As we have been anticipating for weeks/months, a new formal update to OpenGL has been in the works and it's officially out today. Meet OpenGL 4.6! This is a pretty significant update and internally they had the debate whether to call it OpenGL 5.0, but here we are with OpenGL 4.6 that features Vulkan/SPIR-V extensions and more. The good news is the open-source Mesa drivers aren't too far out from OpenGL 4.6 support, at least RadeonSI and Intel.

A few days back I posted some fresh AMD Ryzen compiler benchmarks of LLVM Clang now that it has its new Znver1 scheduler model, which helps out the performance of Ryzen on Linux with some of the generated binaries tested. But it was found still that Haswell-tuned binaries are sometimes still faster on Ryzen than the Zen "znver1" tuning itself. For continuing our fresh compiler benchmarks from AMD's new Ryzen platform, here are the latest GCC numbers.

Just prior to LLVM 5.0 being branched yesterday, the AMD Zen scheduler model finally landed in LLVM and has the potential of boosting the performance of generated binaries targeting AMD's Zen "znver1" architecture. Here are some benchmarks of LLVM Clang 4.0 compared to the latest LLVM Clang compiler code when testing with both generic x86-64 optimizations and then optimized builds for the first-generation Zen CPUs, tested on a Ryzen 7 processor.

With Linux 4.13-rc1 having been released, here's my original look at the new features coming for the Linux 4.13 kernel and the other changes merged over the past two weeks of this new cycle.

A few days back I posted some fresh P-State and CPUFreq governor tests on Intel hardware while now is a similar comparison on the AMD side with a Ryzen 7 1800X processor and Radeon R9 Fury graphics card.

On Friday I posted some benchmarks of AMD's new AOCC code compiler for Ryzen compared to LLVM Clang 4.0/5.0 and GCC 6/7/8. The AOCC 1.0 benchmarks on Ryzen 7 didn't offer much over LLVM Clang for which this "AMD Optimizing C/C++ Compiler" is based, but in this article are some tuning benchmarks.

This week AMD released AOCC 1.0, the AMD Optimizing C/C++ Compiler, with initial support for Ryzen/Zen CPUs. In this article are our first benchmarks of the AOCC compiler compared to the GCC 6/7/8 and LLVM Clang 4/5 compilers.

With the Linux 4.12 merge window now over, here is a look at some of the most exciting features that were added to the Linux kernel for this next installment.

A few days back Intel's Clear Linux updated their LLVM Clang compiler from 3.9.1 to the recent 4.0.0 release, following Beignet getting LLVM 4.0 support. Here are some before/after benchmarks as well as fresh GCC benchmarks.

For those curious about the impact of GCC compiler optimization levels, a variety of benchmarks were carried out using GCC 6.3 on Intel's Clear Linux platform.

With GNOME 3.24 due to be released next week, I've spent some time trying out the latest, near-final packages using Fedora Rawhide. The experience has been good and from my initial impressions it appears to be another reliable update to the GNOME Shell experience. Here are some screenshots and a recap of the new features and changes for this six-month update to this open-source desktop environment.

With this week's LLVM 4.0 release making the LLD linker ready for production use on some platforms, namely ELF on x86_64 / AArch64, I decided to finally try it out on one of my test systems. I set LLD as the default linker on an Ubuntu 17.04 system and set off to run some benchmarks.

Our latest AMD Ryzen Linux benchmarking is looking at the performance of the GCC and LLVM Clang compiler performance with a Ryzen 7 1700 on Ubuntu Linux.

If all goes according to plan, Linus Torvalds will have announced the first release candidate of the upcoming Linux 4.11 kernel before the day is through. The Linux 4.11-rc1 release also marks the end of the feature merge window for this kernel cycle. So with that said, here is a look at the new features of the Linux 4.11 kernel that I have been covering through closely watching the Git repository and mailing list over the past two weeks.

The latest in our AMD Ryzen Linux benchmarking is looking at the impact of compiled binaries when making use of Zen "znver1" compiler optimizations with the GNU Compiler Collection (GCC) compared to other optimization levels like Bulldozer and K8-SSE3.

Last week marked the release of Intel's Beignet 1.3, their open-source project implementing OpenCL acceleration atop modern CPUs with HD/Iris Graphics. Significant with Beignet 1.3 is that they've finally implemented OpenCL 2.0 support! OpenCL 2.0 is now available for Skylake hardware and newer. Beignet 1.3 also has other new features, runtime improvements, LLVM 3.9 support, new extensions, and much more. Thus time for some benchmarking of this new Beignet release.

