An Efficient Design for Area-Efficient Truncated Adaptive Booth Multiplier for Signal Processing Applications

Approximate computing is commonly employed in applications where accuracy is not crucial and aims to enhance circuit performance when inaccurate results are not challenging. The multipliers are power‐hungry, and their approximation has been the target of research, especially by using approximate counters. In this study, a low‐power and high‐speed approximate 4 : 2 counter is proposed to add partial product (PP) bits. Also, a new partial product generation (PPG) is introduced by inserting errors in Karnaugh’s map to reduce the circuit complexity. The counter and PPG make a new radix‐4‐based 8 × 8 Booth multiplier, which is synthesized targeting a 32‐nm carbon nanotube field‐effect transistor (CNTFET) technology to determine the hardware characteristics. Looking at the normalized mean error distance (NMED), the multiplier has a 51.33% power–delay product (PDP) saving and acceptable accuracy. Besides, the multiplier which is configured by the counter and PPG accomplishes a 28.31% savings in the PDP × NMED in comparison with other approximate Booth multipliers. The case study of joint photographic experts group (JPEG) compression is performed, and the proposed multiplier outperforms references by higher quality results along with lower power consumption.

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Investigation and Analysis of Power Performance Area (PPA) Cards of Digital Multiplier Architectures

Janwadkar

Dhavse

2022

J CIRCUIT SYST COMP

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The crucial role played by digital multipliers in VLSI system design makes it indispensable to study the PPA cards of digital multiplier architectures before tailoring multiplier architecture into such systems. Therefore, in this work, we present a detailed investigation and analysis of PPA cards of popular digital multiplier architectures, for various wordlengths. Each multiplier has been implemented on Artix-7 FPGA xc7a200tfbg676-2 and analyzed using Xilinx Vivado Design Suite 2019.2. A major contribution in this paper is the study of energy profiles of the architectures, not focused on in the earlier literature. This study compares their device utilization, timing parameters, power consumption, and energy profiles. Results indicate that Dadda Tree Multiplier and Wallace Tree Multiplier (460 slices and 557 slices, respectively, for [Formula: see text] bits) are undoubtedly the least slices consuming fast multipliers, but their power consumption and energy density are high as well. For 32-bit implementation, Vedic Multiplier consumes 48.9% lower power than Dadda Tree Multiplier, while the latter occupies 30.42% lesser slices. The speed of the Vedic Multiplier is in close proximity with the tree multipliers. The energy density of Vedic Multiplier (0.3[Formula: see text]nJ/slice) is much lower than that of Dadda Tree Multiplier (0.77[Formula: see text]nJ/slice).

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An Efficient Design for Area-Efficient Truncated Adaptive Booth Multiplier for Signal Processing Applications

Cited by 3 publications

References 35 publications

Inexact radix-4 Booth multipliers based on new partial product generation scheme for image multiplication

Inexact radix-4 Booth multipliers based on new partial product generation scheme for image multiplication

An Efficient Approximate Multiplier with Encoded Partial Products and Inexact Counter for Joint Photographic Experts Group Compression

Investigation and Analysis of Power Performance Area (PPA) Cards of Digital Multiplier Architectures

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