Install Arch Linux on a removable medium

• Before creating the initial RAM disk, in /etc/mkinitcpio.conf move the block and keyboard hooks before the hook. This is necessary to allow booting on multiple systems each requiring different modules in early userspace.
• If you have chosen to install Arch onto a USB mass storage device and want to be able to continue to use it as a cross-platform removable drive, this can be accomplished by creating a partition housing an appropriate file system (most likely NTFS or exFAT). Note that the data partition may need to be the first partition on the device, as Windows assumes that there can only be one partition on a removable device, and will happily automount an EFI system partition otherwise. Remember to install dosfstools and . Some tools are available online that may allow you to flip the Removable Medium Bit (RMB) on your USB mass storage device. This would trick operating systems into treating your USB mass storage device as an external hard disk and allow you to use whichever partitioning scheme you choose.
• If your Arch installation is on a removable drive that needs to have microcode for both manufacturer processors, install both and intel-ucode packages. See Microcode#Loading microcode.

, the GRUB legacy configuration file, should be edited to (loosely) match the following.

When using file system labels your should look like this:

root (hd0,0)
kernel /boot/vmlinuz-linux root=/dev/disk/by-label/Arch rw
initrd /boot/initramfs-linux.img

And for UUID, it should be like this:

root (hd0,0)
kernel /boot/vmlinuz-linux root=/dev/disk/by-uuid/3a9f8929-627b-4667-9db4-388c4eaaf9fa rw
initrd /boot/initramfs-linux.img

Follow the instructions on GRUB#BIOS systems and GRUB#UEFI systems to install GRUB for both BIOS and UEFI booting:

# grub-install --target=i386-pc /dev/sdX --recheck
# grub-install --target=x86_64-efi --efi-directory=esp --removable --recheck

Using your UUID:

LABEL Arch
        MENU LABEL Arch Linux
        LINUX ../vmlinuz-linux
        APPEND root=UUID=3a9f8929-627b-4667-9db4-388c4eaaf9fa rw
        INITRD ../initramfs-linux.img

Since this setup will be run on multiple machines and there are still plenty of BIOS only systems around, you might want to consider enabling compatibility for both UEFI GPT and BIOS GPT/MBR systems. See Multiboot USB drive#Hybrid UEFI GPT + BIOS GPT/MBR boot

To support most common GPUs, install , xf86-video-ati, , xf86-video-amdgpu, and .

It is recommended to use UUID in both fstab and boot loader configuration. See Persistent block device naming for details.

Alternatively, you may create udev rule to create custom symlink for your disk. Then use this symlink in fstab and boot loader configuration. See udev#Setting static device names for details.

You may want to disable KMS for various reasons, such as getting a blank screen or a "no signal" error from the display, when using some Intel video cards, etc. To disable KMS, add as a kernel parameter. See Kernel parameters for more info.

The fallback image should be used for maximum compatibility.

When installing to a device that offers a limited number of writes before it wears out, such as a USB drive, SD card, or similar, reduce the number of writes to increase the device lifetime. This also reduces the performance impact of slow writes.

• It is highly recommended to review the Improving performance#Reduce disk reads/writes article prior to selecting a file system. To sum it up, for flash-based media such as USB flash drives or SD cards, ext4 without a journal should be fine, which can be created with . The obvious drawback of using a file system with journaling disabled is data loss as a result of an ungraceful dismount. Recognize that flash has a limited number of writes, and a journaling file system will take some of these as the journal is updated. For this same reason, it is best to forget the swap partition. Note that this does not affect installing onto a portable hard drive.
• You may want to configure systemd journal to store its journals in RAM, e.g. by creating a custom configuration file:

• To disable and related system calls in web browsers and other applications that do not write essential data, use the command from libeatmydata to avoid such system calls:

$ eatmydata firefox

You might encounter UI freezes on high I/O load especially on slow drives. Improving performance#Changing I/O scheduler or switching to a kernel which uses a different default scheduler can drastically effect your UI responsiveness. For example BFQ can improve UI responsiveness which is default on , .

See Improving performance#The scheduling algorithms for more info.