The XCVU125-1FLVB2104I is a cutting-edge FPGA (Field-Programmable Gate Array) from Xilinx’s Virtex UltraScale+ family, engineered to deliver exceptional performance for demanding applications in telecommunications, aerospace, defense, and high-performance computing. This advanced programmable logic device combines superior processing capabilities with enhanced power efficiency, making it an ideal solution for next-generation system designs.
Product Specifications
The XCVU125-1FLVB2104I features robust technical specifications that position it as a premium choice for complex digital signal processing and computation-intensive applications:
Core Architecture:
- Logic cells: 1,278,000 system logic cells
- CLB flip-flops: 2,556,000
- CLB LUTs: 1,278,000
- Block RAM: 75.9 Mb
- UltraRAM: 180 Mb
- DSP slices: 5,520
Package Details:
- Package type: FLVB2104 (Flip-chip Land Grid Array)
- Pin count: 2,104 pins
- Speed grade: -1 (standard performance)
- Temperature grade: Industrial (-40ยฐC to +100ยฐC)
Advanced Features:
- 16nm FinFET+ process technology
- PCIe Gen4 capability
- 100G Ethernet MAC
- Interlaken protocol support
- AES and SHA encryption engines
- High-speed transceivers up to 32.75 Gbps
The XCVU125-1FLVB2104I incorporates Xilinx’s innovative UltraScale+ architecture, delivering up to 2.5x higher performance per watt compared to previous generations while maintaining backward compatibility with existing design tools and IP cores.
Price
Pricing for the XCVU125-1FLVB2104I varies based on quantity, distribution channel, and current market conditions. As a high-end FPGA targeting enterprise and industrial applications, the unit typically falls within the premium pricing tier of Xilinx’s product portfolio.
For current pricing information and volume discounts on the XCVU125-1FLVB2104I, customers should contact authorized Xilinx distributors or visit the official Xilinx website. Educational institutions and qualified research organizations may be eligible for special academic pricing programs.
Factors affecting XCVU125-1FLVB2104I pricing include:
- Order quantity and volume commitments
- Lead times and availability
- Regional market conditions
- Customer relationship and support requirements
- Bundled development tools and IP licensing
Documents & Media
Comprehensive technical documentation and support materials are available for the XCVU125-1FLVB2104I to facilitate successful implementation and deployment:
Technical Documentation:
- Product datasheet with complete electrical specifications
- Pin-out and package mechanical drawings
- Thermal characteristics and power consumption guidelines
- Migration and compatibility guides
- Application notes for specific use cases
Development Resources:
- Vivado Design Suite compatibility information
- Reference designs and example projects
- IP core integration guides
- Timing analysis and constraints documentation
- Hardware debugging and validation procedures
Support Materials:
- Product change notifications (PCNs)
- Errata and known issues documentation
- Quality and reliability reports
- Environmental compliance certificates
- Export control and regulatory information
All documentation for the XCVU125-1FLVB2104I is regularly updated to reflect the latest product revisions and software tool compatibility requirements.
Related Resources
The XCVU125-1FLVB2104I ecosystem includes extensive development tools, evaluation platforms, and partner solutions designed to accelerate time-to-market:
Development Platforms:
- Xilinx Vivado Design Suite for synthesis and implementation
- Vitis unified software platform for application development
- Hardware debugging tools and logic analyzers
- Simulation and verification environments
Evaluation Boards:
- VCU125 evaluation kit optimized for XCVU125-1FLVB2104I
- Custom carrier boards from third-party vendors
- FMC (FPGA Mezzanine Card) expansion options
- High-speed connector and interface modules
IP and Reference Designs:
- Xilinx LogiCORE IP portfolio compatibility
- Partner IP solutions for specific applications
- Open-source community contributions
- Industry-standard protocol implementations
Training and Support:
- Online training courses and certification programs
- Technical webinars and application seminars
- Community forums and knowledge base access
- Professional consulting and design services
The XCVU125-1FLVB2104I benefits from Xilinx’s comprehensive ecosystem, ensuring designers have access to the tools and resources necessary for successful project completion.
Environmental & Export Classifications
The XCVU125-1FLVB2104I complies with international environmental standards and export regulations, ensuring global accessibility while maintaining responsible manufacturing practices:
Environmental Compliance:
- RoHS (Restriction of Hazardous Substances) compliant
- REACH (Registration, Evaluation, Authorization of Chemicals) compliant
- Conflict minerals reporting program participation
- Green product designation under Xilinx environmental initiative
- Halogen-free package materials where applicable
Export Control Classifications:
- US Export Administration Regulations (EAR) classification
- European dual-use goods regulations compliance
- Country-specific import/export licensing requirements
- End-use and end-user verification procedures
- Technology transfer control measures
Quality Standards:
- ISO 9001 certified manufacturing processes
- Automotive-grade quality (where applicable)
- Military and aerospace specification compliance options
- Industrial temperature range validation
- Long-term availability and lifecycle management
The XCVU125-1FLVB2104I undergoes rigorous environmental testing and quality assurance procedures to ensure reliable operation across diverse deployment scenarios while meeting stringent regulatory requirements for global distribution.
Conclusion
The XCVU125-1FLVB2104I represents the pinnacle of FPGA technology, combining high-performance processing capabilities with comprehensive development support and environmental responsibility. Its advanced architecture and extensive ecosystem make it an exceptional choice for demanding applications requiring maximum computational flexibility and performance optimization.
