parallel computers

parallel computers

Макаров: параллельные компьютеры

parallel computers

• компютър с паралелно действие

an implementation of Ri-SCF on parallel computers

Макаров: реализация метода ССП с использованием процедуры приведения к единице на параллельных компьютерах

implementation of Ri-SCF on parallel computers

Макаров: реализация метода ССП с использованием процедуры приведения к единице на параллельных компьютерах

sequential parallel computers

• компютър с паралелно-последователно действие

parallel computer

параллельный компьютер

вычислительная система с распараллеливанием выполнения операций на множестве арифметических и логических блоков (процессоров). Более широко параллельный компьютер определяется как набор процессоров, работающих совместно над решением вычислительной задачи. Различают параллельные системы с общей и распределённой оперативной памятью, многопроцессорные, многокомпьютерные (многомашинные) и сети рабочих станций. Такие машины могут быть различной производительности - от параллельных суперкомпьютеров (parallel supercomputer) до параллельных встраиваемых систем.

"As parallel computers become more common, and as common computers become more parallel, it is important that the programmer cast off shackles of sequential thought" (Geraint Jones). — По мере того как параллельные компьютеры становятся всё более обычными, а обычные компьютеры более параллельными, программист просто обязан сбрасывать с себя оковы последовательного мышления см. тж. computer, MP system, MPP, multiprocessor, parallel processing, SMP, SSP, systolic processor

parallel mode

<tech.gen> (e.g. computers) ■ Simultanbetrieb m

<edp.autom> ■ Parallelbetrieb m

parallel operation

<tech.gen> (e.g. engines, turbines, conveyor systems) ■ Parallelbetrieb m

<tech.gen> (e.g. computers) ■ Simultanbetrieb m

< convey> (of pumps) ■ Parallelbetrieb m

parallel interface

n COMP, PRINT computers parallele Schnittstelle f, Parallelschnittstelle f

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 ■ Woods, W. A. (1975). What's in a link: Foundations for semantic networks. In D. G. Bobrow & A. Collins (Eds.), Representations and understanding: Studies in cognitive science (pp. 35-84). New York: Academic Press.

 ■ Woodworth, R. S. (1938). Experimental psychology. New York: Holt; London: Methuen (1939).

 ■ Wundt, W. (1904). Principles of physiological psychology (Vol. 1). E. B. Titchener (Trans.). New York: Macmillan.

 ■ Wundt, W. (1907). Lectures on human and animal psychology. J. E. Creighton & E. B. Titchener (Trans.). New York: Macmillan.

 ■ Young, J. Z. (1978). Programs of the brain. New York: Oxford University Press.

 ■ Ziman, J. (1978). Reliable knowledge: An exploration of the grounds for belief in science. Cambridge: Cambridge University Press.

computer

1) компьютер; вычислительная машина; ЭВМ; вычислительное устройство; вычислитель; редк. процессор

2) редк. счётная машина (см. тж calculator, machine)

