+FUSE Mounts
+~~~~~~~~~~~
+
+WARNING: Because of existing issues in the Linux kernel's freezer
+subsystem the usage of FUSE mounts inside a container is strongly
+advised against, as containers need to be frozen for suspend or
+snapshot mode backups.
+
+If FUSE mounts cannot be replaced by other mounting mechanisms or storage
+technologies, it is possible to establish the FUSE mount on the Proxmox host
+and use a bind mount point to make it accessible inside the container.
+
+
+Using Quotas Inside Containers
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+Quotas allow to set limits inside a container for the amount of disk
+space that each user can use. This only works on ext4 image based
+storage types and currently does not work with unprivileged
+containers.
+
+Activating the `quota` option causes the following mount options to be
+used for a mount point:
+`usrjquota=aquota.user,grpjquota=aquota.group,jqfmt=vfsv0`
+
+This allows quotas to be used like you would on any other system. You
+can initialize the `/aquota.user` and `/aquota.group` files by running
+
+----
+quotacheck -cmug /
+quotaon /
+----
+
+and edit the quotas via the `edquota` command. Refer to the documentation
+of the distribution running inside the container for details.
+
+NOTE: You need to run the above commands for every mount point by passing
+the mount point's path instead of just `/`.
+
+
+Using ACLs Inside Containers
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+The standard Posix **A**ccess **C**ontrol **L**ists are also available inside containers.
+ACLs allow you to set more detailed file ownership than the traditional user/
+group/others model.
+
+
+[[pct_settings]]
+Container Settings
+------------------
+
+[[pct_cpu]]
+CPU
+~~~
+
+[thumbnail="gui-create-ct-cpu.png"]
+
+You can restrict the number of visible CPUs inside the container using
+the `cores` option. This is implemented using the Linux 'cpuset'
+cgroup (**c**ontrol *group*). A special task inside `pvestatd` tries
+to distribute running containers among available CPUs. You can view
+the assigned CPUs using the following command:
+
+----
+# pct cpusets
+ ---------------------
+ 102: 6 7
+ 105: 2 3 4 5
+ 108: 0 1
+ ---------------------
+----
+
+Containers use the host kernel directly, so all task inside a
+container are handled by the host CPU scheduler. {pve} uses the Linux
+'CFS' (**C**ompletely **F**air **S**cheduler) scheduler by default,
+which has additional bandwidth control options.
+
+[horizontal]
+
+`cpulimit`: :: You can use this option to further limit assigned CPU
+time. Please note that this is a floating point number, so it is
+perfectly valid to assign two cores to a container, but restrict
+overall CPU consumption to half a core.
++
+----
+cores: 2
+cpulimit: 0.5
+----
+
+`cpuunits`: :: This is a relative weight passed to the kernel
+scheduler. The larger the number is, the more CPU time this container
+gets. Number is relative to the weights of all the other running
+containers. The default is 1024. You can use this setting to
+prioritize some containers.
+
+
+[[pct_memory]]
+Memory
+~~~~~~
+
+[thumbnail="gui-create-ct-memory.png"]
+
+Container memory is controlled using the cgroup memory controller.
+
+[horizontal]
+
+`memory`: :: Limit overall memory usage. This corresponds
+to the `memory.limit_in_bytes` cgroup setting.
+
+`swap`: :: Allows the container to use additional swap memory from the
+host swap space. This corresponds to the `memory.memsw.limit_in_bytes`
+cgroup setting, which is set to the sum of both value (`memory +
+swap`).
+
+
+[[pct_mount_points]]