Integrated Security Mechanisms for Weight Protection in Memristive Crossbar Arrays

October 01, 2025 Β· Declared Dead Β· πŸ› IEEE International Conference on Application-Specific Systems, Architectures, and Processors

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Authors Muhammad Faheemur Rahman, Wayne Burleson arXiv ID 2510.01350 Category cs.CR: Cryptography & Security Cross-listed cs.AR, cs.ET, cs.NE, eess.SY Citations 2 Venue IEEE International Conference on Application-Specific Systems, Architectures, and Processors Last Checked 4 months ago
Abstract
Memristive crossbar arrays enable in-memory computing by performing parallel analog computations directly within memory, making them well-suited for machine learning, neural networks, and neuromorphic systems. However, despite their advantages, non-volatile memristors are vulnerable to security threats (such as adversarial extraction of stored weights when the hardware is compromised. Protecting these weights is essential since they represent valuable intellectual property resulting from lengthy and costly training processes using large, often proprietary, datasets. As a solution we propose two security mechanisms: Keyed Permutor and Watermark Protection Columns; where both safeguard critical weights and establish verifiable ownership (even in cases of data leakage). Our approach integrates efficiently with existing memristive crossbar architectures without significant design modifications. Simulations across 45nm, 22nm, and 7nm CMOS nodes, using a realistic interconnect model and a large RF dataset, show that both mechanisms offer robust protection with under 10% overhead in area, delay and power. We also present initial experiments employing the widely known MNIST dataset; further highlighting the feasibility of securing memristive in-memory computing systems with minimal performance trade-offs.
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