boards/arc/nsim/doc/index.rst - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 .. _nsim:

 DesignWare(R) ARC(R) Emulation (nsim)
 #####################################

 Overview
 ********

 This board configuration will use `Designware ARC nSIM`_ to emulate a virtual
 ARC EM or ARC HS based board including the following features:

 * ARC EM or ARC HS processor
 * ARC internal timer
 * a virtual output only console (uart-nsim)

 There are four supported board sub-configurations:

 * ``nsim_em`` which includes normal ARC EM features and ARC MPUv2
 * ``nsim_sem`` which includes secure ARC EM features and ARC MPUv3
 * ``nsim_hs`` which includes base ARC HS features, i.e. w/o PMU and MMU
 * ``nsim_hs_smp`` which includes base ARC HS features in multi-core cluster, still w/o PMU and MMU

 For detailed arc features, please refer to
 :zephyr_file:`boards/arc/nsim/support/nsim_em.props`,
 :zephyr_file:`boards/arc/nsim/support/nsim_sem.props`,
 :zephyr_file:`boards/arc/nsim/support/nsim_hs.props` and
 :zephyr_file:`boards/arc/nsim/support/mdb_hs_smp.args`


 Hardware
 ********
 Supported Features
 ==================

 The following hardware features are supported:

 +-----------+------------+-----+-------+-----+-----------------------+
 | Interface | Controller | EM  | SEM   | HS  | Driver/Component      |
 +===========+============+=====+=======+=====+=======================+
 | INT       | on-chip    | Y   | Y     | Y   | interrupt_controller  |
 +-----------+------------+-----+-------+-----+-----------------------+
 | UART      | nsim uart  | Y   | Y     | Y   | serial port-polling   |
 +-----------+------------+-----+-------+-----+-----------------------+
 | TIMER     | on-chip    | Y   | Y     | Y   | system clock          |
 +-----------+------------+-----+-------+-----+-----------------------+


 Programming and Debugging
 *************************

 Required Hardware and Software
 ==============================

 To use Zephyr RTOS applications on this board, `Designware ARC nSIM`_ or
 `Designware ARC nSIM Lite`_ is required.

 Building Sample Applications
 ==============================

 Use this configuration to run basic Zephyr applications and kernel tests in
 nSIM, for example, with the :ref:`synchronization_sample`:

 .. zephyr-app-commands::
    :zephyr-app: samples/synchronization
    :host-os: unix
    :board: nsim_em
    :goals: flash

 This will build an image with the synchronization sample app, boot it using
 nsim, and display the following console output:

 .. code-block:: console

         ***** BOOTING ZEPHYR OS v1.12 - BUILD: July 6 2018 15:17:26 *****
         threadA: Hello World from arc!
         threadB: Hello World from arc!
         threadA: Hello World from arc!
         threadB: Hello World from arc!


 .. note::
    To exit the simulator, use Ctrl+], then Ctrl+c

 Debugging
 =========

 .. note::
    The normal ``make debug`` command won't work for debugging
    applications using nsim because both the nsim simulator and the
    gdb debugger use the console for output. You need to use separate
    terminal windows for each tool to avoid intermixing their output.

 After building your application, cd to the build folder and open two
 terminal windows. In terminal one, use nsim to start a GDB server
 and wait for a remote connection:

 .. code-block:: console

    # for ninja build system:
    ninja debugserver
    # for make build system:
    make debugserver

 In terminal two, connect to the GDB server using :file:`arc-elf32-gdb`.
 This command loads the symbol table from the elf binary file, for example
 the :file:`./zephyr/zephyr.elf` file:

 .. code-block:: console

    ..../path/to/arc-elf32-gdb zephyr/zephyr.elf
    (gdb) target remote : 3333
    (gdb) load

 Now the debug environment has been set up, you can debug the application with gdb commands.


