Computer-Aided Engineering (CAE) reviews by real, verified users. Find unbiased ratings on user satisfaction, features, and price based on the most reviews available anywhere.
Products classified in the overall Computer-Aided Engineering (CAE) category are similar in many regards and help companies of all sizes solve their business problems. However, enterprise business features, pricing, setup, and installation differ from businesses of other sizes, which is why we match buyers to the right Enterprise Business Computer-Aided Engineering (CAE) to fit their needs. Compare product ratings based on reviews from enterprise users or connect with one of G2's buying advisors to find the right solutions within the Enterprise Business Computer-Aided Engineering (CAE) category.
In addition to qualifying for inclusion in the Computer-Aided Engineering (CAE) Software category, to qualify for inclusion in the Enterprise Business Computer-Aided Engineering (CAE) Software category, a product must have at least 10 reviews left by a reviewer from an enterprise business.
Fusion 360 is for product designers, mechanical engineers, electrical engineers, and machinists. It unifies design, engineering, PCB design, and manufacturing into a single platform. It allows you to connect your disconnected product development process to deliver high-quality products to market faster and positively impact your bottom line. Fusion 360 is a fully integrated CAD, CAM, PCB, and CAE software that includes generative design, 2.5, 3, 4, & 5 axis machining, and advanced simulatio
ANSYS Fluent software is the most-powerful computational fluid dynamics (CFD) tool available, empowering you to go further and faster as you optimize your product's performance. Fluent includes well-validated physical modeling capabilities to deliver fast, accurate results across the widest range of CFD and multiphysics applications
PTC Mathcad is the single solution for solving, analyzing, documenting and sharing your essential engineering calculations and design intent. Its live mathematical notation, units intelligence, and powerful calculation capabilities, presented within an easy-to-use interface, allows engineers and design teams to capture and communicate their design and engineering knowledge.
AnyLogic is the standard in multimethod modeling technology, delivering increased efficiency and less risk when tackling complex business challenges. The unmatched flexibility found in AnyLogic allows users to capture the complexity of virtually any system, at any level of detail, and gain a deeper insight into the interdependent processes inside and around an organization.
ANSYS Mechanical Pro uses the ANSYS Mechanical interface to deliver powerful finite element modeling capabilities in a way that you can use to make real structural engineering decisions. A finite element analysis solution that provides robust, general-purpose stress, thermal, vibration and fatigue simulations for fast and accurate solutions.
COMSOL Multiphysics (formerly FEMLAB) is a finite element analysis, solver and simulation software package for various physics and engineering applications, especially coupled phenomena, or multi-physics.
Computer-aided engineering leverages a wide range of tools to test how a product will perform in the real world. With tools such as stress analysis, thermal and fluid flow analysis, and mechanical event simulation, engineers are able to simulate a product’s durability and performance. Generally, computer-aided engineering software will aid an engineer in the three phases of computer-aided engineering. The first phase is preprocessing, which allows users to simulate the environment that a product will be placed into. This can be something like creating a construction site or a shipping dock (any virtual environment the product will be placed in). The second phase is called analysis, in which engineers can analyze how the product is affected by its environment. This can show how the product becomes deformed or stressed by pressure and outside forces. The last step is called visualization, in which actual data is produced that communicates to the engineers which outside forces caused the most stress on the product. After testing and analysis, the engineers can make the necessary changes in order to improve the overall design of the product. The result of conducting this thorough testing is what allows engineers to manufacture products that are both durable and safe.
Key Benefits of Computer-Aided Engineering Software
Computer-aided engineering software speeds up the time it takes engineers to prototype and test how objects will perform in the real world. This allows product engineers to improve design performance well before a product is manufactured. A major example of this is how airplane engineers manufacture an airplane that can withhold the stress of landing on a runway. Within this process there are so many variables to take into account, including the material, size, and speed of the airplane. Given the perspective of how many factors go into the safety and performance design of an airplane, one would think it would take countless days of manipulating the design to create a reliable product. However, computer-aided engineering allows engineers to speed up this process by running simulations of plane landings and detailing exact ways in which the engineer can improve the design. By making these changes in a virtual environment, companies save plenty of money by not having to manufacture countless designs before getting the final product correct.
CAE software is used across a variety of industries in the manufacturing and engineering world. Its main functions include simulation, validation, and optimization of products, which can be broadly applied to any business trying to test and improve a manufactured product. With this in mind, here are a couple of industries that use CAE software.
Automotive industry — Historically, automakers spent plenty of time producing physical vehicle models and then testing them for safety by actually crashing them into physical barriers. With advancements in CAE software, however, design and safety testing is all done using computer simulations. Within the virtual simulation, a car can be tested to improve safety, comfort, and vehicle durability. This has saved the automotive industry both time and money by eliminating the need to produce countless physical prototypes.
Manufacturers — CAE software can produce simulations of manufacturing assembly lines. This helps manufacturers identify any inefficiencies or issues before they begin construction on expensive production assemblies. By identifying these issues, they can save money and increase the efficiency of their manufacturing systems.
On-premises CAE software — On-premises CAE software refers to software that is installed on a local computer. While on-premises software tend to run at a higher price, they generally offer more functionality then cloud-based CAE software.
Cloud-based CAE software — Cloud-based CAE software refers to software that can be accessed via the internet and is usually paid on a subscription-based model. While cloud-based CAE software is generally cheaper, it usually offers less functionality, and requires the user have access to the internet.
Computational fluid dynamics — One of the main forms of engineering analysis that CAE software performs is computational fluid dynamics (CFD). CFD is a way to model the behavior of both fluids and gases. This includes modeling the way they interact with one another as well as surfaces that they come in contact with. This feature can solve problems such as identifying incompressible and compressible fluids, laminar and turbulent flows, as well as multiphase flow problems.
Finite element analysis — Finite element analysis is a numerical method used to solve engineering problems. This process is used to break down one large problem into a handful of smaller ones, called finite elements. Using this method, engineers can break down complex engineering problems into manageable pieces. One of the main ways engineers use finite element analysis is to make model representations in which they can test how objects interact with another, which provides an understanding of how an actual object would be affected by other physical forces. Examples are bridge modeling, car crash testing, and testing the structural integrity of any given object.
Manufacturing process simulation — Manufacturing simulation is the computer-based modeling of an actual production system. This can be a simulation of something such as an assembly line or an inventory management system. Simulating how a manufacturing system will perform can help identify problems with production lines or deficiencies within the system. Manufacturing simulation will also give statistical reporting analysis in order to relate how efficient a particular production model is.
Mechanical event simulation — Mechanical event simulation enables engineers to simulate how objects will react to certain events in real life. A good example of this is a simulation of how a mobile phone will interact with a cement floor in the event that it is accidentally dropped. Within the simulation, the software can indicate if the phone screen will crack or if any other permanent issues will be caused. The software can then suggest changes to be made to the phone to make it more durable and protected in the event of a dropped phone; when considering these changes, users can test the simulation until the product is adjusted to their liking.
Learning curve — Computer-aided engineering software comes with a steep learning curve. While there are more products and resources that can help beginners, it will still take a significant amount of time to master all the nuances of the software.
High price — Another major concern for small businesses is the high price of computer-aided engineering software. Some commercial CAE software can range anywhere from $10,000 to $50,000 per person, which is a hefty price tag for a single user in a company.