High-performance LFSR circuit design based on XOR gates

Author:

Xiao Haoyuan

Abstract

Abstract The research discussed in this article is focused on analysing the effects of XOR gates based on different logic families, namely MOS Current Mode Logic (MCML), dynamic current logic, and PTL, on the performance of linear feedback shift register (LFSR) circuits. The aim of the study is to evaluate the power dissipation and critical path latency of the circuits while comparing the results with earlier works in the field. To achieve this, the researchers implemented the 3, 4, and 5-bit LFSR circuits using Verilog HDL code and synthesized them on the Cadence tool using 90nm CMOS technology. The study concludes that LFSR circuits based on XOR gates outperform previous LFSR circuits in terms of power dissipation. The research also offers a comparative analysis of the different types of XOR gates used in the LFSR circuits, highlighting the advantages and disadvantages of each type. The results of the study can be useful for researchers working in the field of circuit design, as well as for practitioners who are interested in developing low-power and efficient LFSR circuits.

Publisher

IOP Publishing

Subject

Computer Science Applications,History,Education

Reference15 articles.

1. Solution-processable 2D semiconductors for high-performance large-area electronics;Lin;Nature,2018

2. High performance integrated photonic circuit based on inverse design method;Qi;Opto-Electronic Advances,2022

3. Design of 8 bit 16 bit and 32 bit LFSR for PN Sequence Generation using VHDL;Goankar;Int. J. of Technical Research and Applications,2015

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