Lightweight and Secure PUF Key Storage Using Limits of Machine Learning

@inproceedings{Yu2011LightweightAS,
  title={Lightweight and Secure PUF Key Storage Using Limits of Machine Learning},
  author={M. Yu and David M'Ra{\"i}hi and R. Sowell and S. Devadas},
  booktitle={CHES},
  year={2011}
}
  • M. Yu, David M'Raïhi, +1 author S. Devadas
  • Published in CHES 2011
  • Computer Science
    • A lightweight and secure key storage scheme using silicon Physical Unclonable Functions (PUFs) is described. To derive stable PUF bits from chip manufacturing variations, a lightweight error correction code (ECC) encoder / decoder is used. With a register count of 69, this codec core does not use any traditional error correction techniques and is 75% smaller than a previous provably secure implementation, and yet achieves robust environmental performance in 65nm FPGA and 0.13µ ASIC… CONTINUE READING
    View via Publisher
    link.springer.com
    93 Citations
    Highly Influential Citations
    3
    Background Citations
    22
    Methods Citations
    21

    Supplemental Presentations

    Presentation Slides
    Lightweight and Secure PUF Key Storage Using Limits of Machine Learning
    Explore Further
    Discover more papers related to the topics discussed in this paper
    93 Citations
    Citation Type

    Citation Type

    An efficient reliable PUF-based cryptographic key generator in 65nm CMOS
    • M. Bhargava, K. Mai
    • Computer Science
    • 2014 Design, Automation & Test in Europe Conference & Exhibition (DATE)
    • 2014
    • 70
    • PDF
    Security analysis of index-based syndrome coding for PUF-based key generation
    • 19
    • Highly Influenced
    Reliable, Secure, Efficient Physical Unclonable Functions
    • 10
    Breaking the Lightweight Secure PUF: Understanding the Relation of Input Transformations and Machine Learning Resistance
    • 6
    • PDF
    PUF-Based Key Generation
    • 1
    TREVERSE: Trial-and-Error Lightweight Secure Reverse Authentication with Simulatable PUFs
    • 2
    • Highly Influenced
    • PDF
    PUFKY: A Fully Functional PUF-Based Cryptographic Key Generator
    • 234
    • PDF
    Secret Key Generation Over Biased Physical Unclonable Functions With Polar Codes
    • 13
    Barrel Shifter Physical Unclonable Function Based Encryption
    • 3
    • PDF
    Improving Security and Reliability of Physical Unclonable Functions Using Machine Learning
    • 1

    References

    SHOWING 1-10 OF 37 REFERENCES
    Extracting secret keys from integrated circuits
    • 785
    • PDF
    Efficient Helper Data Key Extractor on FPGAs
    • 263
    • PDF
    LFSR-based Hashing and Authentication
    • 483
    • PDF
    Modeling attacks on physical unclonable functions
    • 668
    • PDF
    Policy Gradients for Cryptanalysis
    • 7
    • PDF
    Secure and robust error correction for physical unclonable functions
    • 301
    • PDF
    Aegis: A Single-Chip Secure Processor
    • 144
    • PDF
    Physical random functions
    • 224
    • PDF
    Physical Unclonable Functions for Device Authentication and Secret Key Generation
    • G. Suh, S. Devadas
    • Computer Science
    • 2007 44th ACM/IEEE Design Automation Conference
    • 2007
    • 1,832
    • PDF
    Cryptographic Hardware and Embedded Systems - CHES 2008, 10th International Workshop, Washington, D.C., USA, August 10-13, 2008. Proceedings
    • 181