Multi-phase obfuscation for fault-secured DSP circuits

Frontiers in Securing IP Cores: Forensic detective control and obfuscation techniques Pub Date : 2019-11-05 DOI:10.1049/pbcs067e_ch7

A. Sengupta

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引用次数: 1

Abstract

This chapter discusses a multi-phase obfuscation process for fault-secured intellectual property (IP) cores during electronic system level (ESL) synthesis. A detailed elaboration on the threat model for fault-secured IP cores is followed by the use of the multi-phase obfuscation process for digital signal processing (DSP) circuits and, finally, analyses of case studies. The chapter is organized as follows: Section 7.1 discusses fault-secured IP cores and their needs, followed by different threats to fault-secured IP cores and how to solve them. Section 7.2 focuses on the differences between functional obfuscation and structural obfuscation. Section 7.3 presents the problem formulation for protecting fault-secured IP cores. Section 7.4 discusses selected contemporary structural obfuscation approaches used to date. Section 7.5 provides an overview of the multi-phase obfuscation approach followed by evaluation models used and details of the approach in the context of fault-secured DSP circuits. Section 7.6 demonstrates the multi-phase obfuscation approach on a fault-secured finite impulse response (FIR) filter. Section 7.7 presents analyses based on case studies. Section 7.8 concludes the chapter.

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故障保护DSP电路的多相混淆

本章讨论了电子系统级(ESL)合成过程中故障保护知识产权(IP)核的多阶段混淆过程。详细阐述了故障保护IP核的威胁模型，随后使用数字信号处理(DSP)电路的多相混淆过程，最后分析了案例研究。本章组织如下:7.1节讨论故障保护IP核及其需求，然后讨论故障保护IP核面临的不同威胁以及如何解决这些威胁。第7.2节重点讨论功能混淆和结构混淆之间的区别。第7.3节给出了保护故障安全IP核的问题公式。第7.4节讨论了迄今为止使用的当代结构混淆方法。第7.5节提供了多阶段混淆方法的概述，然后是在故障保护DSP电路的背景下使用的评估模型和方法的细节。第7.6节演示了故障保护有限脉冲响应(FIR)滤波器的多相混淆方法。第7.7节给出了基于案例研究的分析。第7.8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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Frontiers in Securing IP Cores: Forensic detective control and obfuscation techniques

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