boards/xtensa/xt-sim/doc/index.rst - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 .. _xt-sim:

 Xtensa simulator
 ################

 Overview
 ********

 The Xtensa processor architecture is a configurable, extensible, and
 synthesizable 32-bit RISC processor core. Processor and SOC vendors can select
 from various processor options and even create customized instructions in
 addition to a base ISA to tailor the processor for a particular application.

 For more information, see https://ip.cadence.com/ipportfolio/tensilica-ip/xtensa-customizable

 .. figure:: img/xt-sim.png
      :width: 612px
      :align: center
      :alt: Xtensa Xplorer (Eclipse base frontend for xt-sim)

      Xtensa Xplorer

 Hardware
 ********

 The following Xtensa cores are officially supported:

 - sample_controller

 System Clock
 ============

 Xtensa cores can be configured to use either internal or external timers.
 The frequency of the clock under simulation is set to 25MHz.

 System requirements
 *******************

 Prerequisites
 =============
 A Linux host system is required for Xtensa development work.
 We recommend using a __``Debian 9.x (Stretch)``__ or recent __``Ubuntu``__
 releases (with multilib support).

 Only Xtensa tools version ``RF-2016.4-linux`` or later are officially
 supported. Other versions may work but are not supported by Cadence Systems Inc.

 In order to set up the Zephyr OS build system, a Linux 32-bit GCC compiler must
 be installed on the building linux box. Install GCC if needed either by
 downloading ``Zephyr SDK`` or by using your distribution package manager.

 On Debian/Ubuntu systems, you can install ``gcc-multilib`` package as follows:

 .. code-block:: console

     #aptitude install gcc-multilib # Or what ever package manager (apt, apt-get, ...)

 Set up build environment
 ========================

 We recommend you create a ``~/.zephyrrc`` file, a shell script that shall be
 sourced each time before you start working on Zephyr.
 You can use the following code to create that file:

 .. code-block:: console

     $ cat > ~/.zephyrrc
     if test "${CROSS}" = xcc
     then
     	export ARCH=xtensa
     	export BOARD=xt-sim
         export ZEPHYR_TOOLCHAIN_VARIANT=xcc
     	export XTENSA_TOOLS_PATH=/opt/xtensa/XtDevTools/install/tools/RG-2016.4-linux/XtensaTools
     	export XTENSA_BUILDS_PATH=/opt/xtensa/XtDevTools/install/builds/RG-2016.4-linux
     	#export XTENSA_BUILD_DIR= #Keep empty to use default directory
     	export EMU_PLATFORM=xt-run
     elif test "${CROSS}" = zephyr-xtensa
     then
     	export ARCH=xtensa
     	export BOARD=qemu
     	export ZEPHYR_TOOLCHAIN_VARIANT=zephyr
     	export ZEPHYR_SDK_INSTALL_DIR=/opt/xtensa/zephyr-sdk-64-INTERNAL-11-22-2016
     elif test "${CROSS}" = zephyr-x86
     then
     	export ARCH=x86
     	export BOARD=qemu_x86
     	export ZEPHYR_TOOLCHAIN_VARIANT=zephyr
     	export ZEPHYR_SDK_INSTALL_DIR=/opt/xtensa/zephyr-sdk-64-INTERNAL-11-22-2016
     else
     	echo "Unsupported compiler '${CROSS}' defined by environment variable CROSS"
     fi

 Once the ``~/.zephyrrc`` file is created, you can start working. However, each
 time you start a new shell you will need to execute the following commands
 before you can compile anything:

 .. code-block:: console

     $ cd path/to/zephyr # replace path/to by a real path
     $ CROSS=xcc source zephyr-env.sh # Select xcc as compiler

 Adding a user-defined Xtensa core
 =================================
 Add your own core to the list of supported cores as follows:

 .. code-block:: console

     $ XTENSA_CORE=myCore
     $ $(which echo) -e "config ${XTENSA_CORE}\n\tbool \"${XTENSA_CORE} core\"\n" >> "soc/xtensa/Kconfig.cores"

 Create a folder for that core:

 .. code-block:: console

     $ mkdir soc/xtensa/${XTENSA_CORE}

 Create and copy to that folder a custom linker script (more on linker script in next section):

