Cryptographic Hardware And Embedded Systems Ches 2012
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Cryptographic Hardware and Embedded Systems -- CHES 2012
This book constitutes the proceedings of the 14th International Workshop on Cryptographic Hardware and Embedded Systems, CHES 2012, held in Leuven, Belgium, in September 2012. The 32 papers presented together with 1 invited talk were carefully reviewed and selected from 120 submissions. The papers are organized in the following topical sections: intrusive attacks and countermeasures; masking; improved fault attacks and side channel analysis; leakage resiliency and security analysis; physically unclonable functions; efficient implementations; lightweight cryptography; we still love RSA; and hardware implementations.
Embedded Cryptography 1
Embedded Cryptography provides a comprehensive exploration of cryptographic techniques tailored for embedded systems, addressing the growing importance of security in devices such as mobile systems and IoT. The books explore the evolution of embedded cryptography since its inception in the mid-90s and cover both theoretical and practical aspects, as well as discussing the implementation of cryptographic algorithms such as AES, RSA, ECC and post-quantum algorithms. The work is structured into three volumes, spanning forty chapters and nine parts, and is enriched with pedagogical materials and real-world case studies, designed for researchers, professionals, and students alike, offering insights into both foundational and advanced topics in the field. Embedded Cryptography 1 is dedicated to software side-channel attacks, hardware side-channel attacks and fault injection attacks.
Fault Tolerant Architectures for Cryptography and Hardware Security
This book uses motivating examples and real-life attack scenarios to introduce readers to the general concept of fault attacks in cryptography. It offers insights into how the fault tolerance theories developed in the book can actually be implemented, with a particular focus on a wide spectrum of fault models and practical fault injection techniques, ranging from simple, low-cost techniques to high-end equipment-based methods. It then individually examines fault attack vulnerabilities in symmetric, asymmetric and authenticated encryption systems. This is followed by extensive coverage of countermeasure techniques and fault tolerant architectures that attempt to thwart such vulnerabilities. Lastly, it presents a case study of a comprehensive FPGA-based fault tolerant architecture for AES-128, which brings together of a number of the fault tolerance techniques presented. It concludes with a discussion on how fault tolerance can be combined with side channel security to achieve protection against implementation-based attacks. The text is supported by illustrative diagrams, algorithms, tables and diagrams presenting real-world experimental results.