A multi-value 3D crossbar array nonvolatile memory based on pure memristors

Sun, Jingru; Kang, Kexin; Sun, Yichuang; Hong, Qinghui; Wang, Chunhua

doi:10.1140/epjs/s11734-022-00576-9

Cited by 14 publications

(13 citation statements)

References 44 publications

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“…Sun et al [13] illustrated the implementation of a 3D crossbar array using purely memristive cells. The authors reported that the proposed 3D crossbar array nonvolatile memory has higher reading/writing speed, higher storage density, and lower power consumption.…”

Section: Circuit Implementationmentioning

confidence: 99%

“…Additionally, the tools for memristor models should be diversified, such as fractional-order derivative, fractional-order difference, analog circuit, and digital circuits. Therefore, memristor-based studies are collected in this volume, including neural systems [1][2][3], multistability and hidden dynamics [4][5][6][7][8][9][10], synchronization controller [11,12], circuits [13][14][15][16][17][18], discrete memristor chaotic maps [19][20][21][22][23], and image encryption applications [24,25]. Some of the contributions discuss several aspects.…”

Section: Introductionmentioning

confidence: 99%

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Novel memristor and memristor-based applications

Wang

Banerjee

et al. 2022

Eur. Phys. J. Spec. Top.

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This special issue presents 25 papers regarding memristor systems and their applications. Part of the manuscripts are about memristor-based neural systems, and the systems show rich dynamics. Multistability in memristive systems has aroused much interest, and nonlinear behaviors, such as hidden attractors, extreme multistability, and transient chaotic transition, are observed. There are also two works investigating controllers of fractional-order memristor chaotic systems and several for circuit implementation of memristor chaotic systems. As new research, discrete memristor chaotic maps are reported and show potential application value in the future. Finally, there are two papers about the application of memristive chaotic systems to image encryption fields, indicating that memristive chaotic systems can be used in the information security field.

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Section: Circuit Implementationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Novel memristor and memristor-based applications

Wang

Banerjee

et al. 2022

Eur. Phys. J. Spec. Top.

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“…A memristor is a non-linear resistor with memory characteristics, and its i-v characteristic curve is related to the frequency. Its proven good performance implies significant potential in the fields of chaotic circuits [3][4][5], nonvolatile memory [6,7], digital logic [8,9], artificial neural networks [10][11][12], and non-linear circuits. In general, the research of memristors includes physical implementation [2,13,14], applications in electronic circuits [15,16], and memristor emulators [17][18][19][20][21][22][23][24][25][26].…”

Section: Introductionmentioning

confidence: 99%

Design of the Threshold-Controllable Memristor Emulator Based on NDR Characteristics

Lin

Luo

et al. 2022

Micromachines

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Due to the high manufacturing cost of memristors, an equivalent emulator has been employed as one of the mainstream approaches of memristor research. A threshold-type memristor emulator based on negative differential resistance (NDR) characteristics is proposed, with the core part being the R-HBT network composed of transistors. The advantage of the NDR-based memristor emulator is the controllable threshold, where the state of the memristor can be changed by setting the control voltage, which makes the memristor circuit design more flexible. The operation frequency of the memristor emulator is about 250 kHz. The experimental results prove the feasibility and correctness of the threshold-controllable memristor emulator circuit.

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“…Then, Sun et al [38] proposed a new 1T2M structure, which solves the sneak path current problem with one word line. Some scholars have tried to use all-memristor designs to realize the design of memory cells, such as the structure of 2M1M [39] and 2M2M [40], 2M is used to replace the transistor to realize the switching function, and avoid sneak path current, all-memristor designs increase the storage density, but the problem of sneak path current is inevitable. Therefore, how to improve the storage density while solving the sneak path current problem is the research focus of memristor memory.…”

Section: Introductionmentioning

confidence: 99%

“…In our previous works [38,40], an extensible memristive cluster structure enabling multi-value memory is proposed, which can improve the store density by adding memristors with different characteristics. On the basis of this work, this paper proposes a 4M memristive cluster, which is connected with a transistor to form a memory cell of a crossbar array, to realize a 4-bit multi-valued nonvolatile memory.…”

Section: Introductionmentioning

confidence: 99%

Memristive Cluster Based Compact High-Density Nonvolatile Memory Design and Application for Image Storage

et al. 2022

Self Cite

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As a new type of nonvolatile device, the memristor has become one of the most promising technologies for designing a new generation of high-density memory. In this paper, a 4-bit high-density nonvolatile memory based on a memristor is designed and applied to image storage. Firstly, a memristor cluster structure consisting of a transistor and four memristors is designed. Furthermore, the memristor cluster is used as a memory cell in the crossbar array structure to realize the memory design. In addition, when the designed non-volatile memory is applied to gray scale image storage, only two memory cells are needed for the storage of one pixel. Through the Pspice circuit simulation, the results show that compared with the state-of-the-art technology, the memory designed in this paper has better storage density and read–write speed. When it is applied to image storage, it achieves the effect of no distortion and fast storage.

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A multi-value 3D crossbar array nonvolatile memory based on pure memristors

Cited by 14 publications

References 44 publications

Novel memristor and memristor-based applications

Novel memristor and memristor-based applications

Design of the Threshold-Controllable Memristor Emulator Based on NDR Characteristics

Memristive Cluster Based Compact High-Density Nonvolatile Memory Design and Application for Image Storage

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