11:16:03.191: Starting 11:16:03.191: Product .....: SDR Console version 3.0.25 build 1987 11:16:03.191: Copyright ...: Copyright (C) 2020 by SDR-Radio.com Limited 11:16:03.191: Build date ..: Sep 4 2020, 13:26:49 11:16:03.195: Command line: "c:\program files\sdr-radio.com (v3)\sdr console.exe" 11:16:03.270: Low power .: No 11:16:03.270: 32-bit ..: No 11:16:03.270: Cores ...: 8 11:16:03.270: Speed ...: 3.4 GHz 11:16:03.270: Tablet ..: No 11:16:03.270: - 11:16:03.279: Favourites: Loading C:\Users\Jean\AppData\Roaming\SDR-RADIO.com (V3)\Console\Ident0\SDR-Favourites_000.xml 11:16:03.281: Favourites: Loaded 56 11:16:04.489: Execution state = Continuous Intel IPP --------- Target CPU: e9 Name: ippSP AVX (e9) Version: 8.0.1 (r40318) Build date: Jul 11 2013 - Logical CPUs: 8 - Features: [X] MMX ..... Intel Architecture MMX Features: [X] SSE ..... Streaming SIMD Extensions Features: [X] SSE2 .... Streaming SIMD Extensions 2 Features: [X] SSE3 .... Streaming SIMD Extensions 3 Features: [X] SSE3S ... Streaming SIMD Extensions 3 (supplemental) Features: [X] SSE4.1 .. Streaming SIMD Extensions 4.1 Features: [X] SSE4.2 .. Streaming SIMD Extensions 4.2 Features: [X] AVX ..... Advanced Vector Extensions 1 instruction set Features: [_] AVX2 .... Advanced Vector Extensions 2 instruction set Features: [X] The operating system supports AVX Features: [_] The processor supports MOVBE instruction Features: [X] AES instruction Features: [X] PCLMULQDQ instruction Features: [_] Read Random Number instructions Features: [_] Float16 instructions Features: [_] ADCX and ADOX instructions Features: [_] The RDSEED instruction Features: [_] The PREFETCHW instruction Features: [_] Knights Corner instruction set 11:16:04.969: Favourites: Loading C:\Users\Jean\AppData\Roaming\SDR-RADIO.com (V3)\Console\Ident0\SDR-FavDefault_000.xml 11:16:04.969: Favourites: Loaded 1 11:16:05.615: Serial Ports: Opening \\.\COM19 11:16:05.615: Device control block = 57600,n,8,1 11:16:05.615: Ready 11:16:05.615: MIDI 11:16:05.790: Digital Decoder [0] Demod> Starting thread 11:16:05.790: Digital Decoder [0] Demod> Setting priority to 'Below normal' (-1) 11:16:05.790: Digital Decoder [0] FFT> Starting thread 11:16:05.791: Digital Decoder [0] FFT> Setting priority to 'Below normal' (-1) 11:16:05.791: Digital Decoder [0] Demod> Stopping thread Digital Decoder [0] Demod 11:16:05.791: Digital Decoder [0] FFT> Stopping thread Digital Decoder [0] FFT 11:16:05.810: Data Recorder> Starting thread 11:16:05.811: Data Recorder> Setting priority to 'Below normal' (-1) 11:16:05.811: Tmate2> Starting thread 11:16:05.811: Tmate2> Setting priority to 'Below normal' (-1) 11:16:05.812: Video> Starting thread 11:16:05.812: Video> Setting priority to 'Above normal' (1) 11:16:05.813: FFTHelper> Starting thread 11:16:05.813: FFTHelper> Setting priority to 'Normal' (0) 11:16:05.823: Adding receiver 1 11:16:05.823: Creating new receiver, current count 0 11:16:05.823: RX1 Audio 11:16:05.823: RX1 Recording 11:16:05.823: RX1 Recording> Starting thread 11:16:05.824: RX1 Recording> Setting priority to 'Lowest' (-2) 11:16:05.824: RX1 Audio> Starting thread 11:16:05.824: RX1 Audio> Setting priority to 'Highest' (2) 11:16:05.824: RX1 Demod 11:16:05.825: RX1 Demod> Starting thread 11:16:05.825: RX1 Demod> Setting priority to 'Above normal' (1) 11:16:05.825: Loading USA PI code database 11:16:05.825: Text length ......: 421782 11:16:05.825: Entries loaded ...: 13033 11:16:05.826: Maximum location .: 23 11:16:05.826: - 11:16:05.826: RX1 RDS 11:16:05.826: RX1 RDS> Starting thread 11:16:05.827: RX1 RDS> Setting priority to 'Below normal' (-1) 11:16:05.827: Created receiver 1 11:16:05.827: - 11:16:05.828: Adding receiver 2 11:16:05.828: Creating new receiver, current count 1 11:16:05.829: RX2 Audio 11:16:05.829: RX2 Recording 11:16:05.829: RX2 Recording> Starting thread 11:16:05.830: RX2 Recording> Setting priority to 'Lowest' (-2) 11:16:05.830: RX2 Audio> Starting thread 11:16:05.830: RX2 Audio> Setting priority to 'Highest' (2) 11:16:05.831: RX2 Demod 11:16:05.831: RX2 Demod> Starting thread 11:16:05.832: RX2 Demod> Setting priority to 'Above normal' (1) 11:16:05.832: Chaining RX1 Demod to RX2 Demod 11:16:05.832: RX2 RDS 11:16:05.833: RX2 RDS> Starting thread 11:16:05.833: RX2 RDS> Setting priority to 'Below normal' (-1) 11:16:05.834: Created receiver 2 11:16:05.834: - 11:16:05.834: RX1 Audio> WASAPI: Opening "Lautsprecher (High Definition Audio Device)" 11:16:05.835: RX1 Audio> Opening: Lautsprecher (High Definition Audio Device) 11:16:05.835: RX2 Demod> Receiver is enabled 11:16:05.836: RX1 Demod> Receiver is enabled 11:16:05.836: RX1 Audio> Activating audio client 11:16:05.836: RX1 Audio> 11:16:05.837: RX1 Audio> *** 11:16:05.837: RX1 Audio> * 11:16:05.838: RX1 Audio> * Lautsprecher (High Definition Audio Device) 11:16:05.838: RX1 Audio> * 11:16:05.838: RX1 Audio> * Mixer format (from audio engine): 11:16:05.839: RX1 Audio> * Mode ................: Shared 11:16:05.839: RX1 Audio> * Channels ............: 2 11:16:05.840: RX1 Audio> * Structure ...........: PCM data that has