Reliable edge machine learning hardware for scientific applications

Tommaso Baldi; Javier Campos; Ben Hawks; Jennifer Ngadiuba; Nhan Tran; Daniel Diaz; Javier Duarte; Ryan Kastner; Andres Meza; Melissa Quinnan; Olivia Weng; Caleb Geniesse; Amir Gholami; Michael W Mahoney; Vladimir Loncar; Philip Harris; Joshua Agar; Shuyu Qin

doi:10.48550/arxiv.2406.19522

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Reliable edge machine learning hardware for scientific applications

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Reliable edge machine learning hardware for scientific applications

Tommaso Baldi, Javier Campos, Ben Hawks, Jennifer Ngadiuba, Nhan Tran, Daniel Diaz, Javier Duarte, Ryan Kastner, Andres Meza, Melissa Quinnan, …

arXiv.org

27 Jun 2024

DOI: https://doi.org/10.48550/arxiv.2406.19522

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Abstract

Computer Science - Learning

Extreme data rate scientific experiments create massive amounts of data that require efficient ML edge processing. This leads to unique validation challenges for VLSI implementations of ML algorithms: enabling bit-accurate functional simulations for performance validation in experimental software frameworks, verifying those ML models are robust under extreme quantization and pruning, and enabling ultra-fine-grained model inspection for efficient fault tolerance. We discuss approaches to developing and validating reliable algorithms at the scientific edge under such strict latency, resource, power, and area requirements in extreme experimental environments. We study metrics for developing robust algorithms, present preliminary results and mitigation strategies, and conclude with an outlook of these and future directions of research towards the longer-term goal of developing autonomous scientific experimentation methods for accelerated scientific discovery.

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Title: Reliable edge machine learning hardware for scientific applications
Creators: Tommaso Baldi - University of Pisa
Javier Campos - Fermi National Accelerator Laboratory
Ben Hawks - Fermi National Accelerator Laboratory
Jennifer Ngadiuba - Fermi National Accelerator Laboratory
Nhan Tran - Fermi National Accelerator Laboratory
Daniel Diaz - University of California San Diego
Javier Duarte - University of California San Diego
Ryan Kastner - University of California San Diego
Andres Meza - University of California San Diego
Melissa Quinnan - University of California San Diego
Olivia Weng - University of California San Diego
Caleb Geniesse - UC Berkeley/LBNL/ICSI
Amir Gholami - UC Berkeley/LBNL/ICSI
Michael W Mahoney - UC Berkeley/LBNL/ICSI
Vladimir Loncar - MIT
Philip Harris - MIT
Joshua Agar - Drexel University
Shuyu Qin - Drexel University
Publication Details: arXiv.org
Resource Type: Preprint
Language: English
Academic Unit: Mechanical Engineering and Mechanics
Other Identifier: 991021893215004721

Reliable edge machine learning hardware for scientific applications

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