A Lightweight LFSR-Based Strong Physical Unclonable Function Design on FPGA
Also Available Domains FPGA|Cadence EDA|Xilinx Vivado|Xilinx ISE
Objective
A PUF is like a fingerprint for a particular physical object, it is based on many manufacturing mismatches that occur during IC fabrication or the propagation delays that are present in the wires and interconnects.
Abstract
Physical unclonable function (PUF), a reliable physical security primitive, can be implemented in FPGAs and ASICs. Strong PUF is an important PUF classication that provides a large ``Challenge-Response'' pairs (CRP) space for device authentication. However, most of the traditional strong PUF designs represented by the arbiter PUF are difcult to implement on FPGA. We propose a new lightweight strong PUF design that can dynamically recongure while maintaining high entropy and large CRP space. We implement the PUF on a 28-nm FPGA. The experimental results show that the uniformity of the PUF is 49.8%, the uniqueness is 49.9%, which is close to the ideal value, and the hardware overhead is very small. This design is easy to implement and suitable for device authentication on FPGA.
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