Updated simulator with RX event.

2024-09-19 18:20:35 +00:00 · 2023-08-25 12:38:14 +02:00 · 2023-08-25 12:38:14 +02:00 · 9cbe265694
commit 9cbe265694
parent 7f721d242a
2 changed files with 127 additions and 57 deletions
--- a/src/nqrduck_spectrometer_simulator/controller.py
+++ b/src/nqrduck_spectrometer_simulator/controller.py
@ -9,6 +9,7 @@ from nqr_blochsimulator.classes.simulation import Simulation

 logger = logging.getLogger(__name__)

+
 class SimulatorController(BaseSpectrometerController):
    def __init__(self, module):
        super().__init__(module)
@ -30,11 +31,21 @@ class SimulatorController(BaseSpectrometerController):
        simulation = self.get_simulation(sample, pulse_array)

        result = abs(simulation.simulate())
-        tdx = np.linspace(0, float(self.calculate_simulation_length()), len(result)) * 1e6   
+
+        tdx = (
+            np.linspace(0, float(self.calculate_simulation_length()), len(result)) * 1e6
+        )
+
+        rx_begin, rx_stop = self.translate_rx_event()
+        # If we have a RX event, we need to cut the result to the RX event
+        if rx_begin and rx_stop:
+            evidx = np.where((tdx > rx_begin) & (tdx < rx_stop))[0]
+            tdx = tdx[evidx]
+            result = result[evidx]

        measurement_data = Measurement(
            tdx,
-            result,
+            result / self.module.model.averages,
            sample.resonant_frequency,
            # frequency_shift=self.module.model.if_frequency,
        )
@ -95,7 +106,8 @@ class SimulatorController(BaseSpectrometerController):
            else:
                logger.warning("Unknown sample setting: %s", samplesetting.name)
                self.module.nqrduck_signal.emit(
-                    "notification", ["Error", "Unknown sample setting: " + samplesetting.name]
+                    "notification",
+                    ["Error", "Unknown sample setting: " + samplesetting.name],
                )
                return None

@ -115,7 +127,7 @@ class SimulatorController(BaseSpectrometerController):
            atom_density=atom_density,
            sample_volume=sample_volume,
            sample_length=sample_length,
-            sample_diameter = sample_diameter
+            sample_diameter=sample_diameter,
        )
        return sample

@ -147,12 +159,18 @@ class SimulatorController(BaseSpectrometerController):
                    pulse_shape = parameter.get_option_by_name(
                        TXPulse.TX_PULSE_SHAPE
                    ).value
-                    pulse_amplitude = abs(pulse_shape.get_pulse_amplitude(event.duration, resolution = dwell_time))
+                    pulse_amplitude = abs(
+                        pulse_shape.get_pulse_amplitude(
+                            event.duration, resolution=dwell_time
+                        )
+                    )

                    amplitude_array.append(pulse_amplitude)
-                elif (parameter.name == self.module.model.TX and parameter.get_option_by_name(TXPulse.RELATIVE_AMPLITUDE).value
-                    == 0):
-
+                elif (
+                    parameter.name == self.module.model.TX
+                    and parameter.get_option_by_name(TXPulse.RELATIVE_AMPLITUDE).value
+                    == 0
+                ):
                    # If we have a wait, we need to add it to the pulse array
                    amplitude_array.append(np.zeros(int(event.duration / dwell_time)))

@ -164,7 +182,7 @@ class SimulatorController(BaseSpectrometerController):
        pulse_array = PulseArray(
            pulseamplitude=amplitude_array,
            pulsephase=phase_array,
-            dwell_time = float(dwell_time)
+            dwell_time=float(dwell_time),
        )

