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81 ENOB
сокр. от effective number of bitsThe New English-Russian Dictionary of Radio-electronics > ENOB
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82 эффективная разрядность
Русско-английский словарь по радиоэлектронике > эффективная разрядность
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83 иметь
•This object possesses (or has) a symmetry axis.
•Comets frequently show (or have) a tail.
•Sulphur can accommodate more than eight electrons in its outer quantum shell.
•This material is of high heat resistance.
•The capacitor features (or exhibits, or shows, or possesses, or displays, or has) extraordinary stability.
•Calcite may exhibit a wide variety of forms.
•The instrument features eight data channels.
•The cycloidal curve exhibits a higher pressure angle.
•Many grains show slightly abraded edges.
•The forklift truck is today sporting (жарг.) such accessories as barrel handling devices, belt conveyors,...
II•The reamer is provided with helical flutes.
* * *Иметь -- to have; to be; to feature, to incorporate; to see (претерпевать); to possess, to hold (обладать); to suffer (о недостатках); to share (нечто общее)All bits below for clutch are regular hardness (... имеют обычную твердость).All of the step bearings were babbit lined and did not have end seals (... имели баббитовые вкладыши).The Analyzer projector featured a highly corrected lens.It is also required to determine the relative number of load cycles that each component sees as the input sun rotates.— иметь право наРусско-английский научно-технический словарь переводчика > иметь
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84 information
give information on something — Auskunft über etwas (Akk.) erteilen
piece or bit of information — Information, die
where can we get hold of some information? — wo können wir Auskunft bekommen?
for your information — zu Ihrer Information; (iron.) damit du Bescheid weißt!
* * *noun (facts told or knowledge gained or given: Can you give me any information about this writer?; the latest information on the progress of the war; He is full of interesting bits of information.) die Information* * *in·for·ma·tion[ˌɪnfəˈmeɪʃən, AM -fɚˈ-]I. ndo you have any \information about train times? können Sie mir Auskunft über die Abfahrtszeiten geben?for further \information, please contact your local library für weitere Informationen setzen Sie sich bitte mit Ihrer Bibliothek in Verbindunga vital piece of \information eine sehr wichtige Informationto be a mine of \information viel wissena lot of/a little \information viele/wenige Informationento give sb \information about sb/sth jdm über jdn/etw Informationen gebento have \information that... Informationen haben, dass...to move \information Informationen übertragen; (from the internet) Informationen aus dem Internet übertragenfor your \information als Information; (annoyed) damit Sie es wissenyou can buy a museum guide at \information Sie können einen Museumsführer an der Information kaufento lay an \information against sb jdn anklagen\information content Informationsgehalt nt\information exchange Informationsaustausch m\information management Datenmanagement nt\information system Informationssystem nt* * *["Infə'meISən]n1) Auskunft f, Informationen pla piece of information — eine Auskunft or Information
for your information — zu Ihrer Information or Kenntnisnahme (form); (indignantly) damit Sie es wissen
his information on the subject is most extensive — sein Wissen auf diesem Gebiet ist äußerst umfassend
to give sb information about or on sb/sth — jdm Auskunft or Informationen über jdn/etw geben
to get information about or on sb/sth — sich über jdn/etw informieren, über jdn/etw Erkundigungen einziehen
to ask for information on or about sb/sth — um Auskunft or Informationen über jdn/etw bitten
"information" — "Auskunft"
I have information that they will be arriving today — mir liegen Informationen darüber vor, dass sie heute ankommen
for further information please contact this number... — Näheres erfahren Sie unter Telefonnummer...
2) (COMPUT: information content) Information f* * *information [ˌınfə(r)ˈmeıʃn] s1. a) Benachrichtigung f, Unterrichtung fb) Nachricht f, Mitteilung f, Bescheid mfor your information zu Ihrer Information oder Kenntnisnahmeb) Auskunft(sschalter) f(m)3. koll Nachrichten pl, Informationen pl ( auch IT) a bit ( oder piece) of information eine Nachricht oder Information;4. koll Erkundigungen pl:gather information Erkundigungen einziehen, Auskünfte einholen, sich erkundigen5. Wissen n, Kenntnisse pl6. (wissenswerte) Tatsachen pl:full of information inhalts-, aufschlussreich7. JURa) (formelle) Anklageb) (Straf)Anzeige f:8. TEL US Auskunft f* * *noun, no pl., no indef. art.give information on something — Auskunft über etwas (Akk.) erteilen
piece or bit of information — Information, die
for your information — zu Ihrer Information; (iron.) damit du Bescheid weißt!
