic line
-
selected course line
-
selection line
-
serial line
-
serrated river line
-
service line
-
shackle-rod line
-
shearing line
-
shear line
-
sheer line at center
-
sheer line at side
-
sheer line
-
sheet-galvanizing line
-
sheeting line
-
sheet-shearing line
-
short-circuited line
-
shrinkproof finishing line
-
shunting line
-
side trimming line
-
signaling line
-
signal line
-
single-circuit line
-
single-conductor transmission line
-
single-hop line
-
single-phase line
-
single-pole line
-
single-track line
-
single-wire line
-
sinker line
-
six-phase line
-
skew lines
-
skidding line
-
slant course line
-
slip line
-
slitting-and-coiling line
-
slitting-and-shearing line
-
slitting-and-trimming line
-
snap line
-
snorkel line
-
snow line
-
solidus line
-
sonic delay line
-
space communications line
-
space line
-
spare line
-
spark line
-
spectral line
-
splice line
-
spray line
-
springing line
-
spur line
-
squall line
-
standard-gage line
-
status line
-
steam line
-
steam return line
-
steam-extraction line
-
steam-smothering line
-
steel fabrication line
-
steep-gradient line
-
steering oil lines
-
stock line
-
Stockes line
-
stopping line
-
straight line
-
strain line
-
strip line
-
strip processing line
-
strip welding line for coils
-
strip-grinding line
-
submarine cable line
-
submarine line
-
subscriber line
-
subtransmission line
-
suburban line
-
suction line
-
sulfuric acid pickling line
-
supercharged suction line
-
superconducting transmission line
-
superheat line
-
supply line
-
surface-acoustic-wave delay line
-
surge line
-
survey line
-
sweep line
-
switched line
-
switching line
-
takeoff line
-
taping line
-
tapped delay line
-
tapped line
-
telecom line
-
television active line
-
television line
-
temperature line
-
terminated line
-
terrestrial line
-
test line
-
three-phase transmission line
-
three-terminal high-voltage dc transmission line
-
thrust line
-
tide line
-
tie line
-
tiedown line
-
tiller line
-
time-temperature line
-
toll line
-
tool injection line
-
towing line
-
tow line
-
tracer line
-
trailing line
-
transit line
-
transmission line
-
transposed transmission line
-
trickling line
-
trim assembly line
-
trolley line
-
trunk line
-
trunk transmission line
-
tunnel line
-
twin line
-
twin-circuit line
-
two-strand line
-
two-wire line
-
type line
-
type-base line
-
ultra-high voltage transmission line
-
ultra-high voltage line
-
ultrasonic delay line
-
unbalanced line
-
unbalanced production line
-
undercollar break line
-
underground cable power line
-
underground power line
-
uniform electrical transmission line
-
unloaded line
-
unloading line
-
untapped delay line
-
untransposed transmission line
-
untransposed line
-
useful line
-
vapor line
-
vapor-pressure line
-
variable delay line
-
vector line
-
vent line
-
versatile transfer line
-
video line
-
viscose-supply line
-
vortex line
-
wash line
-
wastegate line
-
wave line
-
waveguide delay line
-
wear lines
-
weighted tapped delay line
-
weld line
-
wing chord line
-
wing split line
-
wire line
-
wire-cleaning line
-
word line
-
world line
-
zero line -
17 electron
1) электрон
2) электронно-лучевой
3) электронный
– background electron
– beta-decay electron
– bonding electron
– capture electron
– collective electron
– Compton electron
– conduction electron
– conversion electron
– degenerate electron
– eject electron
– ejection of an electron
– electron acceptor
– electron beam
– electron bombardment
– electron bunch
– electron bunching
– electron capture
– electron conduction
– electron conductor
– electron coupling
– electron detachment
– electron diffraction
– electron donor
– electron emission
– electron focusing
– electron gas
– electron gun
– electron injection
– electron injector
– electron jump
– electron lens
– electron microphotography
– electron microscope
– electron mobility
– electron optics
– electron pair
– electron plasma
– electron shell
– electron transit
– electron trap
– electron tube
– excess electron
– fast-moving electron
– free electron
– high-energy electron
– hot electron
– incoming electron
– inner electron
– knock out electron
– loss of an electron
– low-energy electron
– luminous electron
– oblique electron
– orbital electron
– outer electron
– outgoing electron
– primary electron
– quasi-free electron
– relativistic electron
– secondary electron
– slow electron
– spin of electron
– tunneling electron
– unpaired electron
– vagabonding electron
– valence electron
attachment of electron to atom — присоединение электрона к атому
channel electron multiplier — электронный умножитель с распределенными динодами, вторично-электронный умножитель с распределенными динодами
collective electron model — модель коллективизированных электронов
electron beam-plasma interaction — взаимодействие электронного пучка
electron ring compressor — генератор заряженного торуса адиабатический
high-bipotential electron bum — высоковольтный бипотенциальный электронный прожектор
high-intensity electron beam — пучок электронный сильноточный
ionize by electron collision — ионизировать ударами электронов
mirror electron microscope — зеркальный электронный микроскоп
negative electron affinity — <chem.> сродство электронное отрицательное
reflection electron microscope — отражательный электронный микроскоп
scanning electron microscope — растровый электронный микроскоп
secondary electron multiplier — <tech.> умножитель вторично-электронный
transmisson electron microscope — просвечивающий электронный микроскоп
-
18 absorption
1) поглощение2) абсорбция•- absorption of light
- absorption of liquids
- absorption of radio waves
- acoustical absorption
- anisotropic absorption
- atmospheric absorption
- auroral absorption
- background absorption
- bandgap absorption
- Cerenkov absorption
- characteristic absorption
- charge-transfer absorption
- cloud absorption
- collisional absorption
- Compton absorption
- cyclotron absorption
- deviative absorption
- dichroic absorption
- dielectric absorption
- differential absorption
- dipole absorption
- edge absorption
- electrochemical absorption
- electronic shock absorption
- energy absorption
- equivalent absorption
- exciton absorption
- exponential absorption
- extrinsic absorption
- ferromagnetic-resonance absorption
- field-induced absorption
- fractional absorption
- free-carrier absorption
- fundamental absorption
- ground absorption
- heat absorption
- hypersonic absorption
- impurity absorption
- induced absorption
- interband absorption
- inter-subband absorption
- intraband absorption
- intracavity absorption
- intra-subband absorption
- intrinsic absorption
- ionospheric absorption
- isotropic absorption
- lattice absorption
- magnon-phonon absorption
- majority-carrier absorption
- microwave absorption
- minority-carrier absorption
- moisture absorption
- multiphoton absorption
- multipole absorption
- negative absorption
- neutral absorption
- nondeviative absorption
- nonresonance absorption
- nuclear magnetic resonance absorption
- optical absorption
- Overhauser-enhanced absorption
- pair-production absorption
- paramagnetic resonance absorption
- parasitic absorption
- photoelectric absorption
- plasma absorption
- polar cap absorption
- quadrupole absorption
- quantized absorption
- rainfall absorption
- resonance absorption
- reststrahl absorption
- Sabine absorption
- saturable optical absorption
- selective absorption
- self absorption
- single-level absorption
- solar energy absorption
- sound absorption
- specific absorption
- spectral absorption
- spin-phonon absorption
- spin-resonance absorption
- sporadic E-absorption
- stimulated absorption
- subsidiary-resonance absorption
- surface-state absorption
- thermal absorption
- triplet-triplet absorption
- two-magnon absorption
- two-photon absorption
- water vapor absorption
- wing absorption
- X-ray absorption -
19 spectrum
1) спектр2) спектральная характеристика; спектральная зависимость•- spectrum of matrix
- spectrum of operator
- absorption spectrum
- acoustic spectrum
- AM spectrum
- amplitude spectrum
- arc spectrum
- atomic spectrum
- audio spectrum
- autocorrelation spectrum
- background spectrum
- band spectrum
- band-limited spectrum
- baseband spectrum
- bounded spectrum
- Brillouin spectrum
- canonical spectrum
- characteristic spectrum
- complex spectrum
- connected spectrum
- continuous spectrum
- correlation spectrum
