forked from M-Labs/artiq
108 lines
4.8 KiB
ReStructuredText
108 lines
4.8 KiB
ReStructuredText
.. Copyright (C) 2014, 2015 Robert Jordens <jordens@gmail.com>
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FAQ
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###
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How do I ...
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============
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find ARTIQ examples?
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--------------------
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The examples are installed in the ``examples`` folder of the ARTIQ package. You can find where the ARTIQ package is installed on your machine with: ::
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python3.5 -c "import artiq; print(artiq.__path__[0])"
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Copy the ``examples`` folder from that path into your home/user directory, and start experimenting!
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prevent my first RTIO command from causing an underflow?
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--------------------------------------------------------
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The first RTIO event is programmed with a small timestamp above the value of the timecounter at the start of the experiment. If the kernel needs more time than this timestamp to produce the event, an underflow will occur. You can prevent it by calling ``break_realtime`` just before programming the first event, or by adding a sufficient delay.
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organize datasets in folders?
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-----------------------------
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Use the dot (".") in dataset names to separate folders. The GUI will automatically create and delete folders in the dataset tree display.
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write a generator feeding a kernel feeding an analyze function?
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---------------------------------------------------------------
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Like this::
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def run(self):
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self.parse(self.pipe(iter(range(10))))
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def pipe(self, gen):
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for i in gen:
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r = self.do(i)
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yield r
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def parse(self, gen):
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for i in gen:
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pass
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@kernel
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def do(self, i):
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return i
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create and use variable lengths arrays in kernels?
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--------------------------------------------------
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Don't. Preallocate everything. Or chunk it and e.g. read 100 events per
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function call, push them upstream and retry until the gate time closes.
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execute multiple slow controller RPCs in parallel without losing time?
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----------------------------------------------------------------------
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Use ``threading.Thread``: portable, fast, simple for one-shot calls.
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write part of my experiment as a coroutine/asyncio task/generator?
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------------------------------------------------------------------
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You can not change the API that your experiment exposes: ``build()``,
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``prepare()``, ``run()`` and ``analyze()`` need to be regular functions, not
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generators or asyncio coroutines. That would make reusing your own code in
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sub-experiments difficult and fragile. You can however wrap your own
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generators/coroutines/tasks in regular functions that you then expose as part
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of the API.
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determine the pyserial URL to attach to a device by its serial number?
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----------------------------------------------------------------------
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You can list your system's serial devices and print their vendor/product
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id and serial number by running::
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$ python3.5 -m serial.tools.list_ports -v
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It will give you the ``/dev/ttyUSBxx`` (or the ``COMxx`` for Windows) device
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names.
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The ``hwid:`` field gives you the string you can pass via the ``hwgrep://``
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feature of pyserial
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`serial_for_url() <http://pyserial.sourceforge.net/pyserial_api.html#serial.serial_for_url>`_
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in order to open a serial device.
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The preferred way to specify a serial device is to make use of the ``hwgrep://``
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URL: it allows to select the serial device by its USB vendor ID, product
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ID and/or serial number. Those never change, unlike the device file name.
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See the :ref:`TDC001 documentation <tdc001-controller-usage-example>` for an example of ``hwgrep://`` usage.
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run unit tests?
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---------------
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The unit tests assume that the Python environment has been set up in such a way that ``import artiq`` will import the code being tested, and that this is still true for any subprocess created. This is not the way setuptools operates as it adds the path to ARTIQ to ``sys.path`` which is not passed to subprocesses; as a result, running the tests via ``setup.py`` is not supported. The user must first install the package or set ``PYTHONPATH``, and then run the tests with e.g. ``python3.5 -m unittest discover`` in the ``artiq/test`` folder and ``lit .`` in the ``artiq/test/lit`` folder.
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For the hardware-in-the-loop unit tests, set the ``ARTIQ_ROOT`` environment variable to the path to a device database containing the relevant devices.
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The core device tests require the following TTL devices and connections:
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* ``ttl_out``: any output-only TTL.
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* ``ttl_out_serdes``: any output-only TTL that uses a SERDES (i.e. has a fine timestamp). Can be aliased to ``ttl_out``.
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* ``loop_out``: : any output-only TTL. Must be physically connected to ``loop_in``. Can be aliased to ``ttl_out``.
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* ``loop_in``: any input-capable TTL. Must be physically connected to ``loop_out``.
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* ``loop_clock_out``: a clock generator TTL. Must be physically connected to ``loop_clock_in``.
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* ``loop_clock_in``: any input-capable TTL. Must be physically connected to ``loop_clock_out``.
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If TTL devices are missing, the corresponding tests are skipped.
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