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Fast-Inf: Ultra-Fast Embedded Intelligence on the Batteryless Edge

Leonardo Lucio Custode, Pietro Farina, Eren Yıldız, Renan Beran Kilic, Kasım Sinan Yıldırım, Giovanni Iacca

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Abstract

Batteryless edge devices are extremely resource-constrained compared to traditional mobile platforms. Existing tiny deep neural network (DNN) inference solutions are problematic due to their slow and resource-intensive nature, rendering them unsuitable for batteryless edge devices. To address this problem, we propose a new approach to embedded intelligence, called Fast-Inf, which achieves extremely lightweight computation and minimal latency. Fast-Inf uses binary tree-based neural networks that are ultra-fast and energy-efficient due to their logarithmic time complexity. Additionally, Fast-Inf models can skip the leaf nodes when necessary, further minimizing latency without requiring any modifications to the model or retraining. Moreover, Fast-Inf models have significantly lower backup and runtime memory overhead. Our experiments on an MSP430FR5994 platform showed that Fast-Inf can achieve ultra-fast and energy-efficient inference (up to 700x speedup and reduced energy) compared to a conventional DNN.

Topics & Concepts

Enhanced Data Rates for GSM EvolutionComputer scienceMaterials scienceArtificial intelligenceCCD and CMOS Imaging SensorsParallel Computing and Optimization TechniquesEmbedded Systems Design Techniques
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