Computational Graphs for Matrix Functions

Author:

Jarlebring Elias1ORCID,Fasi Massimiliano2ORCID,Ringh Emil3ORCID

Affiliation:

1. KTH Royal Institute of Technology, SeRC Swedish e-science research center, Stockholm, Sweden

2. Durham University, Durham, UK

3. Ericsson research, Stockholm, Sweden

Abstract

Many numerical methods for evaluating matrix functions can be naturally viewed as computational graphs. Rephrasing these methods as directed acyclic graphs (DAGs) is a particularly effective approach to study existing techniques, improve them, and eventually derive new ones. The accuracy of these matrix techniques can be characterized by the accuracy of their scalar counterparts, thus designing algorithms for matrix functions can be regarded as a scalar-valued optimization problem. The derivatives needed during the optimization can be calculated automatically by exploiting the structure of the DAG in a fashion analogous to backpropagation. This article describes GraphMatFun.jl , a Julia package that offers the means to generate and manipulate computational graphs, optimize their coefficients, and generate Julia, MATLAB, and C code to evaluate them efficiently at a matrix argument. The software also provides tools to estimate the accuracy of a graph-based algorithm and thus obtain numerically reliable methods. For the exponential, for example, using a particular form (degree-optimal) of polynomials produces implementations that in many cases are cheaper, in terms of computational cost, than the Padé-based techniques typically used in mathematical software. The optimized graphs and the corresponding generated code are available online.

Funder

Wenner-Gren Foundations

Publisher

Association for Computing Machinery (ACM)

Subject

Applied Mathematics,Software

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