•

- active computer

- adaptive computer
- airborne computer
- all-applications computer
- all-purpose computer
- alternating-current analog computer
- analog computer
- analog-digital computer
- arbitrary sequence computer
- associative computer
- asynchronous computer
- automotive computer
- baby-sized computer
- back-end computer
- batch-oriented computer
- battery-operated computer
- binary computer
- binary-transfer computer
- board computer
- boutique computer
- brand-name computer
- breadboard computer
- buffered computer
- business computer
- business-oriented computer
- byte computer
- byte-organized computer
- byte-oriented computer
- cassette-based computer
- census computer
- central computer
- character-oriented computer
- chemical-based computer
- chess computer
- CISC computer
- commercial computer
- commodity computer
- communication computer
- communications oriented computer
- compatible computer
- complete-instruction-set computer
- concurrent computer
- consecutive computer
- consecutive sequence computer
- continuously acting computer
- control computer
- control flow computer
- correlation computer
- coupled computers
- cryogenic computer
- cryotron computer
- custom computer
- database computer
- data-flow computer
- decimal computer
- dedicated computer
- desk computer
- desk-size computer
- desk-top computer
- dialing set computer
- dial set computer
- digital computer
- direct execution computer
- direct-analogy computer
- direct-current computer
- diskless computer
- distributed logic computer
- drum computer
- dual-processor computer
- education computer
- electromechanical analog computer
- electronic tube computer
- electron tube computer
- electronic computer
- end-user computer
- ever-faster computer
- externally programmed computer
- fault-tolerant computer
- fifth-generation computer
- file computer
- first-generation computer
- fixed word-length computer
- fixed-point computer
- fixed-program computer
- flat screen computer
- floating-point computer
- fluid computer
- four-address computer
- fourth-generation computer
- fractional computer
- front-end computer
- gateway computer
- general-purpose computer
- giant computer
- giant-powered computer
- giant-scale computer
- giant-size computer
- gigacycle computer
- gigahertz computer
- guidance computer
- handheld computer
- high-end computer
- high-function computer
- high-level language computer
- high-level computer
- highly parallel computer
- high-performance computer
- high-speed computer
- hobby computer
- home banking computer
- home computer
- host computer
- hybrid computer
- IBM-compatible computer
- IC computer
- incompatible computer
- incremental computer
- industrial computer
- integrated circuit computer
- interface computer
- interim computer
- intermediate computer
- internally programmed computer
- Internet computer
- keyboard computer
- kid computer
- laptop computer
- large computer
- large-powered computer
- large-scale computer
- large-scale integration circuit computer
- large-size computer
- laser computer
- linkage computer
- local computer
- logical computer
- logic computer
- logic-controlled sequential computer
- logic-in-memory computer
- low-end computer
- low-profile computer
- low-speed computer
- LSI computer
- mainframe computer
- massively parallel computer
- master computer
- mechanical computer
- medium computer
- medium-powered computer
- medium-size computer
- medium-speed computer
- medium-to-large scale computer
- mediun-scale computer
- megacycle computer
- megahertz computer
- microprogrammable computer
- microwave computer
- mid-range computer
- molecular computer
- monoprocessor computer
- multiaddress computer
- multi-MIPS computer
- multiple-access computer
- multiple-user computer
- multiprocessor computer
- multiprogrammed computer
- multipurpose computer
- multiradix computer
- navigation computer
- net node computer
- networked computer
- N-node computer
- no-address computer
- node computer
- nonsequential computer
- nonstop computer
- non-von Neumann computer
- notebook computer
- object computer
- office computer
- off-the-shelf computer
- one-address computer
- one-and-half-address computer
- one-on-one computer
- one-purpose computer
- optical computer
- optical path computer
- original computer
- palm-size computer

- palmtop computer

- parallel computer

- parallel-processing computer
- parallel-serial computer
- parametric-electronic computer
- parametron computer
- pen-based computer
- pentop computer
- perihperal support computer
- peripheral computer
- personal computer
- pictorial computer
- pipeline computer
- plugboard computer
- plug-compatible computer
- plugged program computer
- pneumatic computer
- pocket computer
- Polish-string computer
- polynomial computer
- portable computer
- process control computer
- production control computer
- professional computer
- professional personal computer
- program-compatible computer
- program-controlled computer
- programmed computer
- punch-card computer
- rack-size computer
- radix two computer
- real-time computer
- recovering computer
- reduced instruction set computer
- reduction computer
- remote computer
- repetitive computer
- RISC computer
- satellite computer
- scientific computer
- second-generation computer
- secondhand computer
- self-adapting computer
- self-organizing computer
- self-programming computer
- self-repairing computer
- self-repair computer
- sensor-based computer
- sequence-controlled computer
- sequenced computer
- sequential computer
- serial computer
- service computer
- service-oriented computer
- SIMD computer
- simultaneous-operation computer
- simultaneous computer
- single-address computer
- single-board computer
- single-purpose computer
- single-user computer
- slave computer
- small computer
- small-powered computer
- small-scale computer
- small-size computer
- soft-compatible computer
- solid-state computer
- SOS computer
- source computer
- space computer
- spaceborne computer
- special-purpose computer
- special computer
- square-root computer
- stack-oriented computer
- standby computer
- statistical computer
- steering computer
- stored-program computer
- subscriber computer
- super computer
- superconductive computer
- superhigh-speed computer
- superpersonal computer
- superspeed computer
- supervisory computer
- switch-control computer
- switching computer
- symbolic computer
- synchronous computer
- synchronous tracking computer
- tagged computer
- talking computer
- target computer
- technical computer
- technical personal computer
- terminal computer
- terminal control computer
- ternary-transfer computer
- tessellated computer
- thermal computer
- thin-film memory computer
- third-generation computer
- three-address computer
- three-dimensional analog computer
- timeshared computer
- top level computer
- top-of-the-line computer
- toy computer
- training computer
- transformation computer
- transistorized computer
- transistor computer
- translating computer
- tridimensional analog computer
- trip computer
- truth-table computer
- Turing-type computer
- two-address computer
- ultrafast computer
- underlying computer
- user computer
- vacuum tube computer
- variable word-length computer
- very-high-speed computer
- video-and-cassette-based computer
- virtual computer
- von Neumann computer
- wearable computer
- weather computer
- wired-program computer
- word-oriented computer
- workgroup computer
- X-computer
- zero-address computer

