AMD just updated their high-performance Threadripper processor series, and the new top-end model – the 2990WX – is the fastest single CPU we’ve ever tested in V-Ray. This article will look at how it stacks up to other AMD and Intel chips, as well as Intel’s dual Xeon configurations.
Intel has launched their new Xeon Scalable processor series, with very high core counts and multi-CPU configurations. How do they stack up to single-socket workstations using other Intel and AMD processors when rendering in V-Ray?
“Mac or PC?” – the age-old question among computer enthusiasts. How fast are Apple and PC workstations when rendering in V-Ray? And which offers a better value?
We’ve previously tested the new Hybrid Mode in V-Ray RT 3.6, which combines CPUs and GPUs in order to speed up rendering, on Intel’s Skylake X processors. This time around we are going to test on AMD’s Threadripper 1950X, and use even more powerful GPUs than before. We also take a look at GeForce GTX 1080 Ti vs Titan Xp performance.
New in V-Ray RT 3.6, Chaos Group has added Hybrid Rendering: the option to combine CPUs and GPUs in order to render images and animations even faster. We give an overview of how this works, and then explore the impact it can have on rendering speeds.
Intel has launched new, higher core count Skylake-X processors. Can they take back the performance crown from AMD’s Threadripper in V-Ray?
Benchmark results demonstrating that PCI-Express x8 vs x16 speeds don’t impact GPU rendering performance.
This article looks at several motherboard chipsets, including X299 and X399, comparing how well they handle performance scaling across multiple GPUs in V-Ray 3.57.01.
This article looks at the performance of Intel’s Skylake-X CPUs (including the new Core i9 7920X 12-core) compared to AMD’s Threadripper 12- and 16-core CPUs in V-Ray. Several other CPU platforms are also included for reference.