- cosine rolloff spectrum - degenerate spectrum
- direct-sequence spread spectrum
- discrete spectrum
- eigenvalue spectrum
- ether spectrum
- extended spectrum
- direct spectrum
- displaced spectrum
- Doppler-broadened spectrum - electromagnetic spectrum
- electron spectrum
- emission spectrum
- energy spectrum
- energy-density spectrum
- exchange-coupled spectrum
- exciton spectrum
- ferromagnetic-resonance spectrum
- finite spectrum
- flat spectrum
- FM spectrum
- folded spectrum
- frequency hopping spread spectrum
- Gaussian spectrum
- generalized spectrum
- group spectrum
- hyperfine spectrum
- IBOC spectrum
- in-band/on-channel spectrum
- infrared spectrum
- inverse spectrum
- joint spectrum
- line spectrum
- log spectrum
- luminescent-emission spectrum
- magnetic hardness spectrum
- magnetic-permeability spectrum
- mass spectrum
- maximum-entropy spectrum
- microwave spectrum
- mixed spectrum
- Mössbauer spectrum
- optogalvanic spectrum
- paramagnetic-resonance spectrum
- perturbed spectrum
- phase spectrum
- phonon spectrum
- power spectrum
- power-density spectrum
- pulse-train spectrum
- pulse-train frequency spectrum
- quadrature spectrum
- quasi-discrete spectrum
- quasi-line spectrum
- radio spectrum
- raised-cosine spectrum
- Raman spectrum
- Rayleigh spectrum
- recombination-radiation spectrum
- rectangular spectrum
- reflectance spectrum
- regression spectrum
- regular spectrum
- required response spectrum
- RF spectrum
- rotation spectrum
- rotation-vibration spectrum
- sferics spectrum
- singular spectrum
- smoothed spectrum
- spread spectrum
- stochastic spectrum
- ultraviolet spectrum
- uniform spectrum
- vibration spectrum
- white spectrum
- X-ray spectrum
- ε-spectrum -
20 absorption
1) поглощение2) абсорбция•- absorption of light
- absorption of liquids
- absorption of radio waves
- acoustical absorption
- anisotropic absorption
- atmospheric absorption
- auroral absorption
- background absorption
- bandgap absorption
- Cerenkov absorption
- characteristic absorption
- charge-transfer absorption
- cloud absorption
- collisional absorption
- Compton absorption
- cyclotron absorption
- deviative absorption
- dichroic absorption
- dielectric absorption
- differential absorption
- dipole absorption
- edge absorption
- electrochemical absorption
- electronic shock absorption
- energy absorption
- equivalent absorption
- exciton absorption
- exponential absorption
- extrinsic absorption
- ferromagnetic-resonance absorption
- field-induced absorption
- fractional absorption
- free-carrier absorption
- fundamental absorption
- ground absorption
- heat absorption
- hypersonic absorption
- impurity absorption
- induced absorption
- interband absorption
- inter-subband absorption
- intraband absorption
- intracavity absorption
- intra-subband absorption
- intrinsic absorption
- ionospheric absorption
- isotropic absorption
- lattice absorption
- magnon-phonon absorption
- majority-carrier absorption
- microwave absorption
- minority-carrier absorption
- moisture absorption
- multiphoton absorption
- multipole absorption
- negative absorption
- neutral absorption
- nondeviative absorption
- nonresonance absorption
- nuclear magnetic resonance absorption
- optical absorption
- Overhauser-enhanced absorption
- pair-production absorption
- paramagnetic resonance absorption
- parasitic absorption
- photoelectric absorption
- plasma absorption
- polar cap absorption
- quadrupole absorption
- quantized absorption
- rainfall absorption
- resonance absorption
- reststrahl absorption
- Sabine absorption
- saturable optical absorption
- selective absorption
- self absorption
- single-level absorption
- solar energy absorption
- sound absorption
- specific absorption
- spectral absorption
- spin-phonon absorption
- spin-resonance absorption
- sporadic E absorption
- stimulated absorption
- subsidiary-resonance absorption
- surface-state absorption
- thermal absorption
- triplet-triplet absorption
- two-magnon absorption
- two-photon absorption
- water vapor absorption
- wing absorption
- X-ray absorptionThe New English-Russian Dictionary of Radio-electronics > absorption
- 1
- 2
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