AMD has launched their new Ryzen 7000 Series desktop processors, and one of the new processors in particular offers us an opportunity for some unique testing and analysis. Namely, the AMD Ryzen 7900X shares the same model name as a slightly aged CPU from Intel: the Core i9 7900X. This begs the question: how does the newcomer 7900X fare against the veteran 7900X in content creation applications?
AMD has launched their new Ryzen 7000 Series desktop processors (code-named “Raphael”) based on the latest Zen 4 architecture. These CPUs support DDR5 and PCIe 5.0, with up to 16 cores with a peak clock speed of 5.7 GHz. Along with the increased frequencies and DDR5 support, AMD has touted a 13% IPC (instructions per clock) improvement compared to the previous generation. But, the question is, how will this all translate to real world performance for content creators?
AMD’s new Ryzen 7000 Series of processors have arrived, promising faster performance along with new features like support for DDR5 memory. The previous gen Ryzen 5000 already had a lead over Intel’s 12th generation. Just how much faster could these processors be?
AMD’s new Threadripper PRO 5000 WX series of CPUs are here, providing greater performance over the previous generation while maintaining the large memory capacity and high PCIe lane count that Threadripper Pro is known for. But just how much faster are these new processors in content creation applications, and how do they fare against their main competition: the Intel Xeon W-3300 series?
AMD’s new Threadripper PRO 5000 WX-Series CPUs have arrived, promising faster performance with the same high core count and platform features found in the previous generation. Just how must faster are these new CPUs in V-ray, and how do they compare to the Intel Xeon W-3000 line?
AMD has recently released the Ryzen 5800X3D, which is their first desktop processor using 3D-stacked L3 cache. This CPU has been very clearly marketed towards the gaming industry – and not content creation – but we wanted to see how well it holds up in content creation applications like Photoshop and Premiere Pro.
Intel is expanding their “Core” series lineup with the new top-end Core i9 12900KS. Compared to the 12900K, this new CPU has a slightly higher base and boost frequency, but in exchange requires a bit more power. The question is: does the higher frequency make any difference in V-Ray?
Intel has launched their new 12th Gen Intel Core desktop processors (code-named “Alder Lake”) featuring support for DDR5, PCIe 5.0, as well as a completely new hybrid architecture using a mix of Performance and Efficient-cores. This is a lot of new technologies in one product, so we are excited to see how much of a performance boost the 12th Gen CPUs will see in V-Ray.
Windows 11 is finally here, however, many popular rendering applications like Redshift and V_ray have not officially offered support for the new OS. So what kind of performance could be expected as of the launch of Windows 11?
Intel’s new Xeon W-3330 series of workstation CPUs are here, ranging from 12 to 38 cores, and touting up to 18% IPC improvements. But are these features worth the higher cost of the Xeon platform, and how do they fare against AMD’s Threadripper Pro line in V-Ray?