For your viewing pleasure this weekend are our first benchmarks of the current state of Fedora 27 post-beta with a variety of different workloads. Additionally, from the latest Fedora 27 packages is a fresh gaming comparison with GNOME Shell running on Wayland versus the X.Org session.

Our latest benchmarking of Intel's 8th Gen Core "Coffee Lake" processors entailed seeing how well the i7-8700K performs on a variety of modern Linux distributions. Tested for this comparison was Ubuntu 17.10, Antergos 17.10, openSUSE Tumbleweed, Clear Linux, Debian Testing, Solus 3, and Fedora 26.

We have begun in delivering many Linux benchmarks of AMD EPYC, but for those of you interested in the BSD operating systems or even the "open-source Solaris" Illumos/OpenIndiana, I have run some basic tests the past few days using the high-end EPYC 7601 64-thread processor on the TYAN Transport SX TN70A-B8026.

I've just wrapped up trying out nine different Linux distributions on AMD's EPYC in the form of the EPYC 7601 housed in the TYAN Transport SX TN70A-B8026. Like our initial testing with Ubuntu on EPYC, the other modern Linux distributions all played nicely with AMD's re-entry into the server market with their Zen-based offerings. But as with any new CPU platform, the out-of-the-box performance can vary greatly depending upon the Linux operating system being used. Here are benchmarks including Fedora, Ubuntu, CentOS, openSUSE, Debian, Clear Linux and Antergos.

With the upcoming release of Ubuntu 17.10, I was curious to see how its performance compares to that of the three-year-old Ubuntu 14.10. Here are some benchmark results showing how an Intel ultrabook/laptop performance has evolved on Linux during that time.

With Ubuntu 17.10 discontinuing the 32-bit desktop ISOs, here is the last time it makes sense comparing the Ubuntu 32-bit (i686) versus x86_64 performance.

Earlier this week we published our launch-day benchmarks of the Core i9 7960X and Core i9 7980XE. Those Linux benchmarks were done with Ubuntu, but for those wondering what the maximum performance looks like for these high-end desktop processors, here are some comparison results with Intel's own Clear Linux distribution.

Apple this week released macOS 10.13 "High Sierra" as the latest version of its operating system. Of course, curiosity got the best of me so here are benchmarks of macOS 10.12.6, macOS 10.13, Ubuntu 16.04 LTS, and Ubuntu 17.10 from a MacBook Air to see how the performance compares.

With this week DragonFlyBSD seeing HAMMER2 support added to the installer in preparation for this file-system being an option in the next DragonFly release due out in a few weeks, I've been testing out the state of this HAMMER file-system successor as well as running some benchmarks.

While we have already compared the Threadripper 1950X to the current top-end Core i9 7900X processor, today we are taking things a step further with our Threadripper Linux benchmarks by doing a side-by-side showdown when each system is tested across three different Linux distributions.

Curious around the GNOME Shell desktop and improvements made during the Ubuntu 17.10 cycle in transitioning away from Unity 7 and X.Org to GNOME and Wayland, I took the recently-reviewed Razer Blade Stealth laptop and tried out the very latest Ubuntu desktop daily ISO on this Intel laptop. Here are my initial impressions of the current Ubuntu 17.10 desktop experience as well as some power/boot/performance benchmarks of 17.10 in its daily state compared to Ubuntu 17.04 on this Kabylake system.

While we have tested a number of Linux distributions on Intel's new Xeon Scalable platform, here are some initial BSD tests using two Xeon Gold 6138 processors with the Tyan GT24E-B7106 1U barebones server.

With having the Apple MacBook Air out for the Razer Blade Stealth Linux testing comparison, I decided to see how the latest releases of macOS Sierra and Ubuntu 17.04 Zesty Zapus were competing.

While we routinely run various Linux distribution / operating system comparisons at Phoronix, they tend to be done on desktop class hardware and the occasional servers. This is our look at the most interesting enterprise-focused Linux distribution comparison to date as we see how Intel's Xeon Scalable platform compares on different GNU/Linux distributions when using the Tyan GT24E-B7106 paired with two Dual Xeon Gold 6138 processors. The tested configuration has 96GB of DDR4-2666 memory and 40 cores / 80 threads to see how different modern Linux distributions are affected with the latest-generation Xeon platform.

While we've seen the Radeon Linux OpenGL driver get competitive to the Windows Radeon OpenGL driver and the NVIDIA Windows/Linux OpenGL binary drivers have long been on a level playing field, how's the Intel HD Graphics performance? Here are some quick and fresh benchmarks this weekend.

