These are games built from the ground up to offer a realistic portrayal of driving. But on the other end of the spectrum, we have simulators.
These games were made to be fun and little more. However, most of them have an arcade feel: fast-paced, forgiving, and using only the bare minimum level of physics. The absence of precise and reliable simulations often causes engineers to adopt conservative safety margins, directly impacting weight, and therefore, global program performance.There are tons of driving and racing games out there. Because reducing weight often means reduced structural performance, it directly impacts crash, safety & noise, and vibration & harshness (NVH) performance.
Since lightweight impacts NVH performance, using a single core model for all performances is key in making the right design trade-offs.This is important as it influences the crash scenario. Using a multi-scale approach, engineers can virtually test performances of new technologies to join composite and metallic parts, ensuring optimal crash and fatigue performance.By coupling metal structures with composite materials, you open yourself up to more flexibility when it comes to design while remaining cost-efficient and compatible with mass production.New features like advanced composite crash and strength models allow you to predict the rupture behavior of composite parts and their capability to absorb energy during a crash.Having a detailed knowledge of the impact of the manufacturing process on structural performance is imperative. ESI VPS is known for its end-to-end Virtual Prototyping of structures, as it accounts for the manufacturing and assembly process for performance prediction.In addition to multi-scale modeling, this offers improved accuracy along with the benefits of cost and time savings.ĮSI's teams of experts are supporting engineering organizations throughout the world to implement virtual prototypes, integrate them across their ecosystem, establish their value & ROI, and ensure they are fully equipped for sustainable deployment.Įlevate your lightweight designs with Virtual Performance Solution The extended scalability and robustness offered for high-performance computing are key to investigating multiple design options, virtually testing the car's performance, around a single core model, and performing iterations before design freeze. They're breaking down the silos separating engineering departments and working concurrently towards their goals, delivering innovative products at a manageable cost and risk. VPS customers, from startups to top OEMs, conduct multi-domain engineering using this single core model. By drastically reducing the time spent on construction and modification of your model, engineers can investigate design options and variations, allowing them to make the best trade-offs and reduce the time spent on the synchronization of models between domains. VPS's unique Single Core Model allows you to eliminate silos between disciplines by opening the door to lightning-fast iterations and unmatched efficiency while developing innovative solutions.
Leading engineering teams are adopting an increasingly digital mindset to deploy innovative concepts at an unprecedented pace while meeting or exceeding performance requirements.