Cryptographic Hardware and Embedded Systems - CHES 2002

Invited Talk.- CHES: Past, Present, and Future.- Attack Strategies.- Optical Fault Induction Attacks.- Template Attacks.- The EM Side—Channel(s).- Finite Field and Modular Arithmetic I.- Enhanced Montgomery Multiplication.- New Algorithm for Classical Modular Inverse.- Increasing the Bitlength of a Crypto-Coprocessor.- Elliptic Curve Cryptography I.- Enhancing Simple Power-Analysis Attacks on Elliptic Curve Cryptosystems.- Implementation of Elliptic Curve Cryptography with Built-In Counter Measures against Side Channel Attacks.- Secure Elliptic Curve Implementations: An Analysis of Resistance to Power-Attacks in a DSP Processor.- Address-Bit Differential Power Analysis of Cryptographic Schemes OK-ECDH and OK-ECDSA.- AES and AES Candidates.- 2Gbit/s Hardware Realizations of RIJNDAEL and SERPENT: A Comparative Analysis.- Efficient Software Implementation of AES on 32-Bit Platforms.- An Optimized S-Box Circuit Architecture for Low Power AES Design.- Simplified Adaptive Multiplicative Masking for AES.- Multiplicative Masking and Power Analysis of AES.- Tamper Resistance.- Keeping Secrets in Hardware: The Microsoft XboxTM Case Study.- RSA Implementation.- A DPA Attack against the Modular Reduction within a CRT Implementation of RSA.- Further Results and Considerations on Side Channel Attacks on RSA.- Fault Attacks on RSA with CRT: Concrete Results and Practical Countermeasures.- Finite Field and Modular Arithmetic II.- Some Security Aspects of the MIST Randomized Exponentiation Algorithm.- The Montgomery Powering Ladder.- DPA Countermeasures by Improving the Window Method.- Efficient Subgroup Exponentiation in Quadratic and Sixth Degree Extensions.- Elliptic Curve Cryptography II.- On the Efficient Generation of Elliptic Curves over Prime Fields.- An End-to-End SystemsApproach to Elliptic Curve Cryptography.- A Low-Power Design for an Elliptic Curve Digital Signature Chip.- A Reconfigurable System on Chip Implementation for Elliptic Curve Cryptography over.- Genus Two Hyperelliptic Curve Coprocessor.- Random Number Generation.- True Random Number Generator Embedded in Reconfigurable Hardware.- Evaluation Criteria for True (Physical) Random Number Generators Used in Cryptographic Applications.- A Hardware Random Number Generator.- Invited Talk.- RFID Systems and Security and Privacy Implications.- New Primitives.- A New Class of Invertible Mappings.- Finite Field and Modular Arithmetic II.- Scalable and Unified Hardware to Compute Montgomery Inverse in GF(p) and GF(2n).- Dual-Field Arithmetic Unit for GF(p) and GF(2m).- Error Detection in Polynomial Basis Multipliers over Binary Extension Fields.- Hardware Implementation of Finite Fields of Characteristic Three.- Elliptic Curve Cryptography III.- Preventing Differential Analysis in GLV Elliptic Curve Scalar Multiplication.- Randomized Signed-Scalar Multiplication of ECC to Resist Power Attacks.- Fast Multi-scalar Multiplication Methods on Elliptic Curves with Precomputation Strategy Using Montgomery Trick.- Hardware for Cryptanalysis.- Experience Using a Low-Cost FPGA Design to Crack DES Keys.- A Time-Memory Tradeo. Using Distinguished Points: New Analysis & FPGA Results.