1 files changed, 249 insertions, 0 deletions

diff --git a/tools/gr-usrptest/apps/rx_settling_time.py b/tools/gr-usrptest/apps/rx_settling_time.py
new file mode 100755
index 000000000..d58eeb9dc
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+++ b/tools/gr-usrptest/apps/rx_settling_time.py
@@ -0,0 +1,249 @@
+#!/usr/bin/env python
+#
+# Copyright 2018 Ettus Research, a National Instruments Company
+#
+# SPDX-License-Identifier: GPL-3.0-or-later
+#
+"""
+RX samples and apply settings as a timed command. Use this tool to analyze the
+settling time of analog components as well as the accuracy of timed commands.
+Typically, you will need to connect a tone or other signal generator to the
+DUT's input.
+
+Example: This would receive several seconds of data from an X3x0 device,
+tune to 1 GHz, and then bump the gain by 30 dB after a set amount of
+time:
+
+$ rx_settling_time.py -a type=x300 -f 1e9 -g 0 --new-gain 30 --plot
+"""
+
+from __future__ import print_function
+import argparse
+import numpy as np
+from six import iteritems
+import uhd
+
+
+def parse_args():
+    """Parse the command line arguments"""
+    parser = argparse.ArgumentParser(
+        description=__doc__
+    )
+    parser.add_argument(
+        "-a", "--args", default="",
+        help="Device args (e.g., 'type=x300')")
+    parser.add_argument(
+        "--spec",
+        help="Subdev spec (e.g. 'B:0')")
+    parser.add_argument(
+        "-d", "--duration", default=5.0, type=float,
+        help="Total acquisition time")
+    parser.add_argument(
+        "--setup-delay", default=.5, type=float,
+        help="Time before starting receive")
+    parser.add_argument(
+        "--set-delay", default=2.0, type=float,
+        help="Time between starting to receive and changing settings")
+    parser.add_argument(
+        "--skip-time", default=0.0, type=float,
+        help="Time to skip after starting to receive")
+    parser.add_argument(
+        "-o", "--output-file", type=str,
+        help="Name of the output file (e.g., 'output.dat')")
+    parser.add_argument(
+        "-f", "--freq", type=float, required=True,
+        help="Initial frequency")
+    parser.add_argument(
+        "-g", "--gain", type=float, default=20.0,
+        help="Initial gain")
+    parser.add_argument(
+        "--new-freq", type=float,
+        help="Frequency after set time")
+    parser.add_argument(
+        "--new-gain",
+        help="Gain after set time")
+    parser.add_argument(
+        "-r", "--rate", default=1e6, type=float,
+        help="Sampling rate (Hz)")
+    parser.add_argument(
+        "-c", "--channel", default=0, type=int, help="Channel on which to receive on")
+    parser.add_argument(
+        "-n", "--numpy", default=False, action="store_true",
+        help="Save output file in NumPy format (default: No)")
+    parser.add_argument(
+        "--plot", default=False, action="store_true",
+        help="Show nice pic")
+    return parser.parse_args()
+
+
+
+def get_rx_streamer(usrp, chan):
+    """
+    Return a streamer
+    """
+    st_args = uhd.usrp.StreamArgs("fc32", "sc16")
+    st_args.channels = [chan,]
+    return usrp.get_rx_stream(st_args)
+
+
+def apply_initial_settings(usrp, chan, rate, freq, gain):
+    """
+    Apply initial settings for:
+    - freq
+    - gain
+    - rate
+    """
+    usrp.set_rx_rate(rate)
+    tune_req = uhd.types.TuneRequest(freq)
+    usrp.set_rx_freq(tune_req, chan)
+    usrp.set_rx_gain(gain, chan)
+
+
+def start_rx_stream(streamer, start_time):
+    """
+    Kick off the RX streamer
+    """
+    stream_cmd = uhd.types.StreamCMD(uhd.types.StreamMode.start_cont)
+    stream_cmd.stream_now = False
+    stream_cmd.time_spec = start_time
+    streamer.issue_stream_cmd(stream_cmd)
+
+
+def load_commands(usrp, chan, cmd_time, **kwargs):
+    """
+    Load the switching commands.
+    """
+    usrp.set_command_time(cmd_time)
+    kw_cb_map = {
+        'freq': lambda freq: usrp.set_rx_freq(uhd.types.TuneRequest(float(freq)), chan),
+        'gain': lambda gain: usrp.set_rx_gain(float(gain), chan),
+    }
+    for key, callback in iteritems(kw_cb_map):
+        if kwargs.get(key) is not None:
+            callback(kwargs[key])
+    usrp.clear_command_time()
+
+
+def recv_samples(rx_streamer, total_num_samps, skip_samples):
+    """
+    Run the receive loop and crop samples.
