Ansys Reviews & Pricing

by ANSYS | Founded 1970, Canonsburg, PA

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Overview Pricing Benefits Reviews Features

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What is Ansys?

Industry Specialties: Aerospace, Automotive, Defense, Energy, Healthcare, High Tech and Industrial Equipment

Ansys offers multiple suites and tools to streamline production such as 3D design, additive, digital twin, optics, VR and automatic vehicle simulation. It provides in-depth data to help make better, well-informed product development costs and workflow enhancement decisions. Draft and streamline topology, lattice optimizations and other designs.

Its top offerings include build setup, material analysis, topology optimization, fluid analysis, thermal-fluid analysis and physics-based light simulation. It can increase quality and reduce fees. It also strengthens product quality details while merging creation and engineering protocols into one centralized workflow.

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Ansys Pricing

Based on our most recent analysis, Ansys pricing starts in the range of $100 - $500.

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Starting From: Undisclosed
Pricing Model: Monthly, Quote-based
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Training Resources

Ansys is supported with the following types of training:

Documentation
In Person
Live Online
Videos
Webinars

Support

The following support services are available for Ansys:

Email
Phone
Chat
FAQ
Forum
Help Desk
Knowledge Base
Tickets
Training
24/7 Live Support

Ansys Benefits and Insights

Why use Ansys?

Key differentiators & advantages of Ansys

Centralized Design and Concept Modeling: Develop parts, assemblies and blueprints and open, fix and revise CAD documents in one centralized location. This centralization provides rapid, flexible and straightforward modeling protocols, enhancing productivity.
Simplified Topology: Leverage an interactive topology design tool that discovers patterns in real time without waiting, expediting efficiency.
Facilitated Modeling Process: Perform CAD modeling, lattice and light weighing, topology optimization, orientation guidance, part nesting and more to manage models and perform quicker setups.
Complete Vehicle Assessments: Establish and conduct multiple automotive tests, including frameworks, several simulated driving scenarios like snow, lightning and other traffic circumstances for optimal results and determine if vehicles are up to par. Conduct NCAP rating tests to ensure compliance.
Integrated Powertrain Systems: Merge intricate electric and hybrid-electric powertrains, subsystems and additional accessories for a connected feel instead of logging in and out of separate windows and programs.

Industry Expertise

Ansys caters to the aerospace, automotive, defense, energy, healthcare, high tech and industrial equipment sectors.

Synopsis of User Ratings and Reviews

Based on an aggregate of Ansys reviews taken from the sources above, the following pros & cons have been curated by a SelectHub Market Analyst.

Pros

Advanced Physics Modeling: Ansys Fluent excels in its ability to create sophisticated physics models, enabling the analysis of intricate fluid dynamics problems with a high degree of accuracy.
Industry-Leading Accuracy: Ansys Fluent is lauded for its exceptional accuracy in simulating a wide range of fluid flow phenomena, providing reliable results for critical engineering decisions.
Useful Add-ons: Ansys Fluent offers a suite of valuable add-ons that enhance product research and development processes, enabling engineers to explore innovative design solutions.
Distributed Computing: Ansys Fluent's support for distributed computing architecture significantly benefits users by enabling efficient meshing and processing of complex CAE problems, reducing computational time and optimizing resource utilization.

Cons

High System Requirements: Ansys Fluent requires a significant amount of memory and processing power, making it difficult to run on less powerful computers.
Steep Learning Curve: Users frequently mention that Ansys Fluent has a steep learning curve, especially for those who are new to the software or computational fluid dynamics in general.
Software Glitches and Stability Issues: Some users report experiencing glitches and stability problems with Ansys Fluent, leading to time spent troubleshooting and potential project delays.
Poor Customer Support: Business users express frustration with Ansys's customer support, citing issues like a cumbersome ticketing system and unhelpful responses.
Outdated Training Materials: Users report that Ansys's training materials are often outdated or difficult to navigate, making it challenging to learn how to use the software effectively.

