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Energy storage and calculation integrated unit, processor, electronic equipment, artificial nervous system and preparation method

A technology of charged particles and one-to-one correspondence, which is applied in the direction of using multiple devices for calculation and calculation using number system, which can solve the problems of limited space for improving computing power and high power consumption

Active Publication Date: 2021-09-03
UNIV OF ELECTRONICS SCI & TECH OF CHINA
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  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0004] In order to solve the technical problems of the computing system in the prior art, such as limited space for improving computing power and high power consumption, an embodiment of the present invention provides a method for preparing an integrated unit capable of storing and calculating, an integrated unit capable of storing and calculating, and a processing devices, electronic devices, and nervous systems

Method used

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  • Energy storage and calculation integrated unit, processor, electronic equipment, artificial nervous system and preparation method
  • Energy storage and calculation integrated unit, processor, electronic equipment, artificial nervous system and preparation method
  • Energy storage and calculation integrated unit, processor, electronic equipment, artificial nervous system and preparation method

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Embodiment 1

[0074] This embodiment provides a method for manufacturing an integrated storage and computing unit, including: providing a substrate 110 , and forming a first electrode 120 or a second electrode 140 on the surface of the substrate 110 .

[0075] Such as figure 1 As shown, when the first electrode 120 is formed on the surface of the substrate 110, the electrolyte layer 130 is formed on the surface of the first electrode 120 away from the substrate 110, and the second electrode 130 is formed on the surface of the electrolyte layer 130 away from the first electrode 120. electrode 140 .

[0076] Such as figure 2 As shown, when the second electrode 140 is formed on the surface of the substrate 110, the electrolyte layer 130 is formed on the surface of the second electrode 140 away from the substrate 110, and the first electrolyte layer 130 is formed on the surface of the electrolyte layer 130 away from the second electrode 140. electrode 120 .

[0077] In this embodiment, the fi...

Embodiment 2

[0149] see Figure 23 , this embodiment provides an integrated storage and calculation unit 100, which is prepared by the preparation method of the integrated storage and calculation unit 100 provided in Embodiment 1.

[0150] The energy-storage-computing integrated unit 100 uses lithium ions as a medium to form a battery structure and has the function of storing electric energy. When lithium ions intercalate and deintercalate between the first electrode 120 and the second electrode 140 , the content of lithium ions in the electrodes will change, which will cause the potential difference between the first electrode 120 and the second electrode 140 to change. Different lithium ion contents in the electrodes indicate that the battery structure is in different states, and these different states correspond to different potential differences, so the potential differences can be used to characterize different states, thereby distinguishing different states.

[0151] When switching ...

Embodiment 3

[0164] This embodiment provides a processor, which includes the integrated storage and calculation unit 100 provided in Embodiment 2. The integrated storage and calculation unit 100 is used as the basic calculation unit, and the integrated storage and calculation unit 100 can be integrated to form a processor. computing module.

[0165] The computing module of the processor has the functions of energy storage, computing and information storage at the same time. The overall architecture and structure are more streamlined, smaller in size, lower in power consumption, lower in computing delay, stronger in computing power, and dependent on external energy The stability is greatly reduced and can be used to deal with emergencies. In addition, it also breaks the technical limitations of traditional transistors, has a larger development space, and has the value of building an artificial neural network system.

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Abstract

The invention discloses an energy storage and calculation integrated unit, a processor, electronic equipment, an artificial nervous system and a preparation method, and relates to the field of electronic devices. The preparation method comprises providing a substrate and forming a first electrode or a second electrode on the surface of the substrate; when the first electrode is formed on the surface of the substrate, sequentially forming an electrolyte layer and a second electrode; and when the second electrode is formed on the surface of the substrate, sequentially forming the electrolyte layer and the first electrode. The invention has least two states, the content of the transferable charged particles in each electrode is in one-to-one correspondence with the potential difference, and / or the content of the transferable charged particles in the electrode is in one-to-one correspondence with the electrode resistance value. The processor, the electronic equipment and the nervous-like system are manufactured according to the energy storage and calculation integrated unit, the framework limitation of a traditional calculation unit is broken through, integration of energy storage, calculation and information storage is achieved, power consumption is smaller, the energy utilization rate is higher, the memory characteristic is achieved, and the potential value applied to an artificial neural network system is achieved.

Description

【Technical field】 [0001] The invention relates to the field of electronic devices, in particular to an integrated storage and calculation unit, a processor, electronic equipment, an artificial nervous system and a preparation method. 【Background technique】 [0002] With the advancement of intelligent technology, the application of ultra-high-performance computing systems is becoming more and more extensive, and the requirements for computing power are increasing. However, due to problems such as quantum tunneling and high power consumption of silicon-based microelectronic devices, computer systems based on von Neumann architecture are increasingly approaching the limit of Moore's Law. To continuously improve the computing power of a computer, it is necessary to continuously increase the number of processing units per unit area. The higher the degree of integration, the greater the power consumption and the heavier the heat dissipation burden. Existing technologies are gradu...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F7/38
CPCG06F7/388Y02E60/10
Inventor 张晓琨向勇陶治颖
Owner UNIV OF ELECTRONICS SCI & TECH OF CHINA
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