If you are uncomfortable with partitioning, or just want to know more details, see . If a hard disk has previously used under Solaris, the partitioner may not detect the size of the drive correctly. Creating a new partition table does not fix this issue. What does help, is to zero the first few sectors of the drive: # dd if=/dev/zero of=/dev/hdX bs=512 count=2; sync Note that this will make any existing data on that disk inaccessible. First you will be given the opportunity to automatically partition either an entire drive, or available free space on a drive. This is also called guided partitioning. If you do not want to autopartition, choose Manual from the menu. Supported partitioning options The partitioner used in &d-i; is fairly versatile. It allows to create many different partitioning schemes, using various partition tables, file systems and advanced block devices. Exactly which options are available depends mainly on the architecture, but also on other factors. For example, on systems with limited internal memory some options may not be available. Defaults may vary as well. The type of partition table used by default can for example be different for large capacity hard disks than for smaller hard disks. Some options can only be changed when installing at medium or low debconf priority; at higher priorities sensible defaults will be used. The installer supports various forms of advanced partitioning and use of storage devices, which in many cases can be used in combination. Logical Volume Management (LVM) Software RAID Supported are RAID levels 0, 1, 4, 5, 6 and 10. Encryption Serial ATA RAID (using dmraid) Also called fake RAID or BIOS RAID. Support for Serial ATA RAID is currently only available if enabled when the installer is booted. Further information is available on our Wiki. Multipath (experimental) See our Wiki for information. Support for multipath is currently only available if enabled when the installer is booted. The following file systems are supported. ext2r0, ext2, ext3, ext4 The default file system selected in most cases is ext4; for /boot partitions ext2 will be selected by default when guided partitioning is used. jfs (not available on all architectures) ufs The default file system is UFS. xfs (not available on all architectures) zfs As ZFS support in the installer is still in development, only a basic subset of ZFS features are supported. Some of them can be enabled manually after the initial install, but there are some caveats: Each ZFS pool will host only one filesystem. After install is finished, more filesystems can be created on this pool by using the zfs create command. Each ZFS pool will be composed of exactly one partition. After install is finished, a single-device ZFS pool can be converted into a multi-device pool by using the zpool add command, or into a mirrored pool by using the zpool attach command. However, you shouldn't do this on the pool that hosts root filesystem, as it would prevent GRUB from booting your system. Compression is not currently supported. After the install is finished, compression can be enabled by setting the compression property via the zfs set command. However, if a compression algorithm other than the default (lzjb) is used on the pool that hosts your root filesystem, this may prevent GRUB from booting your system. reiserfs (optional; not available on all architectures) Support for the Reiser file system is no longer available by default. When the installer is running at medium or low debconf priority it can be enabled by selecting the partman-reiserfs component. Only version 3 of the file system is supported. jffs2 Used on some systems to read flash memory. It is not possible to create new jffs2 partitions. qnx4 Existing partitions will be recognized and it is possible to assign mount points for them. It is not possible to create new qnx4 partitions. FAT16, FAT32 NTFS (read-only) Existing NTFS partitions can be resized and it is possible to assign mount points for them. It is not possible to create new NTFS partitions. Guided Partitioning If you choose guided partitioning, you may have three options: to create partitions directly on the hard disk (classic method), or to create them using Logical Volume Management (LVM), or to create them using encrypted LVM The installer will encrypt the LVM volume group using a 256 bit AES key and makes use of the kernel's dm-crypt support. . The option to use (encrypted) LVM may not be available on all architectures. When using LVM or encrypted LVM, the installer will create most partitions inside one big partition; the advantage of this method is that partitions inside this big partition can be resized relatively easily later. In the case of encrypted LVM the big partition will not be readable without knowing a special key phrase, thus providing extra security of your (personal) data. When using encrypted LVM, the installer will also automatically erase the disk by writing random data to it. This further improves security (as it makes it impossible to tell which parts of the disk are in use and also makes sure that any traces of previous installations are erased), but may take some time depending on the size of your disk. If you choose guided partitioning using LVM or encrypted LVM, some changes in the partition table will need to be written to the selected disk while LVM is being set up. These changes effectively erase all data that is currently on the selected hard disk and you will not be able to undo them later. However, the installer will ask you to confirm these changes before they are written to disk. If you choose guided partitioning (either classic or using (encrypted) LVM) for a whole disk, you will first be asked to select the disk you want to use. Check that all your disks are listed and, if you have several disks, make sure you select the correct one. The order they are listed in may differ from what you are used to. The size of the disks may help to identify them. Any data on the disk you