SSD

This article Article description::describes how to set up SSDs (Solid State Drives) on Linux. It presumes the user has obtained knowledge of setting up, partitioning, and formatting mechanical hard drives.

Rootfs
The  option on a rootfs mount should not be used. is the "TRIM" command that tells the SSD to do its magic. Having discard running constantly could potentially cause performance degradation on older SSDs. Modern SSDs use discard by default. Rather the following command can be used manually or be setup as a cron job (see below) to run twice a day, which should suffice for the rootfs:

On a btrfs system, running the command on any mounted subvolume will perform the TRIM command on the device.

Mount point
Situations with a low amount of disk write occurring on an SSD can use the  mount option in. In a high-write situation, such as having a database on an SSD, it is better to use TRIM commands rather than the  mount option.

Partitioning
See Handbook.

LVM
LVM aligns to MiB boundaries and allows discards by default. No special configuration is required.

In order to TRIM all unused space in the VG use the utility:

Alternatively, there is a discard option in which makes LVM discard entire LV on lvremove, lvreduce, pvmove and other actions that free physical extents (PE) in a VG. However, enabling it will immediately render the system unable to undo any changes to the LV layout.

LUKS
For TRIM to work on encrypted LUKS devices, they have to be opened with the  option.

When root-device exists on LUKS, enabling TRIM depends on the Initramfs implementation. When using genkernel for creating your initramfs, pass the following kernel option:

When using dracut for creating the initramfs, pass the following kernel option:

To evaluate if TRIM is enabled on a LUKS device, you can check if the output of the following command contains the string :

Formatting
If you can find your erase block size, you can add some extended attributes that may help performance. For software raid, you really should know the erase block size. Consider this information when making your purchase. Regardless of whether you're using RAID or not, setting extended values is known to be beneficial. https://raid.wiki.kernel.org/index.php/RAID_setup#ext2.2C_ext3.2C_and_ext4_.282011.29

http://blog.nuclex-games.com/2009/12/aligning-an-ssd-on-linux/

The modern FAQ found on the Arch wiki too:

https://wiki.archlinux.org/index.php/SSD

Without knowing the erase block size

 * 1) Formatting the rootfs partition /dev/sda3:
 * 2) Using 4096 byte blocks by default aligns the SSD for writes (see [defaults] section of /etc/mke2fs.conf and also
 * 3) man mkfs.ext4 about "-b block-size" and "-T usage-type[,...]" inside it):

With knowing the erase block size | this info can be outdated

 * 1) Formatting the rootfs partition /dev/sda3:
 * 2) Using 4096 byte blocks aligns the SSD for writes;
 * 3) Using ERASE_BLOCK_SIZE / 4 as the stride and stripe width size;
 * 4) In this example, OCZ Vertex drives have 512 kibbibyte -
 * 5) Erase Block size, therefore stride/stripe-width = 512/4 = 128:

known erase block sizes

 * crucial m500 240G; stride and stripe width is 2048KB


 * SanDisk z400s; stride an stripe width is 4096KB

blkdiscard
If you are formatting a previously used device and your preferred does not support bulk discards when creating the filesystem, you can use  (from  or later) before creating the filesystem.

Mounting
Given the considerations above, either add something similar to this:

Or:

When choosing the latter, see the cron section below to automate TRIM on the drive.

Once can been modified, run the following command to have the drive mounted:

In the same way, the  mount option can be added to the swap line in fstab too. The following example shows SSD disk swap can be parallelized with SATA disk swap:

Once the swap has been configured in fstab, run the following command to make swap available:

cron
Run from cron twice a day to automatically do "discard":

#Mins Hours  Days   Months  Day of the week   command 15    1,13   *      *       *                 /sbin/fstrim -v /

There is also a semi-automatic cronjob available on GitHub called SSDcronTRIM which has the following features:


 * Distribution Independent script (developed on my Gentoo system).
 * The script decides every time depending on the disk usage how often (monthly, weekly, daily, hourly) each partition has to be trimmed.
 * Recognizes if it should install itself into /etc/cron.{monthly,weekly,daily,hourly}, or any other defined directory and if it should make an entry into crontab.
 * Checks if the kernel meets the requirements, the filesystem is able to and if the SSD supports trimming.
 * Simply install it by running it once without any option and uninstall it with the  option

Future version should implement:


 * Use of and  to let trimm only run when the disc is not busy.
 * Overgive options to fstrim (e.g. '-m 1M')
 * support for encrypted filesystem (LUKS)

fstrim systemd timer
When running systemd, a timer can be created that will run fstrim every 12 hours.

Two files need to be created in the directory:

Make sure the permissions are correct:

Tell systemd to reload its unit files, then enable it:

It is now possible to see if it has been run and when the next time it will be ran by using list-timers:

This will run fstrim twice a day, and also run it if it was missed. The command can be used to make sure the timer runs successfully.

fstrimDaemon
If your computer turned off when cron scheduled its job, fstrim would not be called at all. You can install fstrimDaemon to solve this problem.

Temporal files to tmpfs
When using an SSD, administrators generally want to reduce the amount of writes performed. You can mount your desired mountpoints into a tmpfs for reduce the I/O to the disk (and improve performance)

this is an example of and  on tmpfs but you must study all your actions and your convenience

Remember that all data in tmpfs will be loss after reboot or shutdown

Portage TMPDIR on tmpfs
See.

XDG cache
When running Gentoo on desktop, many programs, using X windows systems (Chromium, Firefox, Skype, etc.) are making frequent disk I/O every few seconds to cache. Default cache directory is, which is on hard drive and should be moved to tmpfs.

Create the file and add the following lines to it:

Browser profile/s and cache to RAM or HDD
Since the profile/s, browser cache*, etc. are relocated into tmpfs (RAM) or another mount point into an HDD, the corresponding I/O associated with using the browser is also redirected from the physical drive to RAM, thus reducing wear to the physical drive and also greatly improving browser speed and responsiveness.

You can move them with the utility

Add that users whose browser/s profile/s will get symlinked to a tmpfs or another mountpoint in the value USERS=

close all the browsers, start the daemon and enable it

systemd:

openrc:

you can view all symlinks viewing the status of the daemon since started

More info about Profile Sync Daemon on https://wiki.archlinux.org/index.php/profile-sync-daemon