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ANNOUNCEMENT ON “SHARP ERROR ESTIMATE OF BDF2 SCHEME WITH VARIABLE TIME STEPS FOR LINEAR REACTION-DIFFUSION EQUATIONS”
ZHANG Ji-wei,ZHAO Cheng-chao
作者单位
ZHANG Ji-wei School of Mathematics and Statistics, Hubei Key Laboratory of Computational Science, Wuhan University, Wuhan 430072, China 
ZHAO Cheng-chao Beijing Computational Science Research Center, Beijing 100193, China 
摘要:
In this note we announce the sharp error estimate of BDF2 scheme for linear diffusion reaction problem with variable time steps. Our analysis shows that the optimal second-order convergence does not require the high-order methods or the very small time steps τ1=O(τ2) for the first level solution u1. This is, the first-order consistence of the first level solution u1 like BDF1 (i.e. Euler scheme) as a starting point does not cause the loss of global temporal accuracy, and the ratios are updated to rk ≤ 4.8645.
关键词:  BDF2  DOC  DCC  variable time-steps  sharp error estimate
DOI:
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基金项目:Supported by Natural Science Foundation of Hubei Province(2019CFA007); Supported by NSFC (11771035).
ANNOUNCEMENT ON “SHARP ERROR ESTIMATE OF BDF2 SCHEME WITH VARIABLE TIME STEPS FOR LINEAR REACTION-DIFFUSION EQUATIONS”
ZHANG Ji-wei,ZHAO Cheng-chao
Abstract:
In this note we announce the sharp error estimate of BDF2 scheme for linear diffusion reaction problem with variable time steps. Our analysis shows that the optimal second-order convergence does not require the high-order methods or the very small time steps τ1=O(τ2) for the first level solution u1. This is, the first-order consistence of the first level solution u1 like BDF1 (i.e. Euler scheme) as a starting point does not cause the loss of global temporal accuracy, and the ratios are updated to rk ≤ 4.8645.
Key words:  BDF2  DOC  DCC  variable time-steps  sharp error estimate