The Fastest and Shortest Algorithm for All Well-Defined Problems
摘要
An algorithm is described that solves any well-defined problem as quickly as the fastest algorithm computing a solution to , save for a factor of 5 and low-order additive terms. optimally distributes resources between the execution of provably correct -solving programs and an enumeration of all proofs, including relevant proofs of program correctness and of time bounds on program runtimes. avoids Blum's speed-up theorem by ignoring programs without correctness proof. has broader applicability and can be faster than Levin's universal search, the fastest method for inverting functions save for a large multiplicative constant. An extension of Kolmogorov complexity and two novel natural measures of function complexity are used to show that the most efficient program computing some function is also among the shortest programs provably computing .
引用
@article{arxiv.cs/0206022,
title = {The Fastest and Shortest Algorithm for All Well-Defined Problems},
author = {Marcus Hutter},
journal= {arXiv preprint arXiv:cs/0206022},
year = {2007}
}
备注
12 pages, 1 figure