two-dimensional memory

dvodimenzionalua memorija

• two-dimensional memory

память с двумерной организацией

1. two-dimensional memory

 

память с двумерной организацией
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[ http://www.iks-media.ru/glossary/index.html?glossid=2400324]

Тематики

• электросвязь, основные понятия

EN

• two-dimensional memory

память с двумерной организацией

Information technology: two-dimensional memory

память системы 2 D

Information technology: two-dimensional memory

матрица

two-dimensional array, array, mother blank, die block, female core, die, ( клепальной машины) dolly, master form, matrix, master полигр., mat, female mold, mold, nib, plane, ( фонограммы) stamper, swage, table

* * *

ма́трица ж.

1. маш. ( штампа) die; ( сплава) matrix

2. мат. matrix

ма́трица m на n — an m -by-n matrix

обраща́ть ма́трицу — invert a matrix

транспони́ровать ма́трицу — transpose a matrix

умножа́ть ма́трицу сле́ва — multiply a matrix on the left, premultiply a matrix, multiply a matrix by writing the multiplier before the matrix

умножа́ть ма́трицу спра́ва — multiply a matrix on the right postmultiply a matrix, multiply a matrix by writing the multiplier after the matrix

3. вчт. plane, matrix

4. полигр. mat, mould; matrix, die

5. ( алмазной коронки) геол. matrix

ма́трица без повторе́ния — non-recurrent matrix

брикетиро́вочная ма́трица с.-х. — briquetting die

бу́лева ма́трица — Boolean matrix

волочи́льная ма́трица — drawing die

ма́трица вы́борки на (ферри́товых) серде́чниках — selection core matrix

ма́трица вы́пуска — output matrix

вычисли́тельная ма́трица — computing matrix

ги́псовая ма́трица — plaster mould

грани́чная ма́трица — boundary matrix

дешифра́торная ма́трица — decoder matrix

дио́дная ма́трица — diode matrix

диспе́рсная ма́трица — dispersion matrix

едини́чная ма́трица — identity [unit] matrix

железобето́нная ма́трица — reinforced concrete jig

ма́трица запомина́ющего устро́йства — memory plane, memory matrix

ма́трица запомина́ющего устро́йства на серде́чниках — core plane, plane matrix

ма́трица имми́тансов элк. — immittance matrix

ма́трица като́дной осно́вы ( для электролиза меди) — blank of a starting sheet

квадра́тная ма́трица — square [mmm] matrix

кле́точная ма́трица — array, tableau

коди́рующая ма́трица — encoder matrix

ко́мплексная ма́трица — complex matrix

ко́мплексно-сопряжё́нная ма́трица — adjoint matrix

корреляцио́нная ма́трица — correlation matrix

кососимметри́чная ма́трица — skew-symmetric matrix

ма́трица коэффицие́нтов — matrix of coefficients

линоти́пная ма́трица — linotype matrix

логи́ческая кре́мниевая ма́трица — silicon-diode logic matrix

ма́трица магни́тного запомина́ющего устро́йства — magnetic memory matrix [plane]

моноти́пная ма́трица — monotype matrix

ма́трица на ферри́товых серде́чниках — magnetic core matrix [plane]

неосо́бенная ма́трица — non-singular matrix

несо́бственная ма́трица — improper matrix

обрати́мая ма́трица — invertible matrix

обра́тная ма́трица — inverse [reciprocal] matrix

ортогона́льная ма́трица — orthogonal matrix

осо́бенная ма́трица — singular matrix

ма́трица оши́бок — error matrix

ма́трица па́мяти — memory matrix

ма́трица па́мяти, изгото́вленная ме́тодом проши́вки — woven wire memory matrix, woven wire memory plane

переключа́тельная ма́трица — switching matrix

ма́трица перехо́да — transition (probability) matrix, matrix of transition probabilities

