Intel’s 12th Gen Core desktop processors launched toward the end of 2021, as did Windows 11, making this a great time to do a roundup looking at CPU performance in Agisoft Metashape across a wide range of different processor lines. How does Intel’s new Core i9 12900K stack up against AMD’s Ryzen 5000 Series, Threadripper, and Threadripper Pro chips – as well as Intel’s own 11th Gen Core, Xeon W, and Core X Series?
Agisoft Metashape 1.6.5 SMT Performance Analysis on AMD Ryzen 5000 Series
In the past we have found that Metashape can perform better on high core count processors when SMT is turned off, but the top CPUs at that time were Intel’s 8 & 10-core models which didn’t benefit from this trick. Now that AMD’s Ryzen 5000 Series are the fastest chips for Metashape is it worth turning SMT off on these processors, some of which do have high core counts?
Agisoft Metashape 1.6.5: AMD Ryzen 5000 Series Performance
AMD has brought their new Zen 3 microarchitecture to mainstream processors with the Ryzen 5000 Series. These chips range from 6 to 16 cores, and are supposed to bring substantial performance improvements over the previous generation. How much impact will this have on processing times in Agisoft Metashape, and how do these CPUs compare to other AMD and Intel models?
Ryzen XT and Core i9 10850K for Photogrammetry: Are They Worth It?
AMD and Intel have both released small revisions to their latest-gen consumer CPU lines, in the form of the Ryzen XT models and Core i9 10850K. On paper these appear to be identical to current products except for very slight adjustments in clock speed, but how do they stack up in real-world photogrammetry applications?
Agisoft Metashape 1.6.2 HT / SMT Performance Analysis
We have observed that some photogrammetry applications seem to perform better with lower core count processors, so we wanted to look at whether Hyperthreading and Simultaneous Multithreading could be negatively impacting performance in these programs – starting with Agisoft Metashape.
Agisoft Metashape Performance: Intel Core 10th Gen vs AMD Ryzen 3rd Gen
Intel’s new 10th Gen Core processors are out now, with an increased number of cores and very high clock speeds. How do they stack up against AMD’s Ryzen chips and other current models for photogrammetry workloads in Agisoft Metashape?
Metashape 1.6.1: Running Simultaneous Instances
In our past testing of Metashape, we have found that it only effectively uses around 8-16 cores. More than that doesn’t help, and so the focus for best performance is on high clock speeds within that range. What if you were running multiple photogrammetry jobs at the same time, though? Would that end up better utilizing a high core count processor?
Agisoft Metashape CPU Performance: AMD Threadripper 3990X 64 Core
AMD has launched a new top-end CPU, equipped with a whopping 64 cores: the Threadripper 3990X. In this article we will look at how this new chip performs in Agisoft Metashape, compared to a variety of Intel and AMD’s other desktop processors.
What is the Best CPU for Photogrammetry (2019)
Picking the processor, or CPU, is one of the most important decisions when building or buying a workstation – but there are dozens of options to pick from at any given point, with varying specifications and price points, so making the right choice isn’t always clear-cut. We’ve tested all of the latest processors from Intel and AMD across three popular photogrammetry applications to help you know what the best choice is for your next system.
Agisoft Metashape CPU Performance: Intel Core X-10000 vs AMD Threadripper 3rd Gen
Intel and AMD have both launched new lines of high-end desktop processors, with different approaches to increasing value. AMD’s 3rd Gen Threadripper CPUs are based on a newer microarchitecture, bringing better performance for around the same price as previous models. Intel, on the other hand, focused on reducing price while still using the same underlying technology as their last series. We tested both to see which approach gives the best results in Agisoft Metashape.