Split generalized-α method: A linear-cost solver for a modified generalized-method for multi-dimensional second-order hyperbolic systems
share
We propose a variational splitting technique for the generalized-α method to solve hyperbolic partial differential equations. We use tensor-product meshes to develop the splitting method, which has a computational cost that grows linearly with respect to the total number of degrees of freedom for multi-dimensional problems. We consider standard C^0 finite elements as well as smoother B-splines in isogeometric analysis for the spatial discretization. We also study the spectrum of the amplification matrix to establish the unconditional stability of the method. We then show that the stability behavior affects the overall behavior of the integrator on the entire interval and not only at the limits 0 and ∞. We use various examples to demonstrate the performance of the method and the optimal approximation accuracy. For the numerical tests, we compute the L_2 and H^1 norms to show the optimal convergence of the discrete method in space and second-order accuracy in time.
READ FULL TEXT