Virtual Validation Services

1. Virtual Validation Services Virtual validation is the process of using CAD and CAE technology to validate a product design by creating a 3D virtual duplicate of it and testing and approving it using software. It entails simulating and testing products in various contexts and situations to ensure that they work properly. Virtual validation can help firms plan, create, and execute systems before spending major cash as manufacturing processes become more complicated. Virtual Validation services help businesses to minimise the time it takes to bring a product to market, lower production costs, check flaws or designs before converting them into actual products, and thereby improve product/machine performance. Automakers are increasingly employing virtual validation to test self-driving and electrified vehicles. Virtual validation may be used to test billions of miles of driving and millions of lines of code without ever producing a prototype, in addition to modelling batteries and electronic design systems. Virtual Validation Procedures and Methodologies The capacity to effectively represent the physical product as a maths model in the digital realm is the focus of virtual validation. FE/CFD models, like maths models, capture complicated geometries, deal with a wide range of material behaviours, and account for a wide range of manufacturing processes, all of which are critical for properly forecasting product performance. Aside from Multiphysics, developments in solver technology have allowed virtual validation to handle geometry nonlinearity, material nonlinearity, and contact nonlinearity. It's also worth noting how far HPCs and GPUs have progressed in virtual validation. The unifying denominator that drives these strategies is the necessity for high-quality FE / Virtual Validation models. System and subsystem virtual validation and builds, as well as the requisite design space and design variable development procedure, are crucial for success. DEP MeshWorks CAE software was utilised, which can handle high-quality models at all phases of product development and provides an integrated CAE platform that allows customers to employ virtual validation while streamlining operations. The virtual validation process has grown in maturity and confidence, reducing the need for several physical prototypes. Virtual validation has been further incorporated into the fast-to-market and data-driven product development processes as part of Industry 4.0. Virtual validation has been brought forward to drive design right from

2. the idea phase to minimise product development time, allowing for more design space exploration and performance optimization up front. Virtual validation findings being accepted by multiple regulatory authorities throughout the world and across industry verticals is a big step forward. During the design validation process, the gadget will be thoroughly tested. You may accomplish this in a variety of ways depending on the circumstances. The following are some of the available activities: Comparing and contrasting identical equipment that is used for similar reasons. To replicate functionality, mathematical modelling is utilised. Testing the final design to check that it functions as the user expected. The test strategy, test cases, test execution data, and test results should all be recorded and retained as part of the design documents. Validation as a whole is the aggregate of all validation actions, not the result of a single activity. Virtual Validation's Advantages Virtual validation services allow you to speed up sections of an integration test by modelling it and working in a parallel process where the actual and virtual development stages interact in real time. Virtual validation of a product design has various advantages: Product launch periods are shorter. When design testing is done digitally, it helps to reduce the time it takes to get a product to market. Because the testing are carried out electronically, there is no need to ruin a fully functional product in order to verify its dependability and utility. Virtual testing is preferable to physical testing since it allows for a faster production cycle and hence a shorter launch time. Costs of production and materials are being reduced. Virtual Validation is a great way to test product designs and see whether they're ready to go into production. With the aid of Virtual Validation, the design is put through many real-life scenarios to guarantee that it is ready to be translated into an actual product. Because Virtual Validation employs CAD and CAE technology, it eliminates the need for an actual completed product to be tested by damaging it in various ways, lowering material costs. Product performance has improved.

3. Engineers may use virtual validation services to test a range of real-world situations on the design to study the finer points of the product design, revealing faults and then deleting them to improve the product's performance. The greatest Virtual Validation Service Provider is Rheomold. We want to use virtual environments to check and validate all phases of vehicle development while keeping an overall picture of the vehicle. We built a co-simulation platform based on our software engineering links that integrates and combines diverse validation techniques and allows multi-directional communication between tools. This enables us to simulate the interplay between a vehicle's software and physical properties, resulting in realistic virtual validation. Rheomold has built a reputation as an engineering consulting organisation with FEA and CFD professionals on hand to help you solve your most difficult engineering issues. Our engineering teams are accountable for providing effective outcomes on schedule as an extension of our clients. We add to your company's skills.