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1 computer design language
1) Техника: машинный язык проектирования2) Микроэлектроника: язык проектирования вычислительных системУниверсальный англо-русский словарь > computer design language
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2 computer design language
мова проектування обчислювальних системEnglish-Ukrainian dictionary of microelectronics > computer design language
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3 computer design
English-Russian dictionary of Information technology > computer design
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4 computer system design language
Техника: машинный язык для проектирования ЭВМУниверсальный англо-русский словарь > computer system design language
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5 language
- advanced Boolean expression language
- advanced continuous simulation language
- application control language
- application data description language
- asynchronous circuit design language
- basic design language for structure
- behavioral description language
- behavioral modeling language
- block diagram language
- block structured language
- computer language
- computer design language
- computer-sensitive language
- context-sensitive matrix language
- continuous system modeling program language
- continuous system simulation language
- control and simulation language
- data асcess system language
- declarative language
- design language
- digital design language
- formal layout description language
- general-purpose language
- geometrical layout description language
- graphics-oriented language
- hardware description language
- hierarchical specification language
- high-level language
- imperative language
- integrated-circuit design language
- linear information processing language
- linkage control language
- logic, timing, sequencing language
- low-level language
- machine-dependent language
- machine-independent language
- modeling language
- modular language
- multilevel-architecture description language
- network description language
- network restructuring language
- nonprocedural language
- operating-system simulation language
- operational control language
- operator-oriented language
- overview language
- parallel context-free array language
- problem-oriented language
- procedural language
- program assembly language
- rational language
- real-time language
- register transfer level language
- self-extending language
- structured design language
- structure description language
- symbolic layout description language
- type 0 1, 2, 3 language
- type 0 language -
6 language
1) языка) естественный язык, средство человеческого общенияб) система знаков, жестов или сигналов для передачи или хранения информациив) стильг) речь2) языкознание, лингвистика•- actor language
- agent communication language
- a-hardware programming language - application-oriented language
- applicative language
- a-programming language
- artificial language
- assembler language
- assembly language
- assignment language
- author language
- authoring language - business-oriented programming language
- categorical language - configuration language
- constraint language
- combined programming language
- command language
- common language
- common business-oriented language
- compiled language
- compiler language
- computer language
- computer-dependent language - computer-oriented language
- computer-sensitive language
- concurrent language - context- sensitive language
- conversational language
- coordinate language
- database language
- database query language - data structure language
- digital system design language
- declarative language
- declarative markup language
- definitional language
- definitional constraint language
- design language
- device media control language - dynamically scoped language - elementary formalized language
- embedding language
- event-driven language
- expression language
- extensible language - formalized language - functional language
- functional programming language - graph-oriented language - high-order language
- host language - hypersymbol language
- imperative language
- in-line language
- input language
- intelligent language
- interactive language - interpreted language - Java programming language - lexically scoped language
- list-processing language
- low-level language
- machine language
- machine-independent language
- machine-oriented language
- macro language
- manipulator language - meta language
- mnemonic language
- musical language - native-mode language
- natural language - nonprocedural language
- object language
- object-oriented language - physical language
- picture query language
- portable language
- portable standard language
- polymorphic language - print control language
- problem-oriented language
- problem statement language
- procedural language
- procedure-oriented language
- program language
- programming language
- publishing language
- query language
- question-answering language
- register-transfer language
- regular language
- relational language
- right-associative language
- robot language
- robot-level language
- robotic control language
- rule language
- rule-oriented language
- scientific programming language
- script language
- scripting language - sign language
- single-assignment language
- software command language
- source language
- special-purpose programming language
- specification language - stratified language
- stream language
- string-handling language - strongly-typed language - symbolic language - thing language - tone language
- two-dimensional pictorial query language
- typed language
- typeless language
- unchecked language
- unformalized language
- universal language
- unstratified language
- untyped language
- user-oriented language
- very high-level language - well-structured programming language -
7 language
1) языка) естественный язык, средство человеческого общенияб) система знаков, жестов или сигналов для передачи или хранения информациив) стильг) речь2) языкознание, лингвистика•- a programming language
- abstract machine language
- actor language
- agent communication language
- algebraic logic functional language
- algorithmic language
- amorhic language
- application-oriented language
- applicative language
- artificial language
- assembler language
- assembly language
- assignment language
- author language
- authoring language
- axiomatic architecture description language
- basic combined programming language
- block-structured language
- boundary scan description language
- business-oriented language
- business-oriented programming language
- categorical abstract machine language
- categorical language
- cellular language
- combined programming language
- command language
- common business-oriented language
- common language
- compiled language
- compiler language
- computer hardware description language
- computer language
- computer-dependent language
- computer-independent language
- computer-oriented language
- computer-sensitive language
- concurrent language
- configuration language
- constraint language
- context-free language
- context-sensitive language
- conversational language
- coordinate language
- data definition language
- data description language
- data manipulation language
- data structure language
- database language
- database query language
- declarative language
- declarative markup language
- definitional constraint language
- definitional language
- design language
- device media control language
- digital system design language
- document style semantics and specification language
- domain-specific language
- dynamic hypertext markup language
- dynamic simulation language
- dynamically scoped language
- elementary formalized language
- embedding language
- event-driven language
- expression language
- extensible hypertext markup language
- extensible language
- extensible markup language
- fabricated language
- fifth-generation language
- first-generation language
- formal language
- formalized language
- fourth-generation language
- frame language
- function graph language
- functional language
- functional programming language
- geometrical layout description language
- graphics language
- graph-oriented language
- hardware description language
- Hewlett-Packard graphics language
- Hewlett-Packard printer control language
- high-level language
- high-order language
- host language
- hypersymbol language
- hypertext markup language plus
- hypertext markup language
- imperative language
- in-line language
- input language
- intelligent language
- interactive language
- interactive set language
- intermediate language
- interpreted language
- Java interface definition language
- Java language
- Java programming language
- job control language
- Jules' own version of the international algorithmic language
- knowledge query and manipulation language
- left-associative language
- lexically scoped language
- list-processing language
- low-level language
- machine language
- machine-independent language
- machine-oriented language
- macro language
- manipulator language
- man-machine language
- mathematical markup language
- matrix-based programming language
- meta language
- mnemonic language
- musical language
- my favorite toy language