more than two channels or uses a channel mask (WAVE_FORMAT_EXTENSIBLE) 11:16:05.840: RX1 Audio> * Bits per sample .....: 32 11:16:05.841: RX1 Audio> * Samples per second ..: 48000 11:16:05.841: RX1 Audio> * Block alignment .....: 8 11:16:05.841: RX1 Audio> * Bytes per second ....: 384000 11:16:05.842: RX1 Audio> * Extensible: 11:16:05.842: RX1 Audio> * Bits of precision ...: 32 11:16:05.842: RX1 Audio> * Samples per block ...: 32 11:16:05.843: RX1 Audio> * Channel mask ........: 00000003 11:16:05.843: RX1 Audio> * GUID ................: {00000003-0000-0010-8000-00AA00389B71} 11:16:05.843: RX1 Audio> * 11:16:05.843: RX1 Audio> * Stream format (above) is supported 11:16:05.844: RX1 Audio> * 11:16:05.844: RX1 Audio> *** 11:16:05.844: RX1 Audio> 11:16:06.048: RX1 Audio> Initialised OK 11:16:06.049: RX1 Audio> 11:16:06.049: RX1 Audio> *** 11:16:06.049: RX1 Audio> * 11:16:06.049: RX1 Audio> * Lautsprecher (High Definition Audio Device) 11:16:06.049: RX1 Audio> * 11:16:06.050: RX1 Audio> * Endpoint buffer: size of the endpoint buffer (frames) 11:16:06.050: RX1 Audio> * Max latency: minimum amount of data to write during any single processing pass 11:16:06.050: RX1 Audio> * Device period: length of the periodic interval separating successive processing 11:16:06.050: RX1 Audio> passes by the audio engine on the data in the endpoint buffer 11:16:06.050: RX1 Audio> * Processing: interval separating successive processing passes 11:16:06.051: RX1 Audio> * 11:16:06.051: RX1 Audio> * Endpoint buffer: frames ..........: 1056 11:16:06.051: RX1 Audio> * period ..........: 22 ms 11:16:06.051: RX1 Audio> * Device period: default .........: 100000 (100 ns) 11:16:06.051: RX1 Audio> * minimum .........: 26667 (100 ns) 11:16:06.052: RX1 Audio> * Max latency: period ..........: 0 (100 ns) 11:16:06.052: RX1 Audio> * frames ..........: 0 11:16:06.052: RX1 Audio> * period ..........: 0 ms 11:16:06.052: RX1 Audio> * Processing: default period ..: 10 ms (shared) 11:16:06.052: RX1 Audio> * minimum period ..: 2 ms (exclusive) 11:16:06.053: RX1 Audio> * 11:16:06.053: RX1 Audio> *** 11:16:06.053: RX1 Audio> 11:16:06.053: RX1 Audio> Virtual audio cable detected: No 11:16:06.053: RX1 Audio> 11:16:06.054: RX1 Audio> WASAPI Feed Initialise 11:16:06.054: RX1 Audio> Buffer size mul ......: x2 11:16:06.054: RX1 Audio> VAC ..................: 0 11:16:06.054: RX1 Audio> Maximum fill .........: 0 11:16:06.054: RX1 Audio> Mode .................: 1, USB 11:16:06.055: RX1 Audio> Device period ........: 10 ms 11:16:06.055: RX1 Audio> Audio frame period ...: 22 ms 11:16:06.055: RX1 Audio> Threshold low ........: 20 ms, 960 samples 11:16:06.055: RX1 Audio> Threshold high .......: 50 ms, 2400 samples 11:16:06.056: RX1 Audio> - 11:16:06.056: RX2 Audio> WASAPI: Opening "CABLE Input (VB-Audio Virtual Cable)" 11:16:06.056: RX2 Audio> Opening: CABLE Input (VB-Audio Virtual Cable) 11:16:06.056: RX2 Audio> Activating audio client 11:16:06.057: RX2 Audio> 11:16:06.057: RX2 Audio> *** 11:16:06.057: RX2 Audio> * 11:16:06.057: RX2 Audio> * CABLE Input (VB-Audio Virtual Cable) 11:16:06.057: RX2 Audio> * 11:16:06.058: RX2 Audio> * Mixer format (from audio engine): 11:16:06.058: RX2 Audio> * Mode ................: Shared 11:16:06.058: RX2 Audio> * Channels ............: 2 11:16:06.058: RX2 Audio> * Structure ...........: PCM data that has more than two channels or uses a channel mask (WAVE_FORMAT_EXTENSIBLE) 11:16:06.058: RX2 Audio> * Bits per sample .....: 32 11:16:06.059: RX2 Audio> * Samples per second ..: 48000 11:16:06.059: RX2 Audio> * Block alignment .....: 8 11:16:06.059: RX2 Audio> * Bytes per second ....: 384000 11:16:06.059: RX2 Audio> * Extensible: 11:16:06.059: RX2 Audio> * Bits of precision ...: 32 11:16:06.060: RX2 Audio> * Samples per block ...: 32 11:16:06.060: RX2 Audio> * Channel mask ........: 00000003 11:16:06.060: RX2 Audio> * GUID ................: {00000003-0000-0010-8000-00AA00389B71} 11:16:06.060: RX2 Audio> * 11:16:06.060: RX2 Audio> * Stream format (above) is supported 11:16:06.061: RX2 Audio> * 11:16:06.061: RX2 Audio> *** 11:16:06.061: RX2 Audio> 11:16:06.061: RX2 Audio> Initialised OK 11:16:06.061: RX2 Audio> 11:16:06.062: RX2 Audio> *** 11:16:06.062: RX2 Audio> * 11:16:06.062: RX2 Audio> * CABLE Input (VB-Audio Virtual Cable) 11:16:06.062: RX2 Audio> * 11:16:06.062: RX2 Audio> * Endpoint buffer: size of the endpoint buffer (frames) 11:16:06.063: RX2 Audio> * Max latency: minimum amount of data to write during any single processing pass 11:16:06.063: RX2 Audio> * Device period: length of the periodic interval separating successive processing 11:16:06.063: RX2 Audio> passes by the audio engine on the data in the endpoint buffer 11:16:06.063: RX2 Audio> * Processing: interval separating successive processing passes 11:16:06.063: RX2 Audio> * 11:16:06.064: RX2 Audio> * Endpoint buffer: frames ..........: 1056 11:16:06.064: RX2 Audio> * period ..........: 22 ms 11:16:06.064: RX2 Audio> * Device period: default .........: 100000 (100 ns) 11:16:06.064: RX2 Audio> * minimum .........: 30000 (100 ns) 11:16:06.064: RX2 Audio> * Max