 .. code-block:: console

     $ cp  linker.ld  soc/xtensa/${XTENSA_CORE}/linker.ld

 Add a Makefile:

 .. code-block:: console

     $ echo "obj-y = soc.o" > soc/xtensa/${XTENSA_CORE}/Makefile

 Add Zephyr specific sections to the linker script.
 The file "soc/xtensa/linker_more.ld" contains Zephyr-specific linker
 sections that should be added to the default linker script linker.ld (inside
 SECTIONS region). If you are not using a linker script, you must create one
 and add these sections. The memory segment and PHDR should be replaced by
 appropriate values.

 The linker script should be named ``linker.ld`` and placed in the directory
 ``soc/xtensa/${XTENSA_CORE}``.

 Configuring build
 =================

 .. zephyr-app-commands::
    :zephyr-app: samples/hello_world
    :goals: menuconfig

 Below is an example of usage for typical configuration:

 1. Select ``Architecture``
     a. Select ``Xtensa architecture``
 2. Select ``XTENSA core Selection``
     a. Select appropriate core (example ``hifi3_bd5 core``)
 3. Select ``XTENSA Options``
     a. Set ``Hardware clock cycles per second`` to appropriate value
     b. Set ``The path to Xtensa tool`` to appropriate value
     c. Set ``The version of Xtensa tool`` to appropriate version
     d. Set ``Xtensa build directory`` to appropriate  value
 4. Select ``Board Selection``
     a. Select ``Xtensa Development ISS``
 5. Select ``Device Drivers``
     a. Uncheck ``Serial Drivers``
 6. Select ``Compile and Link Features``
 	a. Set compiler configuration and build options correctly to project requirements
 7. Hit ``Exit`` and confirm saving the changes.

 You may need to change other options in menuconfig depending on his project
 specific needs.

 Compiling and running
 =====================
 The Xtensa executable can be run in the simulator either with a standalone core,
 or with a core connected to simulated peripherals.

 Build and run as follows:

 .. zephyr-app-commands::
    :goals: run

 References
 **********

 .. _Xtensa tools: https://ip.cadence.com/support/sdk-evaluation-request
	.. _xt-sim:

	Xtensa simulator
	################

	Overview
	********

	The Xtensa processor architecture is a configurable, extensible, and
	synthesizable 32-bit RISC processor core. Processor and SOC vendors can select
	from various processor options and even create customized instructions in
	addition to a base ISA to tailor the processor for a particular application.

	For more information, see https://ip.cadence.com/ipportfolio/tensilica-ip/xtensa-customizable

	.. figure:: img/xt-sim.png
	:width: 612px
	:align: center
	:alt: Xtensa Xplorer (Eclipse base frontend for xt-sim)

	Xtensa Xplorer

	Hardware
	********

	The following Xtensa cores are officially supported:

	- sample_controller

	System Clock
	============

	Xtensa cores can be configured to use either internal or external timers.
	The frequency of the clock under simulation is set to 25MHz.

	System requirements
	*******************

	Prerequisites
	=============
	A Linux host system is required for Xtensa development work.
	We recommend using a __``Debian 9.x (Stretch)``__ or recent __``Ubuntu``__
	releases (with multilib support).

	Only Xtensa tools version ``RF-2016.4-linux`` or later are officially
	supported. Other versions may work but are not supported by Cadence Systems Inc.

	In order to set up the Zephyr OS build system, a Linux 32-bit GCC compiler must
	be installed on the building linux box. Install GCC if needed either by
	downloading ``Zephyr SDK`` or by using your distribution package manager.

	On Debian/Ubuntu systems, you can install ``gcc-multilib`` package as follows:

	.. code-block:: console

	#aptitude install gcc-multilib # Or what ever package manager (apt, apt-get, ...)

