The XCVU125-1FLVA2104I is a cutting-edge field-programmable gate array (FPGA) from Xilinx’s Virtex UltraScale+ series, designed to deliver exceptional performance for demanding applications in data centers, aerospace, defense, and high-performance computing environments.
Product Specification
The XCVU125-1FLVA2104I features advanced 20nm technology with impressive processing capabilities. This FPGA incorporates 1,278,000 logic cells and 5,520 DSP slices, providing substantial computational power for complex algorithms and signal processing tasks. The device includes 75.9 Mb of block RAM and 15.6 Mb of UltraRAM, ensuring ample memory resources for data-intensive applications.
Key specifications of the XCVU125-1FLVA2104I include:
- Logic Cells: 1,278,000
- DSP Slices: 5,520
- Block RAM: 75.9 Mb
- UltraRAM: 15.6 Mb
- Package: FLVA2104 (flip-chip BGA)
- Speed Grade: -1 (industrial temperature range)
- I/O Pins: 832
- Transceivers: 80 GTY lanes supporting up to 32.75 Gbps
The XCVU125-1FLVA2104I operates across an industrial temperature range of -40°C to +100°C, making it suitable for harsh environmental conditions. The device supports multiple I/O standards including DDR4, LPDDR4, and high-speed serial interfaces.
Price
Pricing for the XCVU125-1FLVA2104I varies based on quantity, distribution channel, and current market conditions. For accurate pricing information and volume discounts, contact authorized Xilinx distributors or semiconductor suppliers. The device is positioned as a premium FPGA solution, reflecting its advanced capabilities and industrial-grade specifications.
Documents & Media
Comprehensive documentation is available for the XCVU125-1FLVA2104I through Xilinx’s official documentation portal. Essential resources include:
The datasheet provides detailed electrical specifications, pinout information, and operating characteristics. The packaging and pinout guide offers mechanical drawings and pin assignments for the FLVA2104 package. PCB design guidelines ensure proper board layout and signal integrity considerations.
Software support includes Vivado Design Suite compatibility, enabling streamlined development workflows. Application notes cover specific implementation examples and optimization techniques for maximizing performance with the XCVU125-1FLVA2104I.
Related Resources
Development boards and reference designs accelerate project implementation with the XCVU125-1FLVA2104I. Xilinx provides evaluation platforms that demonstrate the device’s capabilities in real-world scenarios.
IP cores and pre-verified building blocks reduce development time and improve reliability. These include DSP functions, memory controllers, and interface IP specifically optimized for the XCVU125-1FLVA2104I architecture.
Training materials and webinars help engineers maximize their productivity with the device. Community forums provide peer support and knowledge sharing opportunities for XCVU125-1FLVA2104I users.
Environmental & Export Classifications
The XCVU125-1FLVA2104I meets stringent environmental and regulatory requirements. The device complies with RoHS (Restriction of Hazardous Substances) directives, ensuring environmentally responsible manufacturing processes.
Export control classifications may apply to the XCVU125-1FLVA2104I due to its advanced capabilities. Users should verify current export regulations and licensing requirements for their specific applications and destinations. The device may be subject to EAR (Export Administration Regulations) controls.
Environmental certifications include compliance with halogen-free requirements and conflict minerals regulations. The XCVU125-1FLVA2104I packaging uses lead-free materials and environmentally conscious manufacturing processes.
Quality standards adherence includes ISO 9001 certification and automotive-grade reliability testing where applicable. The device undergoes comprehensive testing to ensure consistent performance across production lots.
The XCVU125-1FLVA2104I represents a powerful solution for next-generation FPGA applications, combining high performance, industrial reliability, and comprehensive development support in a single device.
