Crypto based Multi-Variable Fingerprinting for Protecting DSP cores

2019 IEEE 9th International Conference on Consumer Electronics (ICCE-Berlin) Pub Date : 2019-09-08 DOI:10.1109/ICCE-Berlin47944.2019.9127235

A. Sengupta, Utkarsha Singh, P. Premchand

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Abstract

In the design process of Consumer Electronics (CE) systems, there are several security challenges for a vendor or a buyer to ensure IP rights protection. This paper proposes a novel crypto framework based IP core protection methodology for DSP kernels that embeds a buyer fingerprint into a design during high level synthesis (HLS). The proposed signature encoding for fingerprint is multi-variable in nature offering stronger robustness, low embedding cost and low design overhead. It also makes use of a secure hashing technique to derive the fingerprint signature which provides an added level of security against counterfeiting. Upon testing on standard DSP benchmarks, it was found that the proposed approach satisfies all the major protection features of a fingerprint such as strong robustness to the buyer, low overhead, low run time and low embedding cost. Further with respect to the baseline design (with no fingerprint), the proposed approach offers robustness at 0% design cost overhead. Additionally on comparison with a related work, the proposed approach offers a lesser design cost and lesser area overhead without compromising robustness.

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基于密码的多变量指纹识别保护DSP核心

在消费电子(CE)系统的设计过程中，供应商或买方在确保知识产权保护方面面临着一些安全挑战。本文提出了一种新的基于加密框架的DSP内核IP核保护方法，该方法在高级合成(HLS)期间将买方指纹嵌入到设计中。该方法具有多变量特征，鲁棒性强，嵌入成本低，设计开销小。它还利用安全散列技术来导出指纹签名，这提供了一个额外的安全级别，防止伪造。在标准DSP基准测试中，发现该方法满足指纹的所有主要保护特征，如对买方的鲁棒性强，开销低，运行时间短，嵌入成本低。此外，对于基线设计(没有指纹)，建议的方法以0%的设计成本开销提供鲁棒性。此外，通过与相关工作的比较，所提出的方法在不影响鲁棒性的情况下提供了更低的设计成本和更小的面积开销。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2019 IEEE 9th International Conference on Consumer Electronics (ICCE-Berlin)

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