For those wondering how well FreeBSD and DragonFlyBSD are handling AMD's new Ryzen 3000 series desktop processors, here are some benchmarks on a Ryzen 7 3700X with MSI MEG X570 GODLIKE where both of these popular BSD operating systems were working out-of-the-box. For some fun mid-week benchmarking, here are those results of FreeBSD 12.0 and DragonFlyBSD 5.6.2 up against openSUSE Tumbleweed and Ubuntu 19.04.

Now that BIOS updates over the past month have resolved the early boot issue with Ryzen 3000 processors and thus the new AMD CPUs playing nicely with modern Linux distributions, here is the long-awaited benchmark comparison of the Ryzen 9 3900X + X570 system benchmarked across an array of different Linux distributions... In fact, 11 Linux OS releases in total were tested on this high-end 12-core / 24-thread desktop processor.

A few days ago I provided some benchmarks showing how running Intel's open-source Clear Linux on AMD EPYC Rome can provide some significant speed-ups over Ubuntu Linux, but how do other Linux distributions compare on AMD's new Zen 2 server processors? Here is an eight-way benchmark comparison on the AMD EPYC 7742 2P Daytona server with its 128 cores / 256 threads.

The current AMD EPYC 7742 2P benchmarking that is happening at Phoronix is an interesting Linux/BSD operating system performance comparison. That's in the works while so far are some Ubuntu and Clear Linux numbers. Yes, Intel's open-source Clear Linux platform does run fine generally on AMD hardware -- including the new AMD "Rome" processors -- and generally does still run damn fast. Here is a look at Clear Linux on this 128 core / 256 thread server with Clear Linux against Ubuntu 19.04 as well as the upcoming Ubuntu 19.10.

While we are often testing Intel's Clear Linux on high-end desktop and server hardware, it turns out even on the opposite end of the spectrum that their performance-optimized distribution can offer meaningful performance advantages on low-end SoCs for IoT-type devices. When testing Clear Linux with an Apollolake platform, it came out to being about 20% faster than the likes of Fedora and Ubuntu Linux.

For those wondering how the performance compares of AMD's new Zen 2 processors between Windows 10 and Linux, here are our initial benchmarks across dozens of benchmarks for the AMD Ryzen 9 3900X on Windows 10 Pro 1903 against Ubuntu 18.04.2 LTS.

Following the Antergos Linux distribution being discontinued one of the new projects stemming from that decision is Endeavour OS as a new convenient to use Arch Linux distribution. Here are some early benchmarks of Endeavour OS compared to Ubuntu, Clear Linux, and other distributions on an Intel Core i9 system.

As it's been a few weeks since last hosting any Linux distribution comparison and now with the rolling-release openSUSE Tumbleweed enabling LTO by default, here are some fresh Linux distribution comparison results plus tossing the newly-released Debian 10.0 into the mix as well. This round of testing included Ubuntu 18.04 LTS, Ubuntu 19.04, Fedora Workstation 30, openSUSE Leap 15.1, openSUSE Tumbleweed, Clear Linux 30450, and Debian 10.0.

While newer Linux distributions have run into problems on the new AMD Zen 2 desktop CPUs (fixed by a systemd patch or fundamentally by a BIOS update) and DragonFlyBSD needed a separate boot fix, FreeBSD 12.0 installed out-of-the-box fine on the AMD Ryzen 9 3900X test system with ASUS ROG CROSSHAIR VIII HERO WiFi motherboard.

Alongside this week's announcement of the Raspberry Pi 4, the Raspberry Pi Foundation also released a new Raspbian operating system release that is re-based from Debian 9 Stretch to the soon-to-be-released Debian 10 Buster. In benchmarking of these new and old Raspbian releases on a Raspberry Pi 3 Model B Plus, there are performance gains to find even if not jumping to the Raspberry Pi 4.

