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Hardware assurance with silicon photonic physical unclonable functions [PDF]
In the modern landscape of optical communication networks, ensuring robust security is increasingly critical, particularly for applications requiring seamless integration and minimal attack surfaces. Photonic Physical Unclonable Functions (PUFs) leverage
Mohammad Amin Mahdian +3 more
doaj +4 more sources
PCB Component Detection Using Computer Vision for Hardware Assurance
Printed circuit board (PCB) assurance in the optical domain is a crucial field of study. Though there are many existing PCB assurance methods using image processing, computer vision (CV), and machine learning (ML), the PCB field is complex and ...
Wenwei Zhao +5 more
doaj +3 more sources
Comprehensive hardware assurance approaches guaranteeing trust on Integrated Circuits (ICs) typically require the verification of the IC design layout and functionality through destructive Reverse Engineering (RE). It is a resource intensive process that
Ronald Wilson +4 more
doaj +3 more sources
A Unified, Threat-Validated Taxonomy for Hardware Security Assurance
Hardware systems are foundational to critical infrastructure, embedded devices, and consumer products, making robust security assurance essential. However, existing hardware security standards remain fragmented, inconsistent in scope, and difficult to ...
Shao-Fang Wen, Arvind Sharma
doaj +2 more sources
EVHA: Explainable Vision System for Hardware Testing and Assurance—An Overview
Due to the ever-growing demands for electronic chips in different sectors, semiconductor companies have been mandated to offshore their manufacturing processes. This unwanted matter has made security and trustworthiness of their fabricated chips concerning and has caused the creation of hardware attacks.
Md Mahfuz al hasan +2 more
exaly +3 more sources
Electromagnetic (EM) radiation-based hardware assurance methods are gaining prominence due to their non-invasive nature of monitoring the chip activity and the potential for continuous monitoring of integrated circuits (ICs) during operation.
Manoj Yasaswi Vutukuru +2 more
doaj +3 more sources
In this paper, we present the need for specialized artificial intelligence (AI) for counterfeit and defect detection of PCB components. Popular computer vision object detection techniques are not sufficient for such dense, low inter-class/high intra ...
Mukhil Azhagan Mallaiyan Sathiaseelan +3 more
doaj +1 more source
Comprehensive hardware assurance and failure analysis methods require exhaustive validation of the design layout through post-silicon imaging. Overlooked segmentation errors in such images cause significant inflation of resource requirements, both in ...
Ronald Wilson +3 more
doaj +1 more source
Enabling Artificial Intelligence Adoption through Assurance
The wide scale adoption of Artificial Intelligence (AI) will require that AI engineers and developers can provide assurances to the user base that an algorithm will perform as intended and without failure.
Laura Freeman +2 more
doaj +1 more source
Unlocking Hardware Security Assurance: The Potential of LLMs
System-on-Chips (SoCs) form the crux of modern computing systems. SoCs enable high-level integration through the utilization of multiple Intellectual Property (IP) cores. However, the integration of multiple IP cores also presents unique challenges owing to their inherent vulnerabilities, thereby compromising the security of the entire system.
Xingyu Meng +7 more
openaire +2 more sources

