Enhanced Reliability and Stability of FPGA-Based PUF-IDG-IoT

Abstract:
In the domain of hardware security, Physical Unclonable Functions (PUFs) offer a unique method for securing Field-Programmable Gate Arrays (FPGAs) by generating distinct identifiers. Despite their potential, FPGA-based PUFs often struggle with issues of uniqueness, reliability, and resource efficiency. Addressing these challenges, this paper introduces a novel FPGA-based PUF-IDG designed to significantly improve reliability and stability. Through dynamic environmental compensation, the system adeptly adjusts to fluctuations, ensuring consistent performance. Energy-efficient strategies are implemented, facilitating deployment in resource-constrained settings. Enhanced security features, including quantum-resistant elements and sophisticated countermeasures, shield against modern attacks. With real-time monitoring and the capacity for firmware updates, the PUF-IDG aligns with current cryptographic protocols and is built to withstand evolving security threats. This research lays the groundwork for a new generation of robust, adaptable hardware security solutions.