Next: , Previous: , Up: Greatest Common Divisor Algorithms   [Index]


15.3.2 Lehmer’s algorithm

Lehmer’s improvement of the Euclidean algorithms is based on the observation that the initial part of the quotient sequence depends only on the most significant parts of the inputs. The variant of Lehmer’s algorithm used in GMP splits off the most significant two limbs, as suggested, e.g., in “A Double-Digit Lehmer-Euclid Algorithm” by Jebelean (see References). The quotients of two double-limb inputs are collected as a 2 by 2 matrix with single-limb elements. This is done by the function mpn_hgcd2. The resulting matrix is applied to the inputs using mpn_mul_1 and mpn_submul_1. Each iteration usually reduces the inputs by almost one limb. In the rare case of a large quotient, no progress can be made by examining just the most significant two limbs, and the quotient is computed using plain division.

The resulting algorithm is asymptotically O(N^2), just as the Euclidean algorithm and the binary algorithm. The quadratic part of the work are the calls to mpn_mul_1 and mpn_submul_1. For small sizes, the linear work is also significant. There are roughly N calls to the mpn_hgcd2 function. This function uses a couple of important optimizations:


Next: , Previous: , Up: Greatest Common Divisor Algorithms   [Index]