Metashape 1.5.1: Intel Core i7 & Core i9 vs AMD Threadripper Performance
Metashape, formerly known as PhotoScan, is a photogrammetry program that takes a set of images and combines them to create a 3D model or map. Processing of those images into point clouds and 3D meshes/textures is time-consuming, heavily using a computer’s CPU and GPU. We have updated our benchmark tools, following the recent rebranding of this software, so in our first article focusing on the new Metashape we will take a look at how Intel’s Core i7 and i9 processors stack up against AMD’s Threadripper chips.
Pix4D 4.3: Intel Core i7 & Core i9 vs AMD Threadripper Performance
Pix4D is an advanced photogrammetry application, suited to a wide range of uses, with a focus on handling images captured by drone cameras. Processing of those images into point clouds and 3D meshes/textures is time-consuming, heavily using a computer’s CPU and GPU. We have recently updated our benchmark tools for Pix4D, so lets take a look at how Intel’s Core i7 and i9 processors stack up against AMD’s Threadripper.
Adobe Creative Cloud: Intel Core i9 9990XE vs Xeon W-3175X
Intel has recently released a pair of highly exclusive – and expensive – processors: the Core i9 9990XE and Xeon W-3175X. The question is: does either one make sense to use for Adobe Creative Cloud applications?
CPU Rendering: Intel Core i9 9990XE vs Xeon W-3175X
Intel recently released a pair of rather odd high-end processors: the 14-core Core i9 9990XE and the 28-core Xeon W-3175X. Both have higher clock speeds than other models with similar core count, run much hotter, and have other peculiarities. Because of that, neither of these processors will have a home in our product line at this time – but they are still interesting to test for insight into what current CPU designs are capable of when pushed beyond what is practical.
Pix4D 4.3: Intel Core i9 9990XE Performance
Pix4D is an advanced photogrammetry application, suited to a wide range of uses, with a focus on handling images captured by drone cameras. Processing of those images into point clouds and 3D meshes/textures is time-consuming, heavily using a computer’s CPU and GPU. Both core count and clock speed play a role in Pix4D performance, so when Intel released their new Core i9 9990XE with very high clock speeds and a respectable number of cores (14, plus Hyperthreading) this seemed like a good application to test on it.
SOLIDWORKS 2019 Intel CPU Performance
Dassault Systemes launched the initial version of SOLIDWORKS 2019 late last year, but with the recent release of SP1 we expect that customers will soon be using it in production environments. In preparation for that, we have tested the field of current Intel Core series processors to see how they compare across a wide variety of tasks within SOLIDWORKS.
Numerical Computing Performance of 3 Intel 8-core CPUs – i9 9900K vs i7 9800X vs Xeon 2145W
In this post I’ll take a brief look at the numerical computing performance of three very capable 8-core processors — i9 9900K, i9 9800X and Xeon 2145W All three are great CPU’s but there are some significant differences that can cause confusion. I’ll discuss these differences and see how the processors stack up when running Linpack and NAMD molecular dynamics simulations.
AMD Threadripper and (1-4) NVIDIA 2080Ti and 2070 for NAMD Molecular Dynamics
In my recent testing with the AMD Threadripper 2990WX is was impressed by the CPU based performance with the molecular dynamics program NAMD. NAMD makes a good benchmark for looking at CPU/GPU performance since it requires a balance and is usually limited by CPU. After some discussions I decided it would be good to look at multi-GPU performance with NAMD on Threadripper.
Premiere Pro CC 2019 CPU Roundup: Intel vs AMD vs Mac
In addition to being one of the more important choice, getting the right CPU is also one of the more complicated decisions when configuring a Premiere Pro workstation. Unlike applications like Photoshop and After Effects where there is a relatively clear “best” CPU, in Premiere Pro there are reasons to use a wide range of processors depending on your budget and what you are doing. But which should you use in your system?
Testing Dynamic Local Mode on AMD Threadripper 2970WX – Rendering
Dynamic Local Mode is a new feature on AMD’s biggest Threadripper processors. These CPUs have cores grouped internally, some with direct access to system memory and some which have to communicate through those other cores to access data in memory. DLM prioritizes running code on the cores which have a direct line to the memory, helping to improve performance in situations where not all of the cores are in use. How does that translate to real-world workloads, though? Let’s take a look at two CPU-based rendering applications and see how the 24-core 2970WX behaves with this feature on and off.