Alternative information storage technologies

A piezoelectric-based method for information storage is presented. It involves engineering the polarization profiles of multiple piezoelectric wafers to enhance/suppress specific electromechanical resonances. These enhanced/suppressed resonances can be used to represent multiple frequency-dependent bits, thus enabling multi-level information storage. This multi-level information storage is demonstrated by achieving three information states for a ternary encoding. Using the three information states, we present an approach to encode and decode information from a 2-by-3 array of piezoelectric wafers that we refer to as a concept Piezoelectric Quick Response (PQR) code. The scaling relation between the number of wafers used and the cumulative number of information states that can be achieved with the proposed methodology is briefly discussed. Potential applications of this methodology include tamper-evident devices, embedded product tags in manufacturing/inventory tracking, and additional layers of security with existing information storage technologies.

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Application of inorganic resists in high-density information storage technologies

10.1117/12.201227 ◽

1995 ◽

Cited By ~ 3

Author(s):

Ivan Z. Indutnyi ◽

Sergey A. Kostyukevych ◽

Victor I. Minko ◽

Peter E. Shepeljavi ◽

Alexander V. Stronski

Keyword(s):

High Density ◽

Information Storage ◽

Storage Technologies

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Transfer Modeling for 1T1R Crossbar Arrays with Line Resistances

10.21203/rs.3.rs-356720/v1 ◽

2021 ◽

Author(s):

Xin Zhang ◽

Ying Zeng

Keyword(s):

Nonvolatile Memory ◽

Matrix Algebra ◽

Information Storage ◽

Crossbar Array ◽

Array Architecture ◽

Quantitative Performance ◽

The One ◽

Storage Technologies ◽

Array Performance ◽

Algebra Method

Abstract Progress of neuromorphic computing and next-generation information storage technologies hinges on the development of emerging nonvolatile memory (eNVM) devices, which are typically organized employing the crossbar array architecture. To facilitate quantitative performance analysis of eNVM crossbar array architecture, this paper proposes a way to study the one-transistor-one-resistor (1T1R, R: eNVM devices) crossbar arrays based on matrix algebra method. The comparative analysis of 1T1R crossbar array modeling based on matrix algebra method and compact-model SPICE simulations verifies the accuracy of the proposed method, which can be directly used for static quantitative analysis and evaluation of 1T1R crossbar array performance. With the proposed method, the optimization of array operation schemes and current backflow issue are discussed. Our analysis indicates that the proposed method is capable of flexibly adjusting array parameters and consider the influence of line resistance on array operation, and can provide guidance for improving the sensing margin of the array through multi-parameter co-simulation. The proposed matrix algebra-based 1T1R crossbar array modeling method can bridge the gap between the accuracy and flexibility of the available methods.

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Information Storage Technologies

Encyclopedia of Library and Information Sciences, Third Edition ◽

10.1081/e-elis3-120043699 ◽

2009 ◽

pp. 2624-2634

Keyword(s):

Information Storage ◽

Storage Technologies

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An alternative approach to nucleic acid memory

Nature Communications ◽

10.1038/s41467-021-22277-y ◽

2021 ◽

Vol 12 (1) ◽

Author(s):

George D. Dickinson ◽

Golam Md Mortuza ◽

William Clay ◽

Luca Piantanida ◽

Christopher M. Green ◽

...

Keyword(s):

Nucleic Acid ◽

Error Correction ◽

Data Storage ◽

Super Resolution ◽

Information Storage ◽

Advantages And Disadvantages ◽

Information Density ◽

Alternative Approach ◽

Correction Scheme ◽

Storage Technologies

AbstractDNA is a compelling alternative to non-volatile information storage technologies due to its information density, stability, and energy efficiency. Previous studies have used artificially synthesized DNA to store data and automated next-generation sequencing to read it back. Here, we report digital Nucleic Acid Memory (dNAM) for applications that require a limited amount of data to have high information density, redundancy, and copy number. In dNAM, data is encoded by selecting combinations of single-stranded DNA with (1) or without (0) docking-site domains. When self-assembled with scaffold DNA, staple strands form DNA origami breadboards. Information encoded into the breadboards is read by monitoring the binding of fluorescent imager probes using DNA-PAINT super-resolution microscopy. To enhance data retention, a multi-layer error correction scheme that combines fountain and bi-level parity codes is used. As a prototype, fifteen origami encoded with ‘Data is in our DNA!\n’ are analyzed. Each origami encodes unique data-droplet, index, orientation, and error-correction information. The error-correction algorithms fully recover the message when individual docking sites, or entire origami, are missing. Unlike other approaches to DNA-based data storage, reading dNAM does not require sequencing. As such, it offers an additional path to explore the advantages and disadvantages of DNA as an emerging memory material.

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HORT 2001: INTERACTIVE VIDEO COURSEWARE

HortScience ◽

10.21273/hortsci.26.5.483d ◽

1991 ◽

Vol 26 (5) ◽

pp. 483d-483

Author(s):

John White ◽

David Beattie ◽

Yvonne Clark

Keyword(s):

Computer Technology ◽

Interactive Video ◽

Science Inquiry ◽

Information Storage ◽

Plant Science ◽

Interactive Videodisc ◽

Plant Identification ◽

Vocational Agriculture ◽

Storage Technologies ◽

Videodisc Technology

Information storage technologies are changing, so this project is focused on the future and the use of new videodisc technology. A model plant science inquiry-learning tool was developed for vocational agriculture students using advanced video and computer technology. The interactive videodisc lesson, which focuses on plant identification, was designed to increase learning and allow teachers to spend more time with students.