платё́жная ма́трица ( в теории игр) — pay-off matrix

подвесна́я ма́трица полигр. — pi matrix

подо́бные ма́трицы — similar matrices

ма́трица по́лной проводи́мости элк. — admittance matrix

ма́трица по́лных сопротивле́ний элк. — impedance matrix

положи́тельно определё́нная ма́трица мат. — positive definite matrix

ма́трица п [m2]-го поря́дка — matrix of order n

ма́трица преобразова́ния — transformation matrix

присоединё́нная ма́трица — adjugate matrix

ма́трица приспособле́ния — adaptation matrix

прове́рочная ма́трица — partly-check matrix

произво́дная ма́трица — derivative matrix

производя́щая ма́трица — generator matrix

пускова́я ма́трица косм. — launching matrix

пуста́я ма́трица полигр. — flat type matrix

ма́трица разме́рности mmn — m by n matrix, mxn matrix, an array of size mxn

ма́трица рассе́яния — scattering matrix

расши́ренная ма́трица — augmented matrix

самосопряжё́нная ма́трица — self-conjugated matrix

сигна́льная ма́трица тлв. — signal matrix

симметри́чная ма́трица — symmetric(al) matrix

сингуля́рная ма́трица — singular matrix

ма́трица систе́мы, переда́точная — system transfer matrix

сопряжё́нная ма́трица — adjoint of a matrix

составна́я ма́трица

1. маш. sectional [split] die

2. мат. composite matrix

стальна́я ма́трица полигр. — steel matrix

ма́трица с m столбца́ми — m -column matrix

ма́трица с n строка́ми — n -rowed matrix

стохасти́ческая ма́трица — stochastic matrix

структу́рная ма́трица — structural matrix

транспони́рованная ма́трица — transpose of a matrix, transposed matrix

унимода́льная ма́трица — unimodal matrix

унимодуля́рная ма́трица — unimodular matrix

унита́рная ма́трица — unitary matrix

ферри́товая ма́трица — magnetic core matrix [plane]

ферри́товая ма́трица с лине́йной вы́боркой — linear [word] selection core matrix, word-organized core matrix [plane]

ферри́товая ма́трица с пло́ской вы́боркой — plane-selection [bit-organized] core matrix [plane]

характеристи́ческая ма́трица — characteristic matrix

цветна́я ма́трица тлв. — colour matrix

целлуло́идная ма́трица — celluloid mould

ма́трица це́пи эл. — circuit matrix

шифра́торная ма́трица — encoder matrix

эквивале́нтные ма́трицы — equivalent matrices

эрми́това ма́трица — Hermitian matrix

эрми́тово-сопряжё́нная ма́трица — Hermitian conjugate matrix

этало́нная ма́трица — master die

плоская матрица

two-dimensional array

клеточная матрица — array

матрица ЗУ — memory array

ячейка матрицы — array cell

матрица схем — circuit array

матрица целей — target array

двумерная матрица

1. two-dimensional array

матрица элементов памяти — array memory

плоская матрица — two-dimensional array

решетка - матрица — matrix array system

конденсаторная матрица — capacitor array

матрица полевых транзисторов — fet array

2. two-dimensional matrix

матрица льда — icy matrix

матрица точек — dot matrix

ранг матрицы — matrix rank

матрица массы — mass matrix

полная матрица — full matrix

программируемая логическая матрица

1. prodrammable logic array

плоская матрица — two-dimensional array

решетка - матрица — matrix array system

конденсаторная матрица — capacitor array

матрица полевых транзисторов — fet array

матрица транспьютеров — transputer array

2. programmable logic array

интегральная матрица — integrated array

матрица с красным свечением — red array

матрица элементов памяти — array memory

ассоциативная матрица — associative array

двумерная матрица — two-dimensional array

память с выборкой слова по двум координатам

Information technology: two-dimensional word selection memory

плоскость

1) General subject: angle, flat, flatness, level, plain, plane, platitude, pointlessness, vapidity, square

