Temperature-Resilient Reconfigurable PUF with Dual-Pulse Modulation based on SOT-MRAM Chip

In the Internet of Things (IoT) era, hardware-based security solutions have become an emerging choice for enhancing end-terminal information security. As one of the hardware technologies, physical unclonable functions (PUFs) utilize the inherent variations in the manufacturing process to generate cryptographic keys. Reconfigurable PUFs (rPUFs), characterized by updating cryptographic keys, offer enhanced security ability for protecting massive amounts of data in dynamic operational scenarios. The core challenge lies in achieving real-time reconfiguration independent of environmental conditions, particularly operating temperature, which has rarely been investigated and addressed. In this study, we propose a dual-pulse reconfiguration strategy based on SOT-MRAM carriers, which effectively widens the operating window and exhibits excellent PUF metrics. Experimental results demonstrate that our design achieves real-time reconfiguration across industrial-grade operating temperature ranges, without the need for dynamic feedback of real-time temperature. The proposed SOT-MRAM rPUF design lays a solid foundation for next-generation IoT protection architectures.