Neutron KU60 FPGA Development Board

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  • FPGA: AMD Kintex Ultrascale XCKU060-1FFVA1517I. Speed Grade -1
  • 5GB DDR4 SDRAM (72 Bit ECC) for reliable high-speed memory operation
  • 512Mb (256 x 2) Dual QSPI flash for configuration
  • Clocks:
    • 1 × 300MHz CMOS for DDR4
    • 1 × 200MHz CMOS for Fabric clock
    • 1 × 200MHz CMOS for system clock
  • 2 × SFP+ cages supporting high-speed serial networking
  • M.2 slot (M-key) for NVMe or compatible modules
  • FPGA: AMD Kintex Ultrascale XCKU060-1FFVA1517I. Speed Grade -1
  • 5GB DDR4 SDRAM (72 Bit ECC) for reliable high-speed memory operation
  • 512Mb (256 x 2) Dual QSPI flash for configuration
  • Clocks:
    • 1 × 300MHz CMOS for DDR4
    • 1 × 200MHz CMOS for Fabric clock
    • 1 × 200MHz CMOS for system clock
  • 2 × SFP+ cages supporting high-speed serial networking
  • 2-lane GTH transceiver access via SMA connectors
  • M.2 slot (M-key) for NVMe or compatible modules
  • 1 × Gigabit Ethernet port for network connectivity
  • FMC+ HSPC connector (VITA 57.4) for high-bandwidth expansion
  • FMC HPC connector (VITA 57.1) for additional I/O expansion
  • FPGA Programming & Debugging via JTAG and USB
  • Programmable clock available for GTH reference and M.2 interface requirements

The Neutron KU60 FPGA Development Board is a high-performance platform built around the AMD Kintex UltraScale XCKU060 FPGA, designed for demanding high-speed computing, networking, and signal-processing applications. Featuring 4GB ECC-enabled DDR4, dual QSPI configuration memory, multiple clock sources, high-speed SFP+ connectivity, GTH transceiver access, and versatile expansion through FMC+ HSPC, FMC HPC, and an M.2 slot, the board delivers exceptional flexibility for advanced development. With SelectMAP, JTAG/USB programming, and programmable clock options, Neutron KU60 provides a robust and adaptable environment for prototyping and deployment.

Why Choose Nereid KU60?

  • Cutting-edge AMD Kintex Ultrascale FPGA for demanding applications

  • Flexible expansion ports for rapid prototyping

  • High-speed data interfaces for intensive workloads

  • Rich connectivity ensures seamless system integration

  • Ideal for research, product development, and high-performance computing

Applications

  • Data acquisition and processing

  • Signal processing

  • High-speed networking

  • Embedded systems prototyping

  • Scientific computing & research