ELEC 5210/ELEC 6210 - Hardware Security I

Fall 2019, MWF 10:00 a.m. - 10:50 a.m., Broun 113

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Goals:
    Secure electronic products play an important role in safeguarding our society and day-to-day lives. Many different electronic devices that are connected to the Internet, have exhibited an increasing level of heterogeneity in recent years. Maintaining security over all these different devices becomes extremely challenging, as they are being designed and manufactured in an environment with limited trust and visibility. Various new attacks are emerging to circumvent existing security measures. To enable secure and trustworthy operations, it is absolutely necessary to understand these attacks and incorporate appropriate security measures. This course is intended for the graduate and undergraduate students who are interested in designing secure systems. This course will provide an in-depth analysis of various topics, which include (i) introduction to cryptography - symmetric and asymmetric ciphers, message authentication codes, and digital signatures, (ii) detection & avoidance of counterfeit ICs, and (iii) security primitives - physically unclonable functions (PUFs) and true random number generators (TRNGs).
Course Syllabus

Instructor: Ujjwal Guin, Assistant Professor

Reference Books:
  1. Understanding Cryptography: A Textbook for Students and Practitioners, C. Paar, and Jan Pelz, Springer-Verlag Berlin Heidelberg, 2010, ISBN 978-3-642-04100-6
  2. Counterfeit Integrated Circuits: Detection and Avoidance, M. M. Tehranipoor, U. Guin, and D. Forte, Springer International Publishing, 2015, ISBN: 978-3-319-11823-9
  3. Introduction to Hardware Security and Trust, M. Tehranipoor, C. Wang, Springer-Verlag New York, 2012, ISBN 978-1-4419-8079-3
Exam Schedule:
  1. Test 1, Oct 4, 10:00 a.m. - 10:50 a.m., Broun 113, use only 4 sheets of paper.
  2. Test 2, TBD, 10:00 a.m. - 10:50 a.m., Broun 113, use only 4 sheets of paper.
  3. Final Exam, Thursday, December 12, 8:00 a.m.- 10:30 a.m, Broun 113, Open book or 4 sheets of paper.
Weekly Topics:
  1. Introduction [pdf]
  2. Stream Ciphers
  3. Data Encryption Standard (DES) (HW1 Due)
  4. Advanced Encryption Standard (AES)
  5. Introduction to VHDL/Verilog (HW2 Due)
  6. Public Key Cryptography (Project P1 Due)
  7. RSA Cryptosystem (Test 1)
  8. Discrete Logarithm Problems (Project P2 Due)
  9. Message Authentication Codes (HW3 Due)
  10. Digital Signatures (Project P3 Due)
  11. Semiconductor Supply Chain (HW4 Due)
  12. Counterfeit Integrated Circuits (Project P4 Due)
  13. Detection and Avoidance of Counterfeit ICs (Test 2)
  14. Physically Unclonable Functions
  15. True Random Number Generators (Project P5 Due)
  16. FINAL EXAM (Presentation and Final report on Open Problem)
Recommended materials for further reading:
  1. Menezes, Alfred J., Paul C. Van Oorschot, and Scott A. Vanstone. Handbook of applied cryptography. CRC press, 1996.
  2. M. Tehranipoor, U. Guin, and S. Bhunia, " Invasion of the Hardware Snatchers: Cloned Electronics Pollute the Market", IEEE Spectrum, 2017.
  3. U. Guin, K. Huang, D. DiMase, J. M. Carulli Jr., M. Tehranipoor, and Y. Makris, " Counterfeit Integrated Circuits: A Rising Threat in the Global Semiconductor Supply Chain ," Proceedings of the IEEE, 2014.
  4. Adee, Sally. "The hunt for the kill switch." IEEE Spectrum, 2008.
Useful Links:
  1. US-CERT: United States Computer Emergency Readiness Team
  2. JavaScript Cryptography
  3. Creating Projects in Latex
  4. Manuscript Templates for Conference Proceedings
Related Conferences and Journals:
  1. Conference on Cryptographic Hardware and Embedded Systems (CHES)
  2. IEEE International Symposium on Hardware Oriented Security and Trust (HOST)
  3. Design Automation Conference (DAC)
  4. International Test Conference (ITC)
  5. International Conference On Computer Aided Design (ICCAD)
  6. IEEE VLSI Test Symposium (VTS)
  7. IEEE Security & Privacy
  8. IEEE Transactions on Dependable and Secure Computing (TDSC)
  9. Journal of Hardware and Systems Security (HaSS)