多级水印IP保护

Frontiers in Securing IP Cores: Forensic detective control and obfuscation techniques Pub Date : 2019-11-05 DOI:10.1049/pbcs067e_ch5

A. Sengupta

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引用次数: 0

摘要

本章描述了利用电子系统级(ESL)和寄存器传输级(RTL)的知识产权(IP)核的多级水印过程。详细阐述了这种多层水印方法的显著特征，然后是其编码技术，嵌入过程，检测过程，最后是使用案例研究的实现细节。本章组织如下:第5.1节讨论了数字设计的抽象级别，然后是一些知识产权保护基础知识;第5.2节介绍了本领域之前的一些作品;第5.3节介绍了多级水印过程的显著特征和优势;第5.4节解释了数字信号处理器(DSP)内核的签名嵌入过程;第5.5节讨论了使用有限脉冲响应(FIR)滤波器的多级水印IP核的设计过程;第5.6节给出了多级水印的签名检测细节;第5.7节给出了基于案例研究的分析;第5.8节结束本章。

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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Multi-level watermark for IP protection

The chapter describes a multi-level watermarking process for intellectual property (IP) cores that leverages the electronic-system level (ESL) and register-transfer level (RTL). A detailed elaboration is provided on the salient features of this multilevel watermarking approach followed by its encoding technique, embedding process, detection process and, finally, implementation details using case studies. The chapter is organized as follows: Section 5.1 discusses the abstraction levels of a digital design followed by some IP protection basics; Section 5.2 introduces some of the prior works in this domain; Section 5.3 presents the salient features and advantages of a multi-level watermarking process; Section 5.4 explains the signature-embedding process for digital signal processor (DSP) cores; Section 5.5 discusses the design process of a multi-level watermarked IP core using a finite impulse response (FIR) filter; Section 5.6 presents the signature detection details of a multi-level watermark; Section 5.7 presents an analysis based on case studies; Section 5.8 concludes the chapter.

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Frontiers in Securing IP Cores: Forensic detective control and obfuscation techniques

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