Chuangtao Chen scite author profile

Given the stringent requirements of energy efficiency for Internet-of-Things edge devices, approximate multipliers, as a basic component of many processors and accelerators, have been constantly proposed and studied for decades, especially in error-resilient applications. The computation error and energy efficiency largely depend on how and where the approximation is introduced into a design. Thus, this article aims to provide a comprehensive review of the approximation techniques in multiplier designs ranging from algorithms and architectures to circuits. We have implemented representative approximate multiplier designs in each category to understand the impact of the design techniques on accuracy and efficiency. The designs can then be effectively deployed in high-level applications, such as machine learning, to gain energy efficiency at the cost of slight accuracy loss.

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Approximate Multiplier Design for Energy Efficiency: From Circuit to Algorithm

Chen

Wen

et al. 2012

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Analog Content Addressable Memory using Ferroelectric: A Case Study of Search-in-Memory

Chen

Huang

et al. 2020

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Chuangtao Chen

Optimally approximated and unbiased floating-point multiplier with runtime configurability

PAM: A Piecewise-Linearly-Approximated Floating-Point Multiplier With Unbiasedness and Configurability

A Survey on Approximate Multiplier Designs for Energy Efficiency: From Algorithms to Circuits

Approximate Multiplier Design for Energy Efficiency: From Circuit to Algorithm

Analog Content Addressable Memory using Ferroelectric: A Case Study of Search-in-Memory

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