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recover_underflow -> break_realtime

This commit is contained in:
Sebastien Bourdeauducq 2015-05-03 20:42:42 +08:00
parent 4048568d8e
commit 2adf9d91df
4 changed files with 10 additions and 5 deletions

View File

@ -129,6 +129,6 @@ class Core(AutoDB):
return cycles_to_time(syscall("rtio_get_counter"))
@kernel
def recover_underflow(self):
def break_realtime(self):
t = syscall("rtio_get_counter") + 125000
at(cycles_to_time(t))

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@ -20,7 +20,7 @@ class PulseRate(Experiment, AutoDB):
delay(cycles_to_time(T))
except RTIOUnderflow:
T += 1
self.core.recover_underflow()
self.core.break_realtime()
else:
self.pulse_rate = cycles_to_time(2*T)
break

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@ -4,6 +4,11 @@ FAQ
How do I ...
============
prevent my first RTIO command from causing an underflow?
--------------------------------------------------------
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.
override the `sysclk` frequency of just one DDS?
------------------------------------------------
@ -12,7 +17,7 @@ Override the parameter using an argument in the DDB.
organize parameters in folders?
-------------------------------
Use gui auto-completion and filtering.
Use GUI auto-completion and filtering.
Names need to be unique.
enforce functional dependencies between parameters?

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@ -47,7 +47,7 @@ Modify the code as follows: ::
@kernel
def run(self):
s = input_led_state()
self.core.recover_underflow()
self.core.break_realtime()
if s:
self.led.on()
else:
@ -63,7 +63,7 @@ You can then turn the LED off and on by entering 0 or 1 at the prompt that appea
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.
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.
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.
Algorithmic features
--------------------