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

computer

= cmpr

1) компьютер

а) вычислительная машина, ВМ

б) электронная вычислительная машина, ЭВМ

2) вычислительное устройство, вычислитель

•

- airspeed computer

- analog computer
- analog-digital computer

- Apple Macintosh computer

- arbitrary course computer

- asynchronous computer
- AT-compatible computer
- automatic computer
- azimuth rate computer
- beam-steering computer
- bearing distance computer
- board computer
- briefcase computer
- bubble-domain computer
- buffered computer
- business computer
- client computer
- clipboard computer
- coherent optical computer
- communication computer
- complex instruction set computer
- control computer
- course-line computer
- cryogenic computer

- data analog computer

- database computer

- dead-reckoning computer
- dedicated computer
- desktop computer
- digital computer
- discontinued computer
- diskless computer
- dockable computer
- docked computer
- electronic digital computer
- embedded personal computer
- fifth generation computer
- first generation computer
- fixed-program computer
- flight computer
- flight-path computer
- fluid computer
- fluid-jet computer
- follow-on computer
- fourth generation computer
- fuzzy computer
- general-purpose computer
- green computer
- guest computer
- guidance computer
- guidance and navigation computer
- hand-held personal computer
- high-end computer
- home computer
- host computer
- hybrid computer
- IBM-compatible computer
- industrial computer
- interface computer
- keyboard computer
- keyboardless computer
- laptop computer
- legacy-free computer
- logarithmic computer
- mainframe computer
- massively parallel computer
- master computer
- member computer
- memory test computer
- microfluidic computer
- microprogrammable computer
- mobile computer
- mobile network computer
- multiaccess computer
- multihomed computer
- multimedia personal computer
- multi-user computer
- navigation computer
- network computer
- nonsequential computer
- notebook computer
- object computer
- office computer
- off-line computer
- offset-course computer
- on-board computer
- one-address computer
- on-hand wearable personal computer
- on-line computer
- optical computer
- palmtop personal computer
- parallel computer
- parallel course computer
- parallel digital computer
- Pel computer
- pen computer
- pen-based computer
- performance optimized with enhanced RISC personal computer
- peripheral computer
- personal computer
- pipelined computer
- plugboard computer
- pocket computer
- pocket personal computer
- pocket-size personal computer
- portable computer
- process computer
- process control computer
- quantum computer
- radiac computer
- range computer
- reduced instruction set computer
- remote computer
- rho-theta computer
- ruggedized computer
- satellite computer
- scientific computer
- second generation computer
- sequential computer
- serial computer
- serial digital computer
- simultaneous computer
- single-board computer
- single-chip computer
- slave computer
- small business computer
- solid-state computer
- sonar data computer
- source computer
- special-purpose computer
- stack-oriented computer
- standalone computer
- stored-program computer
- superconducting computer
- supervisory computer
- synchronous computer
- synergetic computer
- talking computer
- tandem computers
- target intercept computer
- tesselated computer
- third generation computer
- three-address computer
- Total Talk computer
- tse computer
- ultralight computer
- undocked computer
- universal computer
- wired-program computer
- zero wait state computer

