Abstract
Since 1974, several algorithms have been developed that attempt to factor a large number N by doing extensive computations modulo N and occasionally taking GCDs with N. These began with Pollard’s p − 1 p - 1 and Monte Carlo methods. More recently, Williams published a p + 1 p + 1 method, and Lenstra discovered an elliptic curve method (ECM). We present ways to speed all of these. One improvement uses two tables during the second phases of p ± 1 p \pm 1 and ECM, looking for a match. Polynomial preconditioning lets us search a fixed table of size n with n / 2 + o ( n ) n/2 + o(n) multiplications. A parametrization of elliptic curves lets Step 1 of ECM compute the x-coordinate of nP from that of P in about 9.3 log 2 {\log _2} n multiplications for arbitrary P.
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