        return pulse_array
@ -185,30 +203,37 @@ class SimulatorController(BaseSpectrometerController):
        simulation = Simulation(
            sample=sample,
            pulse=pulse_array,
-            number_isochromats = int(model.get_setting_by_name(model.NUMBER_ISOCHROMATS).value),
-            initial_magnetization = float(model.get_setting_by_name(model.INITIAL_MAGNETIZATION).value),
+            number_isochromats=int(
+                model.get_setting_by_name(model.NUMBER_ISOCHROMATS).value
+            ),
+            initial_magnetization=float(
+                model.get_setting_by_name(model.INITIAL_MAGNETIZATION).value
+            ),
            gradient=float(model.get_setting_by_name(model.GRADIENT).value),
            noise=float(model.get_setting_by_name(model.NOISE).value),
            length_coil=float(model.get_setting_by_name(model.LENGTH_COIL).value),
            diameter_coil=float(model.get_setting_by_name(model.DIAMETER_COIL).value),
            number_turns=float(model.get_setting_by_name(model.NUMBER_TURNS).value),
-            power_amplifier_power =float( model.get_setting_by_name(model.POWER_AMPLIFIER_POWER).value),
+            power_amplifier_power=float(
+                model.get_setting_by_name(model.POWER_AMPLIFIER_POWER).value
+            ),
            gain=float(model.get_setting_by_name(model.GAIN).value),
            temperature=float(model.get_setting_by_name(model.TEMPERATURE).value),
            averages=int(model.averages),
            loss_TX=float(model.get_setting_by_name(model.LOSS_TX).value),
-            loss_RX = float(model.get_setting_by_name(model.LOSS_RX).value)
+            loss_RX=float(model.get_setting_by_name(model.LOSS_RX).value),
        )
        return simulation

-
    def calculate_dwelltime(self) -> float:
        """This method calculates the dwell time based on the settings and the pulse sequence.

        Returns:
            float: The dwell time in seconds.
        """
-        n_points = int(self.module.model.get_setting_by_name(self.module.model.NUMBER_POINTS).value)
+        n_points = int(
+            self.module.model.get_setting_by_name(self.module.model.NUMBER_POINTS).value
+        )
        simulation_length = self.calculate_simulation_length()
        dwell_time = simulation_length / n_points
        return dwell_time
@ -225,12 +250,55 @@ class SimulatorController(BaseSpectrometerController):
            simulation_length += event.duration
        return simulation_length

+    def translate_rx_event(self) -> tuple:
+        """This method translates the RX event of the pulse sequence to the limr object.
+
+
+
+        Returns:
+            tuple: A tuple containing the start and stop time of the RX event in µs"""
+        # This is a correction factor for the RX event. The offset of the first pulse is 2.2µs longer than from the specified samples.
+        events = self.module.model.pulse_programmer.model.pulse_sequence.events
+
+        previous_events_duration = 0
+        offset = 0
+        rx_duration = 0
+        for event in events:
+            logger.debug("Event %s has parameters: %s", event.name, event.parameters)
+            for parameter in event.parameters.values():
+                logger.debug(
+                    "Parameter %s has options: %s", parameter.name, parameter.options
+                )
+
+                if (
+                    parameter.name == self.module.model.RX
+                    and parameter.get_option_by_name(RXReadout.RX).value
+                ):
+                    # Get the length of all previous events
+                    previous_events = events[: events.index(event)]
+                    previous_events_duration = sum(
+                        [event.duration for event in previous_events]
+                    )
+                    rx_duration = event.duration
+
+        rx_begin = float(previous_events_duration)
+        if rx_duration:
+            rx_stop = rx_begin + float(rx_duration)
+            return rx_begin * 1e6, rx_stop * 1e6
+
+        else:
+            return None, None
+
    def set_frequency(self, value: str) -> None:
        """This method is called when the set_frequency signal is received from the core.
        For the simulator this just prints a  warning that the simulator is selected.
        """
        self.module.nqrduck_signal.emit(
-                "notification", ["Warning", "Could not set averages to because the simulator is selected as active spectrometer "]
+            "notification",
+            [
+                "Warning",
+                "Could not set averages to because the simulator is selected as active spectrometer ",
+            ],
        )

    def set_averages(self, value: str) -> None:
--- a/src/nqrduck_spectrometer_simulator/model.py
+++ b/src/nqrduck_spectrometer_simulator/model.py
@ -102,6 +102,8 @@ class SimulatorModel(BaseSpectrometerModel):
        # self.add_pulse_parameter_option(self.GATE, Gate)
        self.add_pulse_parameter_option(self.RX, RXReadout)

+        self.averages = 1
+
        # Try to load the pulse programmer module
        try:
            from nqrduck_pulseprogrammer.pulseprogrammer import pulse_programmer