Frontiers in Securing IP Cores
Forensic detective control and obfuscation techniques
Published on 3. January 2020
Book
Hardback
344 pages
978-1-83953-031-9 (ISBN)
Description
This book presents advanced forensic detective control and obfuscation techniques for securing hardware IP cores by exploring beyond conventional technologies. The theme is important to researchers in various areas of specialization, because it encompasses the overlapping topics of EDA-CAD, hardware design security, VLSI design, IP core protection, optimization using evolutionary computing, system-on-chip design and finally application specific processor/hardware accelerator design for consumer electronics applications.
The book begins by introducing forensic detective control and obfuscation mechanisms for hardware and IP core security. Further chapters cover hardware stenography, digital signature driven hardware authentication, fault-secured IP cores using digital signature-based watermarks, multi-level watermarking, cryptosystem-based multi-variable fingerprinting, multi-phase and hologram-based obfuscation, and security of functionally obfuscated DSP cores.
The book begins by introducing forensic detective control and obfuscation mechanisms for hardware and IP core security. Further chapters cover hardware stenography, digital signature driven hardware authentication, fault-secured IP cores using digital signature-based watermarks, multi-level watermarking, cryptosystem-based multi-variable fingerprinting, multi-phase and hologram-based obfuscation, and security of functionally obfuscated DSP cores.
More details
Series
Language
English
Place of publication
Stevenage
United Kingdom
Target group
College/higher education
Professional and scholarly
Product notice
sewn/stitched
Cloth over boards
Dimensions
Height: 241 mm
Width: 157 mm
Thickness: 20 mm
Weight
680 gr
ISBN-13
978-1-83953-031-9 (9781839530319)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Person
Anirban Sengupta (PhD, FIET, FBCS) is an Associate Professor in Computer Science and Engineering at the Indian Institute of Technology (I.I.T) Indore. He has over 205 publications, 3 Books and 11 Patents and is an IEEE Distinguished Visitor of the IEEE Computer Society as well as an IEEE Distinguished Lecturer at the IEEE Consumer Electronics Society. He is an elected Fellow of the IET and Fellow of the British Computer Society. He is also the Deputy EiC of IET Computers and Digital Techniques and Chair, EiC of the IEEE Computer Society Technical Committee on VLSI as well as holding Editorial positions in more than a dozen IEEE Transactions/Journals/Magazines. He has held many Chair positions in major IEEE flagship conferences and is recipient of several IEEE Honors such as IEEE Editor Awards and Best Paper Awards from Journals/Magazines and Conferences.
Content
Chapter 1: Introduction to hardware (IP) security: forensic detective control and obfuscation of digital signal processing (DSP) cores
Chapter 2: Forensic detective control using hardware steganography for IP core protection
Chapter 3: Forensic detective control using a digital signature-based watermark for IP core protection
Chapter 4: Protection of fault-secured IP cores using digital signature-based watermarks
Chapter 5: Multi-level watermark for IP protection
Chapter 6: Protecting the rights of an IP buyer using cryptosystem-based multivariable fingerprinting
Chapter 7: Multi-phase obfuscation for fault-secured DSP circuits
Chapter 8: Hologram-based structural obfuscation for DSP cores
Chapter 9: Security of functionally obfuscated DSP cores
Chapter 2: Forensic detective control using hardware steganography for IP core protection
Chapter 3: Forensic detective control using a digital signature-based watermark for IP core protection
Chapter 4: Protection of fault-secured IP cores using digital signature-based watermarks
Chapter 5: Multi-level watermark for IP protection
Chapter 6: Protecting the rights of an IP buyer using cryptosystem-based multivariable fingerprinting
Chapter 7: Multi-phase obfuscation for fault-secured DSP circuits
Chapter 8: Hologram-based structural obfuscation for DSP cores
Chapter 9: Security of functionally obfuscated DSP cores