Opportunistic IP Birthmarking using Side Effects of Code Transformations on High-Level Synthesis

Badier, Hannah; Pilato, Christian; Lann, Jean-Christophe Le; Coussy, Philippe; Gogniat, Guy

doi:10.23919/date51398.2021.9474200

2021 Design, Automation &Amp; Test in Europe Conference &Amp; Exhibition (DATE) 2021

DOI: 10.23919/date51398.2021.9474200

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Opportunistic IP Birthmarking using Side Effects of Code Transformations on High-Level Synthesis

Hannah Badier

Christian Pilato

Jean-Christophe Le Lann

et al.

Abstract: The increasing design and manufacturing costs are leading to globalize the semiconductor supply chain. However, a malicious attacker can resell a stolen Intellectual Property (IP) core, demanding methods to identify a relationship between a given IP and a potentially fraudulent copy.We propose a method to protect IP cores created with highlevel synthesis (HLS): our method inserts a discrete birthmark in the HLS-generated designs that uses only intrinsic characteristics of the final RTL. The core of our process… Show more

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2024

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Cited by 3 publications

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Bio-mimicking DNA fingerprint profiling for HLS watermarking to counter hardware IP piracy

Sengupta,

Bhui,

Anshul

et al. 2024

Sci Rep

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The multifaceted, multivendor-based global design supply chain induces hardware threats of intellectual property (IP) piracy for modern computing and electronic systems. Current hardware watermarking techniques fall short either in terms of watermark strength (size of covert constraints generated) or number of security layers/variables involved in the security constraints generation process. This paper presents a novel approach for high level synthesis (HLS) watermarking by bio-mimicking DNA fingerprint profiling to counter hardware IP piracy. The proposed approach effectively captures the vital DNA fingerprint profiling phases such as DNA sequencing, DNA fragmentation, fragment replication, DNA ligase, etc. and bio-mimics them to generate a digital watermarking framework. The presented approach has been demonstrated on convolutional layer and JPEG compression-decompression (CODEC) algorithms that are widely used in several medical and machine learning applications. The proposed approach has been thoroughly compared with several state-of-the-art approaches. The proposed approach depicts superior security in the probability of coincidence of up to ~ 10 4 and tamper tolerance of up to ~ 10 368 at 0% overhead as compared to the prior approaches.

show abstract

Bio-mimicking DNA fingerprint profiling for HLS watermarking to counter hardware IP piracy

Sengupta,

Bhui,

Anshul

et al. 2024

Sci Rep

View full text Add to dashboard Cite

show abstract

Watermarking Hardware IPs Using Design Parameter Driven Encrypted Dispersion Matrix With Eigen Decomposition Based Security Framework

Sengupta,

Anshul

2024

IEEE Access

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A Survey of High-Level Synthesis-Based Hardware (IP) Watermarking Approaches

Sengupta,

Anshul

2024

IEEE Des. Test

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Opportunistic IP Birthmarking using Side Effects of Code Transformations on High-Level Synthesis

Cited by 3 publications

References 23 publications

Bio-mimicking DNA fingerprint profiling for HLS watermarking to counter hardware IP piracy

Bio-mimicking DNA fingerprint profiling for HLS watermarking to counter hardware IP piracy

Watermarking Hardware IPs Using Design Parameter Driven Encrypted Dispersion Matrix With Eigen Decomposition Based Security Framework

A Survey of High-Level Synthesis-Based Hardware (IP) Watermarking Approaches

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