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Title:
Avoiding Full Extension Field Arithmetic in Pairing Computations

Authors: Craig Costello, Colin Boyd, Juan Manuel Gonzalez Nieto, Kenneth Koon-Ho Wong

The most costly operations encountered in pairing computations are those that take place in the full extension field \mathbb{F}_{p^k}. At high levels of security, the complexity of operations in \mathbb{F}_{p^k} dominates the complexity of the operations that occur in the lower degree subfields. Consequently, full extension field operations have the greatest effect on the runtime of Miller’s algorithm. Many recent optimizations in the literature have focussed on improving the overall operation count by presenting new explicit formulas that reduce the number of subfield operations encountered throughout an iteration of Miller’s algorithm. Unfortunately, almost all of these operations far outweigh the operations in the smaller subfields. In this paper, we propose a new way of carrying out Miller’s algorithm that involves new explicit formulas which reduce the number of full extension field operations that occur in an iteration of the Miller loop, resulting in significant speed ups in most practical situations of between 5 and 30 percent.

ePrint: https://eprint.iacr.org/2010/104

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