Difference between revisions of "Installation"

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Proxmox VE is based on Debian and comes with an installation CD-ROM
Proxmox VE is based on Debian and comes with an installation CD-ROM
which includes a complete Debian ("jessie" for Proxmox VE 4.x) system as
which includes a complete Debian ("stretch" for Proxmox VE 5.x) system as
well as all necessary Proxmox VE packages. The
well as all necessary Proxmox VE packages. The
installer just asks you a few questions, then partitions the local
installer just asks you a few questions, then partitions the local
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installation using the following command:
installation using the following command:
zpool add &lt;pool-name&gt; log &lt;/dev/path_to_fast_ssd&gt;
zpool add &lt;pool-name&gt; log &lt;/dev/path_to_fast_ssd&gt;
Install Proxmox VE on Debian Jessie
Install Proxmox VE on Debian Stretch
Install from USB Stick
Install from USB Stick
Video Tutorials
Video Tutorials

Revision as of 12:49, 4 July 2017

Proxmox VE is based on Debian, therefore the disk image (ISO file) provided by us includes a complete Debian system ("buster" for version 6.x) as well as all necessary Proxmox VE packages.

Using the installer will guide you through the setup, allowing you to partition the local disk(s), apply basic system configurations (e.g. timezone, language, network) and install all required packages. Using the provided ISO will get you started in just a few minutes, that’s why we recommend this method for new and existing users.

Alternatively, Proxmox VE can be installed on top of an existing Debian system. This option is only recommended for advanced users since detailed knowledge about Proxmox VE is necessary.

Using the Proxmox VE Installer

You can download the ISO from https://www.proxmox.com/en/downloads. It includes the following:

  • Complete operating system (Debian Linux, 64-bit)

  • The Proxmox VE installer, which partitions the local disk(s) with ext4, ext3, xfs or ZFS and installs the operating system.

  • Proxmox VE kernel (Linux) with LXC and KVM support

  • Complete toolset for administering virtual machines, containers and all necessary resources

  • Web based management interface for using the toolset

Note During the installation process, the complete server is used by default and all existing data is removed.

Please insert the installation media (e.g. USB stick, CD-ROM) and boot from it.


After choosing the correct entry (e.g. Boot from USB) the Proxmox VE menu will be displayed, you can now select one of the following options:

Install Proxmox VE

Start normal installation.

Tip It is possible to only use the keyboard to progress through the installation wizard. Buttons can be pressed by pressing down the ALT key, combined with the underlined character from the respective Button. For example, ALT + N to press a Next button.
Install Proxmox VE (Debug mode)

Start installation in debug mode. It opens a shell console at several installation steps, so that you can debug things if something goes wrong. Please press CTRL-D to exit those debug consoles and continue installation. This option is mostly for developers and not meant for general use.

Rescue Boot

This option allows you to boot an existing installation. It searches all attached hard disks and, if it finds an existing installation, boots directly into that disk using the existing Linux kernel. This can be useful if there are problems with the boot block (grub), or the BIOS is unable to read the boot block from the disk.

Test Memory

Runs memtest86+. This is useful to check if your memory is functional and error free.


You normally select Install Proxmox VE to start the installation. After that you get prompted to select the target hard disk(s). The Options button lets you select the target file system, which defaults to ext4. The installer uses LVM if you select ext3, ext4 or xfs as file system, and offers additional option to restrict LVM space (see below)

You can also use ZFS as file system. ZFS supports several software RAID levels, so this is specially useful if you do not have a hardware RAID controller. The Options button lets you select the ZFS RAID level, and you can choose disks there. Additionally you can set additional options (see below).


The next page just asks for basic configuration options like your location, the time zone and keyboard layout. The location is used to select a download server near you to speed up updates. The installer is usually able to auto detect those settings, so you only need to change them in rare situations when auto detection fails, or when you want to use some special keyboard layout not commonly used in your country.