 References
 **********

 .. _Designware ARC nSIM: https://www.synopsys.com/dw/ipdir.php?ds=sim_nsim
 .. _Designware ARC nSIM Lite: https://www.synopsys.com/cgi-bin/dwarcnsim/req1.cgi
	.. _nsim:

	DesignWare(R) ARC(R) Emulation (nsim)
	#####################################

	Overview
	********

	This board configuration will use `Designware ARC nSIM`_ to emulate a virtual
	ARC EM or ARC HS based board including the following features:

	* ARC EM or ARC HS processor
	* ARC internal timer
	* a virtual output only console (uart-nsim)

	There are four supported board sub-configurations:

	* ``nsim_em`` which includes normal ARC EM features and ARC MPUv2
	* ``nsim_sem`` which includes secure ARC EM features and ARC MPUv3
	* ``nsim_hs`` which includes base ARC HS features, i.e. w/o PMU and MMU
	* ``nsim_hs_smp`` which includes base ARC HS features in multi-core cluster, still w/o PMU and MMU

	For detailed arc features, please refer to
	:zephyr_file:`boards/arc/nsim/support/nsim_em.props`,
	:zephyr_file:`boards/arc/nsim/support/nsim_sem.props`,
	:zephyr_file:`boards/arc/nsim/support/nsim_hs.props` and
	:zephyr_file:`boards/arc/nsim/support/mdb_hs_smp.args`


	Hardware
	********
	Supported Features
	==================

	The following hardware features are supported:

	+-----------+------------+-----+-------+-----+-----------------------+
	\| Interface \| Controller \| EM \| SEM \| HS \| Driver/Component \|
	+===========+============+=====+=======+=====+=======================+
	\| INT \| on-chip \| Y \| Y \| Y \| interrupt_controller \|
	+-----------+------------+-----+-------+-----+-----------------------+
	\| UART \| nsim uart \| Y \| Y \| Y \| serial port-polling \|
	+-----------+------------+-----+-------+-----+-----------------------+
	\| TIMER \| on-chip \| Y \| Y \| Y \| system clock \|
	+-----------+------------+-----+-------+-----+-----------------------+


	Programming and Debugging
	*************************

	Required Hardware and Software
	==============================

	To use Zephyr RTOS applications on this board, `Designware ARC nSIM`_ or
	`Designware ARC nSIM Lite`_ is required.

	Building Sample Applications
	==============================

	Use this configuration to run basic Zephyr applications and kernel tests in
	nSIM, for example, with the :ref:`synchronization_sample`:

	.. zephyr-app-commands::
	:zephyr-app: samples/synchronization
	:host-os: unix
	:board: nsim_em
	:goals: flash

	This will build an image with the synchronization sample app, boot it using
	nsim, and display the following console output:

	.. code-block:: console

	*** BOOTING ZEPHYR OS v1.12 - BUILD: July 6 2018 15:17:26 ***
	threadA: Hello World from arc!
	threadB: Hello World from arc!
	threadA: Hello World from arc!
	threadB: Hello World from arc!


	.. note::
	To exit the simulator, use Ctrl+], then Ctrl+c

	Debugging
	=========

	.. note::
	The normal ``make debug`` command won't work for debugging
	applications using nsim because both the nsim simulator and the
	gdb debugger use the console for output. You need to use separate
	terminal windows for each tool to avoid intermixing their output.

	After building your application, cd to the build folder and open two
	terminal windows. In terminal one, use nsim to start a GDB server
	and wait for a remote connection:

	.. code-block:: console

	# for ninja build system:
	ninja debugserver
	# for make build system:
	make debugserver

	In terminal two, connect to the GDB server using :file:`arc-elf32-gdb`.
	This command loads the symbol table from the elf binary file, for example
	the :file:`./zephyr/zephyr.elf` file:

	.. code-block:: console

	..../path/to/arc-elf32-gdb zephyr/zephyr.elf
	(gdb) target remote : 3333
	(gdb) load

	Now the debug environment has been set up, you can debug the application with gdb commands.


	References
	**********

	.. _Designware ARC nSIM: https://www.synopsys.com/dw/ipdir.php?ds=sim_nsim
	.. _Designware ARC nSIM Lite: https://www.synopsys.com/cgi-bin/dwarcnsim/req1.cgi