CFD++

The key researchers behind CFD++ have been pioneers in CFD development over the last two decades. Many of these contributions have found a lasting place in most CFD tools available today. In CFD++, the most comprehensive and modern CFD framework available for general engineering and scientific use has been created. CFD++ is a superset of the various CFD methodologies available and provides accuracy, robustness and ease of use over all flow regimes.
CFD++ can efficiently solve compressible flows (at all Mach numbers) and incompressible flows, including both single and multi-species treatment, reacting flows, multiphase flows, steady and unsteady flows, rotating machinery, conjugate heat transfer, porous media, etc. Various topography-parameter-free models are used to capture turbulent flow features. The nonlinear subset of these models accounts for Reynolds stress anisotropy, streamline curvature and swirl. All these models can be either integrated directly to the wall, or combined with a sophisticated wall-function treatment that models the effects of compressibility, pressure gradient and heat transfer. A single equation LES model and advanced hybrid LES/RANS models are also available. The latter reduces the cost of traditional large eddy simulation by modeling the near-wall layer and automatically exploiting the advantages of LES in embedded fine-grid regions.

MIME

MIME (Multipurpose Intelligent Meshing Environment) is very powerful, yet so simple to use. As a result, up front and concurrent CFD can be as much part of product development as CAD. When faced with meshing of solid objects, engineers are often forced to spend numerous hours in tasks such as import of geometry and model clean up. The MIME approach greatly reduces the effort required in meshing CAD models prior to analysis. MIME provides you with a method of meshing the native CAD model directly, without the need for translation. MIME works with all CAD systems that can produce solid model formats (e.g. ACIS, Parasolid, Granite). With Pro/Engineer, MIME can use the native CAD data files. MIME can also work with discrete geometry representations (surface mesh) such as STL (stereolithography).

CAA++

CAA++ is a comprehensive suite of tools for aeroacoustics. CAA++ is designed to synergistically complement CFD++ by providing the user with a extended set of analytical and numerical methods to simulate the generation and transmission of sound waves through fluids.

CSM++

CSM++ introduces a new level of multi-disciplinary analysis and design capability to engineers and scientists in diverse fields of science and technology. CSM++ is a finite element based structural mechanics simulation software suite which has been specifically designed, from the outset, to work seamlessly with CFD++, CAA++ and MIME to carry out Multi-Physics simulations involving fluid flows, acoustics, structural deformations and heat transfer. CSM++ heralds Metacomp’s vision for a flow structure interaction capability with an unprecedented level of interaction between all the component disciplines.

EDD

ED Design is a simulation tool to predict the film thickness for the electro-coating process in a practical industrial design cycle, with good accuracy and ease of use. Electro-deposition process has been widely used in the automotive industry for the under coating on the surface of the body due to its ability to achieve uniform coating and to prevent corrosion/erosion.