AMD’s Ryzen 5000 Series processors have shown stellar performance across a wide range of applications so far, and now we have the opportunity to test them head-to-head against Intel’s Core series in SOLIDWORKS 2020.
Intel recently updated their mainstream Core processor series, and since we had tested SOLIDWORKS 2020 SP1 pretty recently we thought it would be good to run these new CPUs through the same testing to see how they compare with other Intel and AMD models.
With the recent release of SOLIDWORKS 2020’s first service pack, as well as multiple new CPU launches from Intel and AMD in the past few months, we thought it would be a good time to do a roundup of processor performance in modeling, rendering, and simulations within SOLIDWORKS.
AMD recently launched an updated generation of their mainstream Ryzen processors, with increases to both core count and clock speed / per-core performance. We’ve already tested these chips on a wide range of applications, and now it is time to look at how they handle a professional engineering program: SOLIDWORKS.
Dassault Systemes recently updated SOLIDWORKS 2019 with its first service pack (SP1), and we did a roundup of Intel CPUs looking at how they perform in this popular engineering application. We found that both core count and clock speed play a role different aspects of SOLIDWORKS 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.
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.
Dassault Systemes launched the initial version of SOLIDWORKS 2018 (SP0.1) 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 i7 and i9 processors to see how they stack up in SW 2018. We hadn’t yet had a chance to test AMD’s Threadripper processors in SOLIDWORKS either, so they are also included in this round of benchmarks.
The latest Core processors from Intel have launched: the 8th generation of this series, code named “Coffee Lake”. This brings with it the first six-core CPUs in Intel’s mainstream processor line, so we are taking a look at how they perform in Solidworks 2017. For comparison, we also have results from our previous recommendation for modeling and CAD: the Core i7 7700K “Kaby Lake” chip.
Whenever there is a new generation of CPUs launched, the main question everyone wants to know is how fast they are. While most reviews focus on gaming performance with a smattering of production benchmarks, in this article we will be looking exclusively at how Ryzen performs in SOLIDWORKS.
Overclocking your CPU can result in higher performance in Solidworks, but there are a number of risks you run when doing so. In this article we will be benchmarking Solidworks 2017 with an overclocked Intel Core i7 7700K CPU to determine exactly how much better performance you can achieve while also presenting the main downsides associated with overclocking.