Abstract
We present a space-efficient algorithm to compute the Hilbert class polynomial H_D(X) modulo a positive integer P, based on an explicit form of the Chinese Remainder Theorem. Under the Generalized Riemann Hypothesis, the algorithm uses O(|D|^(1/2+o(1))log P) space and has an expected running time of O(|D|^(1+o(1)). We describe practical optimizations that allow us to handle larger discriminants than other methods, with |D| as large as 10^13 and h(D) up to 10^6. We apply these results to construct pairing-friendly elliptic curves of prime order, using the CM method.
Cite
CITATION STYLE
Sutherland, A. V. (2010). Computing Hilbert class polynomials with the Chinese remainder theorem. Mathematics of Computation, 80(273), 501–538. https://doi.org/10.1090/s0025-5718-2010-02373-7
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