Time- and Space-Efficient Evaluation of Some Hypergeometric Constants
Symbolic Computation
2016-08-14 v1
Abstract
The currently best known algorithms for the numerical evaluation of hypergeometric constants such as to decimal digits have time complexity and space complexity of or . Following work from Cheng, Gergel, Kim and Zima, we present a new algorithm with the same asymptotic complexity, but more efficient in practice. Our implementation of this algorithm improves slightly over existing programs for the computation of , and we announce a new record of 2 billion digits for .
Keywords
Cite
@article{arxiv.cs/0701151,
title = {Time- and Space-Efficient Evaluation of Some Hypergeometric Constants},
author = {Howard Cheng and Guillaume Hanrot and Emmanuel Thomé and Eugene Zima and Paul Zimmermann},
journal= {arXiv preprint arXiv:cs/0701151},
year = {2016}
}