Betekenis van:
common multiple

Voorbeeldzinnen

1. Digital terrestrial television operates through multiplexes, which are systems that combine and digitalise multiple signals for transmission over a single line or a common channel.
2. "Multichip integrated circuit" (3) means two or more "monolithic integrated circuits" bonded to a common "substrate". "Multi-data-stream processing" (4) means the "microprogramme" or equipment architecture technique which permits simultaneous processing of two or more data sequences under the control of one or more instruction sequences by means such as: a. single Instruction Multiple Data (SIMD) architectures such as vector or array processors; b. multiple Single Instruction Multiple Data (MSIMD) architectures; c. multiple Instruction Multiple Data (MIMD) architectures, including those which are tightly coupled, closely coupled or loosely coupled; or
3. "Multichip integrated circuit" (3) means two or more "monolithic integrated circuits" bonded to a common "substrate". "Multi-data-stream processing" (4) means the 'microprogramme' or equipment architecture technique which permits simultaneous processing of two or more data sequences under the control of one or more instruction sequences by means such as: a. Single Instruction Multiple Data (SIMD) architectures such as vector or array processors; b. Multiple Single Instruction Multiple Data (MSIMD) architectures; c. Multiple Instruction Multiple Data (MIMD) architectures, including those which are tightly coupled, closely coupled or loosely coupled; or d. Structured arrays of processing elements, including systolic arrays.
4. "Multichip integrated circuit" (3) means two or more "monolithic integrated circuits" bonded to a common "substrate". "Multi-data-stream processing" (4) means the 'microprogramme' or equipment architecture technique which permits simultaneous processing of two or more data sequences under the control of one or more instruction sequences by means such as: a. Single Instruction Multiple Data (SIMD) architectures such as vector or array processors; b. Multiple Single Instruction Multiple Data (MSIMD) architectures;
5. "Multichip integrated circuit" (3) means two or more "monolithic integrated circuits" bonded to a common "substrate". "Multi-data-stream processing" (4) means the "microprogramme" or equipment architecture technique which permits simultaneous processing of two or more data sequences under the control of one or more instruction sequences by means such as: a. single Instruction Multiple Data (SIMD) architectures such as vector or array processors; b. multiple Single Instruction Multiple Data (MSIMD) architectures;
6. N.B.:'Circuit element' is a single active or passive functional part of an electronic circuit, such as one diode, one transistor, one resistor, one capacitor, etc. "Monospectral imaging sensors" (6) are capable of acquisition of imaging data from one discrete spectral band. "Multichip integrated circuit" (3) means two or more "monolithic integrated circuits" bonded to a common "substrate". "Multi-data-stream processing" (4) means the 'microprogramme' or equipment architecture technique which permits simultaneous processing of two or more data sequences under the control of one or more instruction sequences by means such as: a. Single Instruction Multiple Data (SIMD) architectures such as vector or array processors; b. Multiple Single Instruction Multiple Data (MSIMD) architectures; c. Multiple Instruction Multiple Data (MIMD) architectures, including those which are tightly coupled, closely coupled or loosely coupled; or d. Structured arrays of processing elements, including systolic arrays.
7. N.B.:'Circuit element' is a single active or passive functional part of an electronic circuit, such as one diode, one transistor, one resistor, one capacitor, etc. "Monospectral imaging sensors" (6) are capable of acquisition of imaging data from one discrete spectral band. "Multichip integrated circuit" (3) means two or more "monolithic integrated circuits" bonded to a common "substrate". "Multi-data-stream processing" (4) means the 'microprogramme' or equipment architecture technique which permits simultaneous processing of two or more data sequences under the control of one or more instruction sequences by means such as: a. Single Instruction Multiple Data (SIMD) architectures such as vector or array processors; b. Multiple Single Instruction Multiple Data (MSIMD) architectures; c. Multiple Instruction Multiple Data (MIMD) architectures, including those which are tightly coupled, closely coupled or loosely coupled; or
8. "Multichip integrated circuit" (3) means two or more "monolithic integrated circuits" bonded to a common "substrate". "Multi-data-stream processing" (4) means the "microprogramme" or equipment architecture technique which permits simultaneous processing of two or more data sequences under the control of one or more instruction sequences by means such as: a. single Instruction Multiple Data (SIMD) architectures such as vector or array processors; b. multiple Single Instruction Multiple Data (MSIMD) architectures; c. multiple Instruction Multiple Data (MIMD) architectures, including those which are tightly coupled, closely coupled or loosely coupled; or d. structured arrays of processing elements, including systolic arrays. N.B.:"microprogramme" means a sequence of elementary instructions, maintained in a special storage, the execution of which is initiated by the introduction of its reference instruction into an instruction register.
