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Hybrid memristor-CMOS implementation of logic gates design using LTSpice

In this paper, a hybrid memristor-CMOS implementation of logic gates simulated using LTSpice. Memristors' implementation in computer architecture designs explored in various design structures proposed by researchers from all around the world. However, all prior designs have some drawbacks in terms of applicability, scalability, and performance. In this research, logic gates design based on the hybrid memristor-CMOS structure presented. 2-inputs AND, OR, NAND, NOR, XOR, and XNOR are demonstrated with minimum components requirements. In addition, a 1-bit full adder circuit with high performance and low area consumption is also proposed. The proposed full adder only consists of 4 memristors and 7 CMOS transistors. Half design of the adder base on the memristor component created. Through analysis and simulations, the memristor implementation on designing logic gates using memristor-CMOS structure demonstrated using the generalized metastable switch memristor (MSS) model and LTSpice. In conclusion, the proposed approach improves speed and require less area.

Institute of Advanced Engineering and Science

Wan Mohd Hashimi Wan Mohamad Sharif Mohd Faizul Md Idros Syed Abdul Mutalib Al-Junid Fairul Nazmi Osman Abdul Hadi Abdul Razak Abdul Karimi Halim Muhammad Adib Harun

International Journal of Electrical and Computer Engineering (IJECE)

2021

Title: Hybrid memristor-CMOS implementation of logic gates design using LTSpice

Description:

In this paper, a hybrid memristor-CMOS implementation of logic gates simulated using LTSpice.

Memristors' implementation in computer architecture designs explored in various design structures proposed by researchers from all around the world.

However, all prior designs have some drawbacks in terms of applicability, scalability, and performance.

In this research, logic gates design based on the hybrid memristor-CMOS structure presented.

2-inputs AND, OR, NAND, NOR, XOR, and XNOR are demonstrated with minimum components requirements.

In addition, a 1-bit full adder circuit with high performance and low area consumption is also proposed.

The proposed full adder only consists of 4 memristors and 7 CMOS transistors.

Half design of the adder base on the memristor component created.

Through analysis and simulations, the memristor implementation on designing logic gates using memristor-CMOS structure demonstrated using the generalized metastable switch memristor (MSS) model and LTSpice.

In conclusion, the proposed approach improves speed and require less area.

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