latency: period ..........: 0 (100 ns) 11:16:06.065: RX2 Audio> * frames ..........: 0 11:16:06.065: RX2 Audio> * period ..........: 0 ms 11:16:06.065: RX2 Audio> * Processing: default period ..: 10 ms (shared) 11:16:06.065: RX2 Audio> * minimum period ..: 3 ms (exclusive) 11:16:06.065: RX2 Audio> * 11:16:06.066: RX2 Audio> *** 11:16:06.066: RX2 Audio> 11:16:06.066: RX2 Audio> Virtual audio cable detected: Yes 11:16:06.066: RX2 Audio> 11:16:06.066: RX2 Audio> WASAPI Feed Initialise 11:16:06.067: RX2 Audio> Buffer size mul ......: x2 11:16:06.067: RX2 Audio> VAC ..................: 1 11:16:06.067: RX2 Audio> Maximum fill .........: 0 11:16:06.067: RX2 Audio> Mode .................: 1, USB 11:16:06.067: RX2 Audio> Device period ........: 10 ms 11:16:06.068: RX2 Audio> Audio frame period ...: 22 ms 11:16:06.068: RX2 Audio> Threshold low ........: 125 ms, 6000 samples 11:16:06.068: RX2 Audio> Threshold high .......: 250 ms, 12000 samples 11:16:06.068: RX2 Audio> - 11:16:06.090: Data Recorder> Scheduler loading XML 11:16:06.090: Data Recorder> Filename .....: C:\Users\Jean\AppData\Roaming\SDR-RADIO.com (V3)\Console\Ident0\SDR-Schedule_000.xml 11:16:06.091: Data Recorder> Definitions ..: 0 11:16:06.091: Data Recorder> - 11:16:06.091: Data Recorder> Scheduler enable 11:16:06.091: Data Recorder> Enabled ..: 0 11:16:06.092: Data Recorder> - 11:16:06.092: Geo Beacon FFT> Starting thread 11:16:06.093: Geo Beacon FFT> Setting priority to 'Below normal' (-1) 11:16:06.462: Select Radio> Loading support DLLs 11:16:06.463: Select Radio> -------------------- 11:16:06.463: Select Radio> Search ...........: C:\Program Files\SDR-Radio.com (V3)\SDRSource*.dll 11:16:06.463: Select Radio> - 11:16:06.463: Afedri LAN 11:16:06.464: Afedri USB 11:16:06.464: SDR MK1.5 Andrus 11:16:06.464: bladeRF v1 11:16:06.464: ELAD FDM-S1/S2 11:16:06.464: Ettus Research 11:16:06.465: FUNcube Dongles 11:16:06.465: HackRF 11:16:06.465: RFspace CloudIQ, CloudSDR, NetSDR, SDR-IP 11:16:06.465: RTL Dongle USB 11:16:06.465: RTL Dongle TCP 11:16:06.466: RFspace SDR-IQ and SDR-14 11:16:06.466: SDRplay V2 11:16:06.466: SoftRock Si570 11:16:06.466: Select Radio> - 11:16:06.468: Select Radio> Filename DLL Name Date Unique ID Version 11:16:06.468: Select Radio> -------------------------------------------------------------------------------------------------------------------------- 11:16:06.468: Select Radio> SDRSourceAfedriLAN.dll Afedri LAN Sep 4 2020, 13:25:00 Afedri-LAN 1.0.0 11:16:06.469: Select Radio> SDRSourceAfedriUSB.dll Afedri USB Sep 4 2020, 13:24:34 Afedri-USB 1.0.0 11:16:06.469: Select Radio> SDRSourceAirspy.dll Airspy R1/R2/Mini Sep 4 2020, 13:25:08 Airspy.com 1.0.0 11:16:06.469: Select Radio> SDRSourceAirspyHFPlus.dll Airspy HF+/Discovery Sep 4 2020, 13:24:49 Airspy HF+ 1.0.0 11:16:06.469: Select Radio> SDRSourceAirspyServer.dll Airspy SPY Server Sep 4 2020, 13:25:13 Airspy (SPY Server) 1.0.0 11:16:06.469: Select Radio> SDRSourceAndrusMK1d5.dll SDR MK1.5 Andrus Sep 4 2020, 13:25:17 SDR MK1.5 Andrus 1.0.0 11:16:06.470: Select Radio> SDRSourceBladeRF.dll bladeRF v1 Sep 4 2020, 13:25:25 Nuand-BladeRF 1.0.0 11:16:06.470: Select Radio> SDRSourceBladeRFv2.dll bladeRF v2 Sep 4 2020, 13:25:17 Nuand-BladeRF-v2 1.0.0 11:16:06.470: Select Radio> SDRSourceEladDUOr.dll ELAD FDM-DUOr Sep 4 2020, 13:25:43 ELAD-FDM-DUO 1.0.0 11:16:06.470: Select Radio> SDRSourceEladDUOtx.dll ELAD FDM-DUO trx Sep 4 2020, 13:24:50 ELAD-FDM-DUO(trx) 1.0.0 11:16:06.470: Select Radio> SDRSourceEladFDMS1.dll ELAD FDM-S1/S2 Sep 4 2020, 13:25:22 ELAD-FDM-S1LAN 1.0.0 11:16:06.471: Select Radio> SDRSourceEladS3.dll ELAD FDM-S3 Sep 4 2020, 13:25:48 ELAD-FDM-S3 1.0.0 11:16:06.471: Select Radio> SDRSourceEttus.dll Ettus Research Sep 4 2020, 13:25:28 Ettus002 1.0.0 11:16:06.471: Select Radio> SDRSourceFUNcube.dll FUNcube Dongles Sep 4 2020, 13:25:31 FUNcube 1.0.0 11:16:06.471: Select Radio> SDRSourceHackRF.dll HackRF Sep 4 2020, 13:24:33 HackRF One 1.0.0 11:16:06.471: Select Radio> SDRSourceHermesLite.dll Hermes-Lite Sep 4 2020, 13:25:33 Hermes-Lite 1.0.0 11:16:06.472: Select Radio> SDRSourceICOM.dll ICOM IC-R8600 Sep 4 2020, 13:25:06 ICOM-001 1.0.0 11:16:06.472: Select Radio> SDRSourceLime.dll LimeSDR Sep 4 2020, 13:25:41 limesdr.org 1.0.0 11:16:06.472: Select Radio> SDRSourceNetSDR.dll RFspace CloudIQ, CloudSDR, NetSDR, SDR-IP Sep 4 2020, 13:25:08 RFspace001 1.0.0 11:16:06.472: Select Radio> SDRSourceOpenHPSDR.dll ANAN (OpenHPSDR) Sep 4 2020, 13:25:31 OpenHPSDR 1.0.0 11:16:06.473: Select Radio> SDRSourcePerseus.dll Perseus Sep 4 2020, 13:24:52 Microtelecom001 1.0.0 11:16:06.473: Select Radio> SDRSourcePluto.dll PlutoSDR Sep 4 2020, 13:25:25 adalm-pluto 1.0.0 11:16:06.473: Select Radio> SDRSourceRTL2832U.dll RTL Dongle USB Sep 4 2020, 13:25:35 RTL SDR (USB) 1.1.0 11:16:06.473: Select Radio> SDRSourceRTLSDR.dll RTL Dongle TCP Sep 4 2020, 13:25:09 RTL SDR (TCP) 1.0.0 11:16:06.474: Select Radio> SDRSourceRX666.dll RX-666/RX-888 Sep 4 2020, 13:25:04 RX-666 1.0.0 11:16:06.474: Select Radio> SDRSourceSDRIQ.dll RFspace SDR-IQ and SDR-14 Sep 4 2020, 13:25:05 RFspace002 1.0.0 