computer

1) компьютер

а) вычислительная машина, ВМ

б) электронная вычислительная машина, ЭВМ

2) вычислительное устройство, вычислитель

•

- airspeed computer

- analog computer
- analog-digital computer
- Apple Macintosh computer
- arbitrary course computer
- asynchronous computer
- AT-compatible computer
- automatic computer
- azimuth rate computer
- beam-steering computer
- bearing distance computer
- board computer
- briefcase computer
- bubble-domain computer
- buffered computer
- business computer
- client computer
- clipboard computer
- coherent optical computer
- communication computer
- complex instruction set computer
- control computer
- course-line computer
- cryogenic computer
- data analog computer
- database computer
- dead-reckoning computer
- dedicated computer
- desktop computer
- digital computer
- discontinued computer
- diskless computer
- dockable computer
- docked computer
- electronic digital computer
- embedded personal computer
- fifth generation computer
- first generation computer
- fixed-program computer
- flight computer
- flight-path computer
- fluid computer
- fluid-jet computer
- follow-on computer
- fourth generation computer
- fuzzy computer
- general-purpose computer
- green computer
- guest computer
- guidance and navigation computer
- guidance computer
- hand-held personal computer
- high-end computer
- home computer
- host computer
- hybrid computer
- IBM-compatible computer
- industrial computer
- interface computer
- keyboard computer
- keyboardless computer
- laptop computer
- legacy-free computer
- logarithmic computer
- mainframe computer
- massively parallel computer
- master computer
- member computer
- memory test computer
- microfluidic computer
- microprogrammable computer
- mobile computer
- mobile network computer
- multiaccess computer
- multihomed computer
- multimedia personal computer
- multi-user computer
- navigation computer
- network computer
- nonsequential computer
- notebook computer
- object computer
- office computer
- off-line computer
- offset-course computer
- on-board computer
- one-address computer
- on-hand wearable personal computer
- on-line computer
- optical computer
- palmtop personal computer
- parallel computer
- parallel course computer
- parallel digital computer
- Pel computer
- pen computer
- pen-based computer
- performance optimized with enhanced RISC personal computer
- peripheral computer
- personal computer
- pipelined computer
- plugboard computer
- pocket computer
- pocket personal computer
- pocket-size personal computer
- portable computer
- process computer
- process control computer
- quantum computer
- radiac computer
- range computer
- reduced instruction set computer
- remote computer
- rho-theta computer
- ruggedized computer
- satellite computer
- scientific computer
- second generation computer
- sequential computer
- serial computer
- serial digital computer
- simultaneous computer
- single-board computer
- single-chip computer
- slave computer
- small business computer
- solid-state computer
- sonar data computer
- source computer
- special-purpose computer
- stack-oriented computer
- standalone computer
- stored-program computer
- superconducting computer
- supervisory computer
- synchronous computer
- synergetic computer
- talking computer
- tandem computers
- target intercept computer
- tesselated computer
- third generation computer
- three-address computer
- Total Talk computer
- tse computer
- ultralight computer
- undocked computer
- universal computer
- wired-program computer
- zero wait state computer

multiprocessing

n. (Computers) vermogen meer dan een proces gelijktijdig uit te voeren; het parallel optreden, simultaan gebruik van aantal computers voor verwerkingsopdrachten

multiprocessing

[ - proosessing] 〈 computer〉

1  multiprocessing 〈 verwerking van programma's door meer processoren tegelijk〉

Information Processing

   1) Origin of the Term " Information Processing"

   The term "information processing" originated in the late fifties in the computer field as a general descriptive term that seemed somewhat less contingent and parochial than "computer science," which also came into use during the same period. Thus, it was the name of choice for two of the encompassing professional organizations formed at the time: the In ternational Federation of Information Processing Societies and the American Federation of Information Processing Societies. Although the transfer of the phrase from activities of computers to parallel activities of human beings undoubtedly occurred independently in a number of heads, the term was originally identified pretty closely with computer simulation of cognitive processes... ; that is, with the kind of effort from which arose the theory in this book. (Newell & Simon, 1972, p. 888)

    Assumptions of Information Processing Psychology

   It was because the activities of the computer itself seemed in some ways akin to cognitive processes. Computers accept information, manipulate symbols, store items in "memory" and retrieve them again, classify inputs, recognize patterns and so on.... Indeed the assumptions that underlie most contemporary work on information processing are surprisingly like those of nineteenth century introspective psychology, though without introspection itself. (Neisser, 1976, pp. 5, 7)

   2) The Processor and the Logical Nature of Problem- Solving Strategies

   The processor was assumed to be rational, and attention was directed to the logical nature of problem solving strategies. The "mature western mind" was presumed to be one that, in abstracting knowledge from the idosyncracies of particular everyday experience, employed Aristotelian laws of logic. When applied to categories, this meant that to know a category was to have an abstracted clear-cut, necessary, and sufficient criteria for category membership. If other thought processes, such as imagery, ostensive definition, reasoning by analogy to particular instances, or the use of metaphors were considered at all, they were usually relegated to lesser beings such as women, children, primitive people, or even to nonhumans. (Rosch & Lloyd, 1978, p. 2)

Computer farm

Вычислительная техника: Компьютерная ферма (HPC generally implies the coupling of parallel computing machines (also clusters of computers, multiprocessors, and computer farms) for faster computing)

IPSC

1) Военный термин: information processing standards for computers

2) Сокращение: International Practical Shooting Confederation

3) Вычислительная техника: Intel parallel scientific computer, Intel personal computer, компьютер компании Intel, компьютер компании Intel с параллельной обработкой для научных расчётов

iPSC

1) Военный термин: information processing standards for computers

2) Сокращение: International Practical Shooting Confederation

3) Вычислительная техника: Intel parallel scientific computer, Intel personal computer, компьютер компании Intel, компьютер компании Intel с параллельной обработкой для научных расчётов

SCSI

"A standard high-speed parallel interface defined by the American National Standards Institute (ANSI). A SCSI interface is used for connecting microcomputers to peripheral devices, such as hard disks and printers, and to other computers and local area networks (LANs)."

SCSI