Implementation of a reliable mechanism for protecting IP cores on low-end FPGA devices Online publication date: Sun, 27-Aug-2017
by Mario Barbareschi; Pierpaolo Bagnasco
International Journal of Embedded Systems (IJES), Vol. 9, No. 4, 2017
Abstract: Field programmable gate array (FPGA) technology is being adopted in many digital systems, hence the demand for security increases, especially when intrinsic vulnerabilities of programmable devices jeopardise the intellectual properties (IPs). New high and medium-end FPGA devices have built-in mechanisms that, exploiting encryption primitives, are able to avoid IP piracy by preventing cloning and reverse engineering, but low-end FPGA families still lack security solutions. Recently, in the literature, a great researching effort has been done on physically unclonable functions (PUFs), which are eligible to be a fundamental means for authenticating integrated circuits. They can be adopted to guarantee protection against IP violations by implementing locking finite state machines (FSMs) on any device. In this paper, we show two implementations of the Anderson PUF, a good scalable and high reliable PUF architecture, on the Xilinx Spartan-3E family, which can be adopted to introduce the locking mechanism. In the experimental result, we show the quality parameters for signatures generated from proposed Anderson PUFs and the overhead introduced by the locking mechanism through an FSM.
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