11:16:06.474: Select Radio> SDRSourceSDRplay.dll SDRplay V2 Sep 4 2020, 13:25:35 SDRplay 1.0.0 11:16:06.474: Select Radio> SDRSourceSDRplayV3.dll SDRplay V3 Sep 4 2020, 13:25:04 SDRplayV3 1.0.0 11:16:06.474: Select Radio> SDRSourceServer.dll V3 Server Sep 4 2020, 13:25:11 V3Server 1.0.0 11:16:06.475: Select Radio> SDRSourceSoftRockSi570.dll SoftRock Si570 Sep 4 2020, 13:25:49 SoftRock (Si570) 1.0.0 11:16:06.475: Select Radio> SDRSourceSoftRockXTAL.dll SoftRock XTAL Sep 4 2020, 13:25:15 SoftRock (XTAL) 1.0.0 11:16:06.475: Select Radio> SDRSourceStreamer.dll Console Streamer Sep 4 2020, 13:25:19 Streamer 1.0.0 11:16:06.475: Select Radio> SDRSourceWinradioSigma.dll WiNRADiO Sigma Sep 4 2020, 13:24:59 WiNRADiO Sigma 1.0.0 11:16:06.475: Select Radio> - 11:16:06.476: Select Radio> Selecting Radio 11:16:06.477: Select Radio> Bandwidth List 11:16:06.477: Select Radio> -------------- 11:16:06.478: Select Radio> Model ....: ADALM-PLUTO 11:16:06.478: Select Radio> Address ..: ip:192.168.73.54 11:16:06.478: Select Radio> List .....: 550000,750000,900000,1200000,1500000,2100000,2500000,3000000,4000000# (No TX),4500000# (No TX),5000000# (No TX),5500000# (No TX),6000000# (No TX) 11:16:06.478: Select Radio> 11:16:15.751: Execution state = Continuous, System, Awaymode, Display 11:16:16.333: Select Radio> Initialising 11:16:16.333: Select Radio> ------------ 11:16:16.334: Select Radio> Parent class .: CMainFrame 11:16:16.335: Select Radio> - 11:16:16.335: Select Radio> Connecting 11:16:16.335: Select Radio> ---------- 11:16:16.336: Select Radio> Address ....: ip:192.168.73.54 11:16:16.336: Select Radio> Model ......: ADALM-PLUTO 11:16:16.336: Select Radio> Serial .....: 11:16:16.336: Select Radio> Port .......: 0 11:16:16.336: Select Radio> Soundcard ..: 11:16:16.337: Select Radio> Parent wnd .: 000308EC 11:16:16.337: Select Radio> Bandwidth ..: 1200000 11:16:16.337: Select Radio> Frequency ..: 10489750000 11:16:16.337: Select Radio> PPM * 1000 .: 0 11:16:16.337: Select Radio> Converter ..: -9750000000 (RX) 11:16:16.338: Select Radio> Converter ..: -8089500000 (TX) 11:16:16.338: Select Radio> Swap IQ ....: 0 11:16:16.338: Select Radio> - 11:16:16.338: Select Radio> Connect frequency 10489750000 = 10489750000 + 0 (PPM) 0.0000 (PPM) 11:16:16.338: Select Radio> ApplyConversionRX DOWN frequency 10489750000, offset -9750000000, result 739750000 11:16:16.339: Radio PlutoSDR> Connecting to ip:192.168.73.54 11:16:16.339: Radio PlutoSDR> Devices 11:16:16.339: Radio PlutoSDR> ad9361-phy = FE6F85E0 11:16:16.340: Radio PlutoSDR> cf-ad9361-lpc = FE6F8660 11:16:16.340: Radio PlutoSDR> cf-ad9361-dds-core-lpc = FE6F7DE0 11:16:16.340: Radio PlutoSDR> - 11:16:16.340: Radio PlutoSDR> Attributes: TX 11:16:16.340: Radio PlutoSDR> [01] data_available = 0 11:16:16.341: Radio PlutoSDR> [02] length_align_bytes = 8 11:16:16.341: Radio PlutoSDR> [03] watermark = 2048 11:16:16.341: Radio PlutoSDR> - 11:16:16.341: Radio PlutoSDR> Set TX sample rate to 2400000 11:16:16.342: Radio PlutoSDR> Set Channel attribute sampling_frequency = 2400000 (name = out_voltage_sampling_frequency) 11:16:16.342: Radio PlutoSDR> Set RX LO frequency to 1000000000 11:16:16.342: Radio PlutoSDR> Set Channel attribute frequency = 1000000000 (name = out_altvoltage0_RX_LO_frequency) 11:16:16.342: Radio PlutoSDR> Set RX LO frequency to 739750000 11:16:16.343: Radio PlutoSDR> Set Channel attribute frequency = 739750000 (name = out_altvoltage0_RX_LO_frequency) 11:16:16.343: Radio PlutoSDR> Set TX LO frequency to 739750000 11:16:16.343: Radio PlutoSDR> Set Channel attribute frequency = 739750000 (name = out_altvoltage1_TX_LO_frequency) 11:16:16.343: Radio PlutoSDR> Set RX antenna to A_BALANCED 11:16:16.343: Radio PlutoSDR> Set Channel attribute rf_port_select = A_BALANCED (name = in_voltage0_rf_port_select) 11:16:16.344: Radio PlutoSDR> Set TX antenna to A 11:16:16.344: Radio PlutoSDR> Set Channel attribute rf_port_select = A (name = out_voltage0_rf_port_select) 11:16:16.344: Radio PlutoSDR> Creating FIR Filter 11:16:16.344: Radio PlutoSDR> FIR Filter 11:16:16.344: Radio PlutoSDR> Configuration 11:16:16.345: Radio PlutoSDR> ------------- 11:16:16.345: Radio PlutoSDR> Sample rate ...: 1200000 11:16:16.345: Radio PlutoSDR> RX taps .......: 128 11:16:16.345: Radio PlutoSDR> bandwidth ..: 0.25 11:16:16.346: Radio PlutoSDR> factor .....: 1 11:16:16.346: Radio PlutoSDR> type .......: Rx Lowpass 11:16:16.346: Radio PlutoSDR> ripple .....: 0.50 dB 11:16:16.346: Radio PlutoSDR> stopband ...: 80.00 dB 11:16:16.346: Radio PlutoSDR> pass .......: [In] 300000 Hz 11:16:16.347: Radio PlutoSDR> stop .......: [In] 375000 Hz 11:16:16.347: Radio PlutoSDR> analog bw ..: [In] 525000 Hz 11:16:16.347: Radio PlutoSDR> analog 3dB .: [Out] 748666.0 Hz 11:16:16.347: Radio PlutoSDR> TX taps .......: 128 11:16:16.347: Radio PlutoSDR> bandwidth ..: 0.47 11:16:16.348: Radio PlutoSDR> factor .....: 2 11:16:16.348: Radio PlutoSDR> type .......: Tx Lowpass 11:16:16.348: Radio PlutoSDR> ripple .....: 0.50 dB 11:16:16.348: Radio PlutoSDR> stopband ...: 80.00 dB 11:16:16.348: Radio PlutoSDR> pass .......: [In] 570000 Hz 11:16:16.349: Radio PlutoSDR> stop .......: [In] 712500 Hz 11:16:16.349: Radio PlutoSDR> analog bw ..: [In] 1140000 Hz 11:16:16.349: Radio PlutoSDR> analog 3dB .: [Out] 1412068.0 Hz 11:16:16.349: Radio PlutoSDR> - 11:16:16.350: Radio PlutoSDR> RX boost ...: 1.00 11:16:16.350: Radio PlutoSDR> TX boost ...: 1.00 11:16:16.350: Radio PlutoSDR> RX max tap .: 7980 11:16:16.350: Radio PlutoSDR> TX max tap .: 16585 11:16:16.350: Radio PlutoSDR> ∫ RX taps ..: 32764.0 11:16:16.351: Radio PlutoSDR> ∫ TX taps ..: 66120.0 11:16:16.351: Radio PlutoSDR> - 11:16:16.351: Radio PlutoSDR> Setting FIR filter = RX 3 GAIN 0 DEC 2 TX 3 GAIN 0 INT 2 -3, 0 2, 0 7, 0 27, 0 49... 