2) Geology: sheet

3) Naval: baseplane

4) Medicine: area

5) Engineering: E plane, H plane, flat surface, horizontality, image plane (в ЗУ изображений), imaging plane (в ЗУ изображений), memory plane (в ЗУ изображений), mid-perpendicular plane, panel, planar surface, plane surface, storage plane (в ЗУ изображений)

6) Chemistry: floor

7) Construction: flat area

8) Mathematics: subspace, two-dimensional subspace, xOy xy-plane

9) Railway term: pan

10) Mining: wall (отдельности)

11) Information technology: surface

12) Oil: bottom (забоя)

13) Microelectronics: face

14) Automation: plain face, plain surface

15) Oceanography: apron

16) Makarov: back (кливажа), plainless, plate, pointlessness (шутки)

17) Gold mining: plane (напр. low angle thrust planes)

18) Electrochemistry: plane (кристалла)

коммутационная матрица

1. crosspoint array

матрица элементов памяти — array memory

плоская матрица — two-dimensional array

решетка - матрица — matrix array system

конденсаторная матрица — capacitor array

матрица полевых транзисторов — fet array

2. interconnect matrix

матрица с m столбцами — m-column matrix

матрица соединений — matrix of coupling

несобственная матрица — improper matrix

перекрестная матрица — cross-bar matrix

производная матрица — derivative matrix

конденсаторная матрица

capacitor array

матрица элементов памяти — array memory

плоская матрица — two-dimensional array

решетка - матрица — matrix array system

матрица полевых транзисторов — fet array

матрица транспьютеров — transputer array

программируемая вентильная матрица

programmable gate array

матрица элементов памяти — array memory

плоская матрица — two-dimensional array

решетка - матрица — matrix array system

конденсаторная матрица — capacitor array

матрица полевых транзисторов — fet array

разрядная систолическая матрица

bit-level systolic array

матрица элементов памяти — array memory

плоская матрица — two-dimensional array

решетка - матрица — matrix array system

конденсаторная матрица — capacitor array

матрица полевых транзисторов — fet array

реконфигурируемая вентильная матрица

configurable gate array

матрица элементов памяти — array memory

плоская матрица — two-dimensional array

решетка - матрица — matrix array system

конденсаторная матрица — capacitor array

матрица полевых транзисторов — fet array

светоизлучающая матрица

light-emitting array

матрица элементов памяти — array memory

плоская матрица — two-dimensional array

решетка - матрица — matrix array system

конденсаторная матрица — capacitor array

матрица полевых транзисторов — fet array

ассоциативная матрица

associate array

матрица элементов памяти — array memory

плоская матрица — two-dimensional array

решетка - матрица — matrix array system

конденсаторная матрица — capacitor array

матрица полевых транзисторов — fet array

spazio

m (pl -zi) space

spazio aereo airspace

* * *

spazio s.m.

1 ( estensione illimitata) space: la concezione di spazio, the concept of space; (fis.) spazio a quattro dimensioni, quadrimensionale, four-dimensional space (o space-time continuum) // (mat.): spazio euclideo, Euclidean space; spazio fibrato, fibre bundle; spazio normato, normed space; spazio vettoriale, vector space

2 (astr.) space: spazio cosmico, space; spazio interplanetario, interplanetary space; spazio interstellare, interstellar (o outer) space; uomo nello spazio, man in space; gravitare nello spazio, to gravitate in space

