Vectorizing the monte carlo algorithm for lattice gauge theory calculations on the CDC cyber 205

Nature of the physical problem versity of Belfast, N. Ireland (see application form in this The program calculates the average action per plaquette for issue) SU(4) lattice gauge theory. Gauge theories on a lattice were originally proposed by Wilson [1] and Polyakov [2] for the Computer: CDC CYBER 2

Lattice gauge theory is a technique for studying quantum field theory free of divergences. All the Monte Carlo computer calculations up to now have been performed on scalar machines. A technique has been developed for effectively vectorizing this class of Monte Carlo problems. The key for vectorizin

Pure SU(4) gauge theory is simulated by Monte Carlo methods on an 8~lattice. The method of Metropolis et al. is used to equilibriate the space-time lattice. All Wilson loops up to size 4 x 4 are calculated. Because of memory requirements we work on the 2 Mword CDC CYBER 205 at Colorado State Univers

Random access to data and recursive properties of the numerical procedure are both obstacles in the way of vectorizing current lattice gauge theory calculations. In this paper we show how these problems may be overcome on the CDC CYBER 205 to provide impressive reductions in the processing time requ

Title of program: LATI'ICE plaquette for SU(6)/Z 6 lattice gauge theory. By considering quantum field theory on a space-time lattice [1,2], the ultra-Catalogue number: ACEK violet divergences of the theory are regulated through the finite lattice spacing. The continuum theory results can be obtained

and SU(6)/Z 6 gauge theories, SU(N) and SU( N )/Z N gauge theories, phase transitions, statistical mechanics, Monte Carlo methods