+    """
+    metadata = uhd.types.RXMetadata()
+    result = np.empty((1, total_num_samps), dtype=np.complex64)
+    total_samps_recvd = 0
+    timeouts = 0 # This is a bit of a hack, until we can pass timeout values to
+                 # Python
+    max_timeouts = 20
+    buffer_samps = rx_streamer.get_max_num_samps()
+    recv_buffer = np.zeros(
+        (1, buffer_samps), dtype=np.complex64)
+    while total_samps_recvd < total_num_samps:
+        samps_recvd = rx_streamer.recv(recv_buffer, metadata)
+        if metadata.error_code == uhd.types.RXMetadataErrorCode.timeout:
+            timeouts += 1
+            if timeouts >= max_timeouts:
+                print("[ERROR] Reached timeout threshold. Exiting.")
+                return None
+        elif metadata.error_code != uhd.types.RXMetadataErrorCode.none:
+            print("[ERROR] " + metadata.strerror())
+            return None
+        if samps_recvd:
+            samps_recvd = min(total_num_samps - total_samps_recvd, samps_recvd)
+            result[:, total_samps_recvd:total_samps_recvd + samps_recvd] = \
+                recv_buffer[:, 0:samps_recvd]
+            total_samps_recvd += samps_recvd
+    if skip_samples:
+        print("Skipping {} samples.".format(skip_samples))
+    return result[0][skip_samples:]
+
+
+def save_to_file(samps, filename, save_as_numpy):
+    """
+    Save samples to binary file
+    """
+    with open(filename, 'wb') as out_file:
+        if save_as_numpy:
+            np.save(out_file, samps, allow_pickle=False, fix_imports=False)
+        else:
+            samps.tofile(out_file)
+
+def plot_samps(samps, rate, set_offset):
+    """
+    Show a nice piccie
+    """
+    try:
+        import pylab
+    except ImportError:
+        print("[ERROR] --plot requires pylab.")
+        return
+    ylim = max(
+        max(np.abs(np.real(samps))),
+        max(np.abs(np.imag(samps))),
+    )
+    time_axis = np.arange(len(samps)) / rate - set_offset
+    pylab.plot(time_axis, np.real(samps))
+    pylab.plot(time_axis, np.imag(samps))
+    pylab.ylim((-ylim, ylim))
+    pylab.grid(True)
+    pylab.xlabel('Time offset [s]')
+    pylab.ylabel('Amplitude')
+    pylab.legend(('In-Phase', 'Quadrature'))
+    pylab.title('Settling Time')
+    pylab.show()
+
+
+def main():
+    """Execute"""
+    args = parse_args()
+    usrp = uhd.usrp.MultiUSRP(args.args)
+    if args.spec is not None:
+        usrp.set_rx_subdev_spec(uhd.usrp.SubdevSpec(args.spec))
+    rx_streamer = get_rx_streamer(usrp, args.channel)
+    total_num_samps = int(args.duration * args.rate)
+    skip_samps = int(args.skip_time * args.rate)
+    print("Total number of samples to acquire: {}".format(total_num_samps))
+    apply_initial_settings(
+        usrp,
+        args.channel,
+        args.rate,
+        args.freq,
+        args.gain
+    )
+    time_zero = usrp.get_time_now()
+    print("Sending stream commands...")
+    start_rx_stream(
+        rx_streamer,
+        time_zero+args.setup_delay,
+    )
+    print("Preloading set commands...")
+    load_commands(
+        usrp=usrp,
+        chan=args.channel,
+        cmd_time=time_zero+args.setup_delay+args.set_delay,
+        freq=args.new_freq,
+        gain=args.new_gain,
+    )
+    print("Starting receive...")
+    samps = recv_samples(rx_streamer, total_num_samps, skip_samps)
+    if samps is None:
+        return False
+    print("Received {} samples.".format(samps.size))
+    print("New settings are applied at sample index {}."
+          .format(int((args.set_delay - args.skip_time) * args.rate)))
+    if args.plot:
+        plot_samps(
+            samps,
+            args.rate,
+            args.set_delay - args.skip_time,
+        )
+    if args.output_file:
+        save_to_file(
+            samps,
+            args.output_file,
+            args.numpy,
+        )
+    return True
+
+if __name__ == "__main__":
+    exit(not main())
+