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-rw-r--r--host/python/uhd/dsp/__init__.py10
-rw-r--r--host/python/uhd/dsp/signals.py74
2 files changed, 84 insertions, 0 deletions
diff --git a/host/python/uhd/dsp/__init__.py b/host/python/uhd/dsp/__init__.py
new file mode 100644
index 000000000..e15a2a5eb
--- /dev/null
+++ b/host/python/uhd/dsp/__init__.py
@@ -0,0 +1,10 @@
+#
+# Copyright 2020 Ettus Research, a National Instruments Brand
+#
+# SPDX-License-Identifier: GPL-3.0-or-later
+#
+"""
+Python UHD Module: DSP sub-module
+"""
+
+from . import signals
diff --git a/host/python/uhd/dsp/signals.py b/host/python/uhd/dsp/signals.py
new file mode 100644
index 000000000..51e814dc0
--- /dev/null
+++ b/host/python/uhd/dsp/signals.py
@@ -0,0 +1,74 @@
+#
+# Copyright 2020 Ettus Research, a National Instruments Brand
+#
+# SPDX-License-Identifier: GPL-3.0-or-later
+#
+"""
+Utilities for generating/analyzing signals
+"""
+
+import math
+import numpy
+import uhd
+
+def get_continuous_tone(rate, freq, ampl, desired_size=None, max_size=None):
+ """
+ Return a buffer containing a complex tone at frequency freq. The tone is
+ continuous, that is, repeating this signal will produce a continuous phase
+ sinusoid.
+ The buffer will try and approximate desired_size in length. If it is not
+ possible to create a buffer smaller than max_size, an exception is thrown.
+
+ Arguments:
+ rate -- Sampling rate in Hz.
+ freq -- Tone frequency in Hz
+ ampl -- Amplitude
+ desired_size -- Number of samples ideally in returned buffer
+ max_size -- Number of samples maximally in returned buffer
+ """
+ desired_size = desired_size or 1.0 * rate # About one second worth of data
+ max_size = max_size or 100e6
+ assert rate > freq
+ rate_int = int(rate)
+ freq_int = int(freq)
+ gcd = math.gcd(rate_int, freq_int)
+ rate_int = rate_int / gcd
+ freq_int = freq_int / gcd
+ length = max(freq_int * rate_int, 1) # freq may be zero
+ tone = \
+ numpy.exp(1j * 2 * numpy.pi * (freq/rate) * numpy.arange(length), dtype=numpy.complex64) \
+ * ampl
+ if length < desired_size:
+ tone = numpy.tile(tone, int(desired_size // length))
+ if length > max_size:
+ raise ValueError("Cannot create a TX buffer! Rate/Freq ratio is too odd.")
+ return tone
+
+def get_power_dbfs(signal):
+ """
+ Return the power in dBFS for a digital signal, where fullscale is considered
+ 1.0.
+
+ A sinusoid with amplitude 1.0 will thus return 0.0 (dBFS).
+ """
+ return 10 * numpy.log10(numpy.var(signal))
+
+def get_usrp_power(streamer, num_samps=1e6, chan=0):
+ """
+ Return the measured input power in dBFS
+
+ The return value is a list of dBFS power values, one per channel.
+ """
+ recv_buffer = numpy.zeros(
+ (streamer.get_num_channels(), num_samps), dtype=numpy.complex64)
+ metadata = uhd.types.RXMetadata()
+ stream_cmd = uhd.types.StreamCMD(uhd.types.StreamMode.num_done)
+ stream_cmd.num_samps = num_samps
+ stream_cmd.stream_now = True
+ streamer.issue_stream_cmd(stream_cmd)
+ # Pass in long timeout, so we can rx the entire buffer in one go
+ samps_recvd = streamer.recv(recv_buffer, metadata, 5.0)
+ if samps_recvd != num_samps:
+ raise RuntimeError(
+ "ERROR! get_usrp_power(): Did not receive the correct number of samples!")
+ return get_power_dbfs(recv_buffer[chan])