Improved Algorithms for Integer Complexity
August 20, 2023 Β· Declared Dead Β· π SIAM Symposium on Simplicity in Algorithms
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Authors
Qizheng He
arXiv ID
2308.10301
Category
cs.DS: Data Structures & Algorithms
Cross-listed
math.NT
Citations
1
Venue
SIAM Symposium on Simplicity in Algorithms
Last Checked
4 months ago
Abstract
The integer complexity $f(n)$ of a positive integer $n$ is defined as the minimum number of 1's needed to represent $n$, using additions, multiplications and parentheses. We present two simple and faster algorithms for computing the integer complexity: 1) A near-optimal $O(N\mathop{\mathrm{polylog}} N)$-time algorithm for computing the integer complexity of all $n\leq N$, improving the previous $O(N^{1.223})$ one [Cordwell et al., 2017]. 2) The first sublinear-time algorithm for computing the integer complexity of a single $n$, with running time $O(n^{0.6154})$. The previous algorithms for computing a single $f(n)$ require computing all $f(1),\dots,f(n)$.
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