11:16:16.351: Radio PlutoSDR> Set Channel attribute voltage_filter_fir_en = 1 (name = in_out_voltage_filter_fir_en) 11:16:16.351: Radio PlutoSDR> Set Channel attribute sampling_frequency = 1200000 (name = in_voltage_sampling_frequency) 11:16:16.352: Radio PlutoSDR> Set Channel attribute rf_bandwidth = 525000 (name = in_voltage_rf_bandwidth) 11:16:16.352: Radio PlutoSDR> Set RX analog filter bandwidth = 525000, returned = 525000 11:16:16.352: Radio PlutoSDR> Set Channel attribute rf_bandwidth = 525000 (name = out_voltage_rf_bandwidth) 11:16:16.352: Radio PlutoSDR> Set TX analog filter bandwidth = 525000, returned = 525000 11:16:16.352: Radio PlutoSDR> Set TX gain to 0 11:16:16.353: Radio PlutoSDR> Set Channel attribute hardwaregain = 0.00 (name = out_voltage0_hardwaregain) 11:16:16.353: Radio PlutoSDR> Set Device attribute calib_mode = auto (name = calib_mode) 11:16:16.353: Radio PlutoSDR> Set Channel attribute quadrature_tracking_en = Y (name = in_voltage_quadrature_tracking_en) 11:16:16.353: Radio PlutoSDR> Set Channel attribute bb_dc_offset_tracking_en = Y (name = in_voltage_bb_dc_offset_tracking_en) 11:16:16.353: Radio PlutoSDR> Set Channel attribute rf_dc_offset_tracking_en = Y (name = in_voltage_rf_dc_offset_tracking_en) 11:16:16.354: Radio PlutoSDR> Attribute: calib_mode_available = auto manual manual_tx_quad tx_quad rf_dc_offs rssi_gain_step 11:16:16.354: Radio PlutoSDR> Attribute: calib_mode = auto 11:16:16.354: Radio PlutoSDR> Attribute: in_voltage_quadrature_tracking_en = 1 11:16:16.354: Radio PlutoSDR> Attribute: in_voltage_bb_dc_offset_tracking_en = 1 11:16:16.354: Radio PlutoSDR> Attribute: in_voltage_rf_dc_offset_tracking_en = 1 11:16:16.355: Radio PlutoSDR> Attribute: in_voltage_rf_port_select_available = A_BALANCED B_BALANCED C_BALANCED A_N A_P B_N B_P C_N C_P TX_MONITOR1 TX_MONITOR2 TX_MONITOR1_2 11:16:16.355: Radio PlutoSDR> Attribute: in_voltage_sampling_frequency = 1199999 11:16:16.355: Radio PlutoSDR> Attribute: in_voltage0_rf_port_select = A_BALANCED 11:16:16.355: Radio PlutoSDR> Attribute: in_voltage_rf_bandwidth = 525000 11:16:16.355: Radio PlutoSDR> Attribute: out_voltage_rf_port_select_available = A B 11:16:16.356: Radio PlutoSDR> Attribute: out_voltage_sampling_frequency = 1199999 11:16:16.357: Radio PlutoSDR> Attribute: out_voltage_sampling_frequency_available = [1041666 1 61440000] 11:16:16.357: Radio PlutoSDR> Attribute: out_voltage0_rf_port_select = A 11:16:16.357: Radio PlutoSDR> Attribute: out_voltage_rf_bandwidth = 525000 11:16:16.357: Radio PlutoSDR> Attribute: out_voltage_rf_bandwidth_available = [200000 1 40000000] 11:16:16.358: Radio PlutoSDR> Attribute: out_altvoltage0_RX_LO_frequency = 739749998 11:16:16.358: Radio PlutoSDR> Attribute: out_altvoltage0_RX_LO_frequency_available = [70000000 1 6000000000] 11:16:16.358: Radio PlutoSDR> Attribute: xo_correction = 40000000 11:16:16.358: Radio PlutoSDR> Set Device attribute xo_correction = 40000000 (name = xo_correction) 11:16:16.358: Radio PlutoSDR> Previous ANTENNA_RX value NOT found 11:16:16.359: Radio PlutoSDR> Previous ANTENNA_TX value NOT found 11:16:16.359: Radio PlutoSDR> Previous ANALOG_FILTER value NOT found 11:16:16.359: Radio PlutoSDR> Previous DIGITAL_FILTER value found, 100 11:16:16.359: Radio PlutoSDR> Previous GAIN_VISUAL value found, 0 11:16:16.359: Radio PlutoSDR> Previous GAIN_RX value found, 50 11:16:16.360: Radio PlutoSDR> Previous GAIN_TX value NOT found 11:16:16.360: Radio PlutoSDR> Previous GAIN_MODE value found, 0 11:16:16.360: Radio PlutoSDR> Previous MUTE_RX value found, 0 11:16:16.360: Radio PlutoSDR> Previous CALIB_MODE value NOT found 11:16:16.360: Select Radio> Status .....: OK 11:16:16.361: Radio Reader> Starting thread 11:16:16.361: Radio Reader> Setting priority to 'Highest' (2) 11:16:16.361: Select Radio> Starting 11:16:16.361: Select Radio> -------- 11:16:16.361: Select Radio> Bandwidth ..: 1200000 11:16:16.362: Select Radio> PPM ........: 0 11:16:16.362: Select Radio> - 11:16:16.362: CSDRFFTApp::Initialise 11:16:16.362: CUDA Enabled 1 11:16:16.363: - 11:16:16.363: CUDA device count = 0 11:16:16.363: CUDA best device index = 0 11:16:16.363: CUDA setting flags cudaDeviceMapHost, cudaDeviceLmemResizeToMax 11:16:16.363: CUDA device count = 1 11:16:16.364: CUDA best device index = 0 11:16:16.364: CUDA set device index = 0 11:16:16.364: CUDA FFT version = 8000 11:16:16.364: CUDA get device properties 