1 |
K. Yang, Q. Dong, D. Blaauw, D. Sylvester, "A physically unclonable function with BER <10−8 for robust chip authentication using oscillator collapse in 40nm CMOS," Dig. Tech. Pap. IEEE Int. Solid State Circuits Conf., pp. 254-255, 2015.
|
2 |
R. Pappu, B. Recht, J. Taylor, and N. Gershenfeld, "Physical one-way functions," Science, Vol. 297(5589), pp. 2026- 2030, 2002.
DOI
|
3 |
G. Suh & S. Devadas, "Physical unclonable functions for device authentication and secret key generation," Proc. Des. Autom. Conf. DAC'07. 44th ACM/IEEE, San Diego, CA, USA. 2007.
|
4 |
X. Lu, L. Hong, and K. Sengupta, "An integrated optical physically unclonable function using process-sensitive subwavelength photonic crystals in 65 nm CMOS," Dig. Tech. Pap. IEEE Int. Solid State Circuits Conf., pp. 272-273, 2017.
|
5 |
B. Gassend, D. Clarke, M. van Dijk, and S. Devadas, "Silicon physical random functions," ACM Conf. Comput. Commun. Secur., pp. 148-160, 2002.
|
6 |
Y. Gao, D. C. Ranasinghe, S. F. Al-Sarawi, et al., "Emerging physical unclonable functions with nanotechnology," IEEE Access, Vol. 4, pp. 61-80. 2016.
DOI
|
7 |
Shidhartha Das, Carlos Tokunaga, et al., "Razor II: In Situ Error Detection and Correction for PVT and SER Tolerance," IEEE J. of Solid-State Circuits, Vol. 44(1), pp. 32- 48, 2010.
DOI
|
8 |
K. Shi and D. Howard, "Challenges in sleep transistor design and implementation in low-power designs," Proc. Des. Autom. Conf., pp. 113-116, July 2006.
|