Ettus Research, a National Instruments Brand
USRP X310 (KINTEX7-410T FPGA, 2 CHANNELS, 10 GIGE AND PCIE BUS)
The Ettus Research USRP X310 is a high-performance, scalable software defined radio (SDR) platform for designing and deploying next generation wireless communications systems.
Item number VAR-827003193
Manufacturer Product Number: 783145-01
Taric/custom code:
Item located in and dispatched from: Riedlingen, Germany
Overview
Overview
The Ettus Research USRP X310 is a high-performance, scalable software-defined radio (SDR) platform for designing and deploying next-generation wireless communications systems. The hardware architecture combines two extended-bandwidth daughterboard slots covering DC – 6 GHz with up to 160 MHz of baseband bandwidth, multiple high-speed interface options (PCIe, dual 10 GigE, dual 1 GigE), and a large user-programmable Kintex-7 FPGA in a convenient desktop or rack-mountable half-wide 1U form factor. In addition to providing best-in-class hardware performance, the open source software architecture of X310 provides cross-platform UHD driver support making it compatible with a large number of supported development frameworks, reference architectures, and open source projects.
Operating Systems | Linux Windows |
Development Frameworks |
Table 1: Operating systems, development frameworks, and reference applications
High-Performance User-Programmable FPGA
At the heart of the USRP X310, the XC7K410T FPGA provides high-speed connectivity between all major components within the device including radio frontends, host interfaces, and DDR3 memory. The default FPGA core provided with UHD provides all of the functional blocks for digital down-conversion and up-conversion, fine-frequency tuning, and other DSP functions allowing it to be interchangeable with other USRP devices using the UHD architecture. The large Kintex-7 FPGA provides additional space for developers to incorporate custom DSP blocks and is compatible with a large number of USRP supported development frameworks, reference architectures, and open source projects.
USRP N210 | USRP X300 | USRP X310 | |
FPGA | Spartan3 XC3SD3400A | Kintex 7-325T | Kintex 7 -410T |
Logic Cells | 53k | 328k | 406k |
Memory | 2,268 Kb | 16,020 Kb | 28,620 Kb |
Multipliers | 126 | 840 | 1540 |
Clock Rate | 100 MHz | 200 MHz | 200 MHz |
Streaming Bandwidth per Channel (16-bit) | 25 MS/s | 200 MS/s | 200 MS/s |
Table 2: FPGA resource comparison
Multiple High-Speed Interface Options
The USRP X310 provides multiple interface options. Out of the box, 1 GigE provides a convenient way to get started. For extended bandwidth and lower latency applications such as PHY/MAC research, PCIe x4 provides an efficient bus for deterministic operation. Applications using network recorders or multiple processing nodes can be best served by the 10 GigE interface option.
Additional Features- GPSDO, GPIO, 1 GB DDR3, Synchronization
The X310 includes many additional features that facilitate wireless system development. On-board 1GB DDR3 with flexible access through the FPGA reference design supplements the FPGA resources with buffering and data storage memory. An optional internal GPSDO provides a high-accuracy frequency reference, and global timing alignment to within 50 ns when synchronized to the GPS system. The external GPIO connector allows users to control external components such as amplifiers and switches, accept inputs like event triggers, and observe debug signals. The USRP X310 also includes an internal JTAG adapter that allows FPGA developers to easily load and debug new FPGA images.
Features
- Two wide-bandwidth RF daughterboard slots
- Large customizable Xilinx Kintex-7 FPGA for high-performance DSP (XC7K410T)
- Multiple high-speed interfaces
- Dual 10 Gigabit Ethernet – 2x RX at 200 MSPs per channel
- Dual 10 Gigabit Ethernet – 4x RX at 80 MSPs per channel
- PCIe Express (Desktop) – 200 MS/s Full Duplex
- ExpressCard (Laptop) – 50 MS/s Full Duplex
- Dual 1 Gigabit Ethernet – 25 MS/s Full Duplex
- UHD architecture provides compatibility with
- GNU Radio
- C++/Python API
- Amarisoft LTE 100
- OpenBTS
- Other third-party software and frameworks
- Flexible clocking architecture
- Configurable sample rate
- Optional GPS-disciplined OCXO
- Coherent operation with OctoClock and OctoClock-G
- Compact and rugged half-wide 1U form factor for convenient desktop or rack mount usage
- Digital I/O accessible on the front panel for custom control and interfacing from the FPGA