CFDRC offers unique capabilities for developing optimal computational strategies for cost effective simulations of real world problems. Most practical problems contain complex interactive physical phenomena in conjunction with complex geometries. Different levels of approximations and different numerical techniques are needed for analyzing different questions during various stages of development and life cycle of products and systems.

For example, during conceptual stages of developing a new device, coupled simulations of interactive physical phenomena are critical and the course grid simulations in simplified representative geometries are adequate. Such simulation have enabled generation of intellectual property and patents in emerging markets (see Patents Portfolio for some examples).

On the other hand, during design optimization, rigorous representation of actual geometries, and use of finer computational meshes are essential, and some of the physical phenomena can be simplified by approximate representations, e.g., by embedding analytical and behavioral models in 2D/3D models.

For improving operational efficiency and safety, large number of adequately simplified parametric simulations with coarser grids are very valuable. These enable production of useful guidelines for improved safety as well as development of specification or envelopes of operations.

Similar approach is also very helpful for obtaining product approvals and certifications. Sensitivity analysis of well-conceived operational parameters and constraints can facilitate early approvals. Applications with such substantiations also save tremendous costs in the defense of claims or answers to the questions raised by certifying agencies.

CFDRC expertise can be used by having:

1. CFDRC engineers perform the analyses; and
   
2. a customized software developed for routine use by your engineers.