LLVM Clang 4.0 is set to be released in February while GCC 7 will be released as stable in March~April. For those curious how both compilers are currently performing, here is our latest installment of GCC vs. LLVM Clang benchmarking on Linux x86_64.

With GCC7 feature development ending, this week I conducted some benchmarks of the latest GCC 7 snapshot against that of the past three major release series of the GNU Compiler Collection: 6.3.0, 5.4.0, and 4.9.4. All tests were done on Ubuntu Linux x86_64 with an Intel Core i7 6800K processor.

The twelfth year is now in the books at Phoronix. In 2016 on Phoronix there were 3,336 original news articles and 248 featured multi-page articles and Linux hardware reviews. That puts our total now at more than 21.3k news articles and 3.3k Linux hardware reviews and other featured articles. Happy New Year to all and 2017 will hopefully be even better.

Given this weekend's release of Darktable 2.2 as a big upgrade to this open-source RAW photo workflow software, here are some fresh benchmarks of NVIDIA GeForce and AMD Radeon graphics cards under Linux when making use of the program's OpenCL support, which did see some improvements during this v2.2 cycle.

As some more end-of-the-year Linux benchmarks, here are OpenCL Darktable and Blender benchmarks when testing on thirteen different NVIDIA GeForce graphics cards.

Earlier this week I published some GCC 5.4 vs. GCC 6.2 vs. GCC 7.0 SVN development benchmarks with a Core i7 6800K Broadwell-E system. For those curious how the LLVM Clang compiler stack is comparing, here are some tests on the same system when running fresh benchmarks of LLVM Clang 3.9 as well as LLVM Clang 4.0 SVN.

With now having netperf in the Phoronix Test Suite as well as iperf3 for the latest open-source benchmarks in our automated cross-platform benchmarking framework, I couldn't help but to run some networking benchmarks on a system when trying out a few different Linux distributions and BSDs to see how the performance compares. The operating systems ran with these networking benchmarks included Debian 8.6, Ubuntu 16.10, Clear Linux 12020, CentOS 7, and Fedora 25. The BSDs tested for this comparison were FreeBSD 11.0 and DragonFlyBSD 4.6.1.

With the GCC 7 compiler having entered its stage three, feature development is basically over so it's a great time to begin running more benchmarks of this big compiler update that will be officially released as GCC 7.1.0 in early 2017. Up today are benchmarks of the latest GCC 7.0 development snapshot compared to GCC 6.2 and GCC 5.4 on an Intel Core i7 6800K Broadwell-E system running Ubuntu 16.10.

With the holiday season in full swing, whether you are just a casual photographer or professional, Darktable is easily one of the best photography workflow applications and it's free software! Darktable has offered OpenCL acceleration for providing faster performance on GPUs and with the imminent Darktable 2.2 release there is even better OpenCL results. For those curious about the OpenCL performance of Darktable, I've done some Darktable 2.2-RC1 benchmarks on a variety of NVIDIA GeForce and AMD Radeon graphics cards under Ubuntu Linux.

For the latest benchmarking off MSI's Cubi 2 with Core i5 Kaby Lake CPU are some GCC and LLVM Clang compiler benchmarks on Intel's Clear Linux distribution.

Following last week's benchmarks of the GeForce GTX 1050 and GTX 1050 Ti has been a request to see some fresh Blender benchmarks with CUDA acceleration of the Pascal line-up. Now having more time with these latest GTX 1000 series cards, here are such benchmarks.

Earlier this week I published Linux 3.9 through Linux 4.9 kernel benchmarks looking at the raw performance of various subsystems when testing each of the major kernel releases as far back as this Core i7 Haswell system was supported. From that same system, today is a look at testing the kernels going back to Linux 3.11 when Haswell graphics support was first in good shape for this Core i7 4790K box while looking at the raw power consumption and performance-per-Watt for these 19 major kernel releases.

With the in-development Linux 4.9 kernel showing signs of some performance improvements, I've gone ahead and tested the last 21 major kernel releases on the same system. From Linux 3.9 to Linux 4.9, each of the major kernel releases was tested from the same Intel Core i7 desktop with a variety of benchmarks.

This weekend was the release of Linux 4.9-rc1 to mark the end of the 4.9 kernel merge window. As such, here's our usual feature overview recapping all of the changes to Linux 4.9 that have us excited about the next version of this open-source kernel.