sim: align API closer to non-sim

* add Output * also clear timeline after it has been printed (multiple kernel invocations) The sim core device API has diverged quite a bit from the non-sim API. More work is needed.
2016-02-23 21:00:22 +01:00 · 2016-02-23 21:00:22 +01:00 · 5599ec16ea
parent 856821849f
commit 5599ec16ea
2 changed files with 53 additions and 12 deletions
--- a/artiq/sim/devices.py
+++ b/artiq/sim/devices.py
@ -1,7 +1,6 @@
 from random import Random

-from artiq.language.core import delay, kernel
-from artiq.language import units
+from artiq.language.core import delay, at_mu, kernel
 from artiq.sim import time


@ -16,6 +15,7 @@ class Core:
        self._level -= 1
        if self._level == 0:
            print(time.manager.format_timeline())
+            time.manager.timeline.clear()
        return r


@ -27,18 +27,57 @@ class Input:
        self.prng = Random()

    @kernel
-    def wait_edge(self):
-        duration = self.prng.randrange(0, 20)*units.ms
-        time.manager.event(("wait_edge", self.name, duration))
+    def gate_rising(self, duration):
+        time.manager.event(("gate_rising", self.name, duration))
        delay(duration)

    @kernel
-    def count_gate(self, duration):
-        result = self.prng.randrange(0, 100)
-        time.manager.event(("count_gate", self.name, duration, result))
+    def gate_falling(self, duration):
+        time.manager.event(("gate_falling", self.name, duration))
        delay(duration)
+
+    @kernel
+    def gate_both(self, duration):
+        time.manager.event(("gate_both", self.name, duration))
+        delay(duration)
+
+    @kernel
+    def count(self):
+        result = self.prng.randrange(0, 100)
+        time.manager.event(("count", self.name, result))
        return result

+    @kernel
+    def timestamp_mu(self):
+        result = time.manager.get_time_mu()
+        result += self.prng.randrange(100, 1000)
+        time.manager.event(("timestamp_mu", self.name, result))
+        at_mu(result)
+        return result
+
+
+class Output:
+    def __init__(self, dmgr, name):
+        self.core = dmgr.get("core")
+        self.name = name
+
+    @kernel
+    def set_o(self, value):
+        time.manager.event(("set", self.name, value))
+
+    @kernel
+    def pulse(self, duration):
+        time.manager.event(("pulse", self.name, duration))
+        delay(duration)
+
+    @kernel
+    def on(self):
+        self.set_o(True)
+
+    @kernel
+    def off(self):
+        self.set_o(False)
+

 class WaveOutput:
    def __init__(self, dmgr, name):
--- a/examples/sim/al_spectroscopy.py
+++ b/examples/sim/al_spectroscopy.py
@ -20,7 +20,8 @@ class AluminumSpectroscopy(EnvExperiment):
    def run(self):
        state_0_count = 0
        for count in range(100):
-            self.mains_sync.wait_edge()
+            self.mains_sync.gate_rising(1*s/60)
+            at_mu(self.mains_sync.timestamp_mu() + 100*us)
            delay(10*us)
            self.laser_cooling.pulse(100*MHz, 100*us)
            delay(5*us)
@ -34,9 +35,10 @@ class AluminumSpectroscopy(EnvExperiment):
                delay(5*us)
                with parallel:
                    self.state_detection.pulse(100*MHz, 10*us)
-                    photon_count = self.pmt.count_gate(10*us)
-                if (photon_count < self.photon_limit_low
-                        or photon_count > self.photon_limit_high):
+                    self.pmt.gate_rising(10*us)
+                photon_count = self.pmt.count()
+                if (photon_count < self.photon_limit_low or
+                        photon_count > self.photon_limit_high):
                    break
            if photon_count < self.photon_limit_low:
                state_0_count += 1