mirror of https://github.com/m-labs/artiq.git
Shuttler: Patch ddb entries in the example code
This commit is contained in:
parent
a61bbf5618
commit
eedac7cf71
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@ -57,13 +57,13 @@ class Shuttler(EnvExperiment):
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self.setattr_device("core")
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self.setattr_device("core")
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self.setattr_device("core_dma")
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self.setattr_device("core_dma")
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self.setattr_device("scheduler")
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self.setattr_device("scheduler")
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self.leds = [ self.get_device("efc_led{}".format(i)) for i in range(2) ]
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self.efc0_leds = [ self.get_device("efc0_led{}".format(i)) for i in range(2) ]
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self.setattr_device("pdq_config")
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self.setattr_device("shuttler0_config")
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self.setattr_device("pdq_trigger")
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self.setattr_device("shuttler0_trigger")
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self.pdq_volt = [ self.get_device("pdq{}_volt".format(i)) for i in range(16) ]
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self.shuttler0_volt = [ self.get_device("shuttler0_volt{}".format(i)) for i in range(16) ]
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self.pdq_dds = [ self.get_device("pdq{}_dds".format(i)) for i in range(16) ]
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self.shuttler0_dds = [ self.get_device("shuttler0_dds{}".format(i)) for i in range(16) ]
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self.setattr_device("afe_relay")
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self.setattr_device("shuttler0_relay")
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self.setattr_device("afe_adc")
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self.setattr_device("shuttler0_adc")
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@kernel
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@kernel
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@ -102,13 +102,13 @@ class Shuttler(EnvExperiment):
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@kernel
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@kernel
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def pdq_channel_reset(self, ch):
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def pdq_channel_reset(self, ch):
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self.pdq_volt[ch].set_waveform(
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self.shuttler0_volt[ch].set_waveform(
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a0=0,
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a0=0,
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a1=0,
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a1=0,
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a2=0,
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a2=0,
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a3=0,
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a3=0,
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)
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)
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self.pdq_dds[ch].set_waveform(
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self.shuttler0_dds[ch].set_waveform(
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b0=0,
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b0=0,
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b1=0,
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b1=0,
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b2=0,
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b2=0,
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@ -117,7 +117,7 @@ class Shuttler(EnvExperiment):
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c1=0,
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c1=0,
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c2=0,
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c2=0,
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)
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)
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self.pdq_trigger.trigger(1 << ch)
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self.shuttler0_trigger.trigger(1 << ch)
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@kernel
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@kernel
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def example_waveform(self):
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def example_waveform(self):
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@ -158,14 +158,14 @@ class Shuttler(EnvExperiment):
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# Reset OUT0 and OUT1
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# Reset OUT0 and OUT1
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## Step 1 ##
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## Step 1 ##
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self.afe_relay.enable(0b11)
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self.shuttler0_relay.enable(0b11)
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## Step 2 ##
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## Step 2 ##
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start_f_MHz = 0.01
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start_f_MHz = 0.01
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end_f_MHz = 0.05
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end_f_MHz = 0.05
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duration_us = 500
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duration_us = 500
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# OUT0 and OUT1 have their frequency and phase aligned at 500us
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# OUT0 and OUT1 have their frequency and phase aligned at 500us
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self.pdq_dds[0].set_waveform(
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self.shuttler0_dds[0].set_waveform(
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b0=pdq_dds_amp_mu(1.0),
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b0=pdq_dds_amp_mu(1.0),
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b1=0,
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b1=0,
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b2=0,
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b2=0,
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@ -174,7 +174,7 @@ class Shuttler(EnvExperiment):
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c1=pdq_freq_mu(start_f_MHz),
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c1=pdq_freq_mu(start_f_MHz),
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c2=pdq_freq_sweep(start_f_MHz, end_f_MHz, duration_us),
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c2=pdq_freq_sweep(start_f_MHz, end_f_MHz, duration_us),
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)
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)
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self.pdq_dds[1].set_waveform(
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self.shuttler0_dds[1].set_waveform(
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b0=pdq_dds_amp_mu(1.0),
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b0=pdq_dds_amp_mu(1.0),
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b1=0,
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b1=0,
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b2=0,
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b2=0,
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@ -183,12 +183,12 @@ class Shuttler(EnvExperiment):
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c1=pdq_freq_mu(end_f_MHz),
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c1=pdq_freq_mu(end_f_MHz),
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c2=0,
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c2=0,
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)
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)
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self.pdq_trigger.trigger(0b11)
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self.shuttler0_trigger.trigger(0b11)
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delay(500*us)
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delay(500*us)
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## Step 3 ##
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## Step 3 ##
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# OUT0 and OUT1 has 180 degree phase difference
