示例#1
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 def freeze_buffers(self, freeze_buffers):
     '''
     The function can be used to freeze the internal buffers, allowing to
     retrieve multiple histograms with the same integration time. When
     frozen, no more events are added to the built-in histograms and
     timestamp buffer. The coincidence counters are not affected.
     Initially, the buffers are not frozen. All types of histograms
     calculated by software are affected.
     '''
     TDC_BaseDLL.freezeBuffers(freeze_buffers)
示例#2
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    def get_timestamps(self, reset_buffer=True):
        '''
        Get the timestamps in the buffer. The reset_buffer boolean determines
        whether the buffer should be cleared once the timestamps have been retrieved.
        '''
        buffer_size = self.get_timestamp_buffer_size()

        timestamps, channels, valid = (np.array([-1] * buffer_size, c_int64),
                                       np.array([-1] * buffer_size,
                                                c_int8), c_int32())

        TDC_BaseDLL.getLastTimestamps(
            reset_buffer, timestamps.ctypes.data_as(POINTER(c_int64)),
            channels.ctypes.data_as(POINTER(c_int8)), byref(valid))
        return timestamps, channels, valid.value
示例#3
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 def get_device_params(self):
     channelMask, coincWin, expTime = c_int32(), c_int32(), c_int32()
     err = TDC_BaseDLL.getDeviceParams(byref(channelMask), byref(coincWin),
                                       byref(expTime))
     if err != 0:
         raise TDC_Exception(err)
     return (channelMask.value, coincWin.value, expTime.value)
示例#4
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 def configure_signal_conditioning(self, channel, conditioning, edge, term,
                                   threshold):
     '''
     Configures a channel's signal conditioning. The availability of signal
     conditioning electronics depends on the device type (TDC_getDevType);
     the function requires an 1B or 1C device. If it isn't present for the
     specified channel, TDC_OutOfRange is returned.
  
     Primarily, a conditioning type is selected. Depending on the type, the
     three detailed settings may be relevant or ignored by the function,
     see TDC_SignalCond. In particular, SCOND_TTL switches off the complete
     signal conditioning including the input divider (TDC_configureSyncDivider).
     For full access to the details use SCOND_MISC as type.
  
     Parameters
         channel      Number of the input channel to configure. For 1c
                      devices, use 0=Ext0, 1=Ext1, 2=Sync
         conditioning Type of signal conditioning. By default, the signal
                      conditioning is off (SCOND_TTL).
         edge         Selects the signal edge that is processed as an
                      event: rising (1) or falling (0)
         term         Switches the termination in the signal path on (1) or
                      off (0)
         threshold    Voltage threshold that is used to identify events, in
                      V. Allowed range is -2 ... 3V; internal resolution is 1.2mV
     '''
     err = TDC_BaseDLL.configure_signal_conditioning(
         channel, conditioning, edge, term, threshold)
     if err != 0:
         raise TDC_Exception(err)
示例#5
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 def set_exposure_time(self, exposure_time=1000):
     '''
     Sets the exposure time (or integration time) of the internal
     coincidence counters.
     Exposure time in ms with range = 0 ... 65535
     '''
     err = TDC_BaseDLL.setExposureTime(exposure_time)
     if err != 0:
         raise TDC_Exception(err)
示例#6
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 def switch_termination(self, termination_on):
     '''
     Switches the 50 Ohm termination of input lines on or off. The function
     requires an 1A type hardware, otherwise TDC_OutOfRange is returned.
     
     Only for 1A models.
     '''
     err = TDC_BaseDLL.switchTermination(termination_on)
     if err != 0:
         raise TDC_Exception(err)
示例#7
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 def set_timestamp_buffer_size(self, size=1000000):
     '''
     Sets the size of the ring buffer (note the buffer is cleared when
     his function is called.  This function must be called before any
     timestamps can be recored into the buffer.
         size    Buffer size; Range = 1 ... 1000000
     '''
     if not 1 <= size <= 1000000:
         print 'Buffer size must be in range 1 ... 1000000.'
         size = int(np.clip(size, 1, 1000000))
     err = TDC_BaseDLL.setTimestampBufferSize(size)
     if err != 0:
         raise TDC_Exception(err)
示例#8
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 def generate_timestamps(self, sim_type, par, count):
     '''
     Auto-generates timestamps for testing purposes. At least one channel has to be enabled!
         sim_type Type of time diff distribution (use TDC_SimType value from TDC_BaseDLL).
         par      Type specific parameter set. Parameters should be chosen so that most time 
                  diffs are positive. Negative diffs are dropped. For both TDC_SimType.SIM_FLAT
                  and TDC_SimType.SIM_NORMAL requires 2 parameters: center and width for time 
                  diffs in TDC units.
         count    Number of timestamps to generate
     '''
     array = np.array(par)
     err = TDC_BaseDLL.generateTimestamps(
         sim_type,
         array.astype(c_double).ctypes.data_as(POINTER(c_double)), count)
     if err != 0:
         raise TDC_Exception(err)
示例#9
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 def input_timestamps(self, timestamps, channels, count):
     '''
     Input timestamps for testing purposes. At least one channel has to be enabled!
     
     timestamps: Array of timestamps to process. The timestamps
                 should be in strictly increasing order,
                 otherwise some functions will fail.
     channels:   Array of corresponding channel numbers.
     count:      Number of valid elements in both arrays
     '''
     timestamps = np.array(timestamps).astype(c_longlong)
     channels = np.array(channels).astype(c_byte)
     err = TDC_BaseDLL.inputTimestamps(
         timestamps.ctypes.data_as(POINTER(c_longlong)),
         channels.ctypes.data_as(POINTER(c_byte)), count)
     if err != 0:
         print err
         raise TDC_Exception(err)
示例#10
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    def set_enabled_channels(self, channels):
        '''
        Sets the channels that are enabled.  Channels is a list of channel
        numbers to be enabled wit values in range 0-7.
        Note: internally channels are numbers 0-7 which corresponds to
        1-8 on the box - because qutools are actually tools.
        '''
        if len(channels) > 0:
            bitstring = ''
            for k in range(max(channels) + 1):
                if k in channels:
                    bitstring = '1' + bitstring
                else:
                    bitstring = '0' + bitstring
        else:
            bitstring = '0'

        err = TDC_BaseDLL.enableChannels(int(bitstring, 2))
        if err != 0:
            raise TDC_Exception(err)
示例#11
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 def enable_tdc_input(self, enabled):
     err = TDC_BaseDLL.enableTdcInput(enabled)
     if err != 0:
         raise TDC_Exception(err)
示例#12
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 def get_dev_type(self):
     return TDC_BaseDLL.getDevType()
示例#13
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 def get_timebase(self):
     '''Returns the timebase of the TDC in seconds. This timebase is used as the
     time unit in many other functions.
     '''
     return TDC_BaseDLL.getTimebase()
示例#14
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 def get_version(self):
     return TDC_BaseDLL.getVersion()
示例#15
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 def open(self):
     err = TDC_BaseDLL.init(self.deviceId)
     if err != 0:
         tdc_err = TDC_Exception(err)
         print 'Error opening TDC with message:', tdc_err.message
         raise tdc_err
示例#16
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 def get_timestamp_buffer_size(self):
     size = c_int32()
     err = TDC_BaseDLL.getTimestampBufferSize(byref(size))
     if err != 0:
         raise TDC_Exception(err)
     return size.value
示例#17
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 def close(self):
     TDC_BaseDLL.deInit()