* * *n.Auskunft -¨e f.Benachrichtigung f.Hinweis -e m.Information f.Informationsmaterial n. -
85 mega-
prefixmega-/Mega-* * *[meɡə]1) (a million, as in megaton. mega-) Million* * *[ˈmegə]in compounds ( fam)\mega-cool megacool sl, geil sl\mega-famous/hot total berühmt/heiß sl\mega-rich schwerreich fam\mega-wild total verrückt fam\mega-bits Megabits pl\mega-film Wahnsinnsfilm m fam\mega-production gigantische Produktion* * *['megə-] pref Mega-* * *M abk3. mega-4. milliona) (riesen)großb) Mega…* * *prefixmega-/Mega- -
86 two
two [tu:]• the election was a two-horse race dans ces élections, seuls deux des candidats avaient des chances de gagner ► two-party adjective bipartite• two-piece (swimsuit) bikini m ► two-star noun (British) also two-star petrol (essence f ) ordinaire f► two-way adjective [switch] à va-et-vient ; [street] à double sens ; [traffic] dans les deux sens ; [exchange, negotiations] bilatéral* * *[tuː] 1.noun deux m inv2.in twos and threes — par deux ou trois, deux ou trois à la fois
determiner deux inv3.pronoun deux inv••there are two sides to every story — ≈ autant d'hommes, autant d'avis
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87 fall off
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88 ENOB
(Effective Number Of Bits) эффективное число [двоичных] разрядовсм. тж. ADCАнгло-русский толковый словарь терминов и сокращений по ВТ, Интернету и программированию. > ENOB
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89 ENOB
сокр. от Effective Number Of Bits -
90 κείρω
Grammatical information: v.Meaning: `cut (off), shave, esp. of hair, mow off, cut down, ravage' (Il.).Other forms: Aor. κεῖραι, ep. also κέρσαι, pass. καρῆναι ( καρθέντες with v. l. κερθέντες Pi. P. 4, 82), fut. κερέω, κερῶ, perf. pass. κέκαρμαι, new act. κέκαρκα (hell.),Compounds: often with prefix, e. g. ἀπο-, δια-, περι-. Comp. ἀ-κερσε-κόμης `with uncut hair' (Υ 39), also ἀ-κειρε-κόμᾱς, - ης (Pi.); on the form Schwyzer 442, on the meaning Fink Philol. 93, 404ff.Derivatives: 1. κέρμα n. `cut off piece, esp. small piece of money, change' (Emp. 101, 1 [not quite certain], Com., hell.) with κερμάτιον (hell.) and κερματίζω `change in small money' (Att., Arist.); from it κερματιστής `money-changer' (Ev. Jo. 2. 14), κερματισμός `cut into little bits' (Olymp.); κερματόομαι = - ίζομαι (Procl.). - 2. κορμός m. `cut off piece, bobbin, trunk' (ψ 196) with κορμίον (hell.), κορμηδόν `in pieces' (Hld.), κορμάζω `saw into pieces' (D. H.). - 3. κουρα s. v. 4. καρτός s. v. - Cf. also κόρση, κόρις, κέρτομος, 2. κέλωρ.Etymology: κείρω from *κερ-ι̯ω (Schwyzer 715, 751, 759), belongs to a widespread IE. wordgroup; but exact agreements of the Greek verb forms. Nearest is Arm. k` erem `scratch, shave' (sec. aorist k`ere-c̣i; diff. Meillet BSL 37, 12), Alb. sh-kjer `tear apart' (pret. \> sh-kora \< IE. * kēr-); further Hitt. karšmi `cut off' (with s-enlargement as in κουρά; s. v.). Frequent are forms with initial * sk-: Germ., OHG sceran ` scheren', Lith. skiriù, skìrti `separate', OIr. scar(a)im `separate'. A t-enlargement in Skt. kr̥-n-t-áti `separates' (infixed nasal present; perf. ca-kart-a); this would be possible for the aorist ἔκερσα (if \< *ἔ-κερτ-σα, Risch 219). - The number of nominal derivv. in the separate languages is enormous, partly parallel innoavtions. Thus formal agreement exists between κέρμα and Skt. cárman-, Av. čarǝman- n. `skin, hide', OPr. kērmens m. `body' (IE. *kér-men-); diff. only in ablaut betwen κορμός and OCS krъma f. `steering oar, back part of the ship', Russ. kormá `puppis'. - Further Pok. 938ff., W.-Hofmann s. carō, cēna, corium.Page in Frisk: 1,810-811Greek-English etymological dictionary (Ελληνικά-Αγγλικά ετυμολογική λεξικό) > κείρω
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91 odd