- native language
- native-mode language
- natural language
- network control language
- network description language
- noninteractive language
- nonprocedural language
- object language
- object-oriented language
- page description language
- parallel object-oriented language
- partial differential equation language
- pattern-matching language
- physical language
- picture query language
- polymorphic language
- portable language
- portable standard language
- practical extraction and report language
- prescriptive language
- print control language
- problem statement language
- problem-oriented language
- procedural language
- procedure-oriented language
- program language
- programming language
- publishing language
- query language
- question-answering language
- register-transfer language
- regular language
- relational language
- right-associative language
- robot language
- robotic control language
- robot-level language
- rule language
- rule-oriented language
- scientific programming language
- script language
- scripting language
- second-generation language
- sense language
- server-parsed hypertext markup language
- set language
- sign language
- simulation language
- single-assignment language
- software command language
- source language
- special-purpose programming language
- specification and assertion language
- specification language
- stack-based language
- standard generalized markup language
- statically scoped language
- stratified language
- stream language
- string-handling language
- string-oriented symbolic language
- string-processing language
- strongly-typed language
- structural design language
- structured query language
- subset language
- symbolic language
- symbolic layout description language
- synchronized multimedia integration language
- target language
- thing language
- third-generation language
- threaded language
- tone language
- two-dimensional pictorial query language
- typed language
- typeless language
- unchecked language
- unformalized language
- universal language
- unstratified language
- untyped language
- user-oriented language
- very high-level language
- very-high-speed integrated circuit hardware description language
- Vienna definition language
- virtual reality modeling language
- visual language
- well-structured programming language
- wireless markup languageThe New English-Russian Dictionary of Radio-electronics > language
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8 computer
вычислительная машина, ЭВМ, компьютер, вычислительное устройство, вычислитель
– computer aids
– computer configuration
– computer console
– computer control
– computer control system
– computer drafting
– computer experiment
– computer family
– computer graphics
– computer graphics language
– computer language
– computer limitation
– computer line
– computer logic
– computer manager
– computer model
– computer network
– computer networking
– computer numerical control
– computer program
– computer programming
– computer room
– computer science
– computer servosystem
– computer simulation
– computer skills
– computer system
– computer technology
– computer time
– computer tools
– computer translation
– computer vision
– computer vision system
– computer word
– computer-aided
– computer-aided design
– computer-aided design center
– computer-aided drafting
– computer-aided engineering
– computer-aided manufacturing
– computer-aided programming
– computer-aided system
– computer-aided testing
– computer-assisted
– computer-assisted management
– computer-assisted robot
– computer-based
– computer-based controller
– computer-controlled
– computer-controlled automation
– computer-controlled drive
– computer-controlled manufacturing
– computer-controlled robot
– computer-dependent language
– computer-embedded
– computer-generated
– computer-generated data
– computer-independent language
– computer-integrated
– computer-integrated design
– computer-integrated factory
– computer-integrated production
– computer-intensive
– computer-mediated
– computer-oriented
– computer-process interface
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9 design
1) проектирование; конструирование; разработка || проектировать; конструировать; разрабатывать2) проект; замысел3) конструкция4) расчёт5) схема; чертёж; эскиз6) эксп. план || составлять план•- associate designs
- asynchronous design
- augmented design
- balanced design
- batch design
- biologically-based design
- bit-slice design
- block design
- bottom-up design
- character design
- circuit design
- composite design
- computer design
- computer-aided control system design
- computer-aided design
- conceptual design
- control design
- crossover design
- data design
- data-driven design
- design for reliability
- design for testability
- detailed design
- dialog design
- distribution design
- draft design
- elaborate design
- engineering design
- external design
- external system design
- factorial design
- fail-safe design
- flaw design
- flip-chip design
- flow graph design
- foolproof design
- functional design
- gate-level design
- hand-packed design
- high-level system design
- incomplete block design
- incomplete design
- incremental design
- initial design
- integrated circuit design
- intellectual design
- interactive design
- intermediate design
- internal design
- internal system design
- item design
- language-based design
- layout design
- level-sensitive scan design
- logical design
- logic design
- man-machine design
- modular design
- MOS design
- multifactor design
- multistage design
- nested design
- NMOS design
- one-chip design
- on-line design
- operational design
- optimal design
- physical design
- pilot design
- point design
- policy design
- poor design
- preliminary design
- program design
- proprietary design
- reduced design
- requestor-server design
- revised design
- robust design
- role-based design
- sample design
- scan design
- scan/set design
- scannable design
- schematic design
- screening design
- shrinking design
- silicon design
- single observation factorial design
- single-language design
- software engineering design
- software-based design
- structured design
- synchronous design
- systematic design
- systolic design
- testability design
- testable design
- top-down design
- trial design
- uniprocessor design
- view design
- visual design
- vulnerable design
- worst-case designEnglish-Russian dictionary of computer science and programming > design
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10 language
язык || языковой- action description language
- actual machine language
- agent programming language
- AI language
- Algol-like language
- algorithmical language
- algorithmic language
- application-oriented language
- applicative language
- artificial language
- assembler language
- assembly language
- assembly-output language
- assignment-free language
- behavioral language
- bidirectional language
- block-structured language
- Boolean-based language
- business definition language
- business-oriented language
- calculus-type language
- C-based language
- client-side language
- code language
- command language
- compiled language
- compiler language
- component definition language
- composite language
- computer language
- computer-dependent language
- computer-independent language
- computer-oriented language
- computer-programming language
- computer-sensitive language
- consensus language
- context-free language
- control language
- conversational language
- core language
- data definition language
- data description language
- data language
- data manipulation language
- data storage description language
- database language
- data-entry language
- data-flow language
- data-query language
- declarative language
- defining language
- descriptive language
- descriptor language
- design language
- device media control language
- direct execution language
- directly interpretable language
- Dyck language
- end-user language
- escape language
- evolutive language
- executive-control language
- executive language
- explicit language
- extensible language
- fabricated language
- finite state language
- flow language
- foreign language
- formalized language
- frame-based language
- freestanding language
- functional language
- generated language
- graphics language
- graph-oriented language
- hardware-description language
- hardware language
- higher-level language
- higher-order language
- host language
- human language
- human-oriented language
- human-readable language
- indexed language
- information retrieval language
- informational language
- information language
- inherently ambiguous language
- input language
- input/output language
- instruction language
- integrated language
- interactive language
- interim language
- intermediate language
- internal language
- interpreted language
- job control language
- job-oriented language
- knowledge representation language
- language pair
- letter-equivalent languages
- linear language
- linear-programming language
- list-processing language
- logic-type language
- low-level language
- machine language
- machine-dependent language
- machine-independent language
- machine-oriented language
- macroassembly language
- macro language
- macroinstruction language
- macroprogramming language
- man-to-computer language
