SSDs, Linux and alternate file systems

Subject: Storage | November 14, 2014 - 02:00 PM |
Tagged: btrfs, EXT4, XFS, F2FS, 530 series, Intel, raid, unix humour, linux

When you use Linux you have a choice as to which file system you wish to use, a choice that never occurs to most Windows users but can spark an argument every bit as vicious as the eternal debate over EMACS versus VIM versus whichever text editor you prefer.  There has not been much SSD benchmarking done on alternate files systems until now, Phoronix has benchmarked the Intel 530 series SSD in numerous configurations on Btrfs, EXT4, XFS, and F2FS. With four of the 120GB model available they were able to test the speed of the drives in RAID 0, 1, 5, 6, and 1+0.  There is obviously still some compatibility issues as some tests failed to run in certain configurations but overall these drives performed as expected.  While the results did not vary widely it is worth reading through their article if you plan on building a high speed storage machine which will run Linux.

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"Following the recent Btrfs RAID: Native vs. Mdadm comparison, the dual-HDD Btrfs RAID benchmarks, and four-SSD RAID 0/1/5/6/10 Btrfs benchmarks are RAID Linux benchmarks on these four Intel SATA 3.0 solid state drives using other file-systems -- including EXT4, XFS, and Btrfs with Linux 3.18."

Here are some more Storage reviews from around the web:

Storage

Source: Phoronix

Linux Kernel 3.10 Adds New Drivers, SSD Caching Framework, Networking Improvements, and More

Subject: General Tech | July 2, 2013 - 04:47 PM |
Tagged: linux, linux kernel, kernel 3.10, linus, bcache, TLP, btrfs, XFS, UVD

Earlier this week, Linus Torvalds officially released an updated Linux kernel with version 3.10. The new kernel bakes in a number of tweaks and new features, including a new SSD caching framework, new drivers and hardware support, networking improvements, and experimental file system tweaks.

Kernel 3.10 features quite a few improvements to storage. The big new feature is bcache, or Black Layer Cache, which is a framework that allows an SSD to acts as a read and write cache for a slower mechanical hard drive. The SSD will cache frequently accessed data to improve read times as well as act as a write cache that will write data bound for the hard drive to the SSD temporarily until a low usage point when the data will finally be written out to the mechanical hard drive.

Additionally, the kernel developers have made tweaks to the btrfs and XFS file systems. For example, XFS can create and store checksums of metadata to reduce errors and verify data integrity. Performance when using btrfs has also been slightly improved.

Driver and hardware support added to kernel 3.10 includes support for the UVD hardware found in AMD Radeon graphics cards from the 4000 series and beyond, and allows for hardware accelerated video decoding. The kernel also supports the GPU in Richland APUs and the acceleration hardware in NVIDIA's Tegra 2 and 3 SoCs. For Intel systems that use HD processor graphics, PCs will be able to wake from standby faster using the 3.10 kernel. There is also support for ARM's big.LITTLE processors, the IR receiver that Apple uses in its Mac computers, and other new and improved drivers with the latest kernel. 

On the networking side of things, kernel 3.10 implements the Tail Loss Probe algorithm which makes improvements to the TCP networking stack and how it deals with lost packets. The new kernel networking stack tweaks reportedly result in up to a 15% reduction in packet retransmission timeouts and 6% shorter HTTP response times.

Aside from these larger changes, kernel 3.10 has a great deal of under-the-hood fixes. For all the nitty-gritty geeky details, the H-Online has put together a detailed breakdown of all the tweaks and new features baked into the latest 3.10 Linux kernel.

For a comparison / breakdown of what the previous 3.9 kernel brought to the table, see this post.