Poster: Resource-Efficient Deep Subnetworks for Dynamic Resource Constraints on IoT Devices

Francesco Corti; Balz Maag; Christopher  Hinterer; Julian  Rudolf; Joachim Schauer; Olga Saukh

Poster: Resource-Efficient Deep Subnetworks for Dynamic Resource Constraints on IoT Devices

Francesco Corti, Balz Maag, Christopher Hinterer, Julian Rudolf, Joachim Schauer, Olga Saukh

Institute of Technical Informatics (4480)

Research output: Contribution to conference › Poster › peer-review

Abstract

Deep models running on edge and mobile devices typically encounter dynamic system states due to changes in available resources, fluctuating energy levels and multiple competing real-time tasks. State-of-the-art machine learning pipelines produce resource-agnostic models that cannot dynamically adjust their resource demand at runtime. We present Resource-Efficient Deep Subnetworks (REDS), deep networks that can adapt their size and inference speed at runtime by using structured sparsity to allow for further optimizations on typical embedded platforms. We extend the TFMicro framework to support REDS and present preliminary evaluation on Arduino Nano 33 BLE Sense showing linear speedups and negligible overhead at a price of minor loss in model’s test set accuracy.

Original language	English
Pages	1-2
Number of pages	2
Publication status	Accepted/In press - 7 Jul 2023
Event	20th International Conference on Embedded Wireless Systems and Networks: EWSN 2023 - University of Calabria, Rende, Italy Duration: 25 Sept 2023 → 27 Sept 2023 https://events.dimes.unical.it/ewsn2023/

Conference

Conference	20th International Conference on Embedded Wireless Systems and Networks
Abbreviated title	EWSN 2023
Country/Territory	Italy
City	Rende
Period	25/09/23 → 27/09/23
Internet address	https://events.dimes.unical.it/ewsn2023/

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Poster: Resource-Efficient Deep Subnetworks for Dynamic Resource Constraints on IoT DevicesFinal published version, 263 KBLicence: CC BY-NC-SA 4.0

Cite this

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title = "Poster: Resource-Efficient Deep Subnetworks for Dynamic Resource Constraints on IoT Devices",

abstract = "Deep models running on edge and mobile devices typically encounter dynamic system states due to changes in available resources, fluctuating energy levels and multiple competing real-time tasks. State-of-the-art machine learning pipelines produce resource-agnostic models that cannot dynamically adjust their resource demand at runtime. We present Resource-Efficient Deep Subnetworks (REDS), deep networks that can adapt their size and inference speed at runtime by using structured sparsity to allow for further optimizations on typical embedded platforms. We extend the TFMicro framework to support REDS and present preliminary evaluation on Arduino Nano 33 BLE Sense showing linear speedups and negligible overhead at a price of minor loss in model{\textquoteright}s test set accuracy.",

author = "Francesco Corti and Balz Maag and Christopher Hinterer and Julian Rudolf and Joachim Schauer and Olga Saukh",

year = "2023",

month = jul,

day = "7",

language = "English",

pages = "1--2",

note = "20th International Conference on Embedded Wireless Systems and Networks : EWSN 2023, EWSN 2023 ; Conference date: 25-09-2023 Through 27-09-2023",

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T1 - Poster: Resource-Efficient Deep Subnetworks for Dynamic Resource Constraints on IoT Devices

AU - Corti, Francesco

AU - Maag, Balz

AU - Hinterer, Christopher

AU - Rudolf, Julian

AU - Schauer, Joachim

AU - Saukh, Olga

PY - 2023/7/7

Y1 - 2023/7/7

N2 - Deep models running on edge and mobile devices typically encounter dynamic system states due to changes in available resources, fluctuating energy levels and multiple competing real-time tasks. State-of-the-art machine learning pipelines produce resource-agnostic models that cannot dynamically adjust their resource demand at runtime. We present Resource-Efficient Deep Subnetworks (REDS), deep networks that can adapt their size and inference speed at runtime by using structured sparsity to allow for further optimizations on typical embedded platforms. We extend the TFMicro framework to support REDS and present preliminary evaluation on Arduino Nano 33 BLE Sense showing linear speedups and negligible overhead at a price of minor loss in model’s test set accuracy.

AB - Deep models running on edge and mobile devices typically encounter dynamic system states due to changes in available resources, fluctuating energy levels and multiple competing real-time tasks. State-of-the-art machine learning pipelines produce resource-agnostic models that cannot dynamically adjust their resource demand at runtime. We present Resource-Efficient Deep Subnetworks (REDS), deep networks that can adapt their size and inference speed at runtime by using structured sparsity to allow for further optimizations on typical embedded platforms. We extend the TFMicro framework to support REDS and present preliminary evaluation on Arduino Nano 33 BLE Sense showing linear speedups and negligible overhead at a price of minor loss in model’s test set accuracy.

UR - http://olgasaukh.com/paper/corti23reds_poster.pdf

M3 - Poster

SP - 1

EP - 2

T2 - 20th International Conference on Embedded Wireless Systems and Networks

Y2 - 25 September 2023 through 27 September 2023

ER -

Poster: Resource-Efficient Deep Subnetworks for Dynamic Resource Constraints on IoT Devices

Abstract

Conference

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FWF - DENISE - Doctoral School for Dependable Electronic-Based Systems

Intelligent & Networked Embedded Systems

Cite this

Poster: Resource-Efficient Deep Subnetworks for Dynamic Resource Constraints on IoT Devices

Abstract

Conference

Access to Document

Other files and links

Fingerprint

Projects

FWF - DENISE - Doctoral School for Dependable Electronic-Based Systems

Intelligent & Networked Embedded Systems

Cite this