Betekenis van:
computer language

Voorbeeldzinnen

1. The Japanese translation of computer languages, like C language for example, is a bit strange but there are predefined appropriate terms.
2. writing a computer program using a specialised programming language,
3. computer skills for writing a computer program using a specialised programming language.
4. computer skills for writing a computer program using a specialised programming language,
5. A sample code in the computer language ‘C’ of the CRC algorithm calculation can be found in Appendix 2 and at the following Internet address:
6. Member States shall, with the assistance of the Commission, take accompanying measures to facilitate the exchange of officials in charge of the implementation of mutual assistance and training of such officials, including language and computer training.
7. Instruments adopted by delegation procedure or by subdelegation shall be attached in the authentic language or languages, in such a way that they cannot be separated, by the computer application provided for that purpose, to the day note referred to in Article 16 of these Rules of Procedure.
8. "Numerical control" (2) means the automatic control of a process performed by a device that makes use of numeric data usually introduced as the operation is in progress (ref. ISO 2382). "Object code" (9) means an equipment executable form of a convenient expression of one or more processes ("source code" (source language)) which has been converted by programming system. "Optical amplification" (5), in optical communications, means an amplification technique that introduces a gain of optical signals that have been generated by a separate optical source, without conversion to electrical signals, i.e., using semiconductor optical amplifiers, optical fibre luminescent amplifiers. "Optical computer" (4) means a computer designed or modified to use light to represent data and whose computational logic elements are based on directly coupled optical devices.
9. providing knowledge linked to a class of problems in quasi-natural language; or c. acquiring the knowledge required for their development (symbolic training). "FADEC" is equivalent to "full authority digital engine control". "Fault tolerance" (4) is the capability of a computer system, after any malfunction of any of its hardware or "software" components, to continue to operate without human intervention, at a given level of service that provides: continuity of operation, data integrity and recovery of service within a given time. "Fibrous or filamentary materials" (0 1 2 8) include: a. continuous "monofilaments"; b. continuous "yarns" and "rovings"; c. "tapes", fabrics, random mats and braids;
10. Providing knowledge linked to a class of problems in quasi-natural language; or c. Acquiring the knowledge required for their development (symbolic training). "FADEC" is equivalent to "full authority digital engine control". "Fault tolerance" (4) is the capability of a computer system, after any malfunction of any of its hardware or "software" components, to continue to operate without human intervention, at a given level of service that provides: continuity of operation, data integrity and recovery of service within a given time. "Fibrous or filamentary materials" (0 1 2 8) include: a. Continuous "monofilaments"; b. Continuous "yarns" and "rovings"; c. "Tapes", fabrics, random mats and braids;
11. "Equivalent Density" (6) means the mass of an optic per unit optical area projected onto the optical surface. "Expert systems" (7) mean systems providing results by application of rules to data which are stored independently of the "programme" and capable of any of the following: a. Modifying automatically the "source code" introduced by the user; b. Providing knowledge linked to a class of problems in quasi-natural language; or c. Acquiring the knowledge required for their development (symbolic training). "FADEC" is equivalent to "full authority digital engine control". "Fault tolerance" (4) is the capability of a computer system, after any malfunction of any of its hardware or "software" components, to continue to operate without human intervention, at a given level of service that provides: continuity of operation, data integrity and recovery of service within a given time.
12. "Numerical control" (2) means the automatic control of a process performed by a device that makes use of numeric data usually introduced as the operation is in progress (ref. ISO 2382). "Object code" (9) means an equipment executable form of a convenient expression of one or more processes ("source code" (source language)) which has been converted by programming system. "Optical amplification" (5), in optical communications, means an amplification technique that introduces a gain of optical signals that have been generated by a separate optical source, without conversion to electrical signals, i.e., using semiconductor optical amplifiers, optical fibre luminescent amplifiers. "Optical computer" (4) means a computer designed or modified to use light to represent data and whose computational logic elements are based on directly coupled optical devices. "Optical integrated circuit" (3) means a "monolithic integrated circuit" or a "hybrid integrated circuit", containing one or more parts designed to function as a photosensor or photoemitter or to perform (an) optical or (an) electro-optical function(s). "Optical switching" (5) means the routing of or switching of signals in optical form without conversion to electrical signals. "Overall current density" (3) means the total number of ampere-turns in the coil (i.e., the sum of the number of turns multiplied by the maximum current carried by each turn) divided by the total cross-section of the coil (comprising the superconducting filaments, the metallic matrix in which the superconducting filaments are embedded, the encapsulating material, any cooling channels, etc.). "Participating state" (7 9) is a state participating in the Wassenaar Arrangement. (See www.wassenaar.org)
13. "Numerical control" (2) means the automatic control of a process performed by a device that makes use of numeric data usually introduced as the operation is in progress (ref. ISO 2382). "Object code" (9) means an equipment executable form of a convenient expression of one or more processes ("source code" (source language)) which has been converted by programming system. "Optical amplification" (5), in optical communications, means an amplification technique that introduces a gain of optical signals that have been generated by a separate optical source, without conversion to electrical signals, i.e., using semiconductor optical amplifiers, optical fibre luminescent amplifiers. "Optical computer" (4) means a computer designed or modified to use light to represent data and whose computational logic elements are based on directly coupled optical devices. "Optical integrated circuit" (3) means a "monolithic integrated circuit" or a "hybrid integrated circuit", containing one or more parts designed to function as a photosensor or photoemitter or to perform (an) optical or (an) electro-optical function(s). "Optical switching" (5) means the routing of or switching of signals in optical form without conversion to electrical signals. "Overall current density" (3) means the total number of ampere-turns in the coil (i.e., the sum of the number of turns multiplied by the maximum current carried by each turn) divided by the total cross-section of the coil (comprising the superconducting filaments, the metallic matrix in which the superconducting filaments are embedded, the encapsulating material, any cooling channels, etc.). "Participating state" (7 9) is a state participating in the Wassenaar Arrangement. (See www.wassenaar.org) "Peak power" (6), means energy per pulse in joules divided by the pulse duration in seconds.
14. "Numerical control" (2) means the automatic control of a process performed by a device that makes use of numeric data usually introduced as the operation is in progress (ref. ISO 2382). "Object code" (9) means an equipment executable form of a convenient expression of one or more processes ("source code" (source language)) which has been converted by programming system. "Optical amplification" (5), in optical communications, means an amplification technique that introduces a gain of optical signals that have been generated by a separate optical source, without conversion to electrical signals, i.e., using semiconductor optical amplifiers, optical fibre luminescent amplifiers. "Optical computer" (4) means a computer designed or modified to use light to represent data and whose computational logic elements are based on directly coupled optical devices. "Optical integrated circuit" (3) means a "monolithic integrated circuit" or a "hybrid integrated circuit", containing one or more parts designed to function as a photosensor or photoemitter or to perform (an) optical or (an) electro-optical function(s). "Optical switching" (5) means the routing of or switching of signals in optical form without conversion to electrical signals. "Overall current density" (3) means the total number of ampere-turns in the coil (i.e., the sum of the number of turns multiplied by the maximum current carried by each turn) divided by the total cross-section of the coil (comprising the superconducting filaments, the metallic matrix in which the superconducting filaments are embedded, the encapsulating material, any cooling channels, etc.). "Participating state" (7 9) is a state participating in the Wassenaar Arrangement. (See www.wassenaar.org)
15. It uses a common medium which operates throughout at the same "digital transfer rate" using arbitration (e.g., token or carrier sense) for transmission. Independently from any other, it selects data packets or data groups (e.g., IEEE 802) addressed to it. It is an assembly that can be integrated into computer or telecommunications equipment to provide communications access. "Neural computer" (4) means a computational device designed or modified to mimic the behaviour of a neuron or a collection of neurons, i.e., a computational device which is distinguished by its hardware capability to modulate the weights and numbers of the interconnections of a multiplicity of computational components based on previous data. "Noise level" (6) means an electrical signal given in terms of power spectral density. The relation between "noise level" expressed in peak-to-peak is given by S2pp = 8 No(f2–f1), where Spp is the peak-to-peak value of the signal (e.g., nanoteslas), No is the power spectral density (e.g., (nanotesla)2/Hz) and (f2–f1) defines the bandwidth of interest. "Nuclear reactor" (0) means the items within or attached directly to the reactor vessel, the equipment which controls the level of power in the core, and the components which normally contain, come into direct contact with or control the primary coolant of the reactor core. "Numerical control" (2) means the automatic control of a process performed by a device that makes use of numeric data usually introduced as the operation is in progress (ref. ISO 2382). "Object code" (9) means an equipment executable form of a convenient expression of one or more processes ("source code" (source language)) which has been converted by programming system.