mirror of https://github.com/m-labs/artiq.git
220 lines
5.3 KiB
ReStructuredText
220 lines
5.3 KiB
ReStructuredText
Network device support packages reference
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=========================================
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PDQ2
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----
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Driver
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++++++
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.. automodule:: artiq.devices.pdq2.driver
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:members:
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Mediator
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++++++++
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.. automodule:: artiq.devices.pdq2.mediator
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:members:
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Controller
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++++++++++
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.. argparse::
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:ref: artiq.frontend.pdq2_controller.get_argparser
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:prog: pdq2_controller
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Client
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++++++
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.. argparse::
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:ref: artiq.frontend.pdq2_client.get_argparser
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:prog: pdq2_client
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Lab Brick Digital Attenuator (LDA)
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----------------------------------
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On Linux, you need to give your user access to the usb device.
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You can do that by creating a file under ``/etc/udev/rules.d/`` named
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``99-lda.rules`` with the following content::
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SUBSYSTEM=="usb", ATTR{idVendor}=="041f", MODE="0666"
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Then you need to tell udev to reload its rules::
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$ sudo invoke-rc.d udev reload
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You must also unplug/replug your device if it was already plugged in.
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Then, to run the Lab Brick Digital Attenuator (LDA) controller::
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$ lda_controller -d SN:xxxxx
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The serial number must contain 5 digits, prepend any number of 0 necessary.
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Also, the ``SN:`` prefix is mandatory.
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You can chose the exact LDA model with the ``-P`` parameter. The default being LDA-102.
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Driver
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++++++
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.. automodule:: artiq.devices.lda.driver
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:members:
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Controller
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++++++++++
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.. argparse::
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:ref: artiq.frontend.lda_controller.get_argparser
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:prog: lda_controller
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Novatech 409B
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-------------
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Driver
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++++++
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.. automodule:: artiq.devices.novatech409b.driver
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:members:
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Controller
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++++++++++
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.. argparse::
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:ref: artiq.frontend.novatech409b_controller.get_argparser
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:prog: novatech409b_controller
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Thorlabs T-Cube
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---------------
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.. _tdc001-controller-usage-example:
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TDC001 controller usage example
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+++++++++++++++++++++++++++++++
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First, run the TDC001 controller::
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$ thorlabs_tcube_controller -P TDC001 -d /dev/ttyUSBx
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.. note::
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On Windows the serial port (the ``-d`` argument) will be of the form ``COMx``.
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.. note::
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Anything compatible with `serial_for_url <http://pyserial.sourceforge.net/pyserial_api.html#serial.serial_for_url>`_
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can be given as a device in ``-d`` argument.
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For instance, if you want to specify the Vendor/Product ID and the USB Serial Number, you can do:
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``-d "hwgrep://<VID>:<PID> SNR=<serial_number>"``.
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for instance:
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``-d "hwgrep://0403:faf0 SNR=83852734"``
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The hwgrep URL works on both Linux and Windows.
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Then, send commands to it via the ``artiq_rpctool`` utility::
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$ artiq_rpctool ::1 3255 list-targets
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Target(s): tdc001
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$ artiq_rpctool ::1 3255 call move_relative 10000 # will move forward
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$ artiq_rpctool ::1 3255 call move_relative -10000 # will move backward
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$ artiq_rpctool ::1 3255 call move_absolute 20000 # absolute move to 20000
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$ artiq_rpctool ::1 3255 call move_home # will go back to home position
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$ artiq_rpctool ::1 3255 call close # close the device
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TPZ001 controller usage example
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+++++++++++++++++++++++++++++++
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First, run the TPZ001 controller::
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$ thorlabs_tcube_controller -P TPZ001 -d /dev/ttyUSBx
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.. note::
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On Windows the serial port (the ``-d`` argument) will be of the form ``COMx``.
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.. note::
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See the :ref:`TDC001 documentation <tdc001-controller-usage-example>` for
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how to specify the USB Serial Number of the device instead of the
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/dev/ttyUSBx (or the COMx name).
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Then, send commands to it via the ``artiq_rpctool`` utility::
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$ artiq_rpctool ::1 3255 list-targets
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Target(s): tpz001
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$ artiq_rpctool ::1 3255 call set_output_volts 15 # set output voltage to 15 V
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$ artiq_rpctool ::1 3255 call get_output_volts # read back output voltage
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15
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$ artiq_rpctool ::1 3255 call set_tpz_io_settings 150 1 # set maximum output voltage to 150 V
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$ artiq_rpctool ::1 3255 call set_output_volts 150 # set output voltage to 150 V
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$ artiq_rpctool ::1 3255 call close # close the device
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TDC001 Driver
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+++++++++++++
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.. autoclass:: artiq.devices.thorlabs_tcube.driver.Tdc
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:members:
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TPZ001 Driver
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+++++++++++++
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.. autoclass:: artiq.devices.thorlabs_tcube.driver.Tpz
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:members:
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Controller
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++++++++++
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.. argparse::
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:ref: artiq.frontend.thorlabs_tcube_controller.get_argparser
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:prog: thorlabs_controller
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NI PXI6733
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----------
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PXI6733 controller usage example
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++++++++++++++++++++++++++++++++
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This controller has only been tested on Windows so far.
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To use this controller you need first to install the NI-DAQmx driver
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from http://www.ni.com/downloads/ni-drivers/f/.
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Then you also need to install PyDAQmx python module::
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$ git clone https://github.com/clade/PyDAQmx
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$ cd PyDAQmx
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$ C:\Python34\Tools\Scripts\2to3.py -w .
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$ python setup.py build
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$ python setup.py install
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Then, you can run the PXI6733 controller::
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$ pxi6733_controller -d Dev1
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Then, send a load_sample_values command to it via the ``artiq_rpctool`` utility::
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$ artiq_rpctool ::1 3256 list-targets
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Target(s): pxi6733
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$ artiq_rpctool ::1 3256 call load_sample_values 'np.array([1.0, 2.0, 3.0, 4.0], dtype=float)'
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This loads 4 voltage values as a numpy float array: 1.0 V, 2.0 V, 3.0 V, 4.0 V
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Then the device is set up to output those samples at each rising edge of the clock.
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Driver
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++++++
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.. automodule:: artiq.devices.pxi6733.driver
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:members:
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Controller
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++++++++++
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Usage example
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.. argparse::
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:ref: artiq.frontend.pxi6733_controller.get_argparser
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:prog: pxi6733_controller
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