- mathematical formular language
- memory management language
- mnemonic language
- modeling language
- native language
- natural language
- NC programming language
- nested language
- network-oriented language
- nonprocedural language
- numder language
- object language
- object modeling language
- object-oriented language
- one-dimensional language
- operator-oriented language
- original language
- page description language
- parallel language
- phrase structure language
- predicate language
- predicate logic-based language
- predicate logic language
- privacy language
- problem statement language
- problem-oriented language
- procedural language
- procedure-oriented language
- process control language
- production language
- program language
- programming language
- pseudo language
- pseudomachine language
- query language
- readable specification language
- reference language
- regular language
- relational language
- relational-type language
- representation language - requirements modeling language
- restricted language
- rule-based language
- ruly language
- schema language
- science-oriented language
- script language
- self-contained language
- semantic-formal language
- semiformal language
- sentential language
- serial language
- simulation language
- single-assignment language
- source language
- specialized language
- specification language
- stream-based language
- strict language
- structured programming language
- structured query language
- super language
- super-high-level language
- symbolic language
- symbolic programming language
- syntax language
- synthetic language
- system input language
- system language
- system-oriented language
- tabular language
- target language
- TC language
- time sharing language
- type-free language
- unified modeling language
- update language
- user language
- user-oriented language
- very-high-level languageEnglish-Russian dictionary of computer science and programming > language
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11 language
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absolute language
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algorithmical language
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algorithmic language
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applicative language
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artificial language
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assembler language
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block-structured language
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Boolean algebra-based language
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Boolean based language
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command language
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compilative language
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compiler language
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computer language
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computer-dependent language
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computer-independent language
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computer-oriented language
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computer-sensitive language
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context-free language
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control language
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conversational language
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core language
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data language
- data manipulation language -
data-base language
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data-definition language
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data-query language
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declarative language
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deduction-oriented language
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design language
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explicit language
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expression-oriented language
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extensible language
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FG-kernel language
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finite state language
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formal specification language
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function language
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functional language
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graphics-oriented language
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graphics language
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hardware-based language
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high-level language
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host language
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human language
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human-oriented language
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hybrid language
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imperative language
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input language
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instruction language
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interactive language
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interface language
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intermediate language
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interpretive language
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job control language
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kernel language
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knowledge representation language
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list-processing language
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low-level language
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machine language
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machine-dependent language
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machine-independent language
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machine-oriented language
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macro language
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meta language
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mnemonic language
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narrative language
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native language
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native-mode language
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natural language
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NC-AM language
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network control language
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nonprocedural language
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nucleus language
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object language
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object-oriented language
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original language
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parallel language
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plain language
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privacy language
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problem solving language
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problem-oriented language
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procedural language
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program development language
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program language
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programming language
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pseudo language
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query language
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real-time language
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reference language
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regular language
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relational language
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retrieval language
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robot language
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rule language
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semantic language
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sentential language
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simulation language
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source language
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specification description language
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specification language
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stratified language
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structured language