You then need to specify an email address and the superuser (root) password. The password must have at least 5 characters, but we highly recommend to use stronger passwords - here are some guidelines:

  • Use a minimum password length of 12 to 14 characters.

  • Include lowercase and uppercase alphabetic characters, numbers and symbols.

  • Avoid character repetition, keyboard patterns, dictionary words, letter or number sequences, usernames, relative or pet names, romantic links (current or past) and biographical information (e.g., ID numbers, ancestors' names or dates).

It is sometimes necessary to send notifications to the system administrator, for example:

  • Information about available package updates.

  • Error messages from periodic CRON jobs.


All those notification mails will be sent to the specified email address.

The last step is the network configuration. Please note that you can use either IPv4 or IPv6 here, but not both. If you want to configure a dual stack node, you can easily do that after installation.


If you press Next now, you will see an overview of your entered configuration. Please re-check every setting, you can still use the Previous button to go back and edit all settings here.

If you press Install now, installation starts to format disks, and copies packages to the target. Please wait until that is finished, then remove the installation media and restart your system.


If the installation failed check out specific errors on the second TTY (‘CTRL + ALT + F2’), ensure your systems mets the minimum requirements. If the installation is still not working then look at our how to get help chapter.

Further configuration can be done via the Proxmox web interface. Just point your browser to the IP address given during installation (https://youripaddress:8006).

Note Default login is "root" (realm PAM) and the root password was defined during the installation process.

Advanced LVM Configuration Options

The installer creates a Volume Group (VG) called pve, and additional Logical Volumes (LVs) called root, data and swap. The size of those volumes can be controlled with:


Defines the total HD size to be used. This way you can save free space on the HD for further partitioning (i.e. for an additional PV and VG on the same hard disk that can be used for LVM storage).


Defines the size of the swap volume. The default is the size of the installed memory, minimum 4 GB and maximum 8 GB. The resulting value cannot be greater than hdsize/8.

Note If set to 0, no swap volume will be created.

Defines the maximum size of the root volume, which stores the operation system. The maximum limit of the root volume size is hdsize/4.


Defines the maximum size of the data volume. The actual size of the data volume is:

datasize = hdsize - rootsize - swapsize - minfree

Where datasize cannot be bigger than maxvz.

Note In case of LVM thin, the data pool will only be created if datasize is bigger than 4GB.
Note If set to 0, no data volume will be created and the storage configuration will be adapted accordingly.

Defines the amount of free space left in LVM volume group pve. With more than 128GB storage available the default is 16GB, else hdsize/8 will be used.

Note LVM requires free space in the VG for snapshot creation (not required for lvmthin snapshots).

Advanced ZFS Configuration Options

The installer creates a ZFS pool rpool. When selecting ZFS, no swap space is created by default. You can leave some unpartitioned space for swap or create a swap zvol after installation, though the latter can lead to problems (see ZFS swap notes).


Defines the ashift value for the created pool. The ashift needs to be set at least to the sector-size of the underlying disks (2 to the power of ashift is the sector-size), or any disk, which might be put in the pool (e.g. during replacing a defective disk).


Defines whether compression is enabled for rpool.


Defines which checksumming algorithm should be used for rpool.


Defines the copies parameter for rpool. Check the zfs(8) manpage for the semantics, and why this does not replace redundancy on disk-level.


Defines the total HD size to be used. This way you can save free space on the HD(s) for further partitioning (e.g. for creating a swap-partition). hdsize is only honored for bootable disks, i.e., only the first disk or mirror for RAID0, RAID1 or RAID10, and all disks in RAID-Z[123].

ZFS Performance Tips

ZFS uses a lot of memory, so it is best to add additional RAM if you want to use ZFS. A good calculation is 4GB plus 1GB RAM for each TB RAW disk space.

ZFS also provides the feature to use a fast SSD drive as write cache. The write cache is called the ZFS Intent Log (ZIL). You can add that after installation using the following command:

zpool add <pool-name> log </dev/path_to_fast_ssd>

Video Tutorials