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Utilities
=========
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.. Sort these tool by some subjective combination of their
typical sequence and expected frequency of use.
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Local running tool
------------------
.. argparse::
:ref: artiq.frontend.artiq_run.get_argparser
:prog: artiq_run
Remote Procedure Call tool
--------------------------
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.. argparse::
:ref: artiq.frontend.artiq_rpctool.get_argparser
:prog: artiq_rpctool
This tool is the preferred way of handling simple ARTIQ controllers.
Instead of writing a client for very simple cases you can just use this tool
in order to call remote functions of an ARTIQ controller.
* Listing existing targets
The ``list-targets`` sub-command will print to standard output the
target list of the remote server::
$ artiq_rpctool hostname port list-targets
* Listing callable functions
The ``list-methods`` sub-command will print to standard output a sorted
list of the functions you can call on the remote server's target.
The list will contain function names, signatures (arguments) and
docstrings.
If the server has only one target, you can do::
$ artiq_rpctool hostname port list-methods
Otherwise you need to specify the target, using the ``-t target``
option::
$ artiq_rpctool hostname port list-methods -t target_name
* Remotely calling a function
The ``call`` sub-command will call a function on the specified remote
server's target, passing the specified arguments.
Like with the previous sub-command, you only need to provide the target
name (with ``-t target``) if the server hosts several targets.
The following example will call the ``set_attenuation`` method of the
Lda controller with the argument ``5``::
$ artiq_rpctool ::1 3253 call -t lda set_attenuation 5
In general, to call a function named ``f`` with N arguments named
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respectively ``x1, x2, ..., xN`` you can do::
$ artiq_rpctool hostname port call -t target f x1 x2 ... xN
You can use Python syntax to compute arguments as they will be passed
to the ``eval()`` primitive. The numpy package is available in the namespace
as ``np``. Beware to use quotes to separate arguments which use spaces::
$ artiq_rpctool hostname port call -t target f '3 * 4 + 2' True '[1, 2]'
$ artiq_rpctool ::1 3256 call load_sample_values 'np.array([1.0, 2.0], dtype=float)'
If the called function has a return value, it will get printed to
the standard output if the value is not None like in the standard
python interactive console::
$ artiq_rpctool ::1 3253 call get_attenuation
5.0 dB
Static compiler
---------------
This tool compiles an experiment into a ELF file. It is primarily used to prepare binaries for the default experiment loaded in non-volatile storage of the core device.
Experiments compiled with this tool are not allowed to use RPCs, and their ``run`` entry point must be a kernel.
.. argparse::
:ref: artiq.frontend.artiq_compile.get_argparser
:prog: artiq_compile
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Flash storage image generator
-----------------------------
This tool compiles key/value pairs into a binary image suitable for flashing into the flash storage space of the core device.
.. argparse::
:ref: artiq.frontend.artiq_mkfs.get_argparser
:prog: artiq_mkfs
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Flashing/Loading tool
---------------------
.. argparse::
:ref: artiq.frontend.artiq_flash.get_argparser
:prog: artiq_flash
.. _core-device-management-tool:
Core device management tool
---------------------------
The artiq_coremgmt utility gives remote access to the core device logs, the :ref:`core-device-flash-storage`, and other management functions.
To use this tool, you need to specify a ``device_db.py`` device database file which contains a ``comm`` device (an example is provided in ``examples/master/device_db.py``). This tells the tool how to connect to the core device and with which parameters (e.g. IP address, TCP port). When not specified, the artiq_coremgmt utility will assume that there is a file named ``device_db.py`` in the current directory.
To read core device logs::
$ artiq_coremgmt log
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To set core device log level and UART log level (possible levels are ``TRACE``, ``DEBUG``, ``INFO``, ``WARN`` and ``ERROR``)::
$ artiq_coremgmt log set_level LEVEL
$ artiq_coremgmt log set_uart_level LEVEL
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Note that enabling the ``TRACE`` log level results in small core device slowdown, and printing large amounts of log messages to the UART results in significant core device slowdown.
To read the record whose key is ``mac``::
$ artiq_coremgmt config read mac
To write the value ``test_value`` in the key ``my_key``::
$ artiq_coremgmt config write -s my_key test_value
$ artiq_coremgmt config read my_key
b'test_value'
You can also write entire files in a record using the ``-f`` parameter. This is useful for instance to write the startup and idle kernels in the flash storage::
$ artiq_coremgmt config write -f idle_kernel idle.elf
$ artiq_coremgmt config read idle_kernel | head -c9
b'\x7fELF
You can write several records at once::
$ artiq_coremgmt config write -s key1 value1 -f key2 filename -s key3 value3
To remove the previously written key ``my_key``::
$ artiq_coremgmt config delete my_key
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You can remove several keys at once::
$ artiq_coremgmt config delete key1 key2
To erase the entire flash storage area::
$ artiq_coremgmt config erase
You do not need to remove a record in order to change its value, just overwrite it::
$ artiq_coremgmt config write -s my_key some_value
$ artiq_coremgmt config write -s my_key some_other_value
$ artiq_coremgmt config read my_key
b'some_other_value'
.. argparse::
:ref: artiq.frontend.artiq_coremgmt.get_argparser
:prog: artiq_coremgmt
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.. _core-device-rtio-analyzer-tool:
Core device RTIO analyzer tool
------------------------------
.. argparse::
:ref: artiq.frontend.artiq_coreanalyzer.get_argparser
:prog: artiq_coreanalyzer
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.. note::
The RTIO analyzer does not support SAWG.
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Data to InfluxDB bridge
-----------------------
.. argparse::
:ref: artiq.frontend.artiq_influxdb.get_argparser
:prog: artiq_influxdb