A new technical paper titled “On the Thermal Vulnerability of 3D-Stacked High-Bandwidth Memory Architectures” was published by researchers at North Carolina A&T State University and New Mexico State University.
Abstract
“3D-stacked High Bandwidth Memory (HBM) architectures provide high-performance memory interactions to address the well-known performance challenge, namely the memory wall. However, these architectures are susceptible to thermal vulnerabilities due to the inherent vertical adjacency that occurs during the manufacturing process of HBM architectures. We anticipate that adversaries may exploit the intense vertical and lateral adjacency to design and develop thermal performance degradation attacks on the memory banks that host data/instructions from victim applications. In such attacks, the adversary manages to inject short and intense heat pulses from vertically and/or laterally adjacent memory banks, creating a convergent thermal wave that maximizes impact and delays the victim application from accessing its data/instructions. As the attacking application does not access any out-of-range memory locations, it can bypass both design-time security tests and the operating system’s memory management policies. In other words, since the attack mimics legitimate workloads, it will be challenging to detect.”
Find the technical paper here. August 2025.
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