Reduction from Triangle Detection to Dynamic st-Reach

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Revision as of 11:55, 15 February 2023 by Admin (talk | contribs) (Created page with "FROM: Triangle Detection TO: Dynamic st-Reach == Description == == Implications == assume: SETH<br/>then: for any fixed constants $\epsilon > {0}$, $c_1,c_2 \in ({0},{1})$, on graphs with $n$ nodes $|S|=\tilde{\Theta}(n^{c_1})$, $|T|=\tilde{\Theta(n^{c_2})}$, $m=O(n)$ edges, and capacaties in $\{1,\cdots,n\}$, target cannot be solved in $O((|S|T|m)^{1-\epsilon})$ == Year == 2014 == Reference == Abboud, Amir, and Virginia Vassilevska Williams. "Popula...")
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FROM: Triangle Detection TO: Dynamic st-Reach

Description

Implications

assume: SETH
then: for any fixed constants $\epsilon > {0}$, $c_1,c_2 \in ({0},{1})$, on graphs with $n$ nodes $|S|=\tilde{\Theta}(n^{c_1})$, $|T|=\tilde{\Theta(n^{c_2})}$, $m=O(n)$ edges, and capacaties in $\{1,\cdots,n\}$, target cannot be solved in $O((|S|T|m)^{1-\epsilon})$

Year

2014

Reference

Abboud, Amir, and Virginia Vassilevska Williams. "Popular conjectures imply strong lower bounds for dynamic problems." In 2014 IEEE 55th Annual Symposium on Foundations of Computer Science, pp. 434-443. IEEE, 2014.

https://ieeexplore-ieee-org.ezproxy.canberra.edu.au/abstract/document/6979028?casa_token=daaoBjrHUa4AAAAA:DCjk_WMWZ5Is6KvGpmS8a2bL9LskvV0P1zEG4U2u-Tm_C8sixu1w65OpTyjml1HEpaikXhtYsg

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