Researcher's Summary:

Is Ansys the answer to all your engineering simulation prayers, or will it leave you feeling like you need to call an "ambulance?" Ansys Fluent is a powerful tool known for its advanced physics modeling and accuracy, making it a top choice for product research and development. Its support for distributed computing architecture is a major plus, especially when dealing with complex simulations. However, recent user reviews highlight some concerning drawbacks.

While Ansys excels in its technical capabilities, its customer support and documentation have received significant criticism. Users report a frustrating ticketing system and outdated documentation, making it difficult to find timely solutions. The user interface, particularly for the training portal, has also been deemed clunky and difficult to navigate. These issues can significantly hinder productivity, especially for new users.

Furthermore, while Ansys is generally praised for its performance, users have noted that older generation GPUs can struggle to keep up. This can be a significant bottleneck, especially for resource-intensive simulations. Managing multiple Ansys versions for compatibility with older projects is another pain point, adding complexity to workflows.

Overall, Ansys is most suitable for experienced engineers and researchers who can navigate its complexities and leverage its powerful capabilities. However, the recurring complaints about customer support, documentation, and user interface raise concerns. For those seeking a more user-friendly experience or requiring extensive support, exploring alternative simulation software might be worthwhile.

Key Features

3D Design

Structural and Modal Analysis: Test multiple design ideas in seconds rather than hours, offering prompt perceptions and structured performance designs. Work with several vibration modes and garner improved resonant frequencies.
Fluid Analysis: Explore internal and external fluid flows. Embody diverse graphics into analyses and utilize the fluent solver accessory for more detail and improved accuracy.
Topology Optimization: Evaluate product behaviors to find the ideal design platform. Apply numerous load cases and physic modal and structure visualizations seamlessly. Cooperate with topology optimization extensions for speedy evaluations.
Thermal-Fluid Analysis: Use automatic heat flow and temperature distributions modules to pinpoint suitable developmental requirements and experiment with real-time ideas swiftly. Implement conjugate heat transfer (CHT) to find fluid and solid temperatures to review blueprints.
Design and Concept Modeling: Build quick concept modeling with detailed parts, assemblies and blueprints. The 2D-to-3D transformation module brings drawings to lids and focuses on creativity, concepts and efficiency.
Model Prep for Simulation: Diminish model early-processing times with simplified workflows. Reduce bottlenecks for engineers and set model guidelines for simple geometry integrations.

Additive

Design for AM: Execute CAD modeling and topology optimizations. Perform light and lattice weighting.
Build Setup: Perform STL file repairs and modify shapes. Work with orientation guidance and wizards.
Process Simulation: Implement distortion reparations, construct failure estimates, and metal AM process simulations smoothly.
Material Analysis: Arrange and monitor material property databanks, utilize melt pools and porosity forecasts.
Data Acquisition and Management: Execute traceability and complete AM data control. Amalgamate, manage and share AM data throughout the company.
Part Qualification: Conduct design approvals, execute structure and thermal analysis and record controls and licenses.

Autonomous Vehicle Simulation

Driving Scenarios and Digital Scenarios: Standardize real-world against virtual simulated performances. Pick and tailor digital vehicles' engines, tire levels and more for accurate vehicle dynamics.
MiL and SiL Testing: Initiate mammoth scenario versions with loop testing in the cloud or on-premise.
HiL and DiL Testing: Work with virtual-based sensors for repetitive testing. Share HiL test data with ADAS suppliers to boost system safety and reliability before testing physical prototypes. Gauge AV and ADAS system performance to review human interactions and reactions.
Headlamp Simulation and Assessment: Test headlamp prototypes with life-like situations. Conduct beam and regulatory tests to catch, measure and contrast beam pattern errors.
Intelligent Lighting Systems: Obtain instant pixel beam simulations and govern pixel-level beam behaviors. Design, build and assess lighting system controls with in-the-loop visualizations and camera sensor injections.