Paper

YodaNN: An Architecture for Ultralow Power Binary-Weight CNN Acceleration

Volume Number:
37
Issue Number:
1
Pages:
Starting page
48
Ending page
60
Publication Date:
Publication Date
1 January 2018

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Abstract

Convolutional neural networks (CNNs) have revolutionized the world of computer vision over the last few years, pushing image classification beyond human accuracy. The computational effort of today’s CNNs requires power-hungry parallel processors or GP-GPUs. Recent developments in CNN accelerators for system-on-chip integration have reduced energy consumption significantly. Unfortunately, even these highly optimized devices are above the power envelope imposed by mobile and deeply embedded applications and face hard limitations caused by CNN weight I/O and storage. This prevents the adoption of CNNs in future ultralow power Internet of Things end-nodes for near-sensor analytics. Recent algorithmic and theoretical advancements enable competitive classification accuracy even when limiting CNNs to binary (+1/−1) weights during training. These new findings bring major optimization opportunities in the arithmetic core by removing the need for expensive multiplications, as well as reducing I/O bandwidth and storage. In this paper, we present an accelerator optimized for binary-weight CNNs that achieves 1.5 TOp/s at 1.2 V on a core area of only 1.33 million gate equivalent (MGE) or 1.9 mm2 and with a power dissipation of 895 μW in UMC 65-nm technology at 0.6 V. Our accelerator significantly outperforms the state-of-the-art in terms of energy and area efficiency achieving 61.2 TOp/s/[email protected] V and 1.1 TOp/s/[email protected] V, respectively.

Country
CHE
Affiliation
Institut für Integrierte Systeme, Zürich
IEEE Region
Region 08 (Africa, Europe, Middle East)
Country
CHE
Affiliation
Institut für Integrierte Systeme, Zürich
IEEE Region
Region 08 (Africa, Europe, Middle East)
Country
ITA
Affiliation
Università di Bologna
IEEE Region
Region 08 (Africa, Europe, Middle East)
Country
CHE
Affiliation
Swiss Federal Institute of Technology, Zurich
IEEE Region
Region 08 (Africa, Europe, Middle East)
Email