Aras, a provider of open product lifecycle management (PLM) software, has announced its core tenets for managing simulation in anticipation of exponential growth in demand for simulation at all stages of the product lifecycle. The company projects a growing wave of simulation driven by increasing product complexity, competitive pressures to reduce time to market, and new technologies such as Digital Twin and IoT.
Connecting Simulation Across the Product Lifecycle
The benefits and rationale for broader use of simulation as an enabler for early design verification and reduced reliance on physical prototypes are well documented and an opportunity that manufacturers must pursue for both pragmatic and competitive reasons. As product complexity increases and businesses seek opportunities for growth, simulation moves to the forefront for strategic capabilities around the Digital Twin, for predictive maintenance and closed-loop development, as well as additive manufacturing (AM) and generative design. As a result, Aras anticipates a looming wave of demand for simulation that manufacturers need to prepare for and incorporate into its product design, development and manufacturing processes to maximize simulation's value.
Game Time for SPDM
Although access to simulation tools and their high-performance computing requirements has always been limited by the deep domain and technical knowledge required, the greater barrier to simulation's inclusion in mainstream engineering processes has been the limited adoption of existing simulation process and data management (SPDM) tools. Without an effective SPDM capability, organizations are not able to efficiently incorporate simulation into systems engineering processes or to accurately connect simulation outputs with product data and product configuration during development, much less simulate an asset in service for many decades as in aerospace and defense.
Core Tenets for Managing Simulation at Scale
Aras believes the same characteristics of next-generation PLM - built on a platform that is open, flexible, scalable and upgradable - must also apply to SPDM for it to effectively manage simulation at scale. Specifically, to support simulation across the lifecycle and meet the needs of manufacturers across a range of industries, SPDM must adhere to the following core tenets:
- Embrace in-house tools, including spreadsheets and custom applications, as well as the broad range of heterogeneous, commercial vendor systems
- Enable and support multi-discipline scenarios, mixed-fidelity models and different data types that comprise the range of simulation expertise
- Support simulation use cases through the product lifecycle; most importantly, those that cross lifecycle stages such as from operational feedback to design or simulation of in-service performance
- Integrate simulation processes fully with model-based engineering processes to create and maintain the Digital Thread for today's complex cyber-physical systems
- Be transparent and invisible to users in managing the pedigree of a simulation model and any associated geometry, performance parameters and results.
"Aras' open, platform-based approach to PLM is transforming product processes for the largest auto OEMs; aerospace and defense; shipbuilding; and high tech electronics companies. Bringing this approach to simulation processes is critical to manage the coming demand for simulation and maximize its value in systems engineering, configuration and variant management, verification and validation (V&V), design reuse, compliance and emerging application in Digital Twin and IoT condition monitoring," said a company spokesperson.
For more information contact:
Aras
100 Brickstone Square, Suite 100
Andover, MA 01810-1492
978-806-9400
www.aras.com