A adj1 (strange, unusual) [person, object, occurrence] bizarre ; there is something odd about il y a quelque chose de bizarre dans [appearance, statement] ; there is something odd about her elle a quelque chose de bizarre ; there is something/nothing odd about it il y a quelque chose/il n'y a rien de bizarre ; it is odd that c'est bizarre que (+ subj) ; ( more formally) il est surprenant que (+ subj) ; it is odd to see c'est bizarre de voir ; ( more formally) il est surprenant de voir ; it is odd how people react c'est bizarre de voir comme les gens réagissent ; it would be odd if they were to do il serait surprenant qu'ils fassent ; to be an odd couple former un drôle de couple ; that's odd bizarre ; he's a bit odd ( eccentric) il est un peu loufoque ○ ;2 ( occasional) I have the odd drink/pizza il m'arrive de boire un verre/manger une pizza ; to write the odd article écrire un article de temps en temps ; to pay sb the odd visit aller voir qn de temps en temps ; the landscape was bare except for the odd tree le paysage était désert à part un arbre ou deux ;3 ( not matching) [socks, gloves] dépareillé ;4 ( miscellaneous) there were some odd envelopes/bits of cloth left il restait encore quelques enveloppes/bouts de tissu ; a few odd coins un reste de monnaie ;5 Math [number] impair ;6 ( different) spot the odd man ou one out trouvez l'intrus ; to feel the odd one out ne pas se sentir à sa place.B - odd (dans composés) ( approximately) he lost a thousand-odd dollars il a perdu mille dollars et quelques ; there were sixty-odd people il y avait soixante et quelques personnes ; twenty-odd years later une bonne vingtaine d'années après.he's as odd as two left feet ○ il marche à côté de ses pompes ○. -
92 Shannon, Claude Elwood
[br]b. 30 April 1916 Gaylord, Michigan, USA[br]American mathematician, creator of information theory.[br]As a child, Shannon tinkered with radio kits and enjoyed solving puzzles, particularly crypto-graphic ones. He graduated from the University of Michigan in 1936 with a Bachelor of Science in mathematics and electrical engineering, and earned his Master's degree from the Massachusetts Institute of Technology (MIT) in 1937. His thesis on applying Boolean algebra to switching circuits has since been acclaimed as possibly the most significant this century. Shannon earned his PhD in mathematics from MIT in 1940 with a dissertation on the mathematics of genetic transmission.Shannon spent a year at the Institute for Advanced Study in Princeton, then in 1941 joined Bell Telephone Laboratories, where he began studying the relative efficiency of alternative transmission systems. Work on digital encryption systems during the Second World War led him to think that just as ciphers hide information from the enemy, "encoding" information could also protect it from noise. About 1948, he decided that the amount of information was best expressed quantitatively in a two-value number system, using only the digits 0 and 1. John Tukey, a Princeton colleague, named these units "binary digits" (or, for short, "bits"). Almost all digital computers and communications systems use such on-off, or two-state logic as their basis of operation.Also in the 1940s, building on the work of H. Nyquist and R.V.L. Hartley, Shannon proved that there was an upper limit to the amount of information that could be transmitted through a communications channel in a unit of time, which could be approached but never reached because real transmissions are subject to interference (noise). This was the beginning of information theory, which has been used by others in attempts to quantify many sciences and technologies, as well as subjects in the humanities, but with mixed results. Before 1970, when integrated circuits were developed, Shannon's theory was not the preferred circuit-and-transmission design tool it has since become.Shannon was also a pioneer in the field of artificial intelligence, claiming that computing machines could be used to manipulate symbols as well as do calculations. His 1953 paper on computers and automata proposed that digital computers were capable of tasks then thought exclusively the province of living organisms. In 1956 he left Bell Laboratories to join the MIT faculty as Professor of Communications Science.On the lighter side, Shannon has built many devices that play games, and in particular has made a scientific study of juggling.