Mathematics of complexity in experimental high energy physics

In addition to its importance in describing high-energy processes themselves, the dynamics of multiparticle production has become part of the general ÿeld of non-linear phenomena and complex systems. Multiparticle dynamics is one of the rare ÿelds of physics where higher-order correlations are direc

I present global design principles for the implementation of High Energy Physics data analysis code on sequential and parallel processors with mixed shared and local memory. Potential parallelism in the structure of High Energy Physics tasks is identified with granularity varying from a few times 10

Even if it was not either conscious or deliberate, physicists at the Asilomar Conference on Computing in High Energy Physics, probably for the first time, focussed a conference on the multitude of problems associated with the new scale of complexity in high energy physics experiments. This summary o

This paper discusses the computing problems in high-energy physics and reviews the portability achieved in software in the field. The techniques employed at CERN for developing programs are described and suggestions put forward for the future solution of the problems of portability.