A simulation framework for cell manipulation

The modular simulation idea is to represent the components of a physical system by subroutines whose interaction mimics the physical interaction. This approach facilitates validation and also the introduction of parallel processing. In this paper a modular scheme is introduced in which the componen

Exploiting parallelism in the solution of scientific and computational engineering problems requires significant expertise and effort on the part of application developers. We describe a framework targeted at the class of discrete-time grid simulations that hides much of the complexity inherent in t

## Abstract In the last decade optical manipulation has evolved from a field of interest for physicists to a versatile tool widely used within life sciences. This has been made possible in particular due to the development of a large variety of imaging techniques that allow detailed information to

## Abstract Coupled problems arise because certain aspects of some systems have previously been modelled separately, assuming (implicitly) an uncoupled behaviour. More often then not, computational approaches and mature software have been developed for each of these aspects in isolation. If one has