ANSYS 17.1 Delivers Optimised System Performance for Early Design Process

As products become more complex, the ability to simulate entire systems – including mechanical, electronics, and software – provides a significant advantage. This enables engineers to optimise for the individual components as well as for the combined behaviour in the full system. With ANSYS 17.1 engineers can quickly create physics-based component models and embedded software designs for complete virtual prototypes of multi-domain systems. ANSYS 17.1 provides detailed physics models in combination with embedded software and complex behavioural models of components to perform complete product evaluation early in the design process – enabling organisations to accurately predict how a product will perform in real world conditions. By identifying potential issues early in the development process before design choices are solidified, costly late-state changes can be avoided.

More engineers than ever before can now reap the benefits of the markets best and most trusted simulation technology using the latest version of ANSYS® AIM®. Built for design engineers, AIM is an integrated, easy-to-use simulation environment based on proven ANSYS solver technology. In addition to newly extended structural and fluid flow simulation capabilities, ANSYS AIM now provides product designers with magnetostatics and coupled magnetic-thermal-structural analysis to rapidly design innovative electromechanical products. New polymer extrusion simulation enables designers to identify manufacturing issues early on and reduce tooling lead time. ANSYS 17.1 boosts the customization and automation capabilities of AIM by introducing multi-step custom templates that allow accurate and repeatable simulation methods to be codified and deployed during early stages of product design – reducing product development time and cost.

In addition to the advancements in system simulation and multiphysics, engineers can take advantage of several new enhancements ANSYS 17.1 delivers across the entire portfolio and ANSYS® Workbench™ platform. ANSYS’ electronic technology for antenna and wireless modeling empowers engineers with extended models and design flow automation – enabling organizations to meet the growing demands of the Internet of Things and wireless device markets.

Designing and routing cable structures to meet electromagnetic compatibility standards and packaging requirements in large automotive or aeronautical systems has become increasingly complex and make traditional design rules obsolete. The ANSYS 17.1 electronics suite is equipped with new innovations to efficiently analyze signal integrity through complex cable paths.

In the fluids suite, engineers can prepare large and complex models – from aerospace to under-hood simulations easier thanks to the new fully integrated toolset to navigate, display and manage large computer-aided design datasets. Also new to the fluids suite is cyclic and polar plots that display the results of a transient row analysis, making it easier for users to understand and communicate transient periodic behavior, commonly found in turbomachinery simulations due to blade row interaction.

Building upon the solutions for simulating large fabricated structures, the ANSYS mechanical suite offers new beam-to-solid and shell-to-solid sub-modeling. Now structural engineers can easily convert lower dimensional models used in early design stages to high fidelity 3-D models for a detailed investigation of critical areas. In addition to the performance enhancements across its product lines, ANSYS 17.1 delivers performance improvements for motion analysis. Systems with large number of contacting and sliding parts, such as chain drives and gear assemblies, solve 10 to 20 times faster using new innovations in time stepping schemes and the implementation of mesh based contact detection.

ANSYS semiconductor process technologies have kept in-step with new advancements to enable customers to innovate mobile, computing, networking and IoT applications. Overall simulation runtime performance has been improved by up to 30 percent with a 2x reduction in memory footprint by harnessing distributed machine processing technology for transistor-level analog and mixed signal designs including memory. ANSYS also now supports thermally aware electromigration analysis, enabling users to design with FinFET transistor technology. To further improve low-power chip design, ANSYS 17.1 delivers faster power analysis, better accuracy and greater reduction of power, enabling customers to deliver smaller, higher-power density devices to market faster.

For more details and to discuss how ANSYS 17.1 can help transform your product development, please contact us.