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qemu/docs/system/target-arm.rst

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.. _ARM-System-emulator:
Arm System emulator
-------------------
QEMU can emulate both 32-bit and 64-bit Arm CPUs. Use the
``qemu-system-aarch64`` executable to simulate a 64-bit Arm machine.
You can use either ``qemu-system-arm`` or ``qemu-system-aarch64``
to simulate a 32-bit Arm machine: in general, command lines that
work for ``qemu-system-arm`` will behave the same when used with
``qemu-system-aarch64``.
QEMU has generally good support for Arm guests. It has support for
nearly fifty different machines. The reason we support so many is that
Arm hardware is much more widely varying than x86 hardware. Arm CPUs
are generally built into "system-on-chip" (SoC) designs created by
many different companies with different devices, and these SoCs are
then built into machines which can vary still further even if they use
the same SoC. Even with fifty boards QEMU does not cover more than a
small fraction of the Arm hardware ecosystem.
The situation for 64-bit Arm is fairly similar, except that we don't
implement so many different machines.
As well as the more common "A-profile" CPUs (which have MMUs and will
run Linux) QEMU also supports "M-profile" CPUs such as the Cortex-M0,
Cortex-M4 and Cortex-M33 (which are microcontrollers used in very
embedded boards). For most boards the CPU type is fixed (matching what
the hardware has), so typically you don't need to specify the CPU type
by hand, except for special cases like the ``virt`` board.
Choosing a board model
======================
For QEMU's Arm system emulation, you must specify which board
model you want to use with the ``-M`` or ``--machine`` option;
there is no default.
Because Arm systems differ so much and in fundamental ways, typically
operating system or firmware images intended to run on one machine
will not run at all on any other. This is often surprising for new
users who are used to the x86 world where every system looks like a
standard PC. (Once the kernel has booted, most userspace software
cares much less about the detail of the hardware.)
If you already have a system image or a kernel that works on hardware
and you want to boot with QEMU, check whether QEMU lists that machine
in its ``-machine help`` output. If it is listed, then you can probably
use that board model. If it is not listed, then unfortunately your image
will almost certainly not boot on QEMU. (You might be able to
extract the filesystem and use that with a different kernel which
boots on a system that QEMU does emulate.)
If you don't care about reproducing the idiosyncrasies of a particular
bit of hardware, such as small amount of RAM, no PCI or other hard
disk, etc., and just want to run Linux, the best option is to use the
``virt`` board. This is a platform which doesn't correspond to any
real hardware and is designed for use in virtual machines. You'll
need to compile Linux with a suitable configuration for running on
the ``virt`` board. ``virt`` supports PCI, virtio, recent CPUs and
large amounts of RAM. It also supports 64-bit CPUs.
Board-specific documentation
============================
..
This table of contents should be kept sorted alphabetically
by the title text of each file, which isn't the same ordering
as an alphabetical sort by filename.
.. toctree::
:maxdepth: 1
arm/integratorcp
arm/mps2
arm/musca
arm/realview
arm/sbsa
arm/versatile
arm/vexpress
arm/aspeed
arm/bananapi_m2u.rst
arm/b-l475e-iot01a.rst
arm/sabrelite
arm/highbank
arm/digic
arm/cubieboard
arm/emcraft-sf2
arm/exynos
arm/fby35
arm/musicpal
arm/kzm
arm/nrf
arm/nuvoton
arm/imx25-pdk
arm/mcimx6ul-evk
arm/mcimx7d-sabre
arm/orangepi
arm/raspi
arm/collie
arm/sx1
arm/stellaris
arm/stm32
arm/virt
arm/xenpvh
arm/xlnx-versal-virt
arm/xlnx-zynq
arm/xlnx-zcu102
Emulated CPU architecture support
=================================
.. toctree::
arm/emulation
Arm CPU features
================
.. toctree::
arm/cpu-features