Higher-order accurate time-step-integration algorithms by post-integration techniques

In this paper, unconditionally stable higher-order accurate time step integration algorithms suitable for linear "rst-order di!erential equations based on the weighted residual method are presented. Instead of specifying the weighting functions, the weighting parameters are used to control the algor

In this paper, unconditionally stable higher-order accurate time step integration algorithms suitable for linear second-order di!erential equations based on the weighted residual method are presented. The second-order equations are manipulated directly. As in Part 1 of this paper, instead of specify

Unconditionally stable higher order time-step integration algorithms are presented. The algorithms are based on the Newmark method with complex time steps. The numerical results at the (complex) sub-step locations are combined linearly to give higher order accurate results at the end of the time ste

An efficient implementation of the canonical molecular dynamics simulation using the reversible reference system propagator algorithm (r-RESPA) combined with the particle mesh Ewald method (PMEM) and with the macroscopic expansion of the fast multipole method (MEFMM) was examined. The performance of