For square pixels, the resolution of the shorter side of the sensor should be the same as the longer side.A “smooth” result is a minimum of 1920 pixels (i.e., sampling) for the longer side of the sensor.For example, if you double X and Y sampling in Figure 1, you need four times as much simulation time to get your results. Higher sampling means a smoother, more beautiful result, but it does require longer simulation time. Sampling is the main parameter you want to look out for. Unless you’re looking for a quick, low-fidelity image, don’t reduce the resolution of your results and lose out on quality. If you’re viewing results with 1080-pixel resolution on a 4K monitor, there’s going to be noticeable pixelation and lack of sharpness. If you’ve gone through the effort of building a physically accurate, high-fidelity model, make sure you’re taking advantage of everything the model has to offer. Appropriate sensor settings can dramatically change your simulation results. What Factor has the Most Influence Over the Quality and Speed of my Simulation? Through customer questions, we’ll explore parameter changes to maximize the perception of your simulation results in the context of an exterior automotive lighting example: a rear lamp model in Ansys Speos. By adjusting parameters to best fit your application area, you’re doing more to create the right conditions for confidence-based design. As a leader in the automotive lighting space, we wanted to share some advice on how to maximize the benefits of our simulation software.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |