A fast modular square computing method based on the generalized Chinese remainder theorem for prime moduli

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摘要

This paper introduces a very efficient way to compute modular exponentiations modulo to prime numbers. A prime modular exponentiation operation is replaced by two modular operations employed with decomposable moduli. Each substitute modular operation can be performed with the generalized Chinese remainder theorem (GCRT) for computing efficiency. Due to the independent computing property of the GCRT, these two substitute operations can be computed concurrently. Assuming the parallel computation, the computation complexity is better than the conventional modular exponentiation operations. The computational costs is reduced approximately to 22% if these factors of decomposable moduli are on average in quarter bit lengths of decomposable moduli and the smallest factor is in half average bit lengths.

论文关键词:Chinese remainder theorem,Generalized Chinese remainder theorem,Modular arithmetic

论文评审过程:Available online 14 January 2004.

论文官网地址:https://doi.org/10.1016/j.amc.2003.12.018