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Study of storage devices properties for steganographic data hiding in cluster file systems

Radiotekhnika ◽

10.30837/rt.2020.4.203.10 ◽

2020 ◽

pp. 109-120

Author(s):

K.Yu. Shekhanin ◽

Yu.I. Gorbenko ◽

L.O. Gorbachova ◽

A.A. Kuznetsov

Keyword(s):

File Systems ◽

Information Storage ◽

Test Results ◽

Storage Devices ◽

Random Cluster ◽

Storage Media ◽

Hide Information ◽

Modern Information ◽

Storage Technologies ◽

Cluster File

Methods for technical steganography have been developed in recent years. Hiding of information in such systems is achieved by using properties artificially created by human while constructing various technical means. An example of technical steganography is the application of the features of constructing clustered file systems. This makes it possible to hide information effectively by changing the alternation of individual clusters, the so-called сover files. The names of such files are the key information and it is extremely difficult to recover a hidden message without links (i.e. without names) of cover files. This work describes and analyzes various modern information storage technologies, namely HDD, Flash-USB, SSD. We have analyzed different indicators such as the number of implemented products, price, speed of reading and writing. The important indicators of storage media efficiency with regard to steganographic methods of hiding information in cluster file systems were also analyzed. For example, we have investigated the speed of sequential reading / writing and the speed of access to a random cluster that is similar to the speed of access to a fragmented file. For this, we used the test results from the UserBenchmark resource. Tests were performed using Sequential and Random4k methods. In conclusion, an assessment of information carriers is given and recommendations are given on using the method of hiding data by mixing clusters in the structure of the file system.

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Multi-State MRAM Cells For Hardware Neuromorphic Computing

10.21203/rs.3.rs-1047393/v1 ◽

2021 ◽

Author(s):

Piotr Rzeszut ◽

Jakub Chęciński ◽

Ireneusz Brzozowski ◽

Sławomir Ziętek ◽

Witold Skowroński ◽

...

Keyword(s):

Memory Cell ◽

Information Storage ◽

Sigmoid Function ◽

Digital Information ◽

Function Generator ◽

Random Number Generators ◽

Computing Device ◽

Summing Amplifier ◽

Potential Applications ◽

Storage Technologies

Abstract Magnetic tunnel junctions (MTJ) have been successfully applied in various sensing application and digital information storage technologies. Currently, a number of new potential applications of MTJs are being actively studied, including high-frequency electronics, energy harvesting or random number generators. Recently, MTJs have been also proposed in designs of new platforms for unconventional or bio-inspired computing. In the present work, it is shown that serially connected MTJs forming a multi-state memory cell can be used in a hardware implementation of a neural computing device. The main purpose of the multi-cell is the formation of quantized weights in the network, which can be programmed using the proposed electronic circuit. Multi-cells are connected to a CMOS-based summing amplifier and a sigmoid function generator, forming an artificial neuron. The operation of the designed network is tested using a recognition of hand-written digits in 20 × 20 pixels matrix and shows detection ratio comparable to the software algorithm, using weights stored in a multi-cell consisting of four MTJs or more.

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Granular Certainty, The Vertical Filing Cabinet, and the Transformation of Files

Administory ◽

10.2478/adhi-2019-0005 ◽

2019 ◽

Vol 4 (1) ◽

pp. 71-86

Author(s):

Craig Robertson

Keyword(s):

20Th Century ◽

Information Storage ◽

Early 20Th Century ◽

Modern Conception ◽

Corporate Capitalism ◽

Filing Cabinet ◽

History Of ◽

History Of Information ◽

Specific Concept ◽

Storage Technologies

AbstractThis article provides a particular history of the file. It does not focus on the content of specific files or the development of filing systems. Instead it moves files from a history of administrative writing to a history of information storage technologies. My argument is that if we get ›under the hood‹ of the filing cabinet and manila folder to understand how they work we learn how information was conceptualized and understood such that it could contribute to the goals of efficiency critical to corporate capitalism. It is the contention of this article that information is a historically specific concept and the early 20th century emergence of the tabbed manila folder and the vertical filing cabinet offer insights into the development of a distinctly modern conception of information as impersonal, discrete, and therefore easily extracted. I offer the concept of ›granular certainty‹ to show how information was conceptualize, practically constituted and organized. This emphasizes the overlap between the importance of efficiency’s embrace of standardization and the specific and a conception of information as something specific. The tabbed manila folder and the vertical filing cabinet emerged from this overlap between efficiency and information.

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Cutting edge of the Information Storage Technologies. Information Storage Technology for IT Era.

The Journal of the Institute of Electrical Engineers of Japan ◽

10.1541/ieejjournal.122.216 ◽

2002 ◽

Vol 122 (4) ◽

pp. 216-218

Author(s):

YOSHIMASA MIURA

Keyword(s):

Cutting Edge ◽

Information Storage ◽

Storage Technology ◽

Storage Technologies

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