11:16:16.364: Memory 11:16:16.365: cudaMemGetInfo, total = 2147483648 11:16:16.365: cudaMemGetInfo, free = 1068528435 11:16:16.365: Diagnostics: CUDA Diagnostics 11:16:16.365: Diagnostics: 11:16:16.366: Diagnostics: CUDA Memory information 11:16:16.366: Diagnostics: cudaMemGetInfo, total ..: 2147483648 11:16:16.366: Diagnostics: cudaMemGetInfo, free ...: 1068528435 11:16:16.366: Diagnostics: 11:16:16.366: Diagnostics: CUDA Device Count = 1, cudaGetDeviceCount() status = no error 11:16:16.367: Diagnostics: Driver version = 11.0 11:16:16.367: Diagnostics: Runtime version = 8.0 11:16:16.367: Diagnostics: 11:16:16.367: Diagnostics: CUDA Device 0, cudaGetDeviceProperties() status = no error 11:16:16.367: Diagnostics: Device name ..........................................: GeForce GTX 750 Ti 11:16:16.368: Diagnostics: Total global memory on device ........................: 2147483648 11:16:16.368: Diagnostics: Shared memory per block ..............................: 49152 11:16:16.368: Diagnostics: Registers per block ..................................: 65536 11:16:16.368: Diagnostics: Warp size in threads .................................: 32 11:16:16.368: Diagnostics: Memory pitch .........................................: 2147483647 11:16:16.369: Diagnostics: Max threads per block ................................: 1024 11:16:16.369: Diagnostics: Max block dimension ..................................: 1024, 1024, 64 11:16:16.369: Diagnostics: Max grid dimension ...................................: 2147483647 11:16:16.369: Diagnostics: Clock rate in kHz ....................................: 1202000 11:16:16.369: Diagnostics: Total constant memory ................................: 65536 11:16:16.370: Diagnostics: Major compute capability .............................: 5 11:16:16.370: Diagnostics: Minor compute capability .............................: 0 11:16:16.370: Diagnostics: Multiprocessors on device ............................: 5 11:16:16.370: Diagnostics: Device is integrated .................................: 0 11:16:16.370: Diagnostics: Can map host memory ..................................: 1 11:16:16.371: Diagnostics: Compute mode .........................................: Default compute mode 11:16:16.371: Diagnostics: Concurrent kernels ...................................: 1 11:16:16.371: Diagnostics: Tesla device using TCC driver ........................: 0 11:16:16.371: Diagnostics: Number of asynchronous engines .......................: 1 11:16:16.371: Diagnostics: Device shares a unified address space with the host ..: 1 11:16:16.372: Diagnostics: Peak memory clock frequency in kilohertz .............: 2700000 11:16:16.372: Diagnostics: Global memory bus width in bits ......................: 128 11:16:16.372: Diagnostics: Size of L2 cache in bytes ............................: 2097152 11:16:16.372: - 11:16:16.373: Intel IPP 11:16:16.373: --------- 11:16:16.373: Target CPU: e9 11:16:16.373: Name: ippSP AVX (e9) 11:16:16.374: Version: 2020.0.2 (r0xbb6c2c1d) 11:16:16.374: Build date: Jun 23 2020 11:16:16.374: - 11:16:16.374: Logical CPUs: 8 11:16:16.374: - 11:16:16.375: Features: [X] MMX ..... Intel Architecture MMX 11:16:16.375: Features: [X] SSE ..... Streaming SIMD Extensions 11:16:16.375: Features: [X] SSE2 .... Streaming SIMD Extensions 2 11:16:16.375: Features: [X] SSE3 .... Streaming SIMD Extensions 3 11:16:16.375: Features: [X] SSE3S ... Streaming SIMD Extensions 3 (supplemental) 11:16:16.376: Features: [X] SSE4.1 .. Streaming SIMD Extensions 4.1 11:16:16.376: Features: [X] SSE4.2 .. Streaming SIMD Extensions 4.2 11:16:16.376: Features: [X] AVX ..... Advanced Vector Extensions 1 instruction set 11:16:16.376: Features: [_] AVX2 .... Advanced Vector Extensions 2 instruction set 11:16:16.376: Features: [X] The operating system supports AVX 11:16:16.377: Features: [_] The processor supports MOVBE instruction 11:16:16.377: Features: [X] AES instruction 11:16:16.377: Features: [X] PCLMULQDQ instruction 11:16:16.377: Features: [_] Float16 instructions 11:16:16.377: Features: [_] ADCX and ADOX instructions 11:16:16.378: Features: [_] The RDSEED instruction 11:16:16.378: Features: [_] The PREFETCHW instruction 11:16:16.378: Features: [_] Knights Corner instruction set 11:16:16.378: - 11:16:16.379: FFTMain 0> Starting thread 11:16:16.379: FFTMain 0> Setting priority to 'Normal' (0) 11:16:16.379: FFTMain 1> Starting thread 11:16:16.379: FFTMain 1> Setting priority to 'Normal' (0) 11:16:16.379: FFTMain 1> Setting CUDA current device to card 0 11:16:16.380: FFTMain 0> Setting CUDA current device to card 0 11:16:16.380: Data Recorder> Initialising cache 11:16:16.380: Data Recorder> Duration 0 seconds 11:16:16.380: Data Recorder> Bandwidth 1200000 Hz 11:16:16.381: Data Recorder> Samples 0 (max 60000000) 11:16:16.381: Data Recorder> 11:16:16.381: FFT CUDA> initialising, resolution = x4, FFT size = 256k, FFT overlap = 77%, min free space required = 250 MB 11:16:16.381: FFT CUDA> OK 11:16:16.381: FFT IPP> OK 11:16:16.382: FFT CUDA> initialising, resolution = x2, FFT size = 128k, FFT overlap = 69%, min free space required = 250 MB 11:16:16.382: FFT CUDA> OK 11:16:16.382: FFT IPP> OK 11:16:16.382: Radio Pluto RX> Starting thread 11:16:16.382: Radio Pluto RX> Setting priority to 'Normal' (0) 11:16:16.383: Radio Pluto RX> Initialisation 11:16:16.383: Radio Pluto RX> Channel 0 ...: FE6F6960 11:16:16.383: Radio Pluto RX> Channel 1 ...: FE6F69E0 11:16:16.383: Radio Pluto RX> Data Format 11:16:16.383: Radio Pluto RX> Length .........: 16 11:16:16.384: Radio Pluto RX> Bits ...........: 12 11:16:16.384: Radio Pluto RX> Shift ..........: 0 11:16:16.384: Radio Pluto RX> Signed .........: Yes 11:16:16.384: Radio Pluto RX> Fully defined ..: Yes 11:16:16.384: Radio Pluto RX> Big endian .....: No 11:16:16.385: Radio Pluto RX> With scale .....: No 11:16:16.385: Radio Pluto RX> Scale ..........: 0.000000 11:16:16.385: Radio Pluto RX> Repeat .........: 1 11:16:16.385: Radio Pluto RX> Buffer 11:16:16.385: Radio Pluto RX> Millisecs .: 100 11:16:16.386: Radio Pluto RX> Samples ...: 120000 11:16:16.386: Radio Pluto RX> - 11:16:16.386: Radio Pluto RX> Size.......: 131072 11:16:16.386: Radio Pluto RX> Address ...: 89020940 11:16:16.386: Radio Pluto RX> Milli .....: 109 11:16:16.387: Radio Pluto RX> Step size .: 4 11:16:16.387: Radio Pluto RX> - 11:16:16.387: Radio Pluto TX Pre> Starting thread 11:16:16.387: Radio Pluto TX Pre> Setting priority to 'Normal' (0) 11:16:16.388: Radio Pluto TX Send> Starting thread 11:16:16.388: Radio Pluto TX Send> Setting priority to 'Normal' (0) 11:16:16.388: Radio Pluto TX Send> Initialisation 11:16:16.388: Radio Pluto TX Send> Channel0 ...: FE6F7760 11:16:16.388: Radio Pluto TX Send> Channel1 ...: FE6F88E0 11:16:16.389: Radio Pluto TX Send> Data Format 11:16:16.389: Radio Pluto TX Send> Channel 0 11:16:16.390: Radio Pluto TX Send> Length .........: 16 11:16:16.390: Radio Pluto TX Send> Bits ...........: 16 11:16:16.390: Radio Pluto TX Send> Shift ..........: 0 11:16:16.391: Radio Pluto TX Send> Signed .........: Yes 11:16:16.391: Radio Pluto TX Send> Fully defined ..: Yes 11:16:16.391: Radio Pluto TX Send> Big endian .....: No 11:16:16.391: Radio Pluto TX Send> With scale .....: No 11:16:16.391: Radio Pluto TX Send> Scale ..........: 0.000000 11:16:16.392: Radio Pluto TX Send> Repeat .........: 1 11:16:16.392: Radio Pluto TX Send> Channel 1 11:16:16.392: Radio Pluto TX Send> Length .........: 16 11:16:16.392: Radio Pluto TX Send> Bits ...........: 16 11:16:16.392: Radio Pluto TX Send> Shift ..........: 0 11:16:16.393: Radio Pluto TX Send> Signed .........: Yes 11:16:16.393: Radio Pluto TX Send> Fully defined ..: Yes 11:16:16.393: Radio Pluto TX Send> Big endian .....: No 11:16:16.393: Radio Pluto TX Send> With scale .....: No 11:16:16.393: Radio Pluto TX Send> Scale ..........: 0.000000 11:16:16.394: Radio Pluto TX Send> Repeat .........: 1 11:16:16.394: Radio Pluto TX Send> Buffer 11:16:16.394: Radio Pluto TX Send> Millisecs .: 50 11:16:16.395: Radio Pluto TX Send> Samples ...: 60000 11:16:16.395: Radio Pluto TX Send> - 11:16:16.395: Radio Pluto TX Send> Size.......: 60000 11:16:16.395: Radio Pluto TX Send> Address ...: 00000000FE6F0C70 11:16:16.396: Radio Pluto TX Send> Milli .....: 50 11:16:16.396: Radio Pluto TX Send> Step size .: 4 11:16:16.396: Radio Pluto TX Send> - 11:16:16.396: Radio Pluto TX Send> Length ............: 240000 11:16:16.397: Radio Pluto TX Send> Data length .......: 240000 11:16:16.397: Radio Pluto TX Send> Dev sample size ...: 4 11:16:16.397: Radio Pluto TX Send> Sample size .......: 4 11:16:16.397: Radio Pluto TX Send> Is output .........: 193 11:16:16.398: Radio Pluto TX Send> Dev is high speed .: 0 11:16:16.398: Radio Pluto TX Send> - 11:16:16.398: Select Radio> ApplyConversionTX DOWN frequency 10489840000, offset -8089500000, result 2400340000 11:16:16.398: Radio PlutoSDR> Set Channel attribute frequency = 2400340000 (name = out_altvoltage1_TX_LO_frequency) 11:16:16.399: Radio PlutoSDR> Set Channel attribute hardwaregain = -40.00 (name = out_voltage0_hardwaregain) 11:16:16.399: Modulation> Starting thread 11:16:16.399: Modulation> Setting priority to 'Highest' (2) 11:16:16.399: TX Monitor> Starting thread 11:16:16.400: TX Monitor> Setting priority to 'Above normal' (1) 11:16:16.400: Modulation> Modulation settings... 11:16:16.400: Modulation> Change mode from 1 to 1 11:16:16.400: Modulation> - 11:16:16.401: Modulation> Starting audio capture, input = Kopfhörermikrofon (Plantronics C620-M) 11:16:16.401: Modulation> VAC = No 11:16:16.401: Modulation> Creating device enumerator 11:16:16.402: Modulation> Enumerating audio endpoints 11:16:16.402: Modulation> Found 3 endpoints 11:16:16.402: Modulation> Endpoint device 00 = Line 1 Output (Virtual Audio Cable) 11:16:16.402: Modulation> Endpoint device 01 = CABLE Output (VB-Audio Virtual Cable) 11:16:16.403: Modulation> Endpoint device 02 = Kopfhörermikrofon (Plantronics C620-M) <= Match 11:16:16.403: Modulation> Activating audio client 11:16:16.403: Modulation> Default period = 10 ms 11:16:16.403: Modulation> Virtual audio cable = No 11:16:16.404: Modulation> 11:16:16.404: Modulation> Getting