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symbolic language
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system language
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system-oriented language
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target language
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typed language
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unstratified language
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untyped language
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user-oriented language
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world-modeling language -
12 language
[ˈlæŋɡwɪdʒ]algorithmic language вчт. алгоритмический язык algorithmical language вчт. алгоритмическый язык applicative language вчт. функциональный язык artifical language вчт. искусственный язык artificial language вчт. искусственный язык assembler language вчт. язык ассемблера assembly language вчт. язык ассемблера authoring language вчт. язык для автоматизации творческой работы block-structured language вчт. язык с блочной структурой boolean-based language вчт. язык булевых операторов command language вчт. командный язык compiled language вчт. транслируемый язык compiler language вчт. язык транслятора computer language вчт. машинный язык computer-dependent language вчт. машинно-зависимый язык computer-oriented language вчт. машинно-ориентированный язык computer-sensitive language вчт. машинно-зависимый язык constraint language вчт. декларативный язык context-free language вчт. контекстно-свободный язык conversational language вчт. диалоговый язык conversational language вчт. язык диалога data definition language вчт. язык определения данных data description language вчт. язык описания данных data description language вчт. язык определения данных data language вчт. язык описания данных data manipulation language вчт. язык манипулирования данными data-base language вчт. язык базы данных data-query language вчт. язык запросов declarative language вчт. декларативный язык design language вчт. язык проектирования end-user language вчт. язык конечного пользователя extensible language вчт. расширяемый язык language язык; речь; finger language язык жестов, язык глухонемых foreign language иностранный язык formal language формальный язык frame language вчт. фреймовый язык high-level language вчт. язык высокого уровня host language вчт. включающий язык human language естественный язык language разг. брань (тж. bad language); I won't have any language here прошу не выражаться inflected language флективный язык information retrieval language информационно- поисковый язык information retrieval language информационно-поисковый язык input language вчт. входной язык interactive language вчт. диалоговый язык interpreted language вчт. интерпретируемый язык kernel language вчт. базовый язык knowledge representation language вчт. язык представления знаний language разг. брань (тж. bad language); I won't have any language here прошу не выражаться language стиль; язык писателя; the language of Shakespeare язык Шекспира language язык language язык; речь; finger language язык жестов, язык глухонемых language стиль; язык писателя; the language of Shakespeare язык Шекспира language of the case язык судебного делопроизводства legal language юридический язык legal language язык права low-level language вчт. язык низкого уровня machine language вчт. машинный язык machine-dependent language вчт. машинно-зависимый язык machine-independent language вчт. машинно-независимый язык machine-oriented language вчт. машинно-ориентрированный язык macro language вчт. макроязык macroinstruction language вчт. язык макрокоманд memory management language вчт. язык управления памятью meta language вчт. метаязык minority language язык национального меньшинства mnemonic language вчт. символический язык national language государственный язык native language вчт. собственный язык машины natural language вчт. естественный язык nonprocedural language вчт. непроцедурный язык object language вчт. объектный язык official language официальный язык original language исходный язык parallel language вчт. язык параллельного программирования predicate language вчт. язык предикатов problem statement language вчт. язык постановки задачи problem-oriented language вчт. проблемно-ориентированный язык procedural language вчт. процедурный язык procedural language процедурный язык procedure-oriented language вчт. процедурно ориентированный язык production language вчт. продукционный язык program language вчт. язык программирования programming language вчт. язык программирования query language вчт. язык запросов register transfer language вчт. язык межрегистровых пересылок regular language вчт. регулярный язык relational language вчт. реляционный язык representation language вчт. язык представлений restricted language вчт. упрощенная версия языка rule language вчт. язык правил rule-based language вчт. язык продукционных правил rule-oriented language вчт. язык логического программирования script language вчт. язык сценариев serial language вчт. язык последовательного программирования source language вчт. исходный язык source language cmp. исходный язык specification language вчт. язык спецификаций subset language вчт. подмножество языка symbolic language вчт. символический язык symbolic language comp. символический язык system language вчт. системный язык tabular language вчт. табличный язык target language вчт. выходной язык target language выходной язык target language объектный язык threaded language вчт. язык транслируемый в шитый код typed language вчт. широко используемый язык typeless language вчт. безтиповый язык unchecked language вчт. язык без контроля типов untyped language вчт. язык без контроля типов update language вчт. язык корректирующих запросов user language вчт. язык пользователя world language международный язык -
13 design
1) схема, план, чертёж, проект, машинный архив проектанапример, ИС при автоматизированном проектированиисм. тж. design centering, design constraints, design entity, design flow, design team, design traceability, design vector, gate-level design, transistor-level design2) разработка, проектирование, конструированиесм. тж. architectural design, bottom-up design, co-design, database design, design automation, design criteria, design cycle, design environment, design level, design methodology, design metric, design objectives, design requirements, design tool, design verification, embedded design, functional design, initial design, in-line design, language design, logic design, network design, object-oriented design, program design, schematic design, solution design, structured design, system design, top-down design, type design3) фаза в разработке ПО, на которой функциональные спецификации транслируются в текст программы4) конструкция5) [программный] проектсм. тж. computer design, design centering, design entity, design pattern, design reuse, design traceability, design vector, test design6) глаг. разрабатывать, проектировать, конструировать, придумывать7) дизайнхудожественное и/или функциональное проектирование и его результатАнгло-русский толковый словарь терминов и сокращений по ВТ, Интернету и программированию. > design
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14 computer-aided design
1. машинное проектирование2. проектирование с помощью ЭВМEnglish-Russian dictionary of Information technology > computer-aided design
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15 computer
вычислительная машина ; ЭВМ ; счетно-решающее устройство ; ? computer capacity ; ? computer design and technology ; ? computer engineer ; ? computer language ; ? computer professions ; ? computer programme library ; ? computer rental ; ? computer science -
16 computer aided design
English-Russian dictionary of Information technology > computer aided design
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17 ♦ computer
♦ computer /kəmˈpju:tə(r)/A n.1 (comput.) computer; elaboratore, calcolatore elettronico: the computer age, l'era dei computer; personal computer, personal computer; PCB a. attr.1 computeristico; per computer; informatico; dell'informatica: computer engineer, ingegnere informatico; computer program, programma per computer2 computerizzato; al computer: computer animation, animazione al computer; computer error, errore del computer● computer-aided (o computer-assisted), assistito dal computer; computerizzato: computer-aided design, CAD, progettazione assistita dal computer; computer-aided engineering, CAE, ingegneria assistita dal computer; (med.) computer-assisted tomography (abbr. CAT), tomografia computerizzata (abbr. TAC) □ computer-aided (o computer-assisted) translation, traduzione assistita □ computer-based, su computer □ computer centre, centro di calcolo □ (leg.) computer crime, reato di «saccheggio» con il computer □ (leg.) computer criminal, chi commette un tale reato □ computer dating, dating online ( ricerca di potenziali partner tramite Internet) □ computer game, gioco al (o con il) computer; videogioco □ computer-generated, generato al computer □ computer graphics, computer grafica; grafica computerizzata □ (leg.) computer hacker, appassionato di computer; hacker; ( anche) pirata informatico □ computer language, linguaggio di programmazione □ computer literacy, capacità di usare un computer □ computer-literate, che sa usare il computer □ computer network, rete di computer; rete di elaboratori □ computer programmer, programmatore □ computer programming, programmazione □ computer science, informatica; scienza dell'informazione □ computer scientist, informatico; esperto di informatica □ computer virus, virus informatico. -
