Partitioning for &arch-title; If you have an existing other operating system such as DOS or Windows and you want to preserve that operating system while installing &debian;, you may need to resize its partition to free up space for the &debian; installation. The installer supports resizing of both FAT and NTFS filesystems; when you get to the installer's partitioning step, select the option Manual and then simply select an existing partition and change its size. The PC BIOS generally adds additional constraints for disk partitioning. There is a limit to how many primary and logical partitions a drive can contain. Additionally, with pre 1994–98 BIOSes, there are limits to where on the drive the BIOS can boot from. More information can be found in the Linux Partition HOWTO and the Phoenix BIOS FAQ, but this section will include a brief overview to help you plan most situations. Primary partitions are the original partitioning scheme for PC disks. However, there can only be four of them. To get past this limitation, extended and logical partitions were invented. By setting one of your primary partitions as an extended partition, you can subdivide all the space allocated to that partition into logical partitions. You can create up to 60 logical partitions per extended partition; however, you can only have one extended partition per drive. Linux limits the partitions per drive to 15 partitions for SCSI disks (3 usable primary partitions, 12 logical partitions), and 63 partitions on an IDE drive (3 usable primary partitions, 60 logical partitions). However the normal &debian-gnu; system provides only 20 devices for partitions, so you may not install on partitions higher than 20 unless you first manually create devices for those partitions. If you have a large IDE disk, and are using neither LBA addressing, nor overlay drivers (sometimes provided by hard disk manufacturers), then the boot partition (the partition containing your kernel image) must be placed within the first 1024 cylinders of your hard drive (usually around 524 megabytes, without BIOS translation). This restriction doesn't apply if you have a BIOS newer than around 1995–98 (depending on the manufacturer) that supports the Enhanced Disk Drive Support Specification. Both Lilo, the Linux loader, and &debian;'s alternative mbr must use the BIOS to read the kernel from the disk into RAM. If the BIOS int 0x13 large disk access extensions are found to be present, they will be utilized. Otherwise, the legacy disk access interface is used as a fall-back, and it cannot be used to address any location on the disk higher than the 1023rd cylinder. Once &arch-kernel; is booted, no matter what BIOS your computer has, these restrictions no longer apply, since &arch-kernel; does not use the BIOS for disk access. If you have a large disk, you might have to use cylinder translation techniques, which you can set from your BIOS setup program, such as LBA (Logical Block Addressing) or CHS translation mode (Large). More information about issues with large disks can be found in the Large Disk HOWTO. If you are using a cylinder translation scheme, and the BIOS does not support the large disk access extensions, then your boot partition has to fit within the translated representation of the 1024th cylinder. The recommended way of accomplishing this is to create a small (25–50MB should suffice) partition at the beginning of the disk to be used as the boot partition, and then create whatever other partitions you wish to have, in the remaining area. This boot partition must be mounted on /boot, since that is the directory where the &arch-kernel; kernel(s) will be stored. This configuration will work on any system, regardless of whether LBA or large disk CHS translation is used, and regardless of whether your BIOS supports the large disk access extensions.