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doc: add section for RTIO analyzer, mention GtkWave
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@ -134,6 +134,9 @@ Try reducing the period of the generated waveform until the CPU cannot keep up w
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except RTIOUnderflow:
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except RTIOUnderflow:
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print_underflow()
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print_underflow()
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RTIO analyzer
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-------------
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The core device records the real-time IO waveforms into a circular buffer. It is possible to dump any Python object so that it appears alongside the waveforms using the ``rtio_log`` function, which accepts a channel name (i.e. a log target) as the first argument: ::
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The core device records the real-time IO waveforms into a circular buffer. It is possible to dump any Python object so that it appears alongside the waveforms using the ``rtio_log`` function, which accepts a channel name (i.e. a log target) as the first argument: ::
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from artiq.experiment import *
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from artiq.experiment import *
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@ -151,7 +154,7 @@ The core device records the real-time IO waveforms into a circular buffer. It is
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rtio_log("ttl0", "i", i)
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rtio_log("ttl0", "i", i)
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delay(...)
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delay(...)
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Afterwards, the recorded data can be extracted and written to a VCD file using ``artiq_coreanalyzer -w rtio.vcd`` (see: :ref:`core-device-rtio-analyzer-tool`).
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Afterwards, the recorded data can be extracted and written to a VCD file using ``artiq_coreanalyzer -w rtio.vcd`` (see: :ref:`core-device-rtio-analyzer-tool`). VCD files can be viewed using third-party tools such as GtkWave.
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Parallel and sequential blocks
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Parallel and sequential blocks
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------------------------------
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------------------------------
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