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Hauptverfasser: Fornt, Jordi, Fontova-Musté, Pau, Gras, Adrian, Lahyani, Omar, Caro, Martí, Abella, Jaume, Moll, Francesc, Altet, Josep
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2511.23203
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author Fornt, Jordi
Fontova-Musté, Pau
Gras, Adrian
Lahyani, Omar
Caro, Martí
Abella, Jaume
Moll, Francesc
Altet, Josep
author_facet Fornt, Jordi
Fontova-Musté, Pau
Gras, Adrian
Lahyani, Omar
Caro, Martí
Abella, Jaume
Moll, Francesc
Altet, Josep
contents Voltage overscaling, or undervolting, is an enticing approximate technique in the context of energy-efficient Deep Neural Network (DNN) acceleration, given the quadratic relationship between power and voltage. Nevertheless, its very high error rate has thwarted its general adoption. Moreover, recent undervolting accelerators rely on 8-bit arithmetic and cannot compete with state-of-the-art low-precision (<8b) architectures. To overcome these issues, we propose a new technique called Guarded Aggressive underVolting (GAV), which combines the ideas of undervolting and bit-serial computation to create a flexible approximation method based on aggressively lowering the supply voltage on a select number of least significant bit combinations. Based on this idea, we implement GAVINA (GAV mIxed-precisioN Accelerator), a novel architecture that supports arbitrary mixed precision and flexible undervolting, with an energy efficiency of up to 89 TOP/sW in its most aggressive configuration. By developing an error model of GAVINA, we show that GAV can achieve an energy efficiency boost of 20% via undervolting, with negligible accuracy degradation on ResNet-18.
format Preprint
id arxiv_https___arxiv_org_abs_2511_23203
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle GAVINA: flexible aggressive undervolting for bit-serial mixed-precision DNN acceleration
Fornt, Jordi
Fontova-Musté, Pau
Gras, Adrian
Lahyani, Omar
Caro, Martí
Abella, Jaume
Moll, Francesc
Altet, Josep
Hardware Architecture
Artificial Intelligence
Voltage overscaling, or undervolting, is an enticing approximate technique in the context of energy-efficient Deep Neural Network (DNN) acceleration, given the quadratic relationship between power and voltage. Nevertheless, its very high error rate has thwarted its general adoption. Moreover, recent undervolting accelerators rely on 8-bit arithmetic and cannot compete with state-of-the-art low-precision (<8b) architectures. To overcome these issues, we propose a new technique called Guarded Aggressive underVolting (GAV), which combines the ideas of undervolting and bit-serial computation to create a flexible approximation method based on aggressively lowering the supply voltage on a select number of least significant bit combinations. Based on this idea, we implement GAVINA (GAV mIxed-precisioN Accelerator), a novel architecture that supports arbitrary mixed precision and flexible undervolting, with an energy efficiency of up to 89 TOP/sW in its most aggressive configuration. By developing an error model of GAVINA, we show that GAV can achieve an energy efficiency boost of 20% via undervolting, with negligible accuracy degradation on ResNet-18.
title GAVINA: flexible aggressive undervolting for bit-serial mixed-precision DNN acceleration
topic Hardware Architecture
Artificial Intelligence
url https://arxiv.org/abs/2511.23203