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A logic gate circuit based on magnetic field-triggered superlattice phase transition unit

A technology of logic gate circuit and phase change unit, which is applied in the field of logic gate circuit, can solve the problems of high power consumption, complex logic device structure, poor stability, etc., and achieve the effect of superior storage speed and simplified circuit structure

Active Publication Date: 2018-11-30
HUAZHONG UNIV OF SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] In view of the above defects or improvement needs of the prior art, the present invention provides a logic gate circuit based on a magnetic field-triggered superlattice phase change unit, which solves the problem of complex structure and high power consumption of existing logic devices based on non-volatile memory. , technical problems of poor stability

Method used

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  • A logic gate circuit based on magnetic field-triggered superlattice phase transition unit
  • A logic gate circuit based on magnetic field-triggered superlattice phase transition unit
  • A logic gate circuit based on magnetic field-triggered superlattice phase transition unit

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Embodiment 1

[0059] The logic gate circuit that embodiment 1 provides is as Figure 4 Illustrated: including a superlattice phase change unit 101, a solenoid 107, a controllable switching element 102 and a resistor 103;

[0060] Wherein, the first end of the superlattice phase change unit 101 is used as the first input end 104 of the logic gate circuit, the input end of the solenoid 107 is used as the second input end 106 of the logic gate circuit; End is connected with the second end of superlattice phase change unit 101 and the first end of resistance 103, and its connection point is as the output end 105 of described logic gate circuit; The second end of controllable switch element 102 is grounded, and the second end of resistance 103 The second end is grounded.

[0061] The principle and process of realizing logic functions of the logic gate circuit will be described in detail below in conjunction with the logic gate circuit provided in Embodiment 1.

[0062] When the voltage pulse a...

Embodiment 2

[0075] The logic gate circuit that embodiment 2 provides is as Figure 5 Illustrated: including a superlattice phase change unit 203, a solenoid 207, a controllable switching element 202 and a resistor 201;

[0076] Wherein, the first end of the resistor 201 is used as the first input end 204 of the logic gate circuit, and the input end of the solenoid 207 is used as the second input end 206 of the logic gate circuit; One end is connected, and the other end is connected with the second end of resistance 201; One end of superlattice phase change unit 203 is connected with the second end of resistance 201, and its connection end is as the output end 205 of logic gate circuit, superlattice phase change unit The other end of 203 is grounded.

[0077] The logic gate circuit that embodiment 2 provides can realize logic or OR, and non-NAND, exclusive OR XOR, implication IMP function; The following in conjunction with the logic gate circuit that embodiment 2 provides and Figure 5 ,...

Embodiment 3

[0088] The logic gate circuit that embodiment 3 provides is as Figure 6 Illustrated: including a first superlattice phase change unit 301, a controllable switch element 302, a second superlattice phase change unit 303, a resistor 304, a first solenoid 308 and a second solenoid 309;

[0089] Wherein, the first terminal of the first superlattice phase-change unit 301 is used as the first input terminal 305 of the logic gate circuit, the input terminal of the first solenoid 308 is used as the second input terminal 310 of the logic gate circuit, and the second solenoid The input end of pipe 309 is used as the third input end 311 of logic gate circuit, the first end of the second superlattice phase change unit 303 is used as the fourth input end 306 of logic gate circuit; The second end of the superlattice phase change unit 301 is connected to the second end of the second superlattice phase change unit 303, and the other end of the controllable switch element 302 is grounded; one ...

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Abstract

The present invention discloses a logic gate circuit based on a magnetic field triggered superlattice phase-change unit. The logic gate circuit comprises a magnetic field generation module, a superlattice phase-change module, a voltage divider resistor and a controllable switch element; a switch of a resistance state of the superlattice phase-change module is controlled by applying a pulsed magnetic field and a voltage pulse; the voltage divider resistor is connected to the superlattice phase-change module, and a connection point thereof acts as an output terminal of the logic gate circuit; the controllable switch element is disposed on a connection line between the superlattice phase-change module and the voltage divider resistor; by switching on the controllable switch element, logic writing is carried out by applying high-voltage or low-voltage pulse signals to the superlattice phase-change module; by switching off the controllable switch element, a logic operation result is read from an output terminal of the logic gate circuit; logic functions such as AND, OR, NOT, NOR, NAND, XNOR, XOR, implication, inverse implication, multi-terminal AND, multi-terminal NAND, multi-terminal OR, and multi-terminal NOR can be achieved; the circuit structure is simple and achieves a range of logic functions, and the circuit is simple in structure, low in power consumption and non-volatile.

Description

technical field [0001] The invention belongs to the field of digital circuits, and more specifically relates to a logic gate circuit based on a magnetic field-triggered superlattice phase change unit. Background technique [0002] The architecture followed by modern computers is the von Neumann machine structure, which separates processing and storage, which greatly restricts the performance of computers in processing real-time massive data, resulting in the "von Neumann performance bottleneck". To solve this problem, logic devices based on non-volatile memory came into being. Compared with CMOS circuit memory, this type of device has a simpler structure, faster read and write speed, higher durability, and lower power consumption; and it can still maintain data after power off; and, non-volatile The memory has a clear distinction between high-resistance and low-resistance, and can represent logic states 0 and 1, thereby realizing the operation of state logic, and the result...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G11C11/56H03K19/20H03K19/21
CPCG11C11/56H03K19/20H03K19/21
Inventor 程晓敏陆彬冯金龙缪向水
Owner HUAZHONG UNIV OF SCI & TECH
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