wiki:Tutorials/k0SDR/Tutorial24

Version 4 (modified by prasanthi, 7 years ago) ( diff )

RFNoC Spectrum Sensing

Description

This tutorial shows how to use the RFNoC Spectrum Sensing block(CE) to plot receive power spectrum from multiple USRP X310s on ORBIT grid.

Set Up

Make a reservation on the Orbit Scheduler for using the grid.

Prepare Receive Node

  • Load prasanthi-rfnoc-specsense-9-14.ndz on an ORBIT node.
    prasanthi@console.grid:~$ omf load -i prasanthi-rfnoc-specsense-9-14.ndz -t node1-19
    
  • Once imaging is done, turn the node on and log in
    prasanthi@console.grid:~$ omf tell -a on -t node1-19
    prasanthi@console.grid:~$ ssh root@node1-19
    

Prepare Receive USRPs

  • Pick USRP X310s from the MIMO racks 23-1…8, 23-11…18 and load spectrum sensing FPGA image on them.
    root@node1-19:~# uhd_image_loader --args="addr0=10.10.23.11,addr1=10.10.23.12,addr2=10.10.23.13,addr4=10.10.23.14" --fpga-path="/root/bit/x310_spec_sense_2ddc_1duc_7_14.bit"
    
  • Power cycle USRPs so that the new FPGA image is active
    prasanthi@console.grid:~$ omf tell -a offh -t node23-11
    prasanthi@console.grid:~$ omf tell -a on -t node23-11
    
  • Running uhd_usrp_probe on the X310s with spectrum sensing FPGA image should give the following
    |   |     _____________________________________________________
    |   |    /
    |   |   |       RFNoC blocks on this device:
    |   |   |
    |   |   |   * DmaFIFO_0
    |   |   |   * Radio_0
    |   |   |   * Radio_1
    |   |   |   * DUC_0
    |   |   |   * DDC_0
    |   |   |   * DDC_1
    |   |   |   * SpecSense_0
    |   |   |   * FIFO_0
    
    

Prepare Transmit Node

Any source can be used to transmit a test waveform. In this tutorial, a spectrum spreader RFNoC block is being used to generate wideband PN signal.

  • Load prasanthi-channel-sounder.ndz on an ORBIT node.
    prasanthi@console.grid:~$ omf load -i prasanthi-channel-sounder.ndz -t node1-20
    
  • Once imaging is done, turn the node on and log in
    prasanthi@console.grid:~$ omf tell -a on -t node1-20
    prasanthi@console.grid:~$ ssh root@node1-20
    

Prepare Transmit USRP

  • Pick a USRP X310 for transmitting, and load the spectrum spreader FPGA image
    root@node1-20:~# uhd_image_loader --args="addr=10.10.23.17" --fpga-path="/root/bit/x310_spreader_4_28.bit"
    
  • Power cycle the USRP so that the new FPGA image is active
    prasanthi@console.grid:~$ omf tell -a offh -t node23-17
    prasanthi@console.grid:~$ omf tell -a on -t node23-17
    
  • Running uhd_usrp_probe on the X310 with spectrum spreader FPGA image should give the following
    |   |     _____________________________________________________
    |   |    /
    |   |   |       RFNoC blocks on this device:
    |   |   |
    |   |   |   * DmaFIFO_0
    |   |   |   * Radio_0
    |   |   |   * Radio_1
    |   |   |   * DUC_0
    |   |   |   * Spreader_0
    |   |   |   * FIFO_0
    |   |   |   * FIFO_1
    

Set up SSH tunnel from your local port 5100 to grid.orbit-lab.org:5100

ssh -L 5100:grid.orbit-lab.org:5100 username@grid.orbit-lab.org

Set up a web proxy for the receive node

Use run-websock command to set up the proxy (this is required for remote web based streaming)

prasanthi@console.grid:~$ run-websock 5100 10.10.1.19:5100 --daemon
WARNING: no 'numpy' module, HyBi protocol will be slower
WebSocket server settings:
  - Listen on :5100
  - Flash security policy server
  - No SSL/TLS support (no cert file)
  - Backgrounding (daemon)

Run the experiment

On the receive node

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