Comparative performance analysis of FPGA-based MAC unit using non-conventional number system in TVL domain for signal processing algorithm

Q4 Engineering

International Journal of Nanoparticles Pub Date : 2020-03-20 DOI:10.1504/ijnp.2020.106000

Aniruddha Ghosh, A. Sinha

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Abstract

Today, the complication of binary digital hardware system is progressively growing. Due to this fact, new methodologies for efficiently describing and realising the digital systems are explored in this paper. Multi-valued logic methodology offers a few preferences over existing binary digital system. One of the well-known multi-valued logic systems is ternary value logic (TVL) system. It is seen that all kind of digital signal processing (DSP) algorithms widely use multiply-accumulate (MAC) operation for superior digital processing system. To implement high performance DSP algorithms MAC unit is used extensively. In current scenario, it is seen that non-conventional, non-binary number system-based architecture is also exhibited better performance. The example of such non-conventional, non-binary number systems is ternary residue number systems (TRNSs) and double base ternary number system (DBTNS). Here, a comparative study is made on performance analysis of MAC unit using various non-conventional, non-binary number system. All the architecture is mapped on FPGA for analysis its performance.

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采用TVL域非常规数制进行信号处理算法的基于fpga的MAC单元性能对比分析

如今，二进制数字硬件系统的复杂性日益增加。鉴于这一事实，本文探索了有效描述和实现数字系统的新方法。多值逻辑方法比现有的二进制数字系统提供了一些优点。三值逻辑(TVL)是一种众所周知的多值逻辑系统。可见，各种数字信号处理(DSP)算法都广泛采用乘累加(MAC)运算，以实现优越的数字处理系统。为了实现高性能的DSP算法，广泛使用了MAC单元。在目前的场景中，可以看到非传统的、基于非二进制数系统的架构也表现出了更好的性能。这种非常规的非二进制数系统的例子是三进制余数系统(TRNSs)和双进制三进制(DBTNS)。本文对采用各种非常规、非二进制数制的MAC单元性能分析进行了比较研究。将所有的体系结构映射到FPGA上，分析其性能。

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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来源期刊

International Journal of Nanoparticles Engineering-Mechanical Engineering

CiteScore

1.60

自引率

0.00%

发文量