3 ( posto) space; room; ( distanza) distance: non c'è spazio qui per questa sedia, there is no room here for this chair; le due case erano separate da uno spazio di dieci metri, there was a distance (o space) of ten metres between the two houses; questo armadio occupa troppo spazio, this wardrobe takes up too much room (o space); non ti scrivo altro per mancanza di spazio, I won't write any more for lack of space; non c'è spazio sufficiente per far giocare i bambini, there's not enough room for the children to play; lo spazio percorso, the distance run // spazio vitale, living-space: siamo troppi qui dentro, manca lo spazio vitale, there are too many of us here, there is not enough living-space // fare spazio a qlcu., to make room for s.o.: fate spazio per favore, sta arrivando il presidente!, clear some space (o the way), the president is coming! // dar spazio a un avvenimento, to give space to an event // spazio pubblicitario, advertising space // spazio di frenatura, ( di veicoli) braking-distance // spazio aereo, airspace; chiudere uno spazio aereo, to close an airspace // (elettr.) spazio esplosivo, spark-gap // (mecc.) spazio nocivo, clearance volume // (anat.) spazio intercostale, interdentale, intercostal, interdental space // (inform.): spazio in memoria, memory space; spazio da riempire, vuoto, non utilizzato, blank; spazio intercalare, embedded blank

4 ( estensione di tempo) period, space: nello spazio di due ore, di un anno, in the space of two hours, of a year

5 (fig.) ( opportunità) scope: il mercato del lavoro non offre molto spazio ai giovani, there is not much scope for the young in the labour market; non c'è molto spazio per migliorare in questo lavoro, there isn't much scope in this job

6 (tip.) space: spazio da 4, 4-em space; spazio finissimo, hair space; spazio in bianco, blank (space)

7 (mus.) space.

* * *

pl. -zi ['spattsjo, tsi] sostantivo maschile

1) astr. filos. space

2) (posto) room U, space U

spazio per le gambe — legroom

occupare molto spazio — to take up a lot of room o space

avere poco spazio — to be short of room

fare spazio per o a to make room for [oggetto, persona]; non c'è molto spazio per muoversi in questo ufficio — there isn't much elbowroom in this office

3) (area) space

spazio verde — green area

- i aperti — open space

i grandi -zi aperti — the great outdoors

4) fig. (opportunità)

dare spazio a qcn. — to give sb. space

non lascia spazio a dubbi — there is no room for doubt

5) (distanza) space, gap, clearance

uno spazio di 5 cm tra l'auto e il muro — a 5 cm clearance o space between the car and the wall

6) (di tempo)

nello spazio di dieci minuti — in o within the space of ten minutes

7) tip. space

8) scol. blank

riempire gli -zi vuoti — to fill in the blanks

9) inform.

spazio su disco — disk space

•

spazio aereo — air space

spazio di frenata — braking distance

spazio pubblicitario — advertising space

spazio vitale — living space

* * *

spazio

pl. -zi /'spattsjo, tsi/

sostantivo m.

 1 astr. filos. space

 2 (posto) room U, space U; spazio per le gambe legroom; occupare molto spazio to take up a lot of room o space; avere poco spazio to be short of room; fare spazio per o a to make room for [oggetto, persona]; non c'è molto spazio per muoversi in questo ufficio there isn't much elbowroom in this office

 3 (area) space; spazio verde green area; - i aperti open space; i grandi -zi aperti the great outdoors

 4 fig. (opportunità) dare spazio a qcn. to give sb. space; non lascia spazio a dubbi there is no room for doubt

 5 (distanza) space, gap, clearance; uno spazio di 5 cm tra l'auto e il muro a 5 cm clearance o space between the car and the wall

 6 (di tempo) nello spazio di dieci minuti in o within the space of ten minutes

 7 tip. space

 8 scol. blank; riempire gli -zi vuoti to fill in the blanks

 9 inform. spazio su disco disk space

COMPOUNDS

spazio aereo air space; spazio di frenata braking distance; spazio pubblicitario advertising space; spazio vitale living space.

Forrester, Jay Wright

SUBJECT AREA: Electronics and information technology

[br]

b. 14 July 1918 Anselmo, Nebraska, USA

[br]

American electrical engineer and management expert who invented the magnetic-core random access memory used in most early digital computers.

