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Autori principali: Ray, Dustin, Jazmi, Caroline El
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2506.11458
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author Ray, Dustin
Jazmi, Caroline El
author_facet Ray, Dustin
Jazmi, Caroline El
contents Machine-learning systems continue to advance at a rapid pace, demonstrating remarkable utility in various fields and disciplines. As these systems continue to grow in size and complexity, a nascent industry is emerging which aims to bring machine-learning-as-a-service (MLaaS) to market. Outsourcing the operation and training of these systems to powerful hardware carries numerous advantages, but challenges arise when privacy and the correctness of work carried out must be ensured. Recent advancements in the field of zero-knowledge cryptography have led to a means of generating arguments of integrity for any computation, which in turn can be efficiently verified by any party, in any place, at any time. In this work we prove the correct training of a differentially-private (DP) linear regression over a dataset of 50,000 samples on a single machine in less than 6 minutes, verifying the entire computation in 0.17 seconds. To our knowledge, this result represents the fastest known instance in the literature of provable-DP over a dataset of this size. We believe this result constitutes a key stepping-stone towards end-to-end private MLaaS.
format Preprint
id arxiv_https___arxiv_org_abs_2506_11458
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Computational Attestations of Polynomial Integrity Towards Verifiable Machine-Learning
Ray, Dustin
Jazmi, Caroline El
Cryptography and Security
Machine-learning systems continue to advance at a rapid pace, demonstrating remarkable utility in various fields and disciplines. As these systems continue to grow in size and complexity, a nascent industry is emerging which aims to bring machine-learning-as-a-service (MLaaS) to market. Outsourcing the operation and training of these systems to powerful hardware carries numerous advantages, but challenges arise when privacy and the correctness of work carried out must be ensured. Recent advancements in the field of zero-knowledge cryptography have led to a means of generating arguments of integrity for any computation, which in turn can be efficiently verified by any party, in any place, at any time. In this work we prove the correct training of a differentially-private (DP) linear regression over a dataset of 50,000 samples on a single machine in less than 6 minutes, verifying the entire computation in 0.17 seconds. To our knowledge, this result represents the fastest known instance in the literature of provable-DP over a dataset of this size. We believe this result constitutes a key stepping-stone towards end-to-end private MLaaS.
title Computational Attestations of Polynomial Integrity Towards Verifiable Machine-Learning
topic Cryptography and Security
url https://arxiv.org/abs/2506.11458