Welcome to the resource topic for 2014/729

Title:
Faster Binary-Field Multiplication and Faster Binary-Field MACs

Authors: Daniel J. Bernstein, Tung Chou

This paper shows how to securely authenticate messages using just 29 bit operations per authenticated bit, plus a constant overhead per message. The authenticator is a standard type of “universal” hash function providing information-theoretic security; what is new is computing this type of hash function at very high speed. At a lower level, this paper shows how to multiply two elements of a field of size 2^128 using just 9062 \approx 71 * 128 bit operations, and how to multiply two elements of a field of size 2^256 using just 22164 \approx 87 * 256 bit operations. This performance relies on a new representation of field elements and new FFT-based multiplication techniques. This paper’s constant-time software uses just 1.89 Core 2 cycles per byte to authenticate very long messages. On a Sandy Bridge it takes 1.43 cycles per byte, without using Intel’s PCLMULQDQ polynomial-multiplication hardware. This is much faster than the speed records for constant-time implementations of GHASH without PCLMULQDQ (over 10 cycles/byte), even faster than Intel’s best Sandy Bridge implementation of GHASH with PCLMULQDQ (1.79 cycles/byte), and almost as fast as state-of-the-art 128-bit prime-field MACs using Intel’s integer-multiplication hardware (around 1 cycle/byte).

ePrint: https://eprint.iacr.org/2014/729

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