Following my recent Windows 10 WSL CPU scaling benchmarks to see how well Microsoft's Windows Subsystem for Linux for running native Linux binaries compared to various distributions, I did a comparison of Ubuntu and openSUSE on WSL compared to running these distributions bare metal.

In the past few days I have posted benchmarks showing how AMD's latest open-source Radeon Linux driver code is faster than their hybrid/proprietary driver for OpenGL and perhaps most excitingly is finally how AMD Radeon GPUs are beginning to really compete with NVIDIA GPUs on Linux and in some cases performing better against the GeForce competition than they do under Windows. This comes after years of work on their open-source driver stack and especially a lot of work done over the past year not only by AMD but also Valve and other open-source contributors to Mesa, their RadeonSI Gallium3D driver, their AMDGPU LLVM compiler back-end continues to be refined for compute and graphics, and the AMDGPU kernel driver. So here are the latest Windows vs. Linux gaming benchmarks on the Radeon side to see where things stand now with this latest code.

Following last week's Linux/BSD CPU core scaling tests when seeing how different operating systems competed with going between one and twenty threads with the Intel Core i9 7900X, my latest benchmarking target of curiosity was seeing how Windows 10 with its Windows Subsystem for Linux (WSL) would compare on this system against the other Linux distributions.

With Intel's recently-launched Core i9 7900X I have carried out some interesting BSD vs. Linux benchmarks when testing out various distributions and comparing each of them at 1, 2, 4, 6, 8, 10, and 20 threads on this $999+ USD processor.

While it's yet another Fedora release shipping several weeks late (in fact, more than one month later than anticipated), the release is once again worth the wait. I've been evaluating the near-final state of Fedora 26 on several of my test systems the past few days and it's working like a champ.

Going beyond last week's Intel Core i9 7900X Skylake-X Linux distribution comparison, here are some complementary tests when trying out the latest Windows 10 Insider Build with its Bash/Windows Subsystem for Linux featuring Ubuntu 16.04 LTS. Additionally, some comparison results when running Windows 10 with VirtualBox and then an Ubuntu 16.04 LTS guest, all from this i9-7900X high-end desktop.

Continuing on with our Core i9 7900X Linux benchmarking this week are some numbers when testing this ten-core Skylake-X processor on various Linux distributions under an array of different workloads. Tested for this roundup was Ubuntu 16.04.2 LTS, Ubuntu 17.04, Fedora 26, openSUSE Tumbleweed, Manjaro 17.0.2, and Clear Linux 16160.

Continuing in our benchmarks of Debian 9, here is a comparison when re-testing 6.0.10 "Squeeze", Debian 7.11 "Wheezy", Debian 8.8 "Jessie", and the newly-released Debian 9.0 "Stretch".

Earlier this month with some fresh Windows vs. Linux benchmarks were numbers showing how the open-source Radeon driver stack is now nearly on-par with the Radeon Windows driver as well as how the Intel Linux graphics performance is getting closer to parity too. In this article are the least interesting numbers: the NVIDIA Linux vs. Windows 10 results.

With last week having posted some fresh macOS Sierra vs. Linux OpenGL benchmarks, here are some more interesting tests to compare the Intel OpenGL driver on Windows 10 Pro x64 to the open-source Intel OpenGL driver used by Linux. Linux beating macOS wasn't too much surprise considering that Apple has been neglecting OpenGL for years, but the Linux vs. Windows OpenGL comparison is a much tougher battle.

Last week I posted some fresh macOS vs. Linux Intel OpenGL benchmarks while for those curious about the CPU performance, here are some additional benchmarks from that Mac Mini system.

In addition to having some fresh Radeon Linux vs. Windows GPU driver numbers as an added bonus as we celebrate Phoronix's 13th birthday this week are some fresh macOS vs. Linux OpenGL performance figures.

With Debian 9.0 "Stretch" being released in a few weeks, you can expect to find a number of Debian GNU/Linux comparisons coming up on Phoronix in June. For those curious how the performance of Debian Stretch is looking now that it's nearly finalized, here are some initial benchmarks compared to the current stable Debian 8.8 release as well as Ubuntu 17.04, CentOS 7, and Clear Linux.

The Intel-developed high-performance Clear Linux operating system has decided to shift their desktop focus from Xfce to GNOME.

Just two days ago GCC 7.1 was released as the first stable release of GCC 7 as the annual update to this GNU code compiler. If you are looking for a Linux rolling-release distribution already using GCC 7 by default, Intel's open-source Clear Linux appears to be one of the first.