A linear symbolic-based approach to matrix inversion

A symbolic method based on Mason's rule is used to handle the matrix form of linear networks automatically on PCs. In addition to the usual applications of this technique in educational and research fields, the results are used to check a symbolic matrix inversion program. For illustration purposes,

Symbolic computational systems introduce some unique features in computational engineering. There have been several papers published on the solution of differential equations under given boundary conditions by symbolic systems. The finite element formalism has received prime attention in the course

Global locality optimization is a technique for improving the cache performance of a sequence of loop nests through a combination of loop and data layout transformations. Pure loop transformations are restricted by data dependencies and may not be very successful in optimizing imperfectly nested loo

## Abstract This paper proposes a non‐matrix inversion based algorithm to implement decorrelating detection (DD), namely quasi‐decorrelating detector (QDD), which uses truncated matrix series expansion to overcome the problems associated with the matrix inversion in DD, such as noise enhancement, c