Multi-indice B-series: Description and Applications in Numerical Methods for ODEs

Replace rooted trees with multi-indices in Butcher's B-series for numerical methods.

The content introduces multi-indices as a novel way to describe numerical methods for ordinary differential equations, replacing rooted trees in Butcher's B-series. The composition and substitution of multi-indices B-series are explored, highlighting their connection with local affine equivariant methods. The significance of multi-indices in numerical analysis and singular SPDEs is emphasized. Introduction to classical B-series by Butcher. Multi-indices definition and application in numerical methods. Composition and substitution of multi-indices B-series. Connection with local affine equivariant methods. Importance of multi-indices in numerical analysis and SPDEs.

"Classical B-series play a pivotal role in the analysis of numerical integrators." "Cayley discovered a correspondence between non-planar rooted trees and vector fields." "The commutator bracket defines a Lie algebra on g satisfying the Jacobi identity."

"Numerical methods that can be expanded in B-series correspond to sequences of maps—one map for each dimension." - McLachlan et al. "Aromatic B-series methods characterize all local and affine equivariant methods." - Munthe-Kaas and Verdier