[br]

Born on a cattle ranch, Forrester obtained a BSc in electrical engineering at the University of Nebraska in 1939 and his MSc at the Massachusetts Institute of Technology (MIT) in Cambridge, Massachusetts, where he remained to teach and carry out research. Becoming interested in computing, he established the Digital Computer Laboratory at MIT in 1945 and became involved in the construction of Whirlwind I, an early general-purpose computer completed in March 1951 and used for flight-simulation by the US Army Air Force. Finding the linear memories then available for storing data a major limiting factor in the speed at which computers were able to operate, he developed a three-dimensional store based on the binary switching of the state of small magnetic cores that could be addressed and switched by a matrix of wires carrying pulses of current. The machine used parallel synchronous fixed-point computing, with fifteen binary digits and a plus sign, i.e. 16 bits in all, and contained 5,000 vacuum tubes, eleven semiconductors and a 2 MHz clock for the arithmetic logic unit. It occupied a two-storey building and consumed 150kW of electricity. From his experience with the development and use of computers, he came to realize their great potential for the simulation and modelling of real situations and hence for the solution of a variety of management problems, using data communications and the technique now known as interactive graphics. His later career was therefore in this field, first at the MIT Lincoln Laboratory in Lexington, Massachusetts (1951) and subsequently (from 1956) as Professor at the Sloan School of Management at the Massachusetts Institute of Technology.

[br]

Principal Honours and Distinctions

National Academy of Engineering 1967. George Washington University Inventor of the Year 1968. Danish Academy of Science Valdemar Poulsen Gold Medal 1969. Systems, Man and Cybernetics Society Award for Outstanding Accomplishments 1972. Computer Society Pioneer Award 1972. Institution of Electrical Engineers Medal of Honour 1972. National Inventors Hall of Fame 1979. Magnetics Society Information Storage Award 1988. Honorary DEng Nebraska 1954, Newark College of Engineering 1971, Notre Dame University 1974. Honorary DSc Boston 1969, Union College 1973. Honorary DPolSci Mannheim University, Germany. Honorary DHumLett, State University of New York 1988.

Bibliography

1951, "Data storage in three dimensions using magnetic cores", Journal of Applied Physics 20: 44 (his first description of the core store).

Publications on management include: 1961, Industrial Dynamics, Cambridge, Mass.: MIT Press; 1968, Principles of Systems, 1971, Urban Dynamics, 1980, with A.A.Legasto \& J.M.Lyneis, System Dynamics, North Holland. 1975, Collected Papers, Cambridge, Mass.: MIT.

Further Reading

K.C.Redmond \& T.M.Smith, Project Whirlwind, the History of a Pioneer Computer (provides details of the Whirlwind computer).

H.H.Goldstine, 1993, The Computer from Pascal to von Neumann, Princeton University Press (for more general background to the development of computers).

Serrell et al., 1962, "Evolution of computing machines", Proceedings of the Institute of

Radio Engineers 1,047.

M.R.Williams, 1975, History of Computing Technology, London: Prentice-Hall.

See also: Burks, Arthur Walter; Goldstine, Herman H.; Wilkes, Maurice Vincent; Williams, Sir Frederic Calland

KF

Consciousness

   1) Consciousness and the New Mysterians

   Consciousness is what makes the mind-body problem really intractable.

... Without consciousness the mind-body problem would be much less interesting. With consciousness it seems hopeless. (T. Nagel, 1979, pp. 165-166)

   2) Consciousness and Sensory Qualia

   This approach to understanding sensory qualia is both theoretically and empirically motivated... [;] it suggests an effective means of expressing the allegedly inexpressible. The "ineffable" pink of one's current visual sensation may be richly and precisely expressed as a 95Hz/80Hz/80Hz "chord" in the relevant triune cortical system. The "unconveyable" taste sensation produced by the fabled Australian health tonic Vegamite might be poignantly conveyed as a 85/80/90/15 "chord" in one's four channeled gustatory system.... And the "indescribably" olfactory sensation produced by a newly opened rose might be quite accurately described as a 95/35/10/80/60/55 "chord" in some six-dimensional space within one's olfactory bulb. (P. M. Churchland, 1989, p. 106)

