Esempio n. 1
0
def startup():
    global f
    global ADC

    # Setup Logging
    logging.basicConfig(level=logging.INFO, stream=sys.stdout)

    setup_BB.setup_BB_slots()

    AWG.start(**config.hardware['AWG'])  # start AWG

    args = config.test_params.copy()
    args.update(config.hardware['AWG'])

    if os.path.isfile("current.calib"):
        f = open("current.calib", "r")
        content = f.read()
        f.close()
        args.update(eval(content))
        metadata = args.pop("metadata")
        if not config.hardware["ADC"]["raw_file"] == "":
            f = open("%s.metadata" % (config.hardware["ADC"]["raw_file"]), "w")
            f.write(str(metadata))
            f.close()

    logging.info("[LOGGER] Starting the AWG")
    AWG.configure2SineWave(**args)  # configure for 2 sinewaves

    logging.info("[LOGGER] Setting up analogue amplification")
    analogue_IO.enable(**config.hardware['IO'])  # enable TX on analogue board

    logging.info("[LOGGER] Loading ADC PRU code")
    ADC = follower.follower()
    logging.info("[LOGGER] TX Power on and start sampling")
    ADC.power_on()
Esempio n. 2
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def startup():
  global f
  global ADC

  # Setup Logging
  logging.basicConfig(level=logging.INFO, stream=sys.stdout)

  setup_BB.setup_BB_slots()

  AWG.start(**config.hardware['AWG']) # start AWG

  args=config.test_params.copy()
  args.update(config.hardware['AWG'])

  if os.path.isfile("current.calib"):
    f = open("current.calib", "r")
    content = f.read()
    f.close()
    args.update(eval(content))
    metadata = args.pop("metadata")
    if not config.hardware["ADC"]["raw_file"] == "":
      f = open("%s.metadata" % (config.hardware["ADC"]["raw_file"]), "w")
      f.write(str(metadata))
      f.close()


  logging.info("[LOGGER] Starting the AWG")
  AWG.configure2SineWave(**args) # configure for 2 sinewaves

  logging.info("[LOGGER] Setting up analogue amplification")
  analogue_IO.enable(**config.hardware['IO']) # enable TX on analogue board

