Cinema 4D: Intel Core i7 9700K & i9 9900K Performance
Intel just released their 9th Gen Core Series processors, which have both higher clock speed and more cores than the previous mainstream generation. Cinema 4D uses a blend of CPU factors: clock speed is important for modeling, animation, and physics simulation – but core count is king when it comes to rendering. Let’s see how these new chips compare to other options from both Intel and AMD.
V-Ray CPU Rendering: Intel Core i7 9700K & i9 9900K Performance
Intel’s mainstream processors are not built specifically for CPU based rendering, and both Intel and AMD offer models with far more cores which will perform better in this application, but it is still worth testing each generation of these chips because they are ideal for 3D design, motion graphics, and animation – which are often used in workflows alongside rendering.
Are the 9th Gen Intel Core Processors good for photo editing?
Most photo editing applications prefer a higher clocked CPU over one with more cores, but Intel’s new 9th Gen Core Processors feature not only an increase in core count, but also a small bump in frequency. These improvements make these new CPUs some of the fastest currently available for photo editing.
Are the 9th Gen Intel Core Processors good for video editing?
Intel’s new 9th Gen Core Processors include both a small frequency bump and an increase in core count. Due to these improvements, these CPUs fare extremely well in video editing applications, performing close to 20% faster than the i7 8700K in many Adobe applications.
DaVinci Resolve 15: Core i7 9700K & i9 9900K Performance
DaVinci Resolve is a very GPU-intensive program, but that doesn’t mean that the CPU doesn’t matter. Depending on the amount of GPU power you have, even a mid-range CPU could perform the same as a more expensive CPU which makes the new 9th Gen CPUs from Intel very interesting for Resolve workstations with only a few GPUs.
Premiere Pro CC 2018: Core i7 9700K & i9 9900K Performance
We tend to use either Intel’s X-series or AMD’s Threadripper CPUs for Premiere Pro due to their higher performance, but with Intel’s new 9th Gen CPUs sporting up to 8 cores, it will be very interesting to see how they fare in Premiere Pro.
After Effects CC 2018: Core i7 9700K & i9 9900K Performance
After Effects may not be quite as well threaded as it used to be, but there is still some performance gains to be had with higher core counts. Since the new 9th Gen CPUs from Intel include both a higher core count and a higher operating frequency, they should perform great in After Effects.
Photoshop CC 2018: Core i7 9700K & i9 9900K Performance
The new 9th Gen Intel Core Processors have a number of improvements including a small frequency bump and an increase in core count. Photoshop tends to primarily rely on just a handful of cores, so the question is whether these improvements are enough to make a significant difference in performance.
Lightroom Classic CC 2018: Core i7 9700K & i9 9900K Performance
Since Lightroom Classic is much better at utilizing multiple CPU cores than the older versions of Lightroom, the new 9th Gen Intel Core Processors are very interesting. Not only do they have a small frequency bump, but they also include an increase in core count.
NVIDIA GeForce RTX 2080 Ti PCI-Express Lane Scaling in OctaneRender and Redshift
GPU based renderers like OctaneRender and Redshift make use of the video cards in a computer to process ray tracing and other calculations in order to create photo-realistic images and videos. The performance of an individual video card, or GPU, is known to impact rendering speed – as is the number of video cards installed in a single computer. But what about the connection between each video card and the rest of the system? This interconnect is called PCI Express and comes in a variety of speeds. In this article, we will look at how benchmarks for these programs perform across PCI-E 3.0 and 2.0 with x1, x4, x8, and x16 lanes.