Electromagnetic Transmission of Intellectual Property Data to Protect FPGA Designs

International audienceOver the past 10 years, the designers of intellectual properties(IP) have faced increasing threats including cloning, counterfeiting, andreverse-engineering. This is now a critical issue for the microelectronicsindustry. The design of a secure, efficient, lightweight protection scheme fordesign data is a serious challenge for the hardware security community. In thiscontext, this chapter presents two ultra-lightweight transmitters using sidechannel leakage based on electromagnetic emanation to send embedded IPidentity discreetly and quickl

PERFORMANCE ANALYSIS OF WATERMARKING APPROACH FOR VLSI DESIGN INTELLECTUAL PROPERTY PROTECTION

VLSI technology brought revolution in EDA industry. Fabrication of complicated system on a chip is possible by using reusable module called Intellectual Property (IP) core. IP cores that became an integral part of the electronic design industry influenced and had a rather significant and almost incomparable impact with respect to system designing in any chip. IP designs for any organization are imperative; contrary, IP designs that are shared can significantly cause high security risks. The majority of IP’s require time as well as effort for purposes of designing and verification, however there still remains the possibility of these being copied or minor modifications to hide proof of ownership. To overcome this problem watermarking technique is recommended for IP Core protection. Watermark insertion in multilevel increases the security of the system. In this paper the ownership information is inserted in state transition outputs of State Transition Graph employing hierarchical representation of Finite state Machine (FSM) and subsequently in the netlist level by embedding watermark in the delay between the states. Watermark insertion at two levels increases the security of the design. Signature generation uses cryptographic algorithm for enhancing the security of the IP core designs. The experimental results show that performance is improved

Automatic low-cost IP watermarking technique based on output mark insertions

International audienceToday, although intellectual properties (IP) and their reuse are common, their use is causing design security issues: illegal copying, counterfeiting, and reverse engineering. IP watermarking is an efficient way to detect an unauthorized IP copy or a counterfeit. In this context, many interesting solutions have been proposed. However, few combine the watermarking process with synthesis. This article presents a new solution, i.e. automatic low cost IP watermarking included in the high-level synthesis process. The proposed method differs from those cited in the literature as the marking is not material, but is based on mathematical relationships between numeric values as inputs and outputs at specified times. Some implementation results with Xilinx Virtex-5 FPGA that the proposed solution required a lower area and timing overhead than existing solutions

FSM BASED DIGITAL WATERMARKING IN IP SECURITY

IP providers are in pressing need of a convenient means to track the illegal redistribution of the sold IPs. An active approach to protect a VLSI design against IP infringement is by embedding a signature that can only be uniquely generated by the IP author into the design during the process of its creation. a VLSI IP is developed in several levels of design abstraction with the help of many sophisticated electronic design automation tools. Each level of design abstraction involves solving some NP-complete optimization problems to satisfy a set of design constraints. In this paper, a new dynamic watermarking scheme is proposed. The watermark is embedded in the state transitions of FSM at the behavioral level

A Survey of hardware protection of design data for integrated circuits and intellectual properties

International audienceThis paper reviews the current situation regarding design protection in the microelectronics industry. Over the past ten years, the designers of integrated circuits and intellectual properties have faced increasing threats including counterfeiting, reverse-engineering and theft. This is now a critical issue for the microelectronics industry, mainly for fabless designers and intellectual properties designers. Coupled with increasing pressure to decrease the cost and increase the performance of integrated circuits, the design of a secure, efficient, lightweight protection scheme for design data is a serious challenge for the hardware security community. However, several published works propose different ways to protect design data including functional locking, hardware obfuscation, and IC/IP identification. This paper presents a survey of academic research on the protection of design data. It concludes with the need to design an efficient protection scheme based on several properties

Design of programmable hardware security modules for enhancing blockchain based security framework

