The purpose of this document is to provide a starting point in the creation of your specific system configuration. This user manual describes how to design a system that enables synchronization between Receive (Rx) channels and Transmit-Receive (Tx-Rx) channels, as well as high-throughput data sample transport from the software-defined radio (SDR) to a server system over 10 GbE data links. A PDF version of this AppNote is available for those who need or prefer that document style. This document provides guidance for designing a system that uses the NI Open Architecture for Radar and EW Research. 9.2 LO Distribution for High-Channel-Count SystemsĪN-822 by Dylan Baros, Michael Dickens, Joseph Paller, Neel Pandeya, and Jovian Wysocki.9.1 Connection Considerations for High-Channel-Count Systems.9 Appendix: Creating High-Channel-Count Systems.8.4.2 Streaming to Disk Data Transfer Rate.8.4.1 Streaming to Memory Data Transfer Rate.8.3.5.2 Resetting Configuration between Runs.8.3.5.1 Resetting Session between Runs.8.3.5 Repeatability of Rx-Rx Phase Coherence.8.3.4 Short-Term Rx-Rx Phase Coherence.8.3.3 Phase Coherence One-Hour Stability.6.3 Setting Up and Configuring the Software.6.2.4 Connecting the USRP Management Port.6.2.1 Connecting the RF RX-TX Ports for a MIMO Loopback.4.1 Required NI/Ettus Research Hardware.
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