适用于低功耗设备的高效浮点加法器

Manjula Narayanappa, S. S. Yellampalli
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引用次数: 0

摘要

随着数据密集型计算对功耗的需求日益增长,低功耗设计方法在行业中的地位日益突出。大多数系统都同时处理关键数据和非关键数据。试图生成精确结果会导致功耗过高,系统运行速度变慢。试图生成精确结果会导致功耗过高,系统运行速度变慢。对于非关键数据,近似计算电路可大大降低电路复杂度,从而降低功耗。对于非关键数据,近似计算电路可大大降低电路复杂度,从而降低功耗。本文提出了一种带有近似尾数加法器的新型近似单精度浮点加法器。尾数加法器由三个 8 位全加法器块组成。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An efficient floating point adder for low-power devices
With an increasing demand for power hungry data intensive computing, design methodologies with low power consumption are increasingly gaining prominence in the industry. Most of the systems operate on critical and noncritical data both. An attempt to generate a precision result results in excessive power consumption and results in a slower system. An attempt to generate a precision result results in excessive power consumption and results in a slower system. For non-critical data, approximate computing circuits significantly reduce the circuit complexity and hence power consumption. For non-critical data, approximate computing circuits significantly reduce the circuit complexity and hence power consumption. In this paper, a novel approximate single precision floating point adder is proposed with an approximate mantissa adder. The mantissa adder is designed with three 8-bit full adder blocks.
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