[br]Principal Honours and DistinctionsNational Medal of Science. Institute of Electrical and Electronics Engineers Medal of Honor, Kyoto Prize.BibliographyHis seminal paper (on what has subsequently become known as information theory) was entitled "The mathematical theory of communications", first published in Bell System Technical Journal in 1948; it is also available in a monograph (written with Warren Weaver) published by the University of Illinois Press in 1949, and in Key Papers in the Development of Information Theory, ed. David Slepian, IEEE Press, 1974, 1988. For readers who want all of Shannon's works, see N.J.A.Sloane and A.D.Wyner, 1992, TheCollected Papers of Claude E.Shannon.HO -
93 disintegrations per second
1.распадов в секунду2.число распадов в секундуEnglish-Russian dictionary on nuclear energy > disintegrations per second
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94 throughput
"The data transfer rate of a network, measured as the number of bits per second transmitted." -
95 ar-sa المؤدّي
"A standard single-byte character encoding scheme used for text-based data. ASCII uses designated 7-bit or 8-bit number combinations to represent either 128 or 256 possible characters. Standard ASCII uses 7 bits to represent all uppercase and lowercase letters, the numbers 0 through 9, punctuation marks, and special control characters used in U.S. English. Most current x86-based systems support the use of extended (or ""high"") ASCII. Extended ASCII allows the eighth bit of each character to identify an additional 128 special symbol characters, foreign-language letters, and graphic symbols." -
96 ASCII
"A standard single-byte character encoding scheme used for text-based data. ASCII uses designated 7-bit or 8-bit number combinations to represent either 128 or 256 possible characters. Standard ASCII uses 7 bits to represent all uppercase and lowercase letters, the numbers 0 through 9, punctuation marks, and special control characters used in U.S. English. Most current x86-based systems support the use of extended (or ""high"") ASCII. Extended ASCII allows the eighth bit of each character to identify an additional 128 special symbol characters, foreign-language letters, and graphic symbols." -
97 American Standard Code for Information Interchange
"A standard single-byte character encoding scheme used for text-based data. ASCII uses designated 7-bit or 8-bit number combinations to represent either 128 or 256 possible characters. Standard ASCII uses 7 bits to represent all uppercase and lowercase letters, the numbers 0 through 9, punctuation marks, and special control characters used in U.S. English. Most current x86-based systems support the use of extended (or ""high"") ASCII. Extended ASCII allows the eighth bit of each character to identify an additional 128 special symbol characters, foreign-language letters, and graphic symbols."English-Arabic terms dictionary > American Standard Code for Information Interchange
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98 parity
"The quality of sameness or equivalence, in the case of computers usually referring to an error-checking procedure in which the number of 1s must always be the same --either even or odd-- for each group of bits transmitted without error." -
99 physical address extension
"A feature that allows x86-based computers to support more than 4 gigabytes (GB) of physical memory. Up to 64 GB of physical memory can be used as regular 4-kilobyte (KB) pages, and the number of bits that can be used by the kernel to address physical memory can be expanded from 32 to 36."English-Arabic terms dictionary > physical address extension
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100 PAE
"A feature that allows x86-based computers to support more than 4 gigabytes (GB) of physical memory. Up to 64 GB of physical memory can be used as regular 4-kilobyte (KB) pages, and the number of bits that can be used by the kernel to address physical memory can be expanded from 32 to 36."
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