A new technical paper titled “ShuffleV: A Microarchitectural Defense Strategy against Electromagnetic Side-Channel Attacks in Microprocessors” was published by researchers at Northeastern University and Binghamton University.
Abstract
“The run-time electromagnetic (EM) emanation of microprocessors presents a side-channel that leaks the confidentiality of the applications running on them. Many recent works have demonstrated successful attacks leveraging such side-channels to extract the confidentiality of diverse applications, such as the key of cryptographic algorithms and the hyperparameter of neural network models. This paper proposes ShuffleV, a microarchitecture defense strategy against EM Side-Channel Attacks (SCAs). ShuffleV adopts the moving target defense (MTD) philosophy, by integrating hardware units to randomly shuffle the execution order of program instructions and optionally insert dummy instructions, to nullify the statistical observation by attackers across repetitive runs. We build ShuffleV on the open-source RISC-V core and provide six design options, to suit different application scenarios. To enable rapid evaluation, we develop a ShuffleV simulator that can help users to (1) simulate the performance overhead for each design option and (2) generate an execution trace to validate the randomness of execution on their workload. We implement ShuffleV on a Xilinx PYNQ-Z2 FPGA and validate its performance with two representative victim applications against EM SCAs, AES encryption, and neural network inference. The experimental results demonstrate that ShuffleV can provide automatic protection for these applications, without any user intervention or software modification.”
Find the technical paper here. October 2025.
Narkthong, Nuntipat, Yukui Luo, and Xiaolin Xu. “ShuffleV: A Microarchitectural Defense Strategy against Electromagnetic Side-Channel Attacks in Microprocessors.” arXiv preprint arXiv:2510.13111 (2025).
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