Functionally fitted explicit two step peer methods
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Publication:887021
DOI10.1007/S10915-014-9951-9zbMath1326.65090OpenAlexW2067759580MaRDI QIDQ887021
Manuel Calvo, Luis Rández, Marnix van Daele, Juan I. Montijano
Publication date: 27 October 2015
Published in: Journal of Scientific Computing (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s10915-014-9951-9
Nonlinear ordinary differential equations and systems (34A34) Numerical methods for initial value problems involving ordinary differential equations (65L05) Multistep, Runge-Kutta and extrapolation methods for ordinary differential equations (65L06)
Related Items (3)
Analysis of spectral Hamiltonian boundary value methods (SHBVMs) for the numerical solution of ODE problems ⋮ Exponentially fitted two-step peer methods for oscillatory problems ⋮ Adapted explicit two-step peer methods
Cites Work
- Unnamed Item
- On the derivation of explicit two-step peer methods
- Doubly quasi-consistent parallel explicit peer methods with built-in global error estimation
- On functionally-fitted Runge-Kutta methods
- Functionally fitted explicit pseudo two-step Runge-Kutta methods
- Parameter optimization for explicit parallel peer two-step methods
- Trigonometric polynomial or exponential fitting approach?
- Runge-Kutta algorithms for oscillatory problems
- Runge-Kutta(-Nyström) methods for ODEs with periodic solutions based on trigonometric polynomials
- Implicit parallel peer methods for stiff initial value problems
- Runge-Kutta methods adapted to the numerical integration of oscillatory problems
- Exponentially-fitted explicit Runge-Kutta methods
- Superconvergent explicit two-step peer methods
- Explicit two-step peer methods
- Linearly-implicit two-step methods and their implementation in Nordsieck form
- Numerical integration of ordinary differential equations based on trigonometric polynomials
- Parallel Two-Step W-Methods with Peer Variables
- A functional fitting Runge-Kutta method with variable coefficients
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