== Multi channel sample collection with x310 == === Description === We'll demonstrate using multiple USRPs to collect samples. === Set up === 1. [https://www.orbit-lab.org/schedule Make a reservation] of the grid console. 2. Verify availability of x310s of the grid, then power cycle the x310s with omf commands. {{{ grid> omf stat -t [23,1..8] grid> omf tell -a offh -t [23,1..8] grid> omf tell -a on -t [23,1..8] }}} 3. In this example we'll use node21-1 to run the application to collect samples. This node will have access to all usrps on the grid's RF device column ie. ''-t [23,1..8]'' Load ''baseline-uhd.ndz'' image and then ssh into node21-1 {{{ grid> omf load -i baseline-uhd.ndz -t node21-1 grid> omf tell -a on -t node21-1 grid> ssh root@node21-1 }}} 4. [Optional] Test the PPS input to x310s {{{ root@node21-1:~/uhd/host/build/examples# ./test_pps_input --args="addr=10.10.23.1" --source external }}} Output text should indicate "Success!" === Collect samples === 1. The application to collect samples is ''rx_multi_receive''. The source files are in the attachment. Download it to a directory and ''make'' the application. Run ''rx_multi_receive --help'' to get a list of options. {{{ root@node21-1:~/RX_MULTI_RECEIVE# ./rx_multi_receive --help linux; GNU C++ version 4.8.4; Boost_105400; UHD_003.010.001.001-release UHD RX Multi Samples Allowed options: --help help message --args arg single uhd device address args --secs arg (=1.5) number of seconds in the future to receive --nsamps arg (=10000) total number of samples to receive --freq arg (=900000000) RF center frequency in Hz for all channels --rate arg (=6250000) rate of incoming samples for all channels --gain arg (=0) gain for the RF chain for all channels --prefix arg enables file output with filename prefix --addr arg udp address: 10.10.0.10 --port arg (=1337) udp port: 1337 --sync arg (=now) synchronization method: now, pps, mimo --subdev arg subdev spec (homogeneous across motherboards) --dilv specify to disable inner-loop verbose --int-n tune USRP with integer-N tuning --channels arg (=0) which channel(s) to use (specify "0", "1", "0,1", etc) }}} This app is very similar to ''rx_multi_sample'' provided in the UHD examples directory but with a few additional arguments. * The values given with options --freq and --gain are specified across all channels. * Use the option --prefix to collect samples from all channels to a file name tagged with the prefix and channel number. * Use the --sync option with PPS option synchronize sampling across all devices. This option selects the time source to the external 10Mhz refernce clock. * The samples can also be sent out via UDP by providing --addr and --port. 2. To collect samples with 3 x310s with both daughter boards (for a total of 6 channels) {{{ root@node21-1:~/RX_MULTI_RECEIVE# now="date +%Y%m%d"T"%H%M%S"Z" " root@node21-1:~/RX_MULTI_RECEIVE# ./rx_multi_receive --nsamps 1024 --rate 5e6 --args="addr0=10.10.23.1,addr1=10.10.23.3,addr2=10.10.23.4" --subdev "A:0 B:0" --channels "0,1,2,3,4,5" --prefix "x310_`$now`_" --sync "pps" --secs 5 }}} Each channel data is collected into an ascii file with meta information and a binary file with only sample data: {{{ -rw-r--r-- 1 root root 27262 May 6 14:28 x310_20160506T142807Z_ch_0_meta -rw-r--r-- 1 root root 8192 May 6 14:28 x310_20160506T142807Z_ch_0_binary -rw-r--r-- 1 root root 27643 May 6 14:28 x310_20160506T142807Z_ch_2_meta -rw-r--r-- 1 root root 8192 May 6 14:28 x310_20160506T142807Z_ch_2_binary -rw-r--r-- 1 root root 27735 May 6 14:28 x310_20160506T142807Z_ch_1_meta -rw-r--r-- 1 root root 8192 May 6 14:28 x310_20160506T142807Z_ch_1_binary -rw-r--r-- 1 root root 27360 May 6 14:28 x310_20160506T142807Z_ch_4_meta -rw-r--r-- 1 root root 8192 May 6 14:28 x310_20160506T142807Z_ch_4_binary -rw-r--r-- 1 root root 27678 May 6 14:28 x310_20160506T142807Z_ch_3_meta -rw-r--r-- 1 root root 8192 May 6 14:28 x310_20160506T142807Z_ch_3_binary -rw-r--r-- 1 root root 26868 May 6 14:28 x310_20160506T142807Z_ch_5_meta -rw-r--r-- 1 root root 8192 May 6 14:28 x310_20160506T142807Z_ch_5_binary }}} 3. Details of each channel in the meta file. The channel sample data is also appended in ascii text if the samples collected is less than ~16000. {{{ root@node21-1:~/RX_MULTI_RECEIVE# more x310_20160506T142807Z_ch_0_meta channel : 0 mboard id : X310 mboard_serial : 30A3570 mboard_name : Mercury rx_id : UBX-160 v1 (0x007a) rx_subdev_name : UBX RX rx_subdev_spec : A:0 B:0 total samples : 1024 sample size : 8 RX frequency (MHz) : 900 RX sample rate (MHz) : 5 RX gain (dB) : 0 }}} 4. The channel's complete sample data is located in the files labeled binary. To quickly view contents of the binary file: {{{ root@node21-1:~/RX_MULTI_RECEIVE# hexdump -v -e '"%010_ad [" 2/4 "%f " "]\n"' x310_20160506T142807Z_ch_0_binary 0000000000 [0.000000 0.000031] 0000000008 [-0.000244 -0.000092] 0000000016 [-0.000153 0.000061] 0000000024 [-0.000214 0.000061] 0000000032 [-0.000122 0.000061] 0000000040 [0.000031 0.000153] 0000000048 [-0.000122 -0.000061] 0000000056 [-0.000183 -0.000061] 0000000064 [-0.000092 0.000153] 0000000072 [-0.000031 0.000031] 0000000080 [-0.000153 0.000000] 0000000088 [0.000031 0.000061] : : : }}} 5. As an example here is a plot of the all channels receiving a test signal around 900MHz. Although the signal was captured with the --sync PPS option, the start phase of each signal receive is different from channel to channel. || [[Image(Plot16Ch.png, width=500px)]] ||