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# OUT0 and OUT1 has 180 degree phase difference
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self.pdq_dds[0].set_waveform(
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self.shuttler0_dds[0].set_waveform(
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b0=pdq_dds_amp_mu(1.0),
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b0=pdq_dds_amp_mu(1.0),
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b1=0,
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b1=0,
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b2=0,
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b2=0,
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@ -199,12 +199,12 @@ class Shuttler(EnvExperiment):
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)
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)
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# Phase and Output Setting of OUT1 is retained
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# Phase and Output Setting of OUT1 is retained
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# if the channel is not triggered or config is not cleared
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# if the channel is not triggered or config is not cleared
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self.pdq_trigger.trigger(0b1)
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self.shuttler0_trigger.trigger(0b1)
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delay(500*us)
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delay(500*us)
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## Step 4 ##
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## Step 4 ##
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# b(0) = 0, b(250) = 8.545, b(500) = 0
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# b(0) = 0, b(250) = 8.545, b(500) = 0
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self.pdq_dds[0].set_waveform(
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self.shuttler0_dds[0].set_waveform(
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b0=0,
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b0=0,
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b1=pdq_dds_damp_mu(0.06835937),
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b1=pdq_dds_damp_mu(0.06835937),
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b2=pdq_dds_ddamp_mu(-0.0001367187),
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b2=pdq_dds_ddamp_mu(-0.0001367187),
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@ -213,7 +213,7 @@ class Shuttler(EnvExperiment):
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c1=pdq_freq_mu(end_f_MHz),
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c1=pdq_freq_mu(end_f_MHz),
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c2=0,
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c2=0,
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)
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)
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self.pdq_dds[1].set_waveform(
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self.shuttler0_dds[1].set_waveform(
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b0=0,
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b0=0,
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b1=pdq_dds_damp_mu(0.06835937),
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b1=pdq_dds_damp_mu(0.06835937),
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b2=pdq_dds_ddamp_mu(-0.0001367187),
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b2=pdq_dds_ddamp_mu(-0.0001367187),
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@ -222,17 +222,17 @@ class Shuttler(EnvExperiment):
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c1=0,
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c1=0,
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c2=0,
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c2=0,
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)
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)
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self.pdq_trigger.trigger(0b11)
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self.shuttler0_trigger.trigger(0b11)
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delay(500*us)
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delay(500*us)
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## Step 5 ##
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## Step 5 ##
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self.pdq_volt[0].set_waveform(
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self.shuttler0_volt[0].set_waveform(
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a0=pdq_volt_amp_mu(-5.0),
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a0=pdq_volt_amp_mu(-5.0),
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a1=int32(pdq_volt_damp_mu(0.01)),
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a1=int32(pdq_volt_damp_mu(0.01)),
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a2=0,
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a2=0,
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a3=0,
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a3=0,
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)
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)
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self.pdq_dds[0].set_waveform(
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self.shuttler0_dds[0].set_waveform(
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b0=pdq_dds_amp_mu(1.0),
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b0=pdq_dds_amp_mu(1.0),
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b1=0,
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b1=0,
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b2=0,
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b2=0,
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@ -241,13 +241,13 @@ class Shuttler(EnvExperiment):
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c1=pdq_freq_mu(end_f_MHz),
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c1=pdq_freq_mu(end_f_MHz),
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c2=0,
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c2=0,
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)
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)
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self.pdq_volt[1].set_waveform(
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self.shuttler0_volt[1].set_waveform(
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a0=pdq_volt_amp_mu(-5.0),
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a0=pdq_volt_amp_mu(-5.0),
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a1=int32(pdq_volt_damp_mu(0.01)),
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a1=int32(pdq_volt_damp_mu(0.01)),
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a2=0,
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a2=0,
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a3=0,
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a3=0,
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)
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)
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self.pdq_dds[1].set_waveform(
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self.shuttler0_dds[1].set_waveform(
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b0=0,
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b0=0,
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b1=0,
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b1=0,
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b2=0,
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b2=0,
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@ -256,17 +256,17 @@ class Shuttler(EnvExperiment):
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c1=0,
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c1=0,
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c2=0,
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c2=0,
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)
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)
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self.pdq_trigger.trigger(0b11)
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self.shuttler0_trigger.trigger(0b11)
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delay(1000*us)
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delay(1000*us)
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## Step 6 ##
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## Step 6 ##
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self.pdq_volt[0].set_waveform(
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self.shuttler0_volt[0].set_waveform(
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a0=pdq_volt_amp_mu(-2.5),
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a0=pdq_volt_amp_mu(-2.5),