Globalization of the chip design and manufacturing industry has imposed significant threats to the hardware security of integrated circuits (ICs). It has made ICs more susceptible to various hardware attacks. Blockchain provides a trustworthy and distributed platform to store immutable records related to the evidence of intellectual property (IP) creation, authentication of provenance, and confidential data storage. However, blockchain encounters major security challenges due to its decentralized nature of ledgers that contain sensitive data. The research objective is to design a dedicated programmable hardware security modules scheme to safeguard and maintain sensitive information contained in the blockchain networks in the context of the IC supply chain. Thus, the blockchain framework could rely on the proposed hardware security modules and separate the entire cryptographic operations within the system as stand-alone hardware units. This work put forth a novel approach that could be considered and utilized to enhance blockchain security in real-time. The critical cryptographic components in blockchain secure hash algorithm-256 (SHA-256) and the elliptic curve digital signature algorithm are designed as separate entities to enhance the security of the blockchain framework. Physical unclonable functions are adopted to perform authentication of transactions in the blockchain. Relative comparison of designed modules with existing works clearly depicts the upper hand of the former in terms of performance parameters

FPGA-Based PUF Designs: A Comprehensive Review and Comparative Analysis

Field-programmable gate arrays (FPGAs) have firmly established themselves as dynamic platforms for the implementation of physical unclonable functions (PUFs). Their intrinsic reconfigurability and profound implications for enhancing hardware security make them an invaluable asset in this realm. This groundbreaking study not only dives deep into the universe of FPGA-based PUF designs but also offers a comprehensive overview coupled with a discerning comparative analysis. PUFs are the bedrock of device authentication and key generation and the fortification of secure cryptographic protocols. Unleashing the potential of FPGA technology expands the horizons of PUF integration across diverse hardware systems. We set out to understand the fundamental ideas behind PUF and how crucially important it is to current security paradigms. Different FPGA-based PUF solutions, including static, dynamic, and hybrid systems, are closely examined. Each design paradigm is painstakingly examined to reveal its special qualities, functional nuances, and weaknesses. We closely assess a variety of performance metrics, including those related to distinctiveness, reliability, and resilience against hostile threats. We compare various FPGA-based PUF systems against one another to expose their unique advantages and disadvantages. This study provides system designers and security professionals with the crucial information they need to choose the best PUF design for their particular applications. Our paper provides a comprehensive view of the functionality, security capabilities, and prospective applications of FPGA-based PUF systems. The depth of knowledge gained from this research advances the field of hardware security, enabling security practitioners, researchers, and designers to make wise decisions when deciding on and implementing FPGA-based PUF solutions.publishedVersio

Publicly Detectable Watermarking for Intellectual Property Authentication in VLSI Design

Highlighted with the newly released intellectual property (IP) protection white paper by VSI Alliance, the protection of virtual components or IPs in very large scale integration (VLSI) design has received a great deal of attention recently. Digital signature/watermark is one of the most promising solutions among the known protection mechanisms. It provides desirable proof of authorship without rendering the IP useless. However, it makes the watermark detection, which is as important as watermarking, an NP-hard problem. In fact, the tradeoff between hard-to-attack and easy-to-detect and the lack of efficient detection schemes are the major obstacles for digital signatures to thrive. In this paper, the authors propose a new watermarking method which allows the watermark to be publicly detected without losing its strength and security. The basic idea is to create a cryptographically strong pseudo-random watermark, embed it into the original problem as a special (which the authors call mutual exclusive) constraint, and make it public. The authors combine data integrity technique and the unique characteristics in the design of VLSI IPs such that adversaries will not gain any advantage from the public watermarking for forgery. This new technique is compatible with the existing constraint-based watermarking/fingerprinting techniques. The resulting public–private watermark maintains the strength of a watermark and provides easy detectability with little design overhead. The authors build the mathematical framework for this approach based on the concept of mutual exclusive constraints. They use popular VLSI CAD problems, namely technology mapping, partitioning, graph coloring, FPGA design, and Boolean satisfiability, to demonstrate the public watermark’s easy detectability, high credibility, low design overhead, and robustness