Digit-by-digit and component-by-component constructions of lattice rules for periodic functions with unknown smoothness

Ebert Adrian; Kritzer Peter; Nuyens DirkOsisiogu Onyekachi

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Digit-by-digit and component-by-component constructions of lattice rules for periodic functions with unknown smoothness

机译：Digit-by-digit and component-by-component constructions of lattice rules for periodic functions with unknown smoothness

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Lattice rules are among the most prominently studied quasi Monte Carlo methods to approximate multivariate integrals. A rank-1 lattice rule to approximate an s-dimensional integral is fully specified by its generating vector z is an element of Z(s) and its number of points N. While there are many results on the existence of "good" rank-1 lattice rules, there are no explicit constructions for good generating vectors for dimensions s = 3. This is why one usually resorts to computer search algorithms. Motivated by earlier work of Korobov from 1963 and 1982, we present two variants of search algorithms for good lattice rules and show that the resulting rules exhibit a convergence rate in weighted function spaces that can be arbitrarily close to the optimal rate. Moreover, contrary to most other algorithms, we do not need to know the smoothness of our integrands in advance, the generating vector will still recover the convergence rate associated with the smoothness of the particular integrand, and, under appropriate conditions on the weights, the error bounds can be stated without dependence on s. The search algorithms presented in this paper are two variants of the well-known component-by component (CBC) construction, one of which is combined with a digit-by-digit (DBD) construction. We present numerical results for both algorithms using fast construction algorithms in the case of product weights. They confirm our theoretical findings. (C) 2021 Elsevier Inc. All rights reserved.

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《Journal of complexity》 |2021年第10期|101555.1-101555.37|共37页
作者
Ebert Adrian; Kritzer Peter; Nuyens DirkOsisiogu Onyekachi;
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Katholieke Univ Leuven, Dept Comp Sci, Celestijnenlaan 200A, B-3001 Leuven, Belgium|Austrian Acad Sci, Johann Radon Inst Computat & Appl Math RICAM, Altenbergerstr 69, A-4040 Linz, Austria;

Austrian Acad Sci, Johann Radon Inst Computat & Appl Math RICAM, Altenbergerstr 69, A-4040 Linz, Austria;

Katholieke Univ Leuven, Dept Comp Sci, Celestijnenlaan 200A, B-3001 Leuven, Belgium;

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Numerical integration; Lattice points; Quasi-Monte Carlo methods; Digit-by-digit construction; Component-by-component construction; Fast construction;

Digit-by-digit and component-by-component constructions of lattice rules for periodic functions with unknown smoothness

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