Released this week was OpenMandriva Lx 4.0 as the latest major release for this Linux distribution of Mandriva/Mandrake heritage and continues on the interesting trend of innovations. In addition to continuing to use the LLVM Clang compiler by default rather than GCC, among other changes that position it more uniquely than many other Linux distributions out there, their 4.0 release has a "znver1" spin that is optimized for AMD Ryzen/Threadripper/EPYC processors. Here are benchmarks comparing not only OpenMandriva 4.0's x86-64 and Znver1 options but also how that performance compares to the likes of Ubuntu 19.04, openSUSE Tumbleweed, and Intel's Clear Linux.

Since the release of WSL2 as a Windows 10 Insider Preview update this week, we've been putting the new Windows Subsystem for Linux 2 under some benchmarks compared to WSL1 and bare metal Linux. While WSL2 has improved the I/O performance thanks to the new Hyper-V-based virtualization approach employed by WSL2, the performance has regressed in other areas for running Linux binaries on Windows 10. Here are our preliminary benchmark results.

DragonFlyBSD lead developer Matthew Dillon has been working on a big VM rework in the name of performance and other kernel improvements recently. Here is a look at how those DragonFlyBSD 5.5-DEVELOPMENT improvements are paying off compared to DragonFlyBSD 5.4 as well as FreeBSD 12 and five Linux distribution releases. With Dillon using an AMD Ryzen Threadripper system, we used that too for this round of BSD vs. Linux performance benchmarks.

OpenSUSE/SUSE has always tended to perform well on AMD hardware given the close collaboration between the two companies for many years on numerous fronts going back to the original Linux AMD64 kernel upbringing to the RadeonHD driver days, compiler collaboration, and numerous other activities between SUSE and AMD. With last week's release of openSUSE Leap 15.1, the performance on AMD EPYC servers is even more competitive thanks to various upgrades.

Curious whether the recent Microsoft Windows 10 Version 1903 (May 2019 Update) improved the multi-threaded performance at all for the likes of the AMD Ryzen Threadripper 2990WX, I recently carried out some benchmarks looking at Windows 10 1903 against the former Windows 10 Version 1809 release benchmarked against both Ubuntu 18.04.2 LTS and the latest Ubuntu 19.04.

Since the release of Red Hat Enterprise Linux 8.0 at the start of May we've been running various benchmarks of this latest enterprise Linux platform. Our tests to date have been with Intel Xeon hardware where it's been performing well and a nice speed-up over RHEL 7 with modern Xeon Scalable CPUs. Similarly, AMD EPYC is also much faster with RHEL 8.0 thanks to the much newer Linux kernel, compiler, and other software updates.

Continuing on from the initial Red Hat Enterprise Linux 8.0 benchmarks last week, now having had more time with this fresh enterprise Linux distribution, here are additional benchmarks on two Intel Xeon servers when benchmarking RHEL 8.0, RHEL 7.6, Ubuntu 18.04.2 LTS, and Clear Linux. RHEL 8.0 is certainly delivering much better out-of-the-box performance than its aging predecessor but how can it compete with Ubuntu LTS and Clear Linux?

Since yesterday's release of Red Hat Enterprise Linux 8.0 we have been busy firing up benchmarks of RHEL8 on multiple workstations and servers. Over the next week or two will be some interesting benchmark results on multiple systems compared to multiple operating systems while for some preliminary RHEL8 performance data are benchmarks of the new Red Hat Linux distribution from the dual Intel Xeon Platinum 8280 "Cascade Lake" Gigabyte server compared to CentOS 7.6 (RHEL 7.6), Ubuntu 18.04.2 LTS, Ubuntu 19.04, Fedora Server 29, Fedora Server 30, openSUSE Leap 15, and Clear Linux 29250.

Yesterday we began with our preliminary performance benchmarks of Fedora 30. From those results Intel Core i9 and AMD Threadripper systems and what we're seeing on other systems in the labs, Fedora 30 indeed is coming out generally slightly faster than Fedora 29 when looking at the performance overall. In some cases the performance is much better thanks to GCC 9 and other upgrades, but overall it's a small, modest performance improvement. While that's better than seeing Fedora 30 running slower than its predecessor, there still is more potential to squeeze out of the system.

