Comb Capacitor Structures for On-Chip Physical Uncloneable Function


Roy, D. and Klootwijk, J.H. and Verhaegh, N.A.M. and Roosen, H.H.A.J. and Wolters, R.A.M. (2009) Comb Capacitor Structures for On-Chip Physical Uncloneable Function. IEEE Transactions on Semiconductor Manufacturing, 22 (1). pp. 96-102. ISSN 0894-6507

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Abstract:Planar inter-digitated comb capacitor structures are an excellent tool for on-chip capacitance measurement and evaluation of properties of coating layers with varying composition. These comb structures are easily fabricated in a single step in the last metallization layer of a standard IC process. Capacitive coupling of these structures with a coating layer is modelled based on the electric field distribution to have a detailed understanding of contributing capacitance components. The coating composition is optimized to provide maximum spread in capacitance values of comb capacitor structures. This spread in measured capacitance values can be used to implement a physical uncloneable function (PUF). A PUF is a random function which can be evaluated only with the help of a physical system. We present an on-chip capacitive PUF for chip security and data storage in which the unlock key algorithm is generated from capacitors which are physically linked to the chip in an inseparable way. The strength of this key increases with the spread in capacitance values and measurement accuracy.
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Electrical Engineering, Mathematics and Computer Science (EEMCS)
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