Multilevel Monte Carlo methods

IF 16.3 1区数学 Q1 MATHEMATICS

Acta Numerica Pub Date : 2013-04-19 DOI:10.1017/S096249291500001X

M. Giles

引用次数: 224

Abstract

Monte Carlo methods are a very general and useful approach for the estimation of expectations arising from stochastic simulation. However, they can be computationally expensive, particularly when the cost of generating individual stochastic samples is very high, as in the case of stochastic PDEs. Multilevel Monte Carlo is a recently developed approach which greatly reduces the computational cost by performing most simulations with low accuracy at a correspondingly low cost, with relatively few simulations being performed at high accuracy and a high cost. In this article, we review the ideas behind the multilevel Monte Carlo method, and various recent generalizations and extensions, and discuss a number of applications which illustrate the flexibility and generality of the approach and the challenges in developing more efficient implementations with a faster rate of convergence of the multilevel correction variance.

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多层蒙特卡罗方法

蒙特卡罗方法是一种非常通用和有用的方法，用于估计随机模拟产生的期望。然而，它们在计算上可能是昂贵的，特别是当生成单个随机样本的成本非常高时，就像随机偏微分方程一样。多层蒙特卡罗是最近发展起来的一种方法，它以相对较低的成本执行大多数低精度的模拟，而相对较少的模拟以高精度和高成本执行，从而大大降低了计算成本。在本文中，我们回顾了多层蒙特卡罗方法背后的思想，以及最近的各种推广和扩展，并讨论了一些应用程序，这些应用程序说明了该方法的灵活性和通用性，以及在开发具有更快的多层校正方差收敛速度的更有效实现方面的挑战。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Acta Numerica MATHEMATICS-

CiteScore

26.00

自引率

0.70%

发文量

期刊介绍： Acta Numerica stands as the preeminent mathematics journal, ranking highest in both Impact Factor and MCQ metrics. This annual journal features a collection of review articles that showcase survey papers authored by prominent researchers in numerical analysis, scientific computing, and computational mathematics. These papers deliver comprehensive overviews of recent advances, offering state-of-the-art techniques and analyses. Encompassing the entirety of numerical analysis, the articles are crafted in an accessible style, catering to researchers at all levels and serving as valuable teaching aids for advanced instruction. The broad subject areas covered include computational methods in linear algebra, optimization, ordinary and partial differential equations, approximation theory, stochastic analysis, nonlinear dynamical systems, as well as the application of computational techniques in science and engineering. Acta Numerica also delves into the mathematical theory underpinning numerical methods, making it a versatile and authoritative resource in the field of mathematics.