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Autores principales: Petrie, James, Aarne, Onni
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2506.03409
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author Petrie, James
Aarne, Onni
author_facet Petrie, James
Aarne, Onni
contents Frontier AI models pose increasing risks to public safety and international security, creating a pressing need for AI developers to provide credible guarantees about their development activities without compromising proprietary information. We propose Flexible Hardware-Enabled Guarantees (flexHEG), a system integrated with AI accelerator hardware to enable verifiable claims about compute usage in AI development. The flexHEG system consists of two primary components: an auditable Guarantee Processor that monitors accelerator usage and verifies compliance with specified rules, and a Secure Enclosure that provides physical tamper protection. In this second report of a three part series, we analyze technical implementation options ranging from firmware modifications to custom hardware approaches, with focus on an "Interlock" design that provides the Guarantee Processor direct access to accelerator data paths. Our proposed architecture could support various guarantee types, from basic usage auditing to sophisticated automated verification. This work establishes technical foundations for hardware-based AI governance mechanisms that could address emerging regulatory and international security needs in frontier AI development.
format Preprint
id arxiv_https___arxiv_org_abs_2506_03409
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Technical Options for Flexible Hardware-Enabled Guarantees
Petrie, James
Aarne, Onni
Cryptography and Security
Frontier AI models pose increasing risks to public safety and international security, creating a pressing need for AI developers to provide credible guarantees about their development activities without compromising proprietary information. We propose Flexible Hardware-Enabled Guarantees (flexHEG), a system integrated with AI accelerator hardware to enable verifiable claims about compute usage in AI development. The flexHEG system consists of two primary components: an auditable Guarantee Processor that monitors accelerator usage and verifies compliance with specified rules, and a Secure Enclosure that provides physical tamper protection. In this second report of a three part series, we analyze technical implementation options ranging from firmware modifications to custom hardware approaches, with focus on an "Interlock" design that provides the Guarantee Processor direct access to accelerator data paths. Our proposed architecture could support various guarantee types, from basic usage auditing to sophisticated automated verification. This work establishes technical foundations for hardware-based AI governance mechanisms that could address emerging regulatory and international security needs in frontier AI development.
title Technical Options for Flexible Hardware-Enabled Guarantees
topic Cryptography and Security
url https://arxiv.org/abs/2506.03409