   3) Consciousness Appears to Be the Last Bastion of Occult Properties

   One of philosophy's favorite facets of mentality has received scant attention from cognitive psychologists, and that is consciousness itself: fullblown, introspective, inner-world phenomenological consciousness. In fact if one looks in the obvious places... one finds not so much a lack of interest as a deliberate and adroit avoidance of the issue. I think I know why. Consciousness appears to be the last bastion of occult properties, epiphenomena, and immeasurable subjective states-in short, the one area of mind best left to the philosophers, who are welcome to it. Let them make fools of themselves trying to corral the quicksilver of "phenomenology" into a respectable theory. (Dennett, 1978b, p. 149)

   4) Consciousness Can Be Resolved into Its Elementary Sensations

   When I am thinking about anything, my consciousness consists of a number of ideas.... But every idea can be resolved into elements... and these elements are sensations. (Titchener, 1910, p. 33)

   5) Consciousness Is an Aspect of the Darwinian Machine

   A Darwin machine now provides a framework for thinking about thought, indeed one that may be a reasonable first approximation to the actual brain machinery underlying thought. An intracerebral Darwin Machine need not try out one sequence at a time against memory; it may be able to try out dozens, if not hundreds, simultaneously, shape up new generations in milliseconds, and thus initiate insightful actions without overt trial and error. This massively parallel selection among stochastic sequences is more analogous to the ways of darwinian biology than to the "von Neumann" serial computer. Which is why I call it a Darwin Machine instead; it shapes up thoughts in milliseconds rather than millennia, and uses innocuous remembered environments rather than noxious real-life ones. It may well create the uniquely human aspect of our consciousness. (Calvin, 1990, pp. 261-262)

   6) Problems about Consciousness Arise from Use of the Personal Pronoun "I"

   To suppose the mind to exist in two different states, in the same moment, is a manifest absurdity. To the whole series of states of the mind, then, whatever the individual, momentary successive states may be, I give the name of our consciousness.... There are not sensations, thoughts, passions, and also consciousness, any more than there is quadruped or animal, as a separate being to be added to the wolves, tygers, elephants, and other living creatures.... The fallacy of conceiving consciousness to be something different from the feeling, which is said to be its object, has arisen, in a great measure, from the use of the personal pronoun I. (T. Brown, 1970, p. 336)

   7) The Capacity for Consciousness and Self- Consciousness Is Characteristically Human

   The human capacity for speech is certainly unique. But the gulf between it and the behavior of animals no longer seems unbridgeable.... What does this leave us with, then, which is characteristically human?.... t resides in the human capacity for consciousness and self-consciousness. (Rose, 1976, p. 177)

   8) The Origin of the Problems of Consciousness

   [Human consciousness] depends wholly on our seeing the outside world in such categories. And the problems of consciousness arise from putting reconstitution beside internalization, from our also being able to see ourselves as if we were objects in the outside world. That is in the very nature of language; it is impossible to have a symbolic system without it.... The Cartesian dualism between mind and body arises directly from this, and so do all the famous paradoxes, both in mathematics and in linguistics.... (Bronowski, 1978, pp. 38-39)

   9) Views on Consciousness and Computation

   It seems to me that there are at least four different viewpoints-or extremes of viewpoint-that one may reasonably hold on the matter [of computation and conscious thinking]:

   A. All thinking is computation; in particular, feelings of conscious awareness are evoked merely by the carrying out of appropriate computations.

   B. Awareness is a feature of the brain's physical action; and whereas any physical action can be simulated computationally, computational simulation cannot by itself evoke awareness.

   C. Appropriate physical action of the brain evokes awareness, but this physical action cannot even be properly simulated computationally.

   D. Awareness cannot be explained by physical, computational, or any other scientific terms. (Penrose, 1994, p. 12)