Decimal multiplication via carry-save addition

Proceedings IEEE International Conference on Application-Specific Systems, Architectures, and Processors. ASAP 2003 Pub Date : 2003-06-24 DOI:10.1109/ASAP.2003.1212858

M. A. Erle, M. Schulte

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引用次数: 169

Abstract

Decimal multiplication is important in many commercial applications including financial analysis, banking, tax calculation, currency conversion, insurance, and accounting. We present two novel designs for fixed-point decimal multiplication that utilize decimal carry-save addition to reduce the critical path delay. First, a multiplier that stores a reduced number of multiplicand multiples and uses decimal carry-save addition in the iterative portion of the design is presented. Then, a second multiplier design is proposed with several notable improvements including fast generation of multiplicand multiples that do not need to be stored, the use of decimal (4:2) compressors, and a simplified decimal carry-propagate addition to produce the final product. When multiplying two n-digit operands to produce a 2n-digit product, the improved multiplier design has a worst-case latency of n+4 cycles and an initiation interval of n+1 cycles. Three data-dependent optimizations, which help reduce the multipliers' average latency, are also described. The multipliers presented can be extended to support decimal floating-point multiplication.

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通过免进位加法进行十进制乘法

十进制乘法在许多商业应用中都很重要，包括金融分析、银行业务、税收计算、货币转换、保险和会计。我们提出了两种新的定点十进制乘法设计，利用十进制免进位加法来减少关键路径延迟。首先，提出了一种存储减少的乘数和倍数的乘法器，并在设计的迭代部分使用十进制免进位加法。然后，提出了第二种乘法器设计，其中有几个显著的改进，包括快速生成不需要存储的乘数和倍数，使用十进制(4:2)压缩器，以及简化的十进制进位传播加法来产生最终产品。当两个n位数的操作数相乘产生2n位数的乘积时，改进的乘法器设计的最坏情况延迟为n+4个周期，起始间隔为n+1个周期。还描述了三种数据相关的优化，它们有助于减少乘数器的平均延迟。所提供的乘数可以扩展为支持十进制浮点乘法。

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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Proceedings IEEE International Conference on Application-Specific Systems, Architectures, and Processors. ASAP 2003

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