- #Rhino3d vray settings full
- #Rhino3d vray settings pro
- #Rhino3d vray settings professional
- #Rhino3d vray settings mac
Please read the companion page to this one for detailed meshing info.īelow is a basic start point for custom settings. Individually they are well described in the Help however, and reading this info carefully will give you a good idea of what each one does. The interactions and combined effects of these settings are complex to understand. Each one has a different method of mesh control and some of them can work together. There are seven numerical settings and three check boxes. In V4, the granular controls are presented directly the Density setting is not available as a slider.
#Rhino3d vray settings mac
If you then push the Detailed Controls button in Windows Rhino, or the little down arrow in Mac Rhino, it reveals all the other granular controls that will allow you to completely control the process. Moving it to the left will result in fewer polygons and a coarser mesh, to the right in more polygons and a finer mesh. When you check Custom in Rhino V5 or V6, (Mac or Win) you are first presented with a simple slider controlling the Density setting.
#Rhino3d vray settings full
See and download our full report on these cards here.If you really want to control your meshing process, here is where you need to start! We have tested four current PNY NVIDIA Quadro cards with Rhino 6.
#Rhino3d vray settings professional
To summarise, the safe bet is with NVIDIA Quadro professional graphics cards. The consumer AMD cards are generally fine but may require certain Rhino settings to be adjusted to solve well documented display issues. We generally recommend NVIDIA graphics cards as these, particularly the workstation class Quadro cards, are well proven with Rhino. AMD’s lower end cards are called Radeon and the higher end CAD specific cards are called Radeon Pro.
#Rhino3d vray settings pro
NVIDIA’s gaming cards are called GeForce and the pro cards Quadro. Both manufacturers produce both consumer cards targeted towards gamers and professional workstation cards targeted towards the 3D CAD market. There are two main graphics card vendors, NVIDIA and AMD. Rendering applications are now making use of GPU acceleration too, for example the Cycles raytrace renderer in Rhino 7 can be configured for GPU acceleration and V-Ray for Rhino has features that are designed to take specific advantage of NVIDIA’s proprietary CUDA core acceleration. The display pipeline in Rhino 6 has been dramatically improved and it now takes full advantage of professional level GPU’s – see our video on the Rhino 6 display pipeline here. GPU performance has become increasingly important with Rhino 7 and its associated plug-ins. More powerful cards will be able to represent the various manipulations of complex models more smoothly, reducing or eliminating the display lag that can cause jerkiness with very complicated models. The GPU handles the display of your work on your monitor. The i7 and i9 processors also feature Hyperthreading this a process where the number of physical processor cores is effectively doubled so that, a quad-core processor has eight logical processors. The latest processors from Intel feature 'Turbo Boost' dynamic over-clocking meaning that when the CPU senses a maximum load it increases the processor clock speed. Using Intel as an example there are three main processor families that will be of interest to Rhino users. Rendering plug-ins like V-Ray for Rhino, Maxwell and KeyShot will, however, make use of all the available cores. Rhino 6 and Grasshopper are, however, more supportive of multi-threading compared to earlier versions and we expect this situation to improve further as development continues. splitting the calculation between a number of processors.
Some complex modelling calculations are linear and do not lend themselves well to multi-threading i.e. Modern processors from the two main manufacturers, Intel and AMD, are multi-core but even with 64-bit operating systems and multi-core processors, modelling applications such as SolidWorks, 3D Studio Max and Rhino will use only one processor core for some modelling tasks. The main specification value that affects CPU performance is the combination of processor clock speed and the number of processor cores – so, for example, a 4GHz six core processor will be faster than a 4GHz four core processor.