9. "Monospectral imaging sensors" (6) are capable of acquisition of imaging data from one discrete spectral band. "Multichip integrated circuit" (3) means two or more "monolithic integrated circuits" bonded to a common "substrate". "Multi-data-stream processing" (4) means the 'microprogramme' or equipment architecture technique which permits simultaneous processing of two or more data sequences under the control of one or more instruction sequences by means such as: a. Single Instruction Multiple Data (SIMD) architectures such as vector or array processors; b. Multiple Single Instruction Multiple Data (MSIMD) architectures; c. Multiple Instruction Multiple Data (MIMD) architectures, including those which are tightly coupled, closely coupled or loosely coupled; or d. Structured arrays of processing elements, including systolic arrays. N.B.:'Microprogramme' means a sequence of elementary instructions, maintained in a special storage, the execution of which is initiated by the introduction of its reference instruction into an instruction register.
10. "Multichip integrated circuit" (3) means two or more "monolithic integrated circuits" bonded to a common "substrate". "Multi-data-stream processing" (4) means the "microprogramme" or equipment architecture technique which permits simultaneous processing of two or more data sequences under the control of one or more instruction sequences by means such as: a. single Instruction Multiple Data (SIMD) architectures such as vector or array processors;
11. "Multichip integrated circuit" (3) means two or more "monolithic integrated circuits" bonded to a common "substrate". "Multi-data-stream processing" (4) means the 'microprogramme' or equipment architecture technique which permits simultaneous processing of two or more data sequences under the control of one or more instruction sequences by means such as: a. Single Instruction Multiple Data (SIMD) architectures such as vector or array processors;
12. N.B.:'Circuit element' is a single active or passive functional part of an electronic circuit, such as one diode, one transistor, one resistor, one capacitor, etc. "Monospectral imaging sensors" (6) are capable of acquisition of imaging data from one discrete spectral band. "Multichip integrated circuit" (3) means two or more "monolithic integrated circuits" bonded to a common "substrate". "Multi-data-stream processing" (4) means the 'microprogramme' or equipment architecture technique which permits simultaneous processing of two or more data sequences under the control of one or more instruction sequences by means such as: a. Single Instruction Multiple Data (SIMD) architectures such as vector or array processors; b. Multiple Single Instruction Multiple Data (MSIMD) architectures;
13. "Monolithic integrated circuit" (3) means a combination of passive or active 'circuit elements' or both which: a. Are formed by means of diffusion processes, implantation processes or deposition processes in or on a single semiconducting piece of material, a so-called 'chip'; b. Can be considered as indivisibly associated; and c. Perform the function(s) of a circuit. N.B.:'Circuit element' is a single active or passive functional part of an electronic circuit, such as one diode, one transistor, one resistor, one capacitor, etc. "Monospectral imaging sensors" (6) are capable of acquisition of imaging data from one discrete spectral band. "Multichip integrated circuit" (3) means two or more "monolithic integrated circuits" bonded to a common "substrate". "Multi-data-stream processing" (4) means the 'microprogramme' or equipment architecture technique which permits simultaneous processing of two or more data sequences under the control of one or more instruction sequences by means such as: a. Single Instruction Multiple Data (SIMD) architectures such as vector or array processors; b. Multiple Single Instruction Multiple Data (MSIMD) architectures; c. Multiple Instruction Multiple Data (MIMD) architectures, including those which are tightly coupled, closely coupled or loosely coupled; or d. Structured arrays of processing elements, including systolic arrays.
14. "Monofilament" (1) or filament is the smallest increment of fibre, usually several micrometres in diameter. "Monolithic integrated circuit" (3) means a combination of passive or active 'circuit elements' or both which: a. Are formed by means of diffusion processes, implantation processes or deposition processes in or on a single semiconducting piece of material, a so-called 'chip'; b. Can be considered as indivisibly associated; and c. Perform the function(s) of a circuit. N.B.:'Circuit element' is a single active or passive functional part of an electronic circuit, such as one diode, one transistor, one resistor, one capacitor, etc. "Monospectral imaging sensors" (6) are capable of acquisition of imaging data from one discrete spectral band. "Multichip integrated circuit" (3) means two or more "monolithic integrated circuits" bonded to a common "substrate". "Multi-data-stream processing" (4) means the 'microprogramme' or equipment architecture technique which permits simultaneous processing of two or more data sequences under the control of one or more instruction sequences by means such as: a. Single Instruction Multiple Data (SIMD) architectures such as vector or array processors; b. Multiple Single Instruction Multiple Data (MSIMD) architectures; c. Multiple Instruction Multiple Data (MIMD) architectures, including those which are tightly coupled, closely coupled or loosely coupled; or d. Structured arrays of processing elements, including systolic arrays.
15. Where a project involves more than one economic activity, multiple codes may be indicated. In that case, the percentage share for each code should indicated with the total not exceeding 100 % (5) NACE-Rev.1, 4-digit code: http://europa.eu.int/comm/competition/mergers/cases/index/nace_all.html (6) New construction = 1; extension = 2; conversion/modernisation = 3; change of locality = 4; creation by take-over = 5. (7) Common Nomenclature (CN), Regulation (EC) No 1789/2003 (OJ L 281, 30.12.2003). (8) NUTS codes: http://europa.eu.int/comm/eurostat/ramon/nuts/home_regions_en.html. Please use the most detailed and relevant NUTS code. Where a project affects more than three individual Nuts – Lau 2 level areas, consider encoding the NUTS/LAU1 or higher codes.