L. Temmerman, ... D.R. Emerson, in Parallel Computational Fluid Dynamics 2000, 2001 A parallel LES code has been successfully ported to three different parallel architectures. The code was shown to scale well on all three machines when the problem size is appropriate to the particular architecture being used.
At any one time there are many operations being performed, but they need not be the same and in fact are almost always different. As will be seen, this is the most widely used form of parallel architecture, but the category has many different subclasses.
Multi-core processors can take advantage of parallel computing, a computational model that breaks programs into smaller sequential operations and performs those smaller operations in parallel. Can we modify the cat detection program so that some of its operations can be executed in parallel?
It is shown that the closed-form solution of the inverse geometric model is straightforward for a six degree-of-freedom parallel robot. The explicit formulation of the direct geometric model is usually more complicated since it can have up to 40 solutions [Husty 96].