Highly Parallel, High Precision Numerical Integration

机译：高度并行，高精度数值积分

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摘要

This paper describes a scheme for rapidly computing numerical values of definite integrals to very high accuracy, ranging from ordinary machine precision to hundreds or thousands of digits, even for functions with singularities or infinite derivatives at end-points. Such a scheme is of interest not only in computational physics and computational chemistry, but also in experimental mathematics, where high-precision numerical values of definite integrals can be used to numerically discover new identities. This paper discusses techniques for a parallel implementation of this scheme, then presents performance results for 1-D and 2-D test suites. Results are also given for a certain problem from mathematical physics, which features a difficult singularity, confirming a conjecture to 20,000 digit accuracy. The performance rate for this latter calculation on 1024 CPUs is 690 Gflop/s. We believe that this and one other 20,000-digit integral evaluation that we report are the highest-precision non-trivial numerical integrations performed to date.

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作者
Bailey, D. H.; Borwein, J. M.;
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年度 2005
页码 p.1-18
总页数 18
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Numerical integration; Mathematics; Chemistry; Physics;

机译：数学整合;数学;化学;物理;

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3. EFFICIENT NUMERICAL INTEGRATORS FOR HIGHLY OSCILLATORY DYNAMIC SYSTEMS BASED ON MODIFIED MAGNUS INTEGRATOR METHOD [J] . LI Wen-cheng, DENG Zi-chen, HUANG Yong-an 应用数学和力学（英文版） . 2006,第010期

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5. A Novel Accuracy Analysis Method of Dynamic CNC Machine Tool Motion by Parallel Integration of Nano-Precision Linear Scales [D] . Brown, Michael Benjamin. 2017

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6. Temporal discrimination increases in precision over development and parallels the development of numerosity discrimination [O] . Elizabeth M. Brannon, Sumarga Suanda, Klaus Libertus -1

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7. High-precision numerical integration: progress and challenges [O] . Bailey, D. H., Borwein, J. M. 2011

机译：高精度数值积分：进步与挑战

Highly Parallel, High Precision Numerical Integration

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