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a1=int32(pdq_volt_damp_mu(0.01)),
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a1=int32(pdq_volt_damp_mu(0.01)),
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a2=0,
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a2=0,
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a3=0,
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a3=0,
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)
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)
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self.pdq_dds[0].set_waveform(
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self.shuttler0_dds[0].set_waveform(
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b0=0,
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b0=0,
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b1=pdq_dds_damp_mu(0.06835937),
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b1=pdq_dds_damp_mu(0.06835937),
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b2=pdq_dds_ddamp_mu(-0.0001367187),
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b2=pdq_dds_ddamp_mu(-0.0001367187),
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@ -275,18 +275,18 @@ class Shuttler(EnvExperiment):
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c1=pdq_freq_mu(start_f_MHz),
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c1=pdq_freq_mu(start_f_MHz),
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c2=pdq_freq_sweep(start_f_MHz, end_f_MHz, duration_us),
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c2=pdq_freq_sweep(start_f_MHz, end_f_MHz, duration_us),
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)
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)
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self.pdq_trigger.trigger(0b1)
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self.shuttler0_trigger.trigger(0b1)
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self.pdq_channel_reset(1)
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self.pdq_channel_reset(1)
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delay(500*us)
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delay(500*us)
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## Step 7 ##
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## Step 7 ##
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self.pdq_volt[0].set_waveform(
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self.shuttler0_volt[0].set_waveform(
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a0=pdq_volt_amp_mu(2.5),
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a0=pdq_volt_amp_mu(2.5),
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a1=int32(pdq_volt_damp_mu(-0.01)),
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a1=int32(pdq_volt_damp_mu(-0.01)),
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a2=0,
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a2=0,
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a3=0,
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a3=0,
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)
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)
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self.pdq_dds[0].set_waveform(
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self.shuttler0_dds[0].set_waveform(
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b0=0,
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b0=0,
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b1=pdq_dds_damp_mu(-0.06835937),
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b1=pdq_dds_damp_mu(-0.06835937),
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b2=pdq_dds_ddamp_mu(0.0001367187),
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b2=pdq_dds_ddamp_mu(0.0001367187),
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@ -295,11 +295,11 @@ class Shuttler(EnvExperiment):
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c1=pdq_freq_mu(end_f_MHz),
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c1=pdq_freq_mu(end_f_MHz),
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c2=pdq_freq_sweep(end_f_MHz, start_f_MHz, duration_us),
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c2=pdq_freq_sweep(end_f_MHz, start_f_MHz, duration_us),
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)
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)
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self.pdq_trigger.trigger(0b1)
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self.shuttler0_trigger.trigger(0b1)
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delay(500*us)
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delay(500*us)
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## Step 8 ##
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## Step 8 ##
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self.afe_relay.enable(0)
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self.shuttler0_relay.enable(0)
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self.pdq_channel_reset(0)
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self.pdq_channel_reset(0)
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self.pdq_channel_reset(1)
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self.pdq_channel_reset(1)
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@ -307,24 +307,24 @@ class Shuttler(EnvExperiment):
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def led(self):
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def led(self):
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for i in range(2):
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for i in range(2):
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for j in range(3):
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for j in range(3):
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self.leds[i].pulse(.1*s)
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self.efc0_leds[i].pulse(.1*s)
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delay(.1*s)
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delay(.1*s)
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@kernel
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@kernel
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def relay_init(self):
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def relay_init(self):
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self.afe_relay.init()
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self.shuttler0_relay.init()
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self.afe_relay.enable(0x0000)
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self.shuttler0_relay.enable(0x0000)
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@kernel
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@kernel
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def adc_init(self):
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def adc_init(self):
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delay_mu(int64(self.core.ref_multiplier))
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delay_mu(int64(self.core.ref_multiplier))
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self.afe_adc.power_up()
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self.shuttler0_adc.power_up()
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delay_mu(int64(self.core.ref_multiplier))
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delay_mu(int64(self.core.ref_multiplier))
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assert self.afe_adc.read_id() >> 4 == 0x038d
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assert self.shuttler0_adc.read_id() >> 4 == 0x038d
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delay_mu(int64(self.core.ref_multiplier))
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delay_mu(int64(self.core.ref_multiplier))
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# The actual output voltage is limited by the hardware, the calculated calibration gain and offset.
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# The actual output voltage is limited by the hardware, the calculated calibration gain and offset.
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# For example, if the system has a calibration gain of 1.06, then the max output voltage = 10 / 1.06 = 9.43V.
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# For example, if the system has a calibration gain of 1.06, then the max output voltage = 10 / 1.06 = 9.43V.
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# Setting a value larger than 9.43V will result in overflow.
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# Setting a value larger than 9.43V will result in overflow.
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self.afe_adc.calibrate(self.pdq_volt, self.pdq_trigger, self.pdq_config)
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self.shuttler0_adc.calibrate(self.shuttler0_volt, self.shuttler0_trigger, self.shuttler0_config)
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