2021-08-24, 13:29 | #1 |
"Tilman Neumann"
Jan 2016
Germany
2×233 Posts |
Another factor algorithm using lattice reduction
Hi all,
yesterday I found the following article: https://arxiv.org/ftp/arxiv/papers/1308/1308.2891.pdf It claims to present the fastest deterministic integer factoring algorithm, having complexity O(N^1/6+ε). Like Schnorr, the author is relying on lattice reduction methods. Last fiddled with by Till on 2021-08-24 at 13:47 Reason: inserted exp operator |
2021-08-24, 14:03 | #2 |
Apr 2020
459_{10} Posts |
This paper looks sloppily written and uses some unconventional terminology, eg "largest integer function" for what I presume is the floor function. More recent papers on the topic do not reference it. That should be enough to tell us that it's flawed. There may well be multiple errors; one conspicuous one is in equation (7), where the author seems to have cancelled out N with (floor(√N))^2. Of course if these two were equal then N would be square and we wouldn't be trying to factor it!
It should also be noted that these algorithms are only of theoretical interest at present, because QS and NFS, while technically non-deterministic, are much faster and almost always work in practice. Last fiddled with by charybdis on 2021-08-24 at 14:05 |
Thread Tools | |
Similar Threads | ||||
Thread | Thread Starter | Forum | Replies | Last Post |
Computing Power Reduction? | Zhangrc | Marin's Mersenne-aries | 3 | 2021-08-15 13:36 |
Fast modular reduction for primes < 512 bits? | BenR | Computer Science & Computational Number Theory | 2 | 2016-03-27 00:37 |
Efficient modular reduction with SSE | fivemack | Computer Science & Computational Number Theory | 15 | 2009-02-19 06:32 |
CPU stats reduction | Prime95 | PrimeNet | 3 | 2008-11-17 19:57 |
Lattice Reduction | R.D. Silverman | Factoring | 2 | 2005-08-03 13:55 |