Central simulation platform for the hybrid multi-disciplinary simulation with focus on the logical and function properties of the physical product.
Features & Benefits:
Consistent, traceable and reliably system definition
Improvement of communication and information sharing between actors
Unified RFLP approach to master complex systems definition
Multi-disciplinary system modeling through a powerful open Modelica language
Virtual execution engine to perform a global validation
Strengthens the product quality by early testing of more alternative designs
Systems - Modules:
CATIA Systems Architecture Design (SAR) Modeling of functional architecture and logical breakdown of a product to identify the different functionalities of the system and to ensure that requirements are met accurately along the product development cycle.
CATIA Systems Control & Logic Modeling (LOC) Formal model to manage parallel systems and for state logic or dynamic behavior simulation.
CATIA Systems Logic Code Generator (CCG) Generates a control logic program from the program formal definition created in CATIA Systems Logic Control Modeling. This C based program is used by equipment where controls logic is run by a CPU (i.e. specialized machine tools, aircraft/vehicle control systems, etc.)
CATIA Systems Dynamic Behavior (DBM) Model and simulate the dynamic behavior of a multi-engineering system based on the Modelica language. You can study the dynamics of each component or the sub-system behavior and the way they interact with one another in large and complex systems, such as a truck with its braking system.
CATIA Dynamic Behavior Libraries The world-wide suite of Modelica includes several libraries for different engineering scenarios, for example, powertrain, hydraulics, suspension and electrical scenarios. It is specifically designed for advanced modeling of complex multi-physical systems and ensures faster and better product development.