18 language
ˈlæŋɡwɪdʒ сущ. язык а) (как способ и средство общения) речь to butcher, murder a language ≈ искажать язык to enrich a language ≈ обогащать язык to learn, master a language ≈ учить язык to plan a language ≈ регулировать язык to purify a language ≈ очищать язык (проведение некоторых мер по выведению из языка тех или иных пластов лексики или грамматических форм) to speak (in) a, to use a language ≈ говорить на языке to standardize a language ≈ стандартизировать язык international, world language ≈ международный язык, язык международного общения dead, extinct language ≈ мертвый язык language acquisition ≈ обучение языку language maintenance ≈ поддержание (знания) языка spoken language ≈ разговорный язык written language ≈ письменный язык native language ≈ родной язык foreign language ≈ иностранный язык national language ≈ национальный язык official language ≈ официальный язык second language ≈ второй язык universal language ≈ универсальный язык formal language ≈ язык официального общения idiomatic language ≈ язык, богатый идиомами nontechnical language ≈ нетехнический язык substandard language ≈ язык, не соответствующий языковой норме technical language ≈ технический язык ancient language ≈ древний язык classical language ≈ классический язык creolized language ≈ креолизованный язык living language ≈ живой язык modern language ≈ современный язык natural language ≈ естественный язык trade language ≈ язык торгового общения agglutinative language ≈ агглютинативный язык inflecting language ≈ флективный язык isolating language ≈ изолирующий язык synthetic language ≈ синтетический язык tone language ≈ язык с тоновым ударением б) (как знаковая система) sign language ≈ язык знаков artificial language ≈ искусственный язык finger language ≈ язык жестов, язык глухонемых в) (языковой или литературный стиль;
язык писателя) the language of Shakespeare ≈ язык Шекспира bad, coarse, crude, dirty, foul, nasty, obscene, offensive, unprintable, vile, vulgar language ≈ грубый, грязный, неприличный, оскорбительный, непечатный, вульгарный язык rough, strong, vituperative language ≈ грубый, бранный язык everyday, plain, simple language ≈ простой, повседневный язык flowery language ≈ цветистый язык (богатый метафорами, сравнениями и др. литературными тропами) colloquial, informal language ≈ язык неофициального общения, разговорный язык literary, standard language ≈ литературный язык abusive language ≈ брань, ругательства children's language ≈ детский язык diplomatic language ≈ дипломатический язык polite language ≈ вежливый язык rich language ≈ богатый язык Syn: wording г) (как способ кодирования) object, target language ≈ язык, на который переводят source language ≈ язык, с которого переводят (в машинном переводе) computer language machine language programming language язык - the Russian * русский язык - finger * язык жестов, язык глухонемых - living * живой язык - working * рабочий язык (в международных организациях) - the working *s of this committee are English and Russian рабочими языками этого комитета являются русский и английский - * arts (американизм) обучение чтению, письму, литературе, словесность (школьный предмет) - * shift переключение на другой язык (о говорящем на иностранном языке) - * department отдел переводов (ООН) - a degree in *s диплом об окончании филологического факультета или института иностранных языков - science of * языкознание речь - spoken * разгговорный язык;
устная речь - written * письменость;
письменный язык - articulate * членораздельная речь - literary * литературный язык - substandard * просторечие - he has a great command of * он прекрасно владеет языком, у него прекрасная речь характер языка;
стиль, слог - fine * изысканный язык, цветистый стиль - strong * сильные выражения - bad * сквернословие - * of poetry язык поэзии - business * деловая речь;
язык деловой переписки - * of law юридический язык - diplomatic * дипломатический язык - the * of Shakespeare язык Шекспира (дипломатическое) формулировка( компьютерное) язык программирования ЭВМ > not to speak the same * совершенно не понимать друг друга > they don't speak the same * они говорят на разных языках algorithmic ~ вчт. алгоритмический язык algorithmical ~ вчт. алгоритмическый язык applicative ~ вчт. функциональный язык artifical ~ вчт. искусственный язык artificial ~ вчт. искусственный язык assembler ~ вчт. язык ассемблера assembly ~ вчт. язык ассемблера authoring ~ вчт. язык для автоматизации творческой работы block-structured ~ вчт. язык с блочной структурой boolean-based ~ вчт. язык булевых операторов command ~ вчт. командный язык compiled ~ вчт. транслируемый язык compiler ~ вчт. язык транслятора computer ~ вчт. машинный язык computer-dependent ~ вчт. машинно-зависимый язык computer-oriented ~ вчт. машинно-ориентированный язык computer-sensitive ~ вчт. машинно-зависимый язык constraint ~ вчт. декларативный язык context-free ~ вчт. контекстно-свободный язык conversational ~ вчт. диалоговый язык conversational ~ вчт. язык диалога data definition ~ вчт. язык определения данных data description ~ вчт. язык описания данных data description ~ вчт. язык определения данных data ~ вчт. язык описания данных data manipulation ~ вчт. язык манипулирования данными data-base ~ вчт. язык базы данных data-query ~ вчт. язык запросов declarative ~ вчт. декларативный язык design ~ вчт. язык проектирования end-user ~ вчт. язык конечного пользователя extensible ~ вчт. расширяемый язык ~ язык;
речь;
finger language язык жестов, язык глухонемых foreign ~ иностранный язык formal ~ формальный язык frame ~ вчт. фреймовый язык high-level ~ вчт. язык высокого уровня host ~ вчт. включающий язык human ~ естественный язык language разг. брань (тж. bad language) ;
I won't have any language here прошу не выражаться inflected ~ флективный язык information retrieval ~ информационно- поисковый язык information retrieval ~ информационно-поисковый язык input ~ вчт. входной язык interactive ~ вчт. диалоговый язык interpreted ~ вчт. интерпретируемый язык kernel ~ вчт. базовый язык knowledge representation ~ вчт. язык представления знаний language разг. брань (тж. bad language) ;
I won't have any language here прошу не выражаться ~ стиль;
язык писателя;
the language of Shakespeare язык Шекспира ~ язык ~ язык;
речь;
finger language язык жестов, язык глухонемых ~ стиль;
язык писателя;
the language of Shakespeare язык Шекспира ~ of the case язык судебного делопроизводства legal ~ юридический язык legal ~ язык права low-level ~ вчт. язык низкого уровня machine ~ вчт. машинный язык machine-dependent ~ вчт. машинно-зависимый язык machine-independent ~ вчт. машинно-независимый язык machine-oriented ~ вчт. машинно-ориентрированный язык macro ~ вчт. макроязык macroinstruction ~ вчт. язык макрокоманд memory management ~ вчт. язык управления памятью meta ~ вчт. метаязык minority ~ язык национального меньшинства mnemonic ~ вчт. символический язык national ~ государственный язык native ~ вчт. собственный язык машины natural ~ вчт. естественный язык nonprocedural ~ вчт. непроцедурный язык object ~ вчт. объектный язык official ~ официальный язык original ~ исходный язык parallel ~ вчт. язык параллельного программирования predicate ~ вчт. язык предикатов problem statement ~ вчт. язык постановки задачи problem-oriented ~ вчт. проблемно-ориентированный язык procedural ~ вчт. процедурный язык procedural ~ процедурный язык procedure-oriented ~ вчт. процедурно ориентированный язык production ~ вчт. продукционный язык program ~ вчт. язык программирования programming ~ вчт. язык программирования query ~ вчт. язык запросов register transfer ~ вчт. язык межрегистровых пересылок regular ~ вчт. регулярный язык relational ~ вчт. реляционный язык representation ~ вчт. язык представлений restricted ~ вчт. упрощенная версия языка rule ~ вчт. язык правил rule-based ~ вчт. язык продукционных правил rule-oriented ~ вчт. язык логического программирования script ~ вчт. язык сценариев serial ~ вчт. язык последовательного программирования source ~ вчт. исходный язык source ~ cmp. исходный язык specification ~ вчт. язык спецификаций subset ~ вчт. подмножество языка symbolic ~ вчт. символический язык symbolic ~ comp. символический язык system ~ вчт. системный язык tabular ~ вчт. табличный язык target ~ вчт. выходной язык target ~ выходной язык target ~ объектный язык threaded ~ вчт. язык транслируемый в шитый код typed ~ вчт. широко используемый язык typeless ~ вчт. безтиповый язык unchecked ~ вчт. язык без контроля типов untyped ~ вчт. язык без контроля типов update ~ вчт. язык корректирующих запросов user ~ вчт. язык пользователя world ~ международный языкБольшой англо-русский и русско-английский словарь > language
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19 Language