As the first of our benchmarks for Fedora 30 that is set to be released on Tuesday, here are some benchmarks comparing Fedora 29, Fedora 29 with current updates, and Fedora 30 on Intel Core i9 7980XE and AMD Ryzen Threadripper 2990WX HEDT platforms. Fedora 30 benchmarks on other systems are coming as well.

Continuing on with our benchmarks this month of the new Intel Xeon Cascade Lake processors in the form of the Xeon Platinum 8280 processors, here are some preliminary figures showing not only how various Linux distributions are comparing to Microsoft Windows Server 2019 but also FreeBSD 12.

Over the past week we've been delivering several benchmarks of the new Intel Xeon Scalable "Cascade Lake" processors under Linux with the Platinum 8280 processors. The Linux support and performance is hitting expectations, but what about on the BSDs? I spent some time this week trying out the dual Intel Xeon Platinum 8280 processors within the Gigabyte S451-3R0 Storage Server. The FreeBSD 12.0 support has been in great shape and in this article are some comparison benchmarks between various Linux distributions and FreeBSD for those curious.

With Ubuntu 19.04 due for release next week, here is a look at how the AMD Radeon Linux gaming performance is looking out-of-the-box on the Ubuntu 19.04 "Disco Dingo" compared to the current Ubuntu 18.10 release.

Last week were tests looking at the Firefox/Chrome web browser performance on eight Linux distributions but how does the situation look if adding Microsoft Windows 10 to the equation? Well, this article addresses that question as we looking at how well Chrome and Firefox compare Windows 10 vs. Linux on the same system and using the latest releases of these web browsers.

With now having WebDriver/Seleneium integration in PTS for carrying out browser benchmarks, we've been having fun running a variety of web browser benchmarks in different configurations. The latest is looking at the Mozilla Firefox and Google Chrome web browser performance across eight Linux distribution releases (or nine if counting Fedora Workstation on both X.Org and Wayland) for looking at how the web browsing performance compares.

With the Ubuntu 19.04 "Disco Dingo" release less than one month away, we are getting ready for rolling out more tests of this next six-month installment to Ubuntu Linux. For those curious about the direction of Ubuntu 19.04's performance, here are some very preliminary data points using the latest daily state of Ubuntu 19.04 right ahead of the beta period. Tests were done on a high-end Intel Core i9 9900K desktop as well as a Dell XPS Developer Edition notebook when comparing Ubuntu 19.04 to Ubuntu 18.10 and also tossing in Clear Linux as a performance reference point.

While nearly all Linux distributions have been mitigated against the Spectre and Meltdown CPU vulnerabilities for over one year, the performance ahead associated with these speculative execution vulnerabilities can vary. This is especially more so with the enterprise Linux distributions that are generally shipping on older kernel branches prior to where the initial kernel support was mainlined. With recent kernel releases we've also seen varying optimizations and other changes around the Spectre/Meltdown/L1TF mitigations. So for those wondering about the varying impact, here are some side-by-side benchmarks.

With openSUSE Leap 15.1 reaching beta this week I decided to take it for a quick spin of this Linux distribution derived from the same sources as SUSE Linux Enterprise 15 SP1. Here are some quick benchmarks compared to Leap 15.0 as well as the latest rolling-release openSUSE Tumbleweed.

While I am a big fan of Intel's Clear Linux distribution for its raw performance on x86_64 hardware that for most workloads goes unsurpassed by any other Linux platform out-of-the-box, there has been a lot of Phoronix readers wondering how well it could function as a standard desktop Linux distribution. With upgrading my main production system earlier this month, I decided to try out Clear Linux and now with 200+ hours into using it as the OS on my main production system, I figured it'd be good to share my initial thoughts.

While we frequently compare the performance of many x86_64 Linux distributions, we haven't done one under IBM POWER9 since getting our hands on the Raptor Computing Systems' Talos II back in November. It's been very interesting to benchmark this libre hardware that's high performance with having 44 cores / 176 threads at 3.80GHz. But how much more performance can be tapped by using other Linux distributions? Here's a look with some of the current POWER9 Linux distribution options.