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Books on the topic 'High Speed Parallel Adder'

Author: Grafiati
Published: 4 June 2021
Last updated: 12 February 2022

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1

PAX computer: High-speed parallel processing and scientific computing. Addison-Wesley Publishing Co., 1989.

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2

Heerah, Imtehaze. Kinematic architecture selection and analysis of a planar high-speed, high-precision parallel robot. National Library of Canada, 2002.

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3

Lin, Yu, Hans Hegt, Kostas Doris, and Arthur H. M. van Roermund. Power-Efficient High-Speed Parallel-Sampling ADCs for Broadband Multi-carrier Systems. Springer International Publishing, 2015. http://dx.doi.org/10.1007/978-3-319-17680-2.

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4

Piras, Gabriel. Dynamic finite-element analysis of a planar high-speed, high-precision parallel manipulator with flexible links. National Library of Canada, 2003.

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5

Szuch, John R. Enhancing aeropropulsion research with high-speed interactive computing. National Aeronautics and Space Administration, Lewis Research Center, 1991.

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6

Paul, Casasent David, and Society of Photo-optical Instrumentation Engineers., eds. High speed computing: Part of the 1988 Innovative Science and Technology Symposium : 11-12 January 1988, Los Angeles, California. The Society, 1988.

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7

Parent, Bernard. Numerical study of high-speed hydrogen/air planar parallel turbulent mixing using the baldwin-lomax model. National Library of Canada, 1986.

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8

Parent, Bernard. Numerical study of high-speed hydrogen/air planar parallel turbulent mixing using the baldwin-lomax model. Dept. of Aerospace Science and Engineering, University of Toronto, 1998.

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9

Grigor'ev, Anatoliy, Evgeniy Isaev, and Pavel Tarasov. Transfer, storage and processing of large volumes of scientific data. INFRA-M Academic Publishing LLC., 2021. http://dx.doi.org/10.12737/1073525.

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The textbook examines large scientific projects and the amount of data generated by them, and provides an overview of scientific computer networks that allow high-speed transmission of large amounts of data for these projects. The article considers the computing systems offered by the leading manufacturers of computer equipment for processing large amounts of data and providing both the possibilities of storing large amounts of data, including distributed data, and the means of analytics and parallel data processing in real time. Special attention is paid to the security of the transmitted scientific information. Meets the requirements of the federal state educational standards of higher education of the latest generation. For students of technical specialties of bachelor's degree, master's degree, specialty, studying in the areas of "Applied Mathematics and Computer Science", "Business Computer Science" and "Computer Science and Computer Engineering".
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10

Shah, Parag Shantu. Low-power high-performance 32-bit 0.5[u]m CMOS adder. 1998.

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11

Shah, Parag Shantu. Low-power high-performance 32-bit 0.5[u]m CMOS adder. 1998.

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12

United States. National Aeronautics and Space Administration., ed. High speed civil transport aerodynamic optimization. MCAT Institute, 1994.

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13

United States. National Aeronautics and Space Administration., ed. High speed civil transport aerodynamic optimization. MCAT Institute, 1994.

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14

Xiang, Yihai. Design of high-speed adaptive parallel multi-level decision feedback equalizer. 1997.

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15

Xiang, Yihai. Design of high-speed adaptive parallel multi-level decision feedback equalizer. 1997.

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16

Modeling and Simulation Support for Parallel Algorithms in a High-Speed Network. Storming Media, 1997.

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17

Arthur H.M. van Roermund, Yu Lin, Hans Hegt, and Kostas Doris. Power-Efficient High-Speed Parallel-Sampling ADCs for Broadband Multi-carrier Systems. Springer, 2016.

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18

Davison, Christopher. Development of a parallel access optical disk system for high speed pattern recognition. 1997.

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19

Paul, Casasent David, and Society of Photo-optical Instrumentation Engineers., eds. High speed computing: Part of the 1988 Innovative Science and Technology Symposium, 11-12 January 1988. SPIE -- International Society for Optical Engineering, 1988.

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20

Gao, Hairong. Design of high-speed summing circuitry and comparator for adaptive parallel multi-level decision feedback equalization. 1997.

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21

Gao, Hairong. Design of high-speed summing circuitry and comparator for adaptive parallel multi-level decision feedback equalization. 1997.

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22

Calif.) Symposium on Innovative Science and Technology for Government and Civilian Applications (1989 : Los Angeles and David P. Casasent. High Speed Computing: Part of the 1988 Innovative Science and Technology Symposium : 11-12 January 1988, Los Angeles, California (Proceedings of Spie--the ... Society for Optical Engineering, V. 880). Society of Photo Optical, 1988.

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23

Maher, Christopher J., and Elaine R. Mardis. Genomic Landscape of Cancer. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780190238667.003.0004.

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The study of cancer genomics has advanced rapidly during the last decade due to the development of next generation or massively parallel technology for DNA sequencing. The resulting knowledge is transforming the understanding of both inherited (germline) genetic susceptibility and the somatic changes in tumor tissue that drive abnormal growth and progression. The somatic alterations in tumor tissue vary depending on the type of cancer and its characteristic “genomic landscape.” New technologies have increased the speed and lowered the cost of DNA sequencing and have enabled high-volume characterization of RNA, DNA methylation, DNA-protein complexes, DNA conformation, and a host of other factors that, when altered, can contribute to the development and/or progression of the cancer. Technologic advances have greatly expanded research on somatic changes in tumor tissue, revealing both the singularity of individual cancer genomes and the commonality of genetic alterations that drive cancer in different tissues.
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24

Hong, M. H. Laser applications in nanotechnology. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533060.013.24.

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This article discusses a variety of laser applications in nanotechnology. The laser has proven to be one of many mature and reliable manufacturing tools, with applications in modern industries, from surface cleaning to thin-film deposition. Laser nanoengineering has several advantages over electron-beam and focused ion beam processing. For example, it is a low-cost, high-speed process in air, vacuum or chemical environments and also has the capability to fulfill flexible integration control. This article considers laser nanotechnology in the following areas: pulsed laser ablation for nanomaterials synthesis; laser nanoprocessing to make nanobumps for disk media nanotribology and anneal ultrashort PN junctions; surface nanopatterning with near-field, and light-enhancement effects; and large-area parallel laser nanopatterning by laser interference lithography and laser irradiation through a microlens array. Based on these applications, the article argues that the laser will continue to be one of the highly potential nanoengineering means in next-generation manufacturing.
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