Philosophy is written in that great book, the universe, which is always open, right before our eyes. But one cannot understand this book without first learning to understand the language and to know the characters in which it is written. It is written in the language of mathematics, and the characters are triangles, circles, and other figures. Without these, one cannot understand a single word of it, and just wanders in a dark labyrinth. (Galileo, 1990, p. 232)It never happens that it [a nonhuman animal] arranges its speech in various ways in order to reply appropriately to everything that may be said in its presence, as even the lowest type of man can do. (Descartes, 1970a, p. 116)It is a very remarkable fact that there are none so depraved and stupid, without even excepting idiots, that they cannot arrange different words together, forming of them a statement by which they make known their thoughts; while, on the other hand, there is no other animal, however perfect and fortunately circumstanced it may be, which can do the same. (Descartes, 1967, p. 116)Human beings do not live in the object world alone, nor alone in the world of social activity as ordinarily understood, but are very much at the mercy of the particular language which has become the medium of expression for their society. It is quite an illusion to imagine that one adjusts to reality essentially without the use of language and that language is merely an incidental means of solving specific problems of communication or reflection. The fact of the matter is that the "real world" is to a large extent unconsciously built on the language habits of the group.... We see and hear and otherwise experience very largely as we do because the language habits of our community predispose certain choices of interpretation. (Sapir, 1921, p. 75)It powerfully conditions all our thinking about social problems and processes.... No two languages are ever sufficiently similar to be considered as representing the same social reality. The worlds in which different societies live are distinct worlds, not merely the same worlds with different labels attached. (Sapir, 1985, p. 162)[A list of language games, not meant to be exhaustive:]Giving orders, and obeying them- Describing the appearance of an object, or giving its measurements- Constructing an object from a description (a drawing)Reporting an eventSpeculating about an eventForming and testing a hypothesisPresenting the results of an experiment in tables and diagramsMaking up a story; and reading itPlay actingSinging catchesGuessing riddlesMaking a joke; and telling itSolving a problem in practical arithmeticTranslating from one language into anotherLANGUAGE Asking, thanking, cursing, greeting, and praying-. (Wittgenstein, 1953, Pt. I, No. 23, pp. 11 e-12 e)We dissect nature along lines laid down by our native languages.... The world is presented in a kaleidoscopic flux of impressions which has to be organized by our minds-and this means largely by the linguistic systems in our minds.... No individual is free to describe nature with absolute impartiality but is constrained to certain modes of interpretation even while he thinks himself most free. (Whorf, 1956, pp. 153, 213-214)We dissect nature along the lines laid down by our native languages.The categories and types that we isolate from the world of phenomena we do not find there because they stare every observer in the face; on the contrary, the world is presented in a kaleidoscopic flux of impressions which has to be organized by our minds-and this means largely by the linguistic systems in our minds.... We are thus introduced to a new principle of relativity, which holds that all observers are not led by the same physical evidence to the same picture of the universe, unless their linguistic backgrounds are similar or can in some way be calibrated. (Whorf, 1956, pp. 213-214)9) The Forms of a Person's Thoughts Are Controlled by Unperceived Patterns of His Own LanguageThe forms of a person's thoughts are controlled by inexorable laws of pattern of which he is unconscious. These patterns are the unperceived intricate systematizations of his own language-shown readily enough by a candid comparison and contrast with other languages, especially those of a different linguistic family. (Whorf, 1956, p. 252)It has come to be commonly held that many utterances which look like statements are either not intended at all, or only intended in part, to record or impart straightforward information about the facts.... Many traditional philosophical perplexities have arisen through a mistake-the mistake of taking as straightforward statements of fact utterances which are either (in interesting non-grammatical ways) nonsensical or else intended as something quite different. (Austin, 1962, pp. 2-3)In general, one might define a complex of semantic components connected by logical constants as a concept. The dictionary of a language is then a system of concepts in which a phonological form and certain syntactic and morphological characteristics are assigned to each concept. This system of concepts is structured by several types of relations. It is supplemented, furthermore, by redundancy or implicational rules..., representing general properties of the whole system of concepts.... At least a relevant part of these general rules is not bound to particular languages, but represents presumably universal structures of natural languages. They are not learned, but are rather a part of the human ability to acquire an arbitrary natural language. (Bierwisch, 1970, pp. 171-172)In studying the evolution of mind, we cannot guess to what extent there are physically possible alternatives to, say, transformational generative grammar, for an organism meeting certain other physical conditions characteristic of humans. Conceivably, there are none-or very few-in which case talk about evolution of the language capacity is beside the point. (Chomsky, 1972, p. 98)[It is] truth value rather than syntactic well-formedness that chiefly governs explicit verbal reinforcement by parents-which renders mildly paradoxical the fact that the usual product of such a training schedule is an adult whose speech is highly grammatical but not notably truthful. (R. O. Brown, 1973, p. 330)he conceptual base is responsible for formally representing the concepts underlying an utterance.... A given word in a language may or may not have one or more concepts underlying it.... On the sentential level, the utterances of a given language are encoded within a syntactic structure of that language. The basic construction of the sentential level is the sentence.The next highest level... is the conceptual level. We call the basic construction of this level the conceptualization. A conceptualization consists of concepts and certain relations among those concepts. We can consider that both levels exist at the same point in time and that for any unit on one level, some corresponding realizate exists on the other level. This realizate may be null or extremely complex.... Conceptualizations may relate to other conceptualizations by nesting or other specified relationships. (Schank, 1973, pp. 191-192)The mathematics of multi-dimensional interactive spaces and lattices, the projection of "computer behavior" on to possible models of cerebral functions, the theoretical and mechanical investigation of artificial intelligence, are producing a stream of sophisticated, often suggestive ideas.But it is, I believe, fair to say that nothing put forward until now in either theoretic design or mechanical mimicry comes even remotely in reach of the most rudimentary linguistic realities. (Steiner, 1975, p. 284)The step from the simple tool to the master tool, a tool to make tools (what we would now call a machine tool), seems to me indeed to parallel the final step to human language, which I call reconstitution. It expresses in a practical and social context the same understanding of hierarchy, and shows the same analysis by function as a basis for synthesis. (Bronowski, 1977, pp. 127-128)t is the language donn eґ in which we conduct our lives.... We have no other. And the danger is that formal linguistic models, in their loosely argued analogy with the axiomatic structure of the mathematical sciences, may block perception.... It is quite conceivable that, in language, continuous induction from simple, elemental units to more complex, realistic forms is not justified. The extent and formal "undecidability" of context-and every linguistic particle above the level of the phoneme is context-bound-may make it impossible, except in the most abstract, meta-linguistic sense, to pass from "pro-verbs," "kernals," or "deep deep structures" to actual speech. (Steiner, 1975, pp. 111-113)A higher-level formal language is an abstract machine. (Weizenbaum, 1976, p. 113)Jakobson sees metaphor and metonymy as the characteristic modes of binarily opposed polarities which between them underpin the two-fold process of selection and combination by which linguistic signs are formed.... Thus messages are constructed, as Saussure said, by a combination of a "horizontal" movement, which combines words together, and a "vertical" movement, which selects the particular words from the available inventory or "inner storehouse" of the language. The combinative (or syntagmatic) process manifests itself in contiguity (one word being placed next to another) and its mode is metonymic. The selective (or associative) process manifests itself in similarity (one word or concept being "like" another) and its mode is metaphoric. The "opposition" of metaphor and metonymy therefore may be said to represent in effect the essence of the total opposition between the synchronic mode of language (its immediate, coexistent, "vertical" relationships) and its diachronic mode (its sequential, successive, lineal progressive relationships). (Hawkes, 1977, pp. 77-78)It is striking that the layered structure that man has given to language constantly reappears in his analyses of nature. (Bronowski, 1977, p. 121)First, [an ideal intertheoretic reduction] provides us with a set of rules"correspondence rules" or "bridge laws," as the standard vernacular has it-which effect a mapping of the terms of the old theory (T o) onto a subset of the expressions of the new or reducing theory (T n). These rules guide the application of those selected expressions of T n in the following way: we are free to make singular applications of their correspondencerule doppelgangers in T o....Second, and equally important, a successful reduction ideally has the outcome that, under the term mapping effected by the correspondence rules, the central principles of T o (those of semantic and systematic importance) are mapped onto general sentences of T n that are theorems of Tn. (P. Churchland, 1979, p. 81)If non-linguistic factors must be included in grammar: beliefs, attitudes, etc. [this would] amount to a rejection of the initial idealization of language as an object of study. A priori such a move cannot be ruled out, but it must be empirically motivated. If it proves to be correct, I would conclude that language is a chaos that is not worth studying.... Note that the question is not whether beliefs or attitudes, and so on, play a role in linguistic behavior and linguistic judgments... [but rather] whether distinct cognitive structures can be identified, which interact in the real use of language and linguistic judgments, the grammatical system being one of these. (Chomsky, 1979, pp. 140, 152-153)23) Language Is Inevitably Influenced by Specific Contexts of Human InteractionLanguage cannot be studied in isolation from the investigation of "rationality." It cannot afford to neglect our everyday assumptions concerning the total behavior of a reasonable person.... An integrational linguistics must recognize that human beings inhabit a communicational space which is not neatly compartmentalized into language and nonlanguage.... It renounces in advance the possibility of setting up systems of forms and meanings which will "account for" a central core of linguistic behavior irrespective of the situation and communicational purposes involved. (Harris, 1981, p. 165)By innate [linguistic knowledge], Chomsky simply means "genetically programmed." He does not literally think that children are born with language in their heads ready to be spoken. He merely claims that a "blueprint is there, which is brought into use when the child reaches a certain point in her general development. With the help of this blueprint, she analyzes the language she hears around her more readily than she would if she were totally unprepared for the strange gabbling sounds which emerge from human mouths. (Aitchison, 1987, p. 31)Looking at ourselves from the computer viewpoint, we cannot avoid seeing that natural language is our most important "programming language." This means that a vast portion of our knowledge and activity is, for us, best communicated and understood in our natural language.... One could say that natural language was our first great original artifact and, since, as we increasingly realize, languages are machines, so natural language, with our brains to run it, was our primal invention of the universal computer. One could say this except for the sneaking suspicion that language isn't something we invented but something we became, not something we constructed but something in which we created, and recreated, ourselves. (Leiber, 1991, p. 8)Historical dictionary of quotations in cognitive science > Language
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20 computer
[këm'pju:të:] n 1. makinë llogaritëse; kompjuter, ordinator. 2. llogaritës, njehsues (person)- Kompjuteri është pajisje elektronike shumë e ndërlikuar që shërben për regjistrimin, transmetimin dhe përpunimin e informatave që mund të manifestohen si llogaritje, udhëheqje të proceseve, përpunim i tekstit, të dhënave të ndryshme si dhe për përdorime më të përgjithëshme. Kompjuteri, marrë në kuptimin e gjerë, përbëhet prej dy komponentëve të quajtura: harduer ( hardware - pjesë fizike e tij) dhe softuer ( software - programet dhe udhëzimet për punë). Me fjalë tjera, softueri është pjesa programore e hardueri pjesa mekanika e kompjuterit.● Hardueri përmban komponentet fizike të kompjuterit siç janë: tastiera ( Keyboard), monitori, shtypësi ( Printer), miu ( Mouse), disku i ngurtë ( Hard Disk), njësia e diskut, disketa ( Floppy Disk), njësia e disketës, CD-ROM-i ( CD ROM), njësia e CD-ROM-it, vizatuesi, modemi, lexuesi ( Scanner), kamera digjitale etj.● Softueri përmbanë programet dhe të dhënat të cilat e udhëzojnë kompjuterin në punën e tij, literatura, dokumentacioni dhe udhëzimet në lidhje me kompjuterin. Hardueri mund të krahasohet me gramafonin e disqet, ndërsa softueri me muzikën e inçizuar në disqe.)Zhvillimi historik i kompjuterit- Njeriu gjithmon ka tentuar të zgjidhë edhe problemet monotone, të vështira dhe të papërshtatshme. Gjatë zgjidhjeve të këtyre problemeve ka hasur në punë të vështira fizike, prandaj, çdo here ka tentuar që të liroj veten nga këta punë duke menduar makina të lloj-llojshme. Një makinë e këtyllë për lehtësimin e llogaritjeve aritmetike është makina e quajtur Abacus për të cilën dihet se është në përdorim prej para 5000 vjetëve. Kjo makinë i ngjanë numratores së sotme të cilën e përdorin nxënësit në klasë të pare dhe njihet si zanafilla e kompjuterëve të sotëm. Prej kohës së zbulimit të Abacusit e deri në shekullin 17 historia e zhvillimit të kompjuterëve nuk posedon të dhëna për ndonjë lëvizje në rrugën e zhvillimit të kompjuterëve.- Gjatë shekullit 17, respektivisht në vitin 1614 matematikani skocez J. Napier zbulon logaritmet dhe në vtin 1622 W. Oughtred ndërton kompjuterin (makinën) logaritmik cirkular për llogaritjen e logaritmeve.- Në vitin 1649 Blaise Pascal ndërton makinën mekanike për kryerjen e operacioneve aritmetike. Makina e Pascalit është e ndërtuar prej disa dhëmbëzorëve të cilët në lëvizje vendohen mekanikisht (me dorë). Ideja e konstruktimit të një makine-kalkulatori (kalkulator quhet makina e cila kryen operacionet aritmetike) ka qenë lehtësimi i punës së të atit të tij i cili ka qenë puntor i tatimeve (mbledhës i tatimeve) dhe ka patur nevojë për shumë llogaritje.- Në vitin 1672 G.W. Laibniz në Pariz projekton kalkulatorin mekanik më të përsosur nga dy të parët i cili me sukse do t'i kryej katër operacionet elementare aritmetike. Kufizimi në realizimin konkret të këtij kalkulatori ka qenë teknologjia e dobët e asaj kohe prandaj ky projekt ka ngelur i pa realizuar. Është interesant të përmendet se Laibnitz ka qenë pioneri i parë në hulumtimin e sistemit binar i cili përdoret në ndërtimin e kompjuterëve të sotëm. Gjatë 150viteve në vazhdim të gjithë tentimet për zhvillimin e kalkulatorëve kanë qenë të inspiruar nga kalkulatori i Laibnitzit.- Në vitin 1822 Anglezi Charles Babbage paraqet projekt të një kalkulatori krejtësisht të ndryshëm i dedikuar për llogaritjen e tabelave për funksione të caktuara. Projekti i këtillë do të finansoheshe nga qeveria Angleze e asaj kohe dhe do të përdoreshe për llogaritjen e tabelave për navigacionin detar. Për shkak të kompleksitetit dhe kushteve financiare e teknologjike ky projekt nuk u krye, në vitin 1842 definitivisht projekti u ndërpre. Makinën e këtillë Babbage e quajti makina diferenciale. Projektin e makinës diferenciale me sukse e realizuan Suedezët në vitin 1854 nën udhëheqen e P. G. Scheutza (duke i zbatuar sqarimet dhe vërejtjet e dhëna nga Babbage në 7000 faqe të shkruara) dhe makina e fituar nën pogon mekanik me sukse i llogariti tabelat (për 80 orë ka logarit 10000 logaritme).- Në vitin 1835 Babbage erdhi në idenë e konstruktimit të një makine programabile me funksionet që i kanë kompjuterët e tanishëm (me njësinë aritmetike-logjike, memorjen, etj.). Makinën e këtillë e quajti makina analitike. Për shkak të krizave finaciare dhe të vështirësive teknologjike kjo makinë ngeli vetëm në fazën e projektimit në letër por dha një inpuls të fuqishëm në zhvillimin e kompjuterëve të mëtutjeshëm.- Koha moderne fillon me përdorimin e energjisë elektrike në makinat për llogaritje. Në vitin 1884 emigranti gjerman në Amerikë Herman Holerith patenton makinën e pare elektrike e cila do të mund të rendit (sortoj) kartelat e shpuara me të dhënat për banorët e Amerikës. Makina e Holerithit në lëvizje vendoheshte me ndihmën e baterive. Qëllimi i kësaj makine ishte renditja e kartelave me të dhënat e banorëve të Amerikës të regjistruar në vitin 1890. Holerithi ishte inzhenier dhe punonte në institutin e statistikës, problem në atë kohë ishte përpunimi statistikor i të dhënave. Kështu regjistrimi statistikor në teren zgjatë disa muaj ndërsa përpunimi zgjate disa vjetë por bile edhe dhjetra vjetë dhe kur të dhënat përpunoheshin rezultatet e fituara ishin të vjetëruara (sepse regjistrimi statistikor zakonisht bëhet çdo 10 vjetë). Qeveria e asaj kohe shpall konkurs për përpunimin automatik të të dhënave me qëllim të përshpejtimit të përpunimit. Holerithi pasi punonte në institutin ku bëheshte përpunimi i të dhënave të këtylla, e njihte problemin dhe për këtë qëllim patentoi makinën e tij. Kështu me ndihmën e 56 makinave të Holerithit u aritë që të dhënat statistikore për popullsinë e Amerikës të përpunohen vetëm për gjashtë javë (në atë regjistrim Amerika doli me 62 622 250 banorë).