Bridging data-capacity gap in big data storage

Bhat, Wasim Ahmad

doi:10.1016/j.future.2017.12.066

Cited by 35 publications

(16 citation statements)

References 63 publications

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“…The information age has led to the rapid development of data storage technology. Holographic technology, near-field optical storage technology, and laser-induced storage technology have been applied to research on data storage [132][133][134][135].…”

Section: Data Storage Materials and Devicesmentioning

confidence: 99%

Femtosecond Laser Micro/Nano-manufacturing: Theories, Measurements, Methods, and Applications

et al. 2020

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Femtosecond laser fabrication has grown to be a major method of extreme manufacturing because of the extreme energy density and spatial and temporal scales of femtosecond lasers. The physical effects and the mechanism of interaction between femtosecond lasers and materials are distinct from those in traditional processes. The nonlinear and nonequilibrium effects of the interaction have given rise to new concepts, principles, and methods, such as femtosecond pulse durations are shorter than many physical/chemical characteristic times, which permits manipulating, adjusting, or interfering with electron dynamics. These new concepts and methods have broad application prospects in micro/nanofabrication, chemical synthesis, material processing, quantum control, and other related fields. This review discusses the cutting-edge theories, methods, measurements, and applications of femtosecond lasers to micro/nano-manufacturing. The key to future development of femtosecond laser manufacturing lies in revealing its fabrication mechanism from the electronic level and precisely regulating the electronic dynamics.

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Section: Data Storage Materials and Devicesmentioning

confidence: 99%

Femtosecond Laser Micro/Nano-manufacturing: Theories, Measurements, Methods, and Applications

et al. 2020

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“…The development of the latest technological systems in the scope of data storage options, such as Optical data storage, DNA data storage or Holographic data storage is progressing exponentially (Bhat, 2018). This applies not only to the maximum available capacities, but what to do when working on data rates of data transfer and response speed.…”

Section: Data In the Digital Worldmentioning

confidence: 99%

Managing Data in Digital Marketing

Szymkowiak¹

2019

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In Chapter 3, a discussion was undertaken about the merits of distinguishing data science as an area of science and the perception of data science due to the progress of computational possibilities. The historical outline of data science was discussed, along with a reference to the data-driven approach. An additional problem raised in this chapter relates to determining the role of the scientist in the process of knowledge discovery. Moreover, in the context of the development of the tooling and methodological apparatus based on analytical autonomous operation. Various areas of data science were characterized, and traditional and modern methods were compared in the process of knowledge discovery, also showing the relationship between individual elements based on the knowledge pyramid. In addition, areas of marketing where data mining

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“… 7 − 11 For these systems to be applied to store information, however, several problems must be considered including (i) read/write speeds, (ii) retention of information, (iii) density of information, and (iv) cost. 12 …”

Section: Introductionmentioning

confidence: 99%

Storing and Reading Information in Mixtures of Fluorescent Molecules

et al. 2021

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The rapidly increasing use of digital technologies requires the rethinking of methods to store data. This work shows that digital data can be stored in mixtures of fluorescent dye molecules, which are deposited on a surface by inkjet printing, where an amide bond tethers the dye molecules to the surface. A microscope equipped with a multichannel fluorescence detector distinguishes individual dyes in the mixture. The presence or absence of these molecules in the mixture encodes binary information (i.e., “0” or “1”). The use of mixtures of molecules, instead of sequence-defined macromolecules, minimizes the time and difficulty of synthesis and eliminates the requirement of sequencing. We have written, stored, and read a total of approximately 400 kilobits (both text and images) with greater than 99% recovery of information, written at an average rate of 128 bits/s (16 bytes/s) and read at a rate of 469 bits/s (58.6 bytes/s).

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Bridging data-capacity gap in big data storage

Cited by 35 publications

References 63 publications

Femtosecond Laser Micro/Nano-manufacturing: Theories, Measurements, Methods, and Applications

Femtosecond Laser Micro/Nano-manufacturing: Theories, Measurements, Methods, and Applications

Managing Data in Digital Marketing

Storing and Reading Information in Mixtures of Fluorescent Molecules

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