Power Efficiency Top-Down ALU for Error Correction and Detection Circuit

2022 3rd International Conference on Communication, Computing and Industry 4.0 (C2I4) Pub Date : 2022-12-15 DOI:10.1109/C2I456876.2022.10051607

C. Senthilpari, K. Diwakar, Deivasigamani, P. Velrajkumar, Rajenthyran Ayavoo

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Abstract

Adder circuits and other logic blocks are used in the design of the ALU circuit. The primary goals of this study were to improve the efficiency of a 1-bit ALU and to speed it up without significantly increasing its power consumption. Both the Shannon theorem and mixed Shannon are used in the design of the proposed top-down ALU. Moreover, this article suggested utilising not one but three distinct ALUs: Binvert, Bit Slice, and MIPS. Compared to previously published circuits, the calculated values of power dissipation, propagation latency, and area are all improvements thanks to the simulation results. The proposed circuit is weighed against others that the adder-based ALU model could employ in artificial intelligence (AI)/Expert Systems (ES), Quantum Computing (QC), and Bio-Computing (BC) using parallel processing circuit blocks. When calculating the proposed adder-based ALU circuit's throughput, latency, and EPI, a BSIM4 analyser is used, which provides high throughput and lower latency than reportedfindings due to taking all the care off)

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功率效率自顶向下ALU纠错与检测电路

在ALU电路的设计中使用了加法器电路和其他逻辑块。本研究的主要目标是提高1位ALU的效率，并在不显着增加其功耗的情况下加快其速度。在自顶向下ALU的设计中使用了香农定理和混合香农定理。此外，本文建议使用不是一种而是三种不同的alu: Binvert、Bit Slice和MIPS。与之前发表的电路相比，功耗、传播延迟和面积的计算值都得到了改进，这得益于仿真结果。所提出的电路与基于加法器的ALU模型可以在人工智能(AI)/专家系统(ES)，量子计算(QC)和生物计算(BC)中使用并行处理电路块的其他电路进行权衡。在计算提议的基于加法器的ALU电路的吞吐量、延迟和EPI时，使用了BSIM4分析仪，它提供了比报告结果更高的吞吐量和更低的延迟，因为它消除了所有的注意。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 3rd International Conference on Communication, Computing and Industry 4.0 (C2I4)

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