ПРИМЕНЕНИЕ КОНФИГУРИРУЕМЫХ ГЕНЕРАТОРОВ ИМПУЛЬСОВ ДЛЯ ИДЕНТИФИКАЦИИ ПЛИС

Рассматривается возможность применения конфигурируемых генераторов цифровых импульсов в качестве аппаратной реализации физически неклонируемых функций для решения задач
идентификации программируемых логических интегральных схем (ПЛИС) типа FPGA. Приводятся и анализируются результаты экспериментальных исследований генераторов импульсов, реализованных для FPGA Xilinx SPARTAN-3E.

1. FPGA Based Symmetric Multi-core Processors for Optimized Performance of H.264 Encoder / M.E. Krishnan [et al.] // Advances in Recent Technologies in Communication and Computing (ARTCom’ 10) : Proc. on IEEE Int. Conf. - Kottayam, India, 2010. - P. 235-239.

2. Temple, K. Intel Expands Customer Choice with First Configurable Intel® Atom™-based

3. Processor / K. Temple // Intel Newsroom [Electronic resource]. - 2010. - Mode of access :

4. http://newsroom.intel.com/community/intel_newsroom/blog/2010/11/22/intel-expands-customer-choicewith-first-configurable-intel-atom-based-processor. - Date of access : 13.06.2011.

5. Delay-Based Circuit Authentication and Applications / B. Gassend [et al.] // Applied Computing (SAC’03) : Proc. of the ACM Symp. - Melbourne, FL, USA, 2003. - P. 294-301.

6. Physical Unclonable Functions and Public-Key Crypto for FPGA IP Protection / J. Guajardo

7. [et al.] // Field Programmable Logic and Applications (FPL’07) : Proc. on IEEE Int. Conf. - Amsterdam, Netherlands, 2007. - P. 189-195.

8. Yarmolik, V.N. Fizicheski nekloniruemye funktsii / V.N. Yarmolik, Yu.G. Vashinko //

9. Informatika. - 2011. - № 2 (30). - S. 90-100.

10. Suh, G.E. Physical unclonable functions for device authentication and secret key generation / G.E. Suh, S. Devadas // Design Automation Conference (DAC’07) : Proc. of 44th ACM/IEEE Conf. - San Diego, CA, USA, 2007. - P. 9-14.

11. A Large Scale Characterization of RO-PUF / A. Maiti [et al.] // Hardware-Oriented Security

12. and Trust (HOST’10) : Proc. on IEEE Int. Symp. - Anaheim, CA, USA, 2010. - P. 66-71.

13. Improving the Quality of Ring Oscillator PUFs on FPGAs / D. Merli [et al.] // Embedded

14. Systems Security (WESS’10) : Proc. of the 5th Workshop. - Scottsdale, AZ, USA, 2010. - P. 190-198.

15. Fine-Grained Characterization of Process Variation in FPGAs / H. Yu [et al.] // Field Programmable Technology (FPT’10) : IEEE Int. Conf. - Beijing, China, 2010. - P. 138-145.

16. An FPGA Chip Identification Generator Using Configurable Ring Oscillator / H. Yu [et al.] // Field Programmable Technology (FPT’10) : IEEE Int. Conf. - Beijing, China, 2010. - P. 312-315.

17. Digilent Nexys2 Board Reference Manual [Electronic resource]. - Digilent Inc. - 2008. -

18. Mode of access : http://digilentinc.com/Data/Products/NEXYS2/Nexys2_rm.pdf. - Date of access : 25.03.2011.

19. Spartan-3E FPGA Family Data Sheet (DS312 (v3.8)) [Electronic resource]. - Xilinx Inc. -

20. - Mode of access : http://www.xilinx.com/support/documentation/data_sheets/ds312.pdf. - Date

21. of access : 25.03.2011.

22. ISE WebPACK Design Software [Electronic resource]. - Mode of access :

23. http://www.xilinx.com/products/design-tools/ise-design-suite/ise-webpack.htm. - Date of access : 14.06.2011.

24. Zotov, V. Izmeritel' chastoty tsifrovykh signalov, vypolnennyi na osnove mikro-

25. protsessornogo yadra semeistva PicoBlaze i realizuemyi na baze instrumental'nogo komplekta Spartan-3E Starter Kit firmy Xilinx / V. Zotov // Komponenty i tekhnologii. - 2007. - № 12. - S. 54-62.

26. Sedcole, P. Within-die Delay Variability in 90nm FPGAs and Beyond / P. Sedcole,

27. P.Y.K. Cheung // Field Programmable Technology (FPT’06) : IEEE Int. Conf. - Bangkog, 2006. -

28. P. 97-104.

29. Drutarovsky, M. Analysis of Randomness Sources in Transition Effect Ring Oscillator

30. based TRNG / M. Drutarovsky, M. Varchola // Cryptographic Architectures Embedded in Reconfigurable Devices (CryptArchi’10) : Proc. of Int. Workshop, Gif sur Yvette. - France, 2010. - P. 102-107.