基于忆阻器的模块化乘法器设计

2019 IEEE International Workshop on Future Computing (IWOFC Pub Date : 2019-12-01 DOI:10.1109/IWOFC48002.2019.9078443

Zitao Wei, Yongjia Wang, Xianyang Jiang

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引用次数: 1

摘要

忆阻器是四种基本电子元件(电阻器、电容器、电感器和忆阻器)中的最新成员。由于其结构简单，高密度集成度高，功耗低，可以有多种用途;其中，最有趣的方法是在电路中实现完整的逻辑运算。然而，由于这种方法的信号退化严重，目前还没有大规模的集成电路。为了证明这一潜力，采用材料蕴涵逻辑(IMP)实现模块化乘法器。具体来说，该电路是通过集成CMOS电路并在CMOS逻辑中模拟抽象忆阻器的工作过程来实现的。对该乘法器进行了仿真，并将其送入赛灵思FPGA进行验证。

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Design of Modular Multiplier Based on Memristor

Memristor is the newest member of the four basic electronic components (resistor, capacitor, inductor, and memristor). Based on its simple structure, high-density integration, and low power consumption, it can be utilized in various ways; One of which, the most interesting method is to achieve complete logic operations in the circuit. However, no large-scale integrated circuit has been worked out based on such method due to serious signal degradation. To demonstrate this potential, material implication logic (IMP) is adopted to implement modular multiplier. Specifically, the circuit is carried out by integrating CMOS circuit and emulating the abstract memristor working process in CMOS logic. The multiplier is simulated and streamed into a Xilinx FPGA for successful verification.

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2019 IEEE International Workshop on Future Computing (IWOFC

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