Delay Optimized Binary to BCD Converter for Multi-operand Parallel Decimal Adder

2019 International Conference on Vision Towards Emerging Trends in Communication and Networking (ViTECoN) Pub Date : 2019-03-30 DOI:10.1109/ViTECoN.2019.8899475

Ragunath G, Viren Sugandh, S. R

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引用次数: 1

Abstract

Decimal arithmetic is receiving greater attention due to its applications in banking and internet-based sectors. Several algorithms have been introduced for Multi-operand addition. A mixed approach of having binary adders followed by binary to BCD converter is showing better performance compared to binary adders with correction logic in intermediate stages. Adder circuits form the basis of our computing. Multiplication and division algorithms are also based on the adder circuits. Thus designing fast Multi-operand parallel adders is receiving greater interest by researchers. BD converters that are the final blocks of the adder circuits have gained a lot of importance highlighting the need to have an efficient BD converter as critical for improvised adder architectures. This paper proceeds with the mixed approach and it considers the special case of 8 operand decimal addition which is done using binary CSA structure and proposes a BD converter for 7-bit binary number that is efficient in terms of area and delay when compared to the existing designs. The power delay product of our design is 27% more efficient than existing designs.

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用于多操作数并行十进制加法器的延迟优化二进制到BCD转换器

十进制算法由于在银行和基于互联网的部门中的应用而受到越来越多的关注。介绍了几种多操作数加法算法。与中间阶段具有校正逻辑的二进制加法器相比，具有二进制到BCD转换器的混合方法显示出更好的性能。加法器电路构成了我们计算的基础。乘法和除法算法也基于加法器电路。因此，设计快速的多操作数并行加法器越来越受到研究者的关注。作为加法器电路的最后一个模块，BD转换器已经变得非常重要，这突出了高效的BD转换器对于临时加法器架构的重要性。本文从混合方法出发，考虑了使用二进制CSA结构进行8操作数十进制加法的特殊情况，并提出了一种7位二进制数的BD转换器，与现有设计相比，该转换器在面积和延迟方面都是有效的。我们设计的功率延迟产品比现有设计的效率提高27%。

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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2019 International Conference on Vision Towards Emerging Trends in Communication and Networking (ViTECoN)

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