Mobile QR Code QR CODE

References

1 
Apple iPhone 7 Teardown. Accessed: May 21, 2019. [Online]. Available: https://www.techinsights.com/blog/apple-iphone-7-teardownURL
2 
A. Tilley, “This Mysterious Chip In the iPhone 7 could be key to Apple’s AI Push”, Available: https://www.forbes.com/sites/aarontilley/2016/10/17/iphone-7-fpga-chip-artificial-intelligence/#77e2d3ca3c69URL
3 
S. McNeil, “Solving today’s design security concerns”, Xilinx, White Paper WP365(v1.2), pp. 14, 2012.URL
4 
A. Maiti, P. Schaumont, "Improved Ring oscillator PUF: An FPGA-friendly secure primitive," Journal of. Cryptology, pp. 375-397, Oct. 2010.DOI
5 
G. E. Suh, S. Devadas, "Physical unclonable functions for device authentication and secret key generation" In Proceeding of 44th ACM/IEEE Design Automation Conference, pp. 9-14, Jun. 2007.DOI
6 
R. Pappu, B. Recht, J. Taylor, N. Gershen-Feld, "Physical one-way functions", Science, vol. 297, pp. 2026-2030, Sept. 2002.DOI
7 
H. Handschuh, G. J. Schrijen, and P. Tuyls, “Hardware intrinsic security from physically unclonable functions,” Towards Hardware-Intrinsic Security, pp. 39-53, Oct. 2010.DOI
8 
D. Merli, F. Stumpf, and C. Eckert, “Improving the quality of ring oscillator PUFs on FPGAs,” Embedded Systems Security, 5th ACM Workshop on, p. 9, Oct. 2010.DOI
9 
M. Gao, K. Lai, and G. Qu, “A highly flexible ring oscillator PUF,” in 2014 Design Automation, 51st ACM/EDAC/IEEE Conference on, pp. 1-6, Jun. 2014.DOI
10 
Y. Hori, H. Kang, T. Katashita, A. Satoh, S. Kawamura, and K. Kobara, ‘‘Evaluation of physical unclonable functions for 28-nm process field-programmable gate arrays,’’ Journal of Information Processing, Vol. 22, No. 2, pp. 344-356, Apr. 2014.DOI
11 
D. Lim, et al, "Extracting secret keys from integrated circuits," Very Large Scale Integration. (VLSI) Systems, IEEE Transactions on, Vol. 13, No. 10, pp. 1200-1205, Dec. 2005.DOI
12 
Texas Instruments Incorporated, “What’s an LFSR?”, SCTA036A, Dec. 1996.URL
13 
R. Vara Prasad Rao, N. Anjaneya Varaprasad, G. Sudhakar Babu, and C. Murali Mohan, "Power Optimization of Linear Feedback Shift Register (LFSR) for Low Power BIST implemented in HDL", International Journal of Modern Engineering Research (IJMER), Vol. 3, pp. 1523-1528, May 2013.URL
14 
D. Coppersmith, H. Krawczyk, and Y. Mansour “The Shrinking Generator” Advances in Cryptology — CRYPTO’ 93, CRYPTO 1993, Lecture Notes in Computer Science, Vol. 773, pp. 22-39, 1994.URL
15 
S. Cardell, A. Fúster-Sabater, and A. Ranea, “Linearity in decimation-based generators: an improved cryptanalysis on the shrinking generator,” Open Mathematics, Vol. 16, No. 1, pp. 646-655, Jun. 2018.DOI
16 
A. Mills, S. Vyas, M. Patterson, C. Sabotta, P. Jones and J. Zambreno, “Design and evaluation of a delay-based FPGA physically unclonable function,” Computer Design, 30th IEEE International Conference on, pp. 143-146, Oct. 2012.DOI
17 
Y. Cao, L. Zhang, C.-H. Chang, and S. Chen, “A Low-Power Hybrid RO PUF with Improved Thermal Stability for Lightweight Applications,” Computer-Aided Design of Integrated Circuits Systems, IEEE Transactions on, Vol. 34, No. 7, pp. 1143-1147, Jul. 2015.DOI
18 
J. Ye, Y. Hu, X. Li, “VPUF: Voter based Physical Unclonable Function with High Reliability and Modeling Attack Resistance,” International On-Line Testing Symposium (IOLTS), 23rd IEEE Conference on, pp. 74-79, Jul. 2017.DOI
19 
E. Lawrence, L.E. Bassham III, et al., “SP 80022 rev. 1a. a statistical test suite for random and pseudorandom number generators for cryptographic applications,” National Institute of Standards and Technology (NIST), Apr., 2010.URL
20 
S. Hou, Y. Guo and S. Li, "A Lightweight LFSR-Based Strong Physical Unclonable Function Design on FPGA,” Access, IEEE, Vol. 7, pp. 64778-64787, May 2019.DOI