Benefits

The application of ITI SimulationX ensures a cost-efficient, target-oriented and efficient development of system solutions. Thereby all development partners contribute their core competence in a development environment they are familiar with. This provides a significant competitive advantage.

With SimulationX a tool becomes available, which enables engineering service providers, as well as engineers in the technical departments of medium and large enterprises, to develop, virtually test and analyze components and systems of arbitrary complexity.

Your major benefits are:

• Using SimulationX the engineers from different disciplines can transfer subtasks into component or system models using their familiar and efficient development methods.
• SimulationX models the interaction of components from a multitude of domains including their mutual interaction and feedback. This significantly distinguishes SimulationX from any other kind of CAE software (FEM, CFD, MBS).
• SimulationX as the common modeling and simulation platform in system development creates a base for mutual understanding of all concerned parties.
• The dynamic system behavior of modern and complex machines and plants is manageable, controllable, and interpretable throughout the whole development process as well as during error analysis.
• Development and simulation tasks, which cover several components and subsystems and include pre- as well as post-processing are solved faster using SimulationX.
• The application of SimulationX reduces development costs and minimizes expenses for cost-intensive prototype testing on the complete system as well as design changes.
• The observability of arbitrary system quantities in the model, including those, which are hardly or not at all accessible in measurements, leads to a considerably deeper understanding of the overall systems.
• The access to validated and transparent SimulationX models and their parameters in system development ensures a high certainty of conclusions concerning the realizability of desired performance parameters of a design or plant as well as concerning the evaluation of proposed solutions.
• SimulationX considerably boosts system integration. Different physical properties (e.g., mechanical, thermal, electrical) and different sub-systems (drive, machine, process) are described independently of each other, but are simulated, analyzed, and optimized in their interactions.
• A target-oriented expansion and modification of virtual sub-systems allows to break completely new ground.
• SimulationX considerably improves product quality. The consideration of a growing number of system variants based on virtual models which are close to reality opens up the possibility of a holistic examination, comparison, and evaluation of new solutions.