一种使用忆阻器的多值存储系统

2010 13th International Conference on Computer and Information Technology (ICCIT) Pub Date : 2010-12-01 DOI:10.1109/ICCITECHN.2010.5723881

Faisal Mohsin

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引用次数: 5

摘要

多年来，唯一已知的无源电路元件是电阻、电感和电容器。1971年，蔡列用论证的方法证明了应该存在另一种无源元件，他将其命名为忆阻器。它基本上是一个电阻，当电流从一个方向流过它时，它的电阻增加，当电流从另一个方向流过时，它的电阻减小。37年后，惠普的研究人员制造出了世界上第一个可工作的忆阻器，震惊了电子行业。蔡证明了记忆电阻器的特性不能仅用电阻器、电容器和电感来模拟，因此它是一个基本元件。使用忆阻器可以构建许多新型电路。但由于它是一个非常新的元素，所以没有。电路只是少数。由于忆阻器可以有多个电阻电平，我们可以使用一些离散值作为不同的逻辑电平，从而可以在多值逻辑系统中使用。本文提出了一种实现这些不同层次的方法。使用这种方法，我们可以使用一组忆阻器来制造一个非易失的多值数据存储系统

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A multivalued storage system using memristor

For many years the only known passive circuit elements were resistor, inductor and capacitor. In 1971, Leon Chua showed using argument that there should exist another passive element which he named memristor. It is basically a resistor whose resistance increases when current flows through it from one direction and decreases when current flows from the other direction. After 37 years researchers of HP became able to build world's first working memristor and surprised the electronics community. Chua proved that the characteristics of a memristor cannot be simulated using resistor, capacitor and inductor only and hence it is a fundamental element. Many new types of circuits can be built using memristor in it. But as it is a very new element so the no. of circuits is only a few. As memristor can have many resistance levels, we can use some discrete value as different logic level and thus can use in multivalued logic system. In this paper a method has been shown to achieve those different levels. Using this method we can use an array of memristor for making a non-volatile multivalued data storage system‥

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2010 13th International Conference on Computer and Information Technology (ICCIT)

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