  logging.info("[LOGGER] Loading ADC PRU code")
  ADC = follower.follower()
  logging.info("[LOGGER] TX Power on and start sampling")
  ADC.power_on()
Esempio n. 3
0
def calibrate():
  logging.info("[CALIBRATION] Starting calibration procedure")
  global ADC
  target_coeff = 1
  max_amp = 2**30 #Maximum signed int value / 2
  target_snr = 2
  parameters = {'bc': [], 'tx': []}
  args_adc = config.hardware['ADC'].copy()
  args_adc.update({'selected_freq': config.test_params['tx_freq']})
  zero_gains()
  analogue_IO.enable(**config.hardware['IO'])
  calib_metadata=dict()
  for chan in ["X", "Y", "Z"]:
    logging.info("[CALIBRATION] - Calibration, searching channel %s", chan)
    ADC = follower.follower()
    ADC.power_on()
    noise_level = get_trimmed_mean_amp(args_adc, chan, samples=10, max_dev=1.0)
    ADC.stop()
    logging.debug("[CALIBRATION] - Noise level = %f", noise_level)
    logging.debug("[CALIBRATION] - Find tx_coeff (what's the read amplitude it the current channel for a tx gain of 1)")
    tx_coeff = get_tx_coeff(args_adc, 0.0001, max_amp, 'tx', chan, noise_level)
    test_tx_gain = min(target_coeff, 0.3 * max_amp / tx_coeff)
    logging.debug("[CALIBRATION] - test_tx_gain = %f, tx_coeff = %f", test_tx_gain, tx_coeff)
    ADC = follower.follower()
    ADC.power_on()
    waveform_tx_only = ADC.get_sample_freq(**args_adc)
    ADC.stop()
    AWG.setGain('tx', 0, oneshot=True)
    logging.debug("[CALIBRATION] - Find bc_coeff (what's the read amplitude it the current channel for a bucking gain of 1)")
    bc_coeff = get_tx_coeff(args_adc, 0.0001, max_amp, chan, chan, noise_level)
    test_bc_gain = min(target_coeff, 0.7 * test_tx_gain * tx_coeff / bc_coeff, 0.3 * max_amp / bc_coeff)
    logging.debug("[CALIBRATION] - test_bc_gain = %f, bc_coeff = %f", test_bc_gain, bc_coeff)
    logging.debug("[CALIBRATION] - Use the coefficients we've found to find the best phase shift")
    AWG.program()
    AWG.setGain('tx', test_tx_gain)
    AWG.setGain(chan, test_bc_gain)
    AWG.run()
    best_phase = phase_min(args_adc, chan, samples=5)
    logging.info("[CALIBRATION] - Channel %s first pass results: tx=%f, bc=%f @ %f deg", chan, test_tx_gain, test_bc_gain, best_phase)
    # Now for the fine tuning:
    old_res = max_amp
    sig_test = -1
    for iter in range(10):
      if tx_coeff <= bc_coeff:
        tx_gain = target_coeff
        bc_gain = target_coeff * tx_coeff / bc_coeff
      else:
        bc_gain = target_coeff
        tx_gain = target_coeff * bc_coeff / tx_coeff
      logging.debug("[CALIBRATION] - Fine tuning, bc_gain = %f, tx_gain = %f", bc_gain, tx_gain)
      AWG.program()
      AWG.setGain('tx', tx_gain)
      AWG.setGain(chan, bc_gain)
      AWG.setPhaseShift(chan, best_phase, deg=True)
      AWG.run()
      current_amp = get_trimmed_mean_amp(args_adc, chan, ref_sample=waveform_tx_only)
      logging.debug("[CALIBRATION] - Bucking gain = %f, TX gain = %f, residual amp = %f" , bc_gain, tx_gain, current_amp)
      if abs(old_res) < abs(current_amp):
        sig_test *= -1
      old_res = current_amp
      if abs(current_amp) > target_snr * noise_level and iter < 10:
        #We still have work to do then...
        if tx_coeff <= bc_coeff:
          bc_coeff = (abs((target_coeff * tx_coeff) + sig_test * current_amp) / bc_gain + bc_coeff) / 2
        else:
          tx_coeff = (abs((target_coeff * bc_coeff) + sig_test * current_amp) / tx_gain + tx_coeff) / 2
        logging.debug("[CALIBRATION] - tx_coeff = %f, bc_coeff = %f", tx_coeff, bc_coeff)
      else:
        #We found acceptable parameters!
        logging.info("[CALIBRATION] - Channel %s residual signal amplitude: %f with tx=%f and bc=%f %f deg", chan, current_amp, tx_gain, bc_gain, best_phase)
        parameters['tx'].append(tx_gain)
        parameters['bc'].append({'gain': bc_gain, 'ps': best_phase})
        break
    # Record some metadata:
    if not calib_metadata.has_key("noise_level"):
      calib_metadata["noise_level"] = dict()
    if not calib_metadata.has_key("coeffs"):
      calib_metadata["coeffs"] = {'tx': dict(), 'bc': dict()}
    calib_metadata["coeffs"]["tx"][chan] = tx_coeff
    calib_metadata["coeffs"]["bc"][chan] = bc_coeff
    calib_metadata["noise_level"][chan] = noise_level
    if not calib_metadata.has_key("no_bucking_ps"):
      calib_metadata["no_bucking_ps"] = dict()
      for rec_chan in ["X", "Y", "Z"]:
        calib_metadata["no_bucking_ps"][rec_chan] = waveform_tx_only.get_phase_shift(ord(rec_chan) - ord('X'), deg=True)
  
  parameters["metadata"] = calib_metadata
  params = print_parameters(parameters)
  filename = time.strftime(str(config.test_params['tx_freq']) + "Hz_%Y%m%d-%H%M%S.calib")
  f = open(filename, 'w')
  f.write(str(params))
  f.close()
  if os.path.isfile('current.calib'):
    os.remove('current.calib')
  os.symlink(filename, 'current.calib')