High-precision numerical simulations on a CUDA GPU: Kerr black hole tails
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Publication:364681
DOI10.1007/s10915-012-9679-3zbMath1273.83103OpenAlexW2035896810MaRDI QIDQ364681
Publication date: 9 September 2013
Published in: Journal of Scientific Computing (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s10915-012-9679-3
History of quantum theory (81-03) Black holes (83C57) Approximation procedures, weak fields in general relativity and gravitational theory (83C25)
Related Items (6)
A note on high-precision approximation of asymptotically decaying solution and orthogonal decomposition ⋮ Acoustic black hole in a hyperelastic rod ⋮ A GPU-accelerated mixed-precision WENO method for extremal black hole and gravitational wave physics computations ⋮ A high-precision single shooting method for solving hypersensitive optimal control problems ⋮ A new framework of GPU-accelerated spectral solvers: collocation and Galerkin methods for systems of coupled elliptic equations ⋮ High-precision arithmetic in mathematical physics
Uses Software
Cites Work
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- High-precision computation: mathematical physics and dynamics
- Numerical modeling of gravitational wave sources accelerated by OpenCL
- Modified conjugate gradient method for the solution of \(Ax=b\)
- Radial basis function approximation methods with extended precision floating point arithmetic
- Convergence and round-off errors in a two-dimensional eigenvalue problem using spectral methods and Arnoldi-Chebyshev algorithm
- Intermediate behavior of Kerr tails
- Late-time Kerr tails: generic and non-generic initial data sets, ‘up’ modes, and superposition
- Survey of the stability of linear finite difference equations
- High accuracy simulations of Kerr tails: coordinate dependence and higher multipoles
- Intermediate and extreme mass-ratio inspirals—astrophysics, science applications and detection using LISA
- Introduction to 3+1 Numerical Relativity
- Late-time Kerr tails revisited
- Critical phenomena in gravitational collapse
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