Title: FAST ELLIPTIC CURVE CRYPTOGRAPHY USING OPTIMAL DOUBLE-BASE CHAINS

Year of Publication: Jun - 2012
Page Numbers: 190-204
Authors: Vorapong Suppakitpaisarn, Hiroshi Imai, Masato Edahiro
Conference Name: The International Conference on Informatics and Applications (ICIA2012)
- Malaysia

Abstract:


In this work, we propose an algorithm to produce the double-base chain that optimizes the time used for computing an elliptic curve scalar multiplication, i.e. the bottleneck operation of the elliptic curve cryptosystem. The double-base number system and its subclass, double-base chain, are the representation that combines the binary and ternary representations. The time is measured as the weighted sum in terms of the point double, triple, and addition, as used in evaluating the performance of existing greedytype algorithms, and our algorithm is the first to attain the minimum time by means of dynamic programming. Compared with greedy-type algorithm, the experiments show that our algorithm reduces the time for computing the scalar multiplication by 3.88-3.95% with almost the same average running time for the method itself. The proposed algorithm is also better than the general algorithm for the double-base number system using Yao’s algorithm when the point triple is comparatively fast to the point addition.