Evaluating higher derivative tensors by forward propagation of univariate Taylor series
Mathematics of computation, 2000•ams.org
This article considers the problem of evaluating all pure and mixed partial derivatives of
some vector function defined by an evaluation procedure. The natural approach to
evaluating derivative tensors might appear to be their recursive calculation in the usual
forward mode of computational differentiation. However, with the approach presented in this
article, much simpler data access patterns and similar or lower computational counts can be
achieved through propagating a family of univariate Taylor series of a suitable degree. It is …
some vector function defined by an evaluation procedure. The natural approach to
evaluating derivative tensors might appear to be their recursive calculation in the usual
forward mode of computational differentiation. However, with the approach presented in this
article, much simpler data access patterns and similar or lower computational counts can be
achieved through propagating a family of univariate Taylor series of a suitable degree. It is …
Abstract
This article considers the problem of evaluating all pure and mixed partial derivatives of some vector function defined by an evaluation procedure. The natural approach to evaluating derivative tensors might appear to be their recursive calculation in the usual forward mode of computational differentiation. However, with the approach presented in this article, much simpler data access patterns and similar or lower computational counts can be achieved through propagating a family of univariate Taylor series of a suitable degree. It is applicable for arbitrary orders of derivatives. Also it is possible to calculate derivatives only in some directions instead of the full derivative tensor. Explicit formulas for all tensor entries as well as estimates for the corresponding computational complexities are given. References
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