Algorithm for solving tridiagonal matrix problems in parallel

TL;DR: A non-iterative direct forcing immersed boundary method for the strongly-coupled simulations of fluid-solid interactions, which improves upon the previous method in several aspects including optimized computational cost for a strong coupling scheme, reduced algorithm complexity for a straightforward implementation, and enhanced numerical stability for low density ratio problems.

TL;DR: A massively parallel high-order Navier-Stokes solver for large incompressible flow problems in three dimensions that uses a highly efficient commutation-based preconditioner and investigates the absolute accuracy of the implementation with respect to the different termination criteria.

TL;DR: In this paper, a framework for general relativistic N-body simulations in the regime of weak gravitational fields is presented, where Einstein's equations are expanded in terms of metric perturbations about a Friedmann-Lemaitre background, which are assumed to remain small.

TL;DR: In this article, a numerical study using the largeeddy simulation technique is performed to compare the behaviors of two different stochastic inlet condition methodologies, which are each intended to simulate a turbulent inflow for a round jet.

TL;DR: In this paper, a simulation program for particle-mesh force calculation is presented, based on a one-dimensional plasma model and a collisionless particle model, which is used to simulate collisionless particle models.

TL;DR: A new (partition) method for solving a tndiagonal system of lmear equations is presented and various situations under which the partmon method can be preferable are described.

TL;DR: By means of this concept the concept of parallel factorization is formalized as a set of scalar factorizations and is able to give a unified approach to the problem of solving tridiagonal linear systems on parallel computers.

TL;DR: The use of array processors in many research areas, such as plasma physics, fluid mechanics, oceanography, high energy physics, atomic physics and computer architecture development, is discussed in this paper.