This Website is not fully compatible with Internet Explorer.
For a more complete and secure browsing experience please consider using Microsoft Edge, Firefox, or Chrome

Aras Systems Architecture Connects MBSE to Full Lifecycle Digital Thread

Aras Systems Architecture Connects MBSE to Full Lifecycle Digital Thread


ANDOVER, Mass -Aras, the only resilient platform provider for digital industrial applications, today announced the release of Systems Architecture, a new application that coordinates systems model definition with tool independent data from all engineering disciplines including mechanical, software, electronics, simulation, and more. For the first time, a uniform view of all related systems models and their design intent is directly connected with the other aspects of the engineering process to form the digital thread improving collaboration and reducing risk.

Organizations can now provide a uniform view of the overall systems model and its design intent across the entire enterprise. The Aras approach enables holistic analysis of systems-of-systems designs to optimize performance and identify undesirable emergent properties between sub-system boundaries. By having the systems architecture become a central connective tissue in the product’s Digital Thread, design and business risks are more easily mitigated.

Systems engineers can select their modeling methodology and MBSE tool of choice. Aras Systems Architecture harmonizes incompatible system modeling methodologies, languages and tools – breaking down data silos – to enable creative freedom in Model-Based Systems Engineering (MBSE). By doing so, Aras accommodates emerging trends in systems modeling such as SysML 2.0 along with future breakthroughs in MBSE methodologies and tools.

Aras delivers the most scalable, flexible and open solution for managing systems models. Aras Systems Architecture captures the descriptive parts of the systems model – often referred to as the Functional and Logical breakdown of a product – and connects them with other aspects of the design such as Requirements definition and Physical representations of the product, together called the RFLP (Requirements/Functional/Logical/Physical).

With the ever-increasing complexity of today’s smart connected products, organizations can now address interdisciplinary collaboration across the supply chain. Enterprises are now able to shift their focus beyond just mechanically-oriented physical structures and conventional Bill of Materials representations. Aras provides a system architecture-centric view of products with traceability to all related details, regardless of the tool used to create the model. Globally distributed teams are able to track functional and logical breakdowns of a product, as well as relationships to requirements, physical parts and other product data through a customizable systems model schema that is semantically rich.

“Aras Systems Architecture together with Aras Requirements Engineering, Aras Simulation Management, and Aras Product Engineering provide a key enabler for systems thinking and digital transformation strategies at our customers. These interconnected applications on the Aras platform enable Model-Based Systems Engineering to truly become the driver of next generation design.” said John Sperling, SVP Product Management at Aras.

Additional Resources

Putting Systems Thinking into Practice Using a Digital Thread
Systems Thinking and Digital Transformation
Simulation Management with Aras Provides Greater Scalability, Flexibility, and Open Connectivity
Breaking Down the Silos: How Systems Architecture Enables Interdisciplinary Collaboration

About Aras

Aras provides a resilient platform for digital industrial applications. Its open, low code technology enables the rapid delivery of flexible, upgradeable solutions for the engineering, manufacturing and maintenance of complex products. Aras’ platform and product lifecycle management applications connect users in all disciplines and functions to critical product data and processes across the lifecycle and throughout the extended supply chain. Airbus, Audi, Denso, GE, GM, Honda, Kawasaki, Microsoft, Mitsubishi, and Nissan are using the platform to manage complex change and traceability.