Algorithms for the Multiplication Table Problem
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Brent, Richard
POMERANCE, CARL
Purdum, David
WEBSTER, JONATHAN
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Walter de Gruyter GmbH & Co. KG
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Let M(n) denote the number of distinct entries in the n×n multiplication table. The function M(n) has been studied by Erdős, Tenenbaum, Ford, and others, but the asymptotic behavior of M(n) as n → ∞ is not known precisely. Thus, there is some interest in algorithms for computing M(n) either exactly or approximately. We compare several algorithms for computing M(n) exactly, and give a new algorithm that has a subquadratic running time. We also present two Monte Carlo algorithms for approximate computation of M(n). We give the results of exact computations for values of n up to 230, and of Monte Carlo computations for n up to 2100,000,000, and compare our experimental results with Ford’s order-of-magnitude result.
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Integers
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Open Access
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Creative Commons Attribution 4.0 International License
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