- Pas këtij suksesi Holerithi themeloi kompaninë për prodhimin dhe huazimin e këtyre makinave (makina quheshe Tabulating Machine) me emrin Tabulating Machine Company e cila në vitin 1924 u bashkua me disa kompani të tjera dhe ndëroi emrin në IBM (International Business Machines), e njohur edhe sot.- Në vitin 1936 gjermani K. Zuse në Berlin arrinë të konstruktoj kalkulatorin programabil i cili do të mund të zgjidhë barazimet lineare. Zuse ariti të konstruktoj makinën e pare e cila shfrytëzonte sistemin binar, këtë makinë e konstriktoi në katër modele të njëpasnjëshëm Z1, Z2, Z3 dhe Z4, por modeli Z4 ngeli vetëm si ide interesante.- Me fillimin e luftës së dytë botërore interesimi për makina llogaritëse (kompjuterë) u zvoglua dhe gjithnjë mendohej në përmirësimin e armatimit. Mirëpo për prodhimin e armëve të reja artilerike nevoitej një hulumtin më i thellë dhe llogaritje të vështira, për hulumtime dhe llogaritje të thella nevoiteshe kohë e cila mungonte. Në vitin 1942 Fakulteti Moore School of Electrical Engineering nga Universiteti i Pensilvanisë bashkë me institutin Ballistic Research Laboratory nga armata Amerikane filloi hulumtimet për një makinë-kompjuter i cili do t'u lehtësonte punën puntorëve në industrinë ushtarake për prodhimin e armatimit artilerik respektivisht do të llogaritë tabelat balistike. Projekti deri në 1943 ishte në fshehtësi. Në vitin 1943 filloi ndërtimin nën udhëheqjen e udhëheqësve të projektit John W. Mauchly dhe J. Presper Eckert. Kompjuteri i menduar u quajt ENIAC (Electronic Numerical Integrator and Computer) dhe në përdorim u lëshua më 15 Shkurt 1946. Kompjuteri ENIAC meret si kompjuteri i parë i formës dhe me funksionet e kompjuterëve të sotëm. Me konstruktimin e ENIAC-ut fillon edhe gjenerata e parë e zhvillimit të kompjuterëve. Vlenë të përmendet se idenë për ndërtimin e kompjuterit të këtillë (në vitin 1930) e dha matematicienti John V. Atanasoff i cili në atë kohë punonte me kompjuterët analog për zgjidhjen e barazimeve lineare në lëminë e kërkimeve operacionale si dhe matematikani i shekullit 20 John von Neuman i cili ariti që teoretikisht ta përpunojë idenë dhe të bëjë sistematizimin e idesë.- Kompjuteri ENIAC përmbante afër 18000 llëmba elektronike, peshonte afër 30 tonë, zënte sipërfaqe prej 150 m2.- Kompjuterët e prodhuar prej vitit 1946 deri 1953 (kompjuterët EDVAC, ILLIAC, MANIAC etj.), njihen si gjenerata e parë dhe karakterizohen me llëmbat elektronike.- Me zbulimin e tranzistorit fillon gjenerata e dytë, kjo gjenerat zgjat prej vitit 1953 deri 1964. Tek kompjuterët e gjeneratës së dytë fillon zbatimi i gjuhëve të larta programore (Fortran-i paraqitet në vitin 1957, Algol në vitin 1961, etj.)- Gjenerata e tretë e kompjuterëve fillon në vitin 1964 dhe vazhdon deri në vitin 1971, kompjuterat e konstruktuar në këtë periudhë karakterisohen me qarqet e integruara-çipat.- Gjenerata e katër e kompjuterëve fillon në vitin 1971, kompjuterët e kësaj gjenerate karakterizohen me qarqet integrale të dendësisë së madhe LSI dhe VLSI (V-very). Gjenerata e katër e kompjuterëve ende është e hapur, PC kompjuterët e sotëm i takojnë gjeneratës së katër.- Për dallim nga katër gjeneratat e para kompjuterët e të cilave bëjnë përpunimin e të dhënave, kompjuterët e gjeneratës pestë e cila fillon në vitin 1981 bëjnë përpunimin e njohurive. Në këtë gjeneratë bien makinat e quajtura Robot.- Kompjuterët e gjeneratës së gjashtë (njëherit gjenerata e fundit e kompjuterëve) e cila fillon në vitin 1986 merren me përpunimin e inteligjencës. Kompjuterët e kësaj gjenerate quhen Neurocomputers (Kompjuterët neural, Kompjuterët biologjik) të cilët në punën e tyre tentojnë të imitojnë trurin dhe sistemin nervorë të njeriut. Këta kompjuterë në fillim të jetës mësojnë (me metoda speciale eksperimentale) dhe pastaj janë në gjendje të veprojnë pa prezencën dhe ndikimin e njeriut.PJESA PROGRAMORE E KOMPJUTERIT-SOFTUERISistemi operativ- Programet, asemblerët dhe kompajlerët ekzekutohen në kompjuter, në praninë e një mjedisi të caktuar programues. Këtë mjedis programues e përcakton sistemi operativ. Sistemi operativ është një grumbull i programeve i cili manipulon me resurset dhe shërbimet e sistemit kompjuterik (harduerit), siç janë memoria qëndrore, njësitë hyrëse-dalëse, etj. Pra sistemi operativ e komandon (manipulon) me hardverin e sistemit kompjuterik. Programi, në mënyrë implicite apo eksplicite, vetëm përmes direktivave të sistemit operativ mund t'i shfrytëzojë resurset dhe shërbimet e sistemit kompjuterik. Pra programi e urdhëron apo kërkon nga sistemi operativ shfrytëzimin e resurseve kompjuterike.- Nga kjo që u tha më sipër shihet se programet të cilat i shkruajmë (programeve aplikative) në gjuhët larta programuese, nuk e komandojnë harduerin, por i dërgojnë komanda sistemit operativ, i cili më pastaj manipulon me harduer për të arritur te rezultatet e dëshiruara. Kjo do të thotë se sistemi operativ është një lloj ndërmjetësuesi (interfejs) në mes të programeve aplikative dhe harduerit kompjuterik.- Roli kryesor i sistemit operativ është të shërbej si ndërmjetësues në mes të shfrytëzuesit dhe hardverit kompjuterik, dhe në mes të programeve aplikative dhe hardverit kompjuterik.- Ekzistojnë sisteme të ndryshme operative, mirëpo më të njohurat në PC janë MS-DOS dhe MS WINDOWS 95.- MS-DOS ( MicroSoft Disk Operating System), që do të thotë sistemi operativ i diskut i majkrosoftit. Nga këndi i vështrimit të programerit MS-DOS është sistem operativ hierarkial, që përmbanë tri nivele (shtresa), të cilat e ndajnë shfrytëzuesin dhe programet aplikative prej hardverit kompjuterik. Këto shtresa janë BIOS ( Basic Input-Output System që do të thotë sistemi themelor për hyrje-dalje), kerneli i DOS-it, dhe interpretuesi i komandave. Shtresa më e ulët është BIOS-i. BIOS-i kryesisht manipulon me këto njësi hardverike:● Konzolla (tastatiera dhe ekrani);● Printed i përgjithshëm;● Portet serike;● Orën e taktit të kompjuterit;● Diskun startues.- Kerneli i DOS-it, përveq tjerash, ofron shërbimet për:● Manipulimin e folderëve dhe fajllave;● Manipulimin e memories qëndrore;● Kohën dhe datën;● Menagjmentin e programeve aplikative.- Interpretuesi i komandave ka për detyrë që të ekzekutojë komandat të cilat ia jep shfrytëzuesi, duke kyçur edhe leximin dhe ekzekutimin e programeve aplikative.- Edhe pse Windows është paraqitur në mes të viteve 1980, nuk pati ndonjë sukses të madh në treg. Mirëpo me lansimin e verzionit Windows 3.0 më 1990, e sidomos me Windows 3.1 një vit më vonë e gjithë kjo ndryshoi, dhe tani Windows është produkt softverik i dyti më i shituri i të gjitha kohrave, pas MS DOS-it (e sidomos me lajmërimin e Windows 95/98).Windows punon se bashku me DOS-in por sillet si sistem operativ në vehte. Duke i shtuar nivel softverik mbi DOS, Windows-i i shton zgjerime grafike DOS-it.- Popullariteti i Windows-it i ka shtyer shumë programerë dhe shtëpi softverike botuese që të zhvillojnë aplikacione të cilat janë vetëm për Windows. Të gjitha këto aplikacione kanë një pamje të përgjithshme të ngjashme. Nëse dini të drejtoni një strukturë të menysë në një aplikacion të Windows-it atëherë dini të bëni të njejtën gjë edhe në aplikacionet tjera.- Përparësitë kryesore të Windows-it janë:● Platformë multitasking, në të cilën shumë aplikacione mund të ekzekutohen në të njejtën kohë.● Pamje gjenerale e ngjashme e të gjitha aplikacioneve të shkruara për Windows.● Mjedis grafik, i cili manipulohet me ndihmën e miut (apo tastierës).● Mundësia e shkëmbimit të informatave - duke përfshirë fotografi, dokumente, etj. ndërmjet aplikacioneve të ndryshme.● Një numër të veglave ndihmëse, duke përfshirë editor të tekstit, program per vizatim, kalkulator, program komunikues për modem, etj. computer dating [këm'pju:të:deiting] n. takim (dy personash) me ndihmën e sistemit informatik telefonik computerese [këmpju:të'ri:z] n. gj.fol. zhargon i / gjuhë e informatikës● computer game [këm'pju:të:geim] n. lojë elektronike, lojë me kompjuter● computer aided design, computer assisted design [këm'pju:të: eidid di'zain/ ë'sistid] n. vizatim teknik me kompjuter● computerist [këm'pju:tërist] n. amer. informatikan● computerization [këmpju:tërai'zeishën] n 1. trajtim elektronik, kompjuterizim; automatizim. 2. hedhje (të dhënash etj) në kompjuter● computerize [këm'pju:tëraiz] vt 1. informatizoj, kompjuterizoj; përpunoj në kompjuter. 2. hedh në kompjuter● computer language [këm'pju:'længwixh] n. gjuhë programimi● computer literate [këm'pju:'litërit] adj. që ka njohuri në informatikë, që njeh kompjuterin● computer operator [këm'pju:'opëreitë:(r)] n. kompjuterist, person që punon në/me kompjuter● computer programmer [këm'pju:'prëugræmë:(r)] n. kmp. programist● computer science [këm'pju:'saiëns]n. informatikë● computer studies [këm'pju:'stadis] n. informatikë* * *kompjuter
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