select will eventually be lost, but you will always be asked to confirm any changes before they are written to the disk. If you have selected the classic method of partitioning, you will be able to undo any changes right until the end; when using (encrypted) LVM this is not possible. Next, you will be able to choose from the schemes listed in the table below. All schemes have their pros and cons, some of which are discussed in . If you are unsure, choose the first one. Bear in mind that guided partitioning needs a certain minimal amount of free space to operate with. If you don't give it at least about 1GB of space (depends on chosen scheme), guided partitioning will fail. Partitioning scheme Minimum space Created partitions All files in one partition 600MB /, swap Separate /home partition 500MB /, /home, swap Separate /home, /usr, /var and /tmp partitions 1GB /, /home, /usr, /var, /tmp, swap If you choose guided partitioning using (encrypted) LVM, the installer will also create a separate /boot partition. The other partitions, including the swap partition, will be created inside the LVM partition. If you choose guided partitioning for your IA-64 system, there will be an additional partition, formatted as a FAT16 bootable filesystem, for the EFI boot loader. There is also an additional menu item in the formatting menu to manually set up a partition as an EFI boot partition. After selecting a scheme, the next screen will show your new partition table, including information on whether and how partitions will be formatted and where they will be mounted. The list of partitions might look like this: IDE1 master (hda) - 6.4 GB WDC AC36400L #1 primary 16.4 MB B f ext2 /boot #2 primary 551.0 MB swap swap #3 primary 5.8 GB ntfs pri/log 8.2 MB FREE SPACE IDE1 slave (hdb) - 80.0 GB ST380021A #1 primary 15.9 MB ext3 #2 primary 996.0 MB fat16 #3 primary 3.9 GB xfs /home #5 logical 6.0 GB f ext3 / #6 logical 1.0 GB f ext3 /var #7 logical 498.8 MB ext3 #8 logical 551.5 MB swap swap #9 logical 65.8 GB ext2 This example shows two IDE harddrives divided into several partitions; the first disk has some free space. Each partition line consists of the partition number, its type, size, optional flags, file system, and mountpoint (if any). Note: this particular setup cannot be created using guided partitioning but it does show possible variation that can be achieved using manual partitioning. This concludes the guided partitioning. If you are satisfied with the generated partition table, you can choose Finish partitioning and write changes to disk from the menu to implement the new partition table (as described at the end of this section). If you are not happy, you can choose to Undo changes to partitions and run guided partitioning again, or modify the proposed changes as described below for manual partitioning. Manual Partitioning A similar screen to the one shown just above will be displayed if you choose manual partitioning except that your existing partition table will be shown and without the mount points. How to manually set up your partition table and the usage of partitions by your new &debian; system will be covered in the remainder of this section. If you select a pristine disk which has neither partitions nor free space on it, you will be asked if a new partition table should be created (this is needed so you can create new partitions). After this, a new line entitled FREE SPACE should appear in the table under the selected disk. If you select some free space, you will have the opportunity to create a new partition. You will have to answer a quick series of questions about its size, type (primary or logical), and location (beginning or end of the free space). After this, you will be presented with a detailed overview of your new partition. The main setting is Use as:, which determines if the partition will have a file system on it, or be used for swap, software RAID, LVM, an encrypted file system, or not be used at all. Other settings include mountpoint, mount options, and bootable flag; which settings are shown depends on how the partition is to be used. If you don't like the preselected defaults, feel free to change them to your liking. E.g. by selecting the option Use as:, you can choose a different filesystem for this partition, including options to use the partition for swap, software RAID, LVM, or not use it at all. Another nice feature is the ability to copy data from an existing partition onto this one. When you are satisfied with your new partition, select Done setting up the partition and you will return to partman's main screen. If you decide you want to change something about your partition, simply select the partition, which will bring you to the partition configuration menu. This is the same screen as is used when creating a new partition, so you can change the same settings. One thing that may not be very obvious at a first glance is that you can resize the partition by selecting the item displaying the size of the partition. Filesystems known to work are at least fat16, fat32, ext2, ext3 and swap. This menu also allows you to delete a partition. Be sure to create at least two partitions: one for the root filesystem (which must be mounted as /) and one for swap. If you forget to mount the root filesystem, partman won't let you continue until you correct this issue. If you forget to select and format an EFI boot partition, partman will detect this and will not let you continue until you allocate one. Capabilities of partman can be extended with installer modules, but are dependent on your system's architecture. So if you can't see all promised goodies, check if you have loaded all required modules (e.g. partman-ext3, partman-xfs, or partman-lvm). After you are satisfied with partitioning, select Finish partitioning and write changes to disk from the partitioning menu. You will be presented with a summary of changes made to the disks and asked to confirm that the filesystems should be created as requested.