论文信息 - A MASSIVELY PARALLEL GENERAL PURPOSE MULTI-OBJECTIVE OPTIMIZATION FRAMEWORK , APPLIED TO BEAM DYNAMIC STUDIES

A MASSIVELY PARALLEL GENERAL PURPOSE MULTI-OBJECTIVE OPTIMIZATION FRAMEWORK , APPLIED TO BEAM DYNAMIC STUDIES

Particle accelerators are invaluable tools for research in the basic and applied sciences, in fields such as materials science, chemistry, the biosciences, particle physics, nuclear physics and medicine. The design, commissioning, and operation of accelerator facilities is a non-trivial task, due to the large number of control parameters and the complex interplay of several conflicting design goals. We propose to tackle this problem by means of multiobjective optimization algorithms which also facilitate massively parallel deployment. In order to compute solutions in a meaningful time frame, that can even admit online optimization, we require a fast and scalable software framework. In this paper, we present an implementation of such a framework and report first results of multi-objective optimization problems in the domain of beam dynamics.

P. Arbenz | C. Bekas | A. Adelmann | Y. Ineichen | A. Curioni

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