	Set up build environment
	========================

	We recommend you create a ``~/.zephyrrc`` file, a shell script that shall be
	sourced each time before you start working on Zephyr.
	You can use the following code to create that file:

	.. code-block:: console

	$ cat > ~/.zephyrrc
	if test "${CROSS}" = xcc
	then
	export ARCH=xtensa
	export BOARD=xt-sim
	export ZEPHYR_TOOLCHAIN_VARIANT=xcc
	export XTENSA_TOOLS_PATH=/opt/xtensa/XtDevTools/install/tools/RG-2016.4-linux/XtensaTools
	export XTENSA_BUILDS_PATH=/opt/xtensa/XtDevTools/install/builds/RG-2016.4-linux
	#export XTENSA_BUILD_DIR= #Keep empty to use default directory
	export EMU_PLATFORM=xt-run
	elif test "${CROSS}" = zephyr-xtensa
	then
	export ARCH=xtensa
	export BOARD=qemu
	export ZEPHYR_TOOLCHAIN_VARIANT=zephyr
	export ZEPHYR_SDK_INSTALL_DIR=/opt/xtensa/zephyr-sdk-64-INTERNAL-11-22-2016
	elif test "${CROSS}" = zephyr-x86
	then
	export ARCH=x86
	export BOARD=qemu_x86
	export ZEPHYR_TOOLCHAIN_VARIANT=zephyr
	export ZEPHYR_SDK_INSTALL_DIR=/opt/xtensa/zephyr-sdk-64-INTERNAL-11-22-2016
	else
	echo "Unsupported compiler '${CROSS}' defined by environment variable CROSS"
	fi

	Once the ``~/.zephyrrc`` file is created, you can start working. However, each
	time you start a new shell you will need to execute the following commands
	before you can compile anything:

	.. code-block:: console

	$ cd path/to/zephyr # replace path/to by a real path
	$ CROSS=xcc source zephyr-env.sh # Select xcc as compiler

	Adding a user-defined Xtensa core
	=================================
	Add your own core to the list of supported cores as follows:

	.. code-block:: console

	$ XTENSA_CORE=myCore
	$ $(which echo) -e "config ${XTENSA_CORE}\n\tbool \"${XTENSA_CORE} core\"\n" >> "soc/xtensa/Kconfig.cores"

	Create a folder for that core:

	.. code-block:: console

	$ mkdir soc/xtensa/${XTENSA_CORE}

	Create and copy to that folder a custom linker script (more on linker script in next section):

	.. code-block:: console

	$ cp linker.ld soc/xtensa/${XTENSA_CORE}/linker.ld

	Add a Makefile:

	.. code-block:: console

	$ echo "obj-y = soc.o" > soc/xtensa/${XTENSA_CORE}/Makefile

	Add Zephyr specific sections to the linker script.
	The file "soc/xtensa/linker_more.ld" contains Zephyr-specific linker
	sections that should be added to the default linker script linker.ld (inside
	SECTIONS region). If you are not using a linker script, you must create one
	and add these sections. The memory segment and PHDR should be replaced by
	appropriate values.

	The linker script should be named ``linker.ld`` and placed in the directory
	``soc/xtensa/${XTENSA_CORE}``.

	Configuring build
	=================

	.. zephyr-app-commands::
	:zephyr-app: samples/hello_world
	:goals: menuconfig

	Below is an example of usage for typical configuration:

	1. Select ``Architecture``
	a. Select ``Xtensa architecture``
	2. Select ``XTENSA core Selection``
	a. Select appropriate core (example ``hifi3_bd5 core``)
	3. Select ``XTENSA Options``
	a. Set ``Hardware clock cycles per second`` to appropriate value
	b. Set ``The path to Xtensa tool`` to appropriate value
	c. Set ``The version of Xtensa tool`` to appropriate version
	d. Set ``Xtensa build directory`` to appropriate value
	4. Select ``Board Selection``
	a. Select ``Xtensa Development ISS``
	5. Select ``Device Drivers``
	a. Uncheck ``Serial Drivers``
	6. Select ``Compile and Link Features``
	a. Set compiler configuration and build options correctly to project requirements
	7. Hit ``Exit`` and confirm saving the changes.

	You may need to change other options in menuconfig depending on his project
	specific needs.

	Compiling and running
	=====================
	The Xtensa executable can be run in the simulator either with a standalone core,
	or with a core connected to simulated peripherals.

	Build and run as follows:

	.. zephyr-app-commands::
	:goals: run

	References
	**********

	.. _Xtensa tools: https://ip.cadence.com/support/sdk-evaluation-request