Improving Netlist Transformation-Based Approximate Logic Synthesis Through Resynthesis

Roger Morales-Monge; Jorge Castro-Godinez; Guilherme Paim

doi:10.1109/LES.2024.3391220

Improving Netlist Transformation-Based Approximate Logic Synthesis Through Resynthesis

Roger Morales-Monge
, Jorge Castro-Godinez
, Guilherme Paim

Research output: Contribution to journal › Article › peer-review

Abstract

To address the challenges of efficient hardware design for error-tolerant applications, several techniques of applied approximate computing have been proposed. Pruning algorithms aim to approximate circuits with reduced design requirements at the cost of an acceptable degradation of their quality of result. In this letter, we present the effects of resynthesis, an iterative application of logic synthesis along with pruning algorithms, into a state-of-the-art approximate design flow, AxLS. Resynthesis strategy improves the approximation, achieving up to 70% area-power savings for the same error in the output, and reducing the number of iterations, and hence the time required to explore the design space in up to 30× , to obtain an approximated design.

Original language	English
Pages (from-to)	279-282
Number of pages	4
Journal	IEEE Embedded Systems Letters
Volume	16
Issue number	3
DOIs	https://doi.org/10.1109/LES.2024.3391220
State	Published - 2024
Externally published	Yes

Keywords

Approximate computing (AxC)
circuit design
electronic design automation (EDA)
pruning

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10.1109/LES.2024.3391220

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title = "Improving Netlist Transformation-Based Approximate Logic Synthesis Through Resynthesis",

abstract = "To address the challenges of efficient hardware design for error-tolerant applications, several techniques of applied approximate computing have been proposed. Pruning algorithms aim to approximate circuits with reduced design requirements at the cost of an acceptable degradation of their quality of result. In this letter, we present the effects of resynthesis, an iterative application of logic synthesis along with pruning algorithms, into a state-of-the-art approximate design flow, AxLS. Resynthesis strategy improves the approximation, achieving up to 70\% area-power savings for the same error in the output, and reducing the number of iterations, and hence the time required to explore the design space in up to 30× , to obtain an approximated design.",

keywords = "Approximate computing (AxC), circuit design, electronic design automation (EDA), pruning",

author = "Roger Morales-Monge and Jorge Castro-Godinez and Guilherme Paim",

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Y1 - 2024

N2 - To address the challenges of efficient hardware design for error-tolerant applications, several techniques of applied approximate computing have been proposed. Pruning algorithms aim to approximate circuits with reduced design requirements at the cost of an acceptable degradation of their quality of result. In this letter, we present the effects of resynthesis, an iterative application of logic synthesis along with pruning algorithms, into a state-of-the-art approximate design flow, AxLS. Resynthesis strategy improves the approximation, achieving up to 70% area-power savings for the same error in the output, and reducing the number of iterations, and hence the time required to explore the design space in up to 30× , to obtain an approximated design.

AB - To address the challenges of efficient hardware design for error-tolerant applications, several techniques of applied approximate computing have been proposed. Pruning algorithms aim to approximate circuits with reduced design requirements at the cost of an acceptable degradation of their quality of result. In this letter, we present the effects of resynthesis, an iterative application of logic synthesis along with pruning algorithms, into a state-of-the-art approximate design flow, AxLS. Resynthesis strategy improves the approximation, achieving up to 70% area-power savings for the same error in the output, and reducing the number of iterations, and hence the time required to explore the design space in up to 30× , to obtain an approximated design.

KW - Approximate computing (AxC)

KW - circuit design

KW - electronic design automation (EDA)

KW - pruning

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JO - IEEE Embedded Systems Letters

JF - IEEE Embedded Systems Letters

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ER -

Improving Netlist Transformation-Based Approximate Logic Synthesis Through Resynthesis

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Keywords

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