Computer simulation of gauge theories on a lattice with improved rotational symmetry

We propose a simple method to construct staples in lattice gauge theory with Wilson action on a parallel computer. This method can be applicable to any dimensional system and to any dimensional division without difficulty. Furthermore this requires rather small working area to realize gauge simulati

## LATTICE recently introduced simplicial lattice is presented. The calculational technique for calculating all Wilson loops containing up Catalogue number: ACFG to 13 triangles or 9 squares is explained.

Title of program: BCH may be improved by the alternative formulation of the theory on a body-centered hypercubic (BCH) lattice [2]. The method Catologue number: AABF for implementing the Monte Carlo algorithm for calculating Wilson loops and lines in an SU(2) gauge theory on a BCH Program available

We describe a compact, optimized algorithm for analyzing the mutual geometric relations between links and elementary squares in a d-dimensional lattice. The algorithm is used to compute plaquettes in Monte Carlo simulations of gauge field dynamics. In such kind of applications our algorithm, due to

Nature of the physical problem the next one. With NUPG=6, the running time is ~5O References ~ss/variable per MC iteration on a CDC 7600.