About Cryptographic Engineering.- Random Number Generators for Cryptographic Applications.- Evaluation Criteria for Physical Random Number Generators.- True Random Number Generators for Cryptography.- Fast Finite Field Multiplication.- Efficient Unified Arithmetic for Hardware Cryptography.- Spectral Modular Arithmetic for Cryptography.- Elliptic and Hyperelliptic Curve Cryptography.- Instruction Set Extensions for Cryptographic Applications.- FPGA and ASIC Implementations of AES.- Secure and Efficient Implementation of Symmetric Encryption Schemes using FPGAs.- Block Cipher Modes of Operation from a Hardware Implementation Perspective.- Basics of Side-Channel Analysis.- Improved Techniques for Side-Channel Analysis.- Electromagnetic Attacks and Countermeasures.- Leakage from Montgomery Multiplication.- Randomized Exponentiation Algorithms.- Microarchitectural Attacks and Countermeasures.
This book is for engineers and researchers working in the embedded hardware industry. This book addresses the design aspects of cryptographic hardware and embedded software. The authors provide tutorial-type material for professional engineers and computer information specialists.
Discusses the design techniques and methods of cryptographic hardware and embedded software
Links two domains: the mathematics underlying cryptography and the implementation issues to achieve efficiency and without security losses
Present real-life experience of strong researchers in each sub-topic