mirror of https://github.com/m-labs/artiq.git
recover_underflow -> break_realtime
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@ -129,6 +129,6 @@ class Core(AutoDB):
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return cycles_to_time(syscall("rtio_get_counter"))
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@kernel
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def recover_underflow(self):
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def break_realtime(self):
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t = syscall("rtio_get_counter") + 125000
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at(cycles_to_time(t))
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@ -20,7 +20,7 @@ class PulseRate(Experiment, AutoDB):
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delay(cycles_to_time(T))
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except RTIOUnderflow:
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T += 1
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self.core.recover_underflow()
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self.core.break_realtime()
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else:
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self.pulse_rate = cycles_to_time(2*T)
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break
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@ -4,6 +4,11 @@ FAQ
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How do I ...
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============
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prevent my first RTIO command from causing an underflow?
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--------------------------------------------------------
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The RTIO timestamp counter starts counting at zero at the beginning of the first kernel run on the core device. The first RTIO event is programmed with a small timestamp above zero. 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.
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override the `sysclk` frequency of just one DDS?
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------------------------------------------------
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@ -12,7 +17,7 @@ Override the parameter using an argument in the DDB.
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organize parameters in folders?
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-------------------------------
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Use gui auto-completion and filtering.
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Use GUI auto-completion and filtering.
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Names need to be unique.
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enforce functional dependencies between parameters?
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@ -47,7 +47,7 @@ Modify the code as follows: ::
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@kernel
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def run(self):
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s = input_led_state()
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self.core.recover_underflow()
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self.core.break_realtime()
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if s:
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self.led.on()
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else:
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@ -63,7 +63,7 @@ You can then turn the LED off and on by entering 0 or 1 at the prompt that appea
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What happens is the ARTIQ compiler notices that the ``input_led_state`` function does not have a ``@kernel`` decorator and thus must be executed on the host. When the core device calls it, it sends a request to the host to execute it. The host displays the prompt, collects user input, and sends the result back to the core device, which sets the LED state accordingly.
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The ``recover_underflow`` call is necessary to waive the real-time requirements of the LED state change (as the ``input_led_state`` function can take an arbitrarily long time). This will become clearer later as we explain timing control.
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The ``break_realtime`` call is necessary to waive the real-time requirements of the LED state change (as the ``input_led_state`` function can take an arbitrarily long time). This will become clearer later as we explain timing control.
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Algorithmic features
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--------------------
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