mixer format from audio engine 11:16:16.404: Modulation> Channels ............: 1 11:16:16.405: Modulation> Structure ...........: PCM data that has more than two channels or uses a channel mask (WAVE_FORMAT_EXTENSIBLE) 11:16:16.405: Modulation> Bits per sample .....: 32 11:16:16.405: Modulation> Samples per second ..: 16000 11:16:16.406: Modulation> Block alignment .....: 4 11:16:16.406: Modulation> Bytes per second ....: 64000 11:16:16.406: Modulation> Extensible: 11:16:16.407: Modulation> Bits of precision ...: 32 11:16:16.407: Modulation> Samples per block ...: 32 11:16:16.407: Modulation> Channel mask ........: 00000004 11:16:16.407: Modulation> GUID ................: {00000003-0000-0010-8000-00AA00389B71} 11:16:16.408: Modulation> 11:16:16.408: Modulation> Initialising audio client 11:16:16.408: Modulation> Opened in Shared mode 11:16:16.408: Modulation> Frame count ..: 1600 11:16:16.408: Modulation> 11:16:16.409: Modulation> Creating ready event 11:16:16.409: Modulation> Setting ready event 11:16:16.409: Modulation> Accessing capture client service 11:16:16.409: Modulation> Registering with MMCSS 11:16:16.410: Modulation> Starting audio client 11:16:16.410: Modulation> Resampler 11:16:16.410: Modulation> Input rate ...: 16000 11:16:16.410: Modulation> Output rate ..: 48000 11:16:16.412: Radio PlutoSDR> Ready 11:16:16.412: Radio PlutoSDR> FIR Filter 11:16:16.413: Radio PlutoSDR> Configuration 11:16:16.413: Radio PlutoSDR> ------------- 11:16:16.413: Radio PlutoSDR> Sample rate ...: 1200000 11:16:16.413: Radio PlutoSDR> RX taps .......: 128 11:16:16.414: Radio PlutoSDR> bandwidth ..: 0.50 11:16:16.414: Radio PlutoSDR> factor .....: 1 11:16:16.414: Radio PlutoSDR> type .......: Rx Lowpass 11:16:16.414: Radio PlutoSDR> ripple .....: 0.50 dB 11:16:16.414: Radio PlutoSDR> stopband ...: 80.00 dB 11:16:16.415: Radio PlutoSDR> pass .......: [In] 600000 Hz 11:16:16.415: Radio PlutoSDR> stop .......: [In] 750000 Hz 11:16:16.415: Radio PlutoSDR> analog bw ..: [In] 1050000 Hz 11:16:16.415: Radio PlutoSDR> analog 3dB .: [Out] 1497333.0 Hz 11:16:16.415: Radio PlutoSDR> TX taps .......: 128 11:16:16.416: Radio PlutoSDR> bandwidth ..: 0.47 11:16:16.416: Radio PlutoSDR> factor .....: 2 11:16:16.416: Radio PlutoSDR> type .......: Tx Lowpass 11:16:16.416: Radio PlutoSDR> ripple .....: 0.50 dB 11:16:16.416: Radio PlutoSDR> stopband ...: 80.00 dB 11:16:16.417: Radio PlutoSDR> pass .......: [In] 570000 Hz 11:16:16.417: Radio PlutoSDR> stop .......: [In] 712500 Hz 11:16:16.417: Radio PlutoSDR> analog bw ..: [In] 1140000 Hz 11:16:16.417: Radio PlutoSDR> analog 3dB .: [Out] 1412068.0 Hz 11:16:16.418: Radio PlutoSDR> - 11:16:16.418: Radio PlutoSDR> RX boost ...: 1.00 11:16:16.418: Radio PlutoSDR> TX boost ...: 1.00 11:16:16.418: Radio PlutoSDR> RX max tap .: 14745 11:16:16.418: Radio PlutoSDR> TX max tap .: 16585 11:16:16.419: Radio PlutoSDR> ∫ RX taps ..: 32770.0 11:16:16.419: Radio PlutoSDR> ∫ TX taps ..: 66120.0 11:16:16.419: Radio PlutoSDR> - 11:16:16.419: Radio PlutoSDR> Setting FIR filter = RX 3 GAIN 0 DEC 2 TX 3 GAIN 0 INT 2 -3, 0 2, 0 7, 0 27, 0 49... 11:16:16.419: Radio PlutoSDR> Set Channel attribute sampling_frequency = 1200000 (name = in_voltage_sampling_frequency) 11:16:16.420: Radio PlutoSDR> Set Channel attribute rf_bandwidth = 1050000 (name = in_voltage_rf_bandwidth) 11:16:16.420: Radio PlutoSDR> Set RX analog filter bandwidth = 1050000, returned = 1050000 11:16:16.420: Radio PlutoSDR> Set Channel attribute rf_bandwidth = 1050000 (name = out_voltage_rf_bandwidth) 11:16:16.420: Radio PlutoSDR> Set TX analog filter bandwidth = 1050000, returned = 1050000 11:16:16.420: Radio PlutoSDR> SetRXGain, RX Frequency 739749998, Range 70000000 to 1300000000, Input 50, Value 50 11:16:16.421: Radio PlutoSDR> Error writing Channel attribute hardwaregain = 50, error 95, Unknown error 11:16:16.421: Radio PlutoSDR> Set Channel attribute gain_control_mode = manual (name = in_voltage0_gain_control_mode) 11:16:16.422: RX1 Audio> Resampler initialise, input rate 48000, output rate 48000 11:16:16.422: RX1 Audio> - 11:16:16.422: RX2 Audio> Resampler initialise, input rate 48000, output rate 48000 11:16:16.422: RX2 Audio> - 11:16:16.423: RX2 Audio> WASAPI VAC [CABLE Input (VB-Audio Virtual Cable)] state now Stable: buffer used now 6720, (stable 6000, overrun 12000, maximum 524288) 11:16:16.423: Radio PlutoSDR> NOT Ready 11:16:16.423: Radio PlutoSDR> Ready 11:16:16.635: Select Radio> ApplyConversionTX DOWN frequency 10489840000, offset -8089500000, result 2400340000 11:16:16.640: Modulation> Modulation settings... 11:16:16.641: Modulation> Change mode from 1 to 1 11:16:16.641: Modulation> - 11:16:26.053: Radio PlutoSDR> SetRXGain, RX Frequency 739749998, Range 70000000 to 1300000000, Input 51, Value 51 11:16:26.054: Radio PlutoSDR> Set Channel attribute hardwaregain = 51 (name = in_voltage0_hardwaregain) 11:16:37.344: Radio PlutoSDR> SetRXGain, RX Frequency 739749998, Range 70000000 to 1300000000, Input 50, Value 50 11:16:37.344: Radio PlutoSDR> Set Channel attribute hardwaregain = 50 (name = in_voltage0_hardwaregain)