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====== Recommended Partitioning Scheme
In most cases, at least the following mount points should always be created:
`/boot` - 500 MB
This partition contains the operating system kernel, which allows {PRODUCT} to boot. It also contains other files used during the bootstrap process. Due to the limitations of most firmware, creating a separate, small standard partition for this directory is recommended. In most scenarios, a 500 MB `/boot` partition is adequate.
If your system has a hardware RAID controller, be aware that some BIOS types do not support booting from it. In that case, the `/boot` partition must be created on a partition outside of the RAID array, such as on a separate hard drive.
Also note that the `/boot` directory can not be placed on a LVM logical volume or a Btrfs subvolume. Use a standard partition.
`/` (root) - 10 GB
This is where the root directory is located. The root directory is the top level of the directory structure. By default, all files are written to this partition unless a different partition is mounted in the path being written to (for example, `/boot` or `/home`). If you follow the recommended scheme described in this section, this will be the partition where most software packages will be installed.
For a minimal installation, a 5 GB root partition will be sufficient. However, for most common installations which include extra packages and a graphical user interface, the root partition should be at least 10 GB; with 20 GB being sufficient for most common use cases.
The `/` mount point is the top of the Linux Filesystem Hierarchy, and is referred to as the _root file system_, or root. The `/root` directory, sometimes pronounced "pass:attributes[{blank}]_slash-root_pass:attributes[{blank}]", is the home directory for the `root` user.
`/home` - at least 10 GB
To store user data separately from system data, create a dedicated mount point for the `/home` directory. This partition should be sized based on the amount of data that will be stored locally, number of users, and so on. This will allow you to upgrade or reinstall {PRODUCT} without erasing user data files. During the installation, a separate `/home` partition will be created if there are 50 GB or more free space for your {PRODUCT} installation.
When using {PRODUCT} as a workstation for normal use with a graphical environment, this mount point should have the most disk space assigned to it, as it will likely hold the most data (user settings, images, videos, etc).
swap - based on your system parameters
Swap partitions support virtual memory; data is written to them when there is not enough RAM to store the data your system is processing. This partition's size is a function of system memory workload, not total system memory, and therefore is not equal to the total system memory size. Therefore, it is important to analyze what applications a system will be running and the load those applications will serve in order to determine the system memory workload. Application providers and developers should be able to provide some guidance.
When the system runs out of swap space, the kernel terminates processes as the system RAM memory is exhausted. Configuring too much swap space results in storage devices being allocated but idle and is a poor use of resources. Too much swap space can also hide memory leaks. The maximum size for a swap partition and other additional information can be found in the `mkswap(8)` man page.
The table below provides the recommended size of a swap partition depending on the amount of RAM in your system and whether you want sufficient memory for your system to hibernate. If you let the installation program partition your system automatically, the swap partition size will be established using these guidelines. Automatic partitioning setup assumes hibernation is not in use, and the maximum size of the swap partition is limited to 10% of the total size of the hard drive. If you want to set up enough swap space to allow for hibernation, or if you want to set the swap partition size to more than 10% of the system's storage space, you must edit the partitioning layout manually.
Recommended System Swap Space
|Amount of RAM in the system|Recommended swap space|Recommended swap space if allowing for hibernation
|less than 2 GB|2 times the amount of RAM|3 times the amount of RAM
|2 GB - 8 GB|Equal to the amount of RAM|2 times the amount of RAM
|8 GB - 64 GB|0.5 times the amount of RAM|1.5 times the amount of RAM
|more than 64 GB|workload dependent|hibernation not recommended
At the border between each range listed above (for example, a system with 2 GB, 8 GB, or 64 GB of system RAM), discretion can be exercised with regard to chosen swap space and hibernation support. If your system resources allow for it, increasing the swap space may lead to better performance.