XCZU7EG-L1FBVB900I: Xilinx Zynq UltraScale+ MPSoC

The XCZU7EG-L1FBVB900I is a cutting-edge System-on-Chip (SoC) from Xilinx’s Zynq UltraScale+ MPSoC family, delivering exceptional performance and flexibility for demanding applications. This high-performance device combines powerful processing capabilities with programmable logic in a single chip, making it ideal for industrial automation, automotive systems, and communication infrastructure.

Product Specifications

Processing System

• Processor: Quad-core ARM Cortex-A53 MPCore with CoreSight (up to 1.2GHz)
• Real-Time Processor: Dual-core ARM Cortex-R5 with CoreSight
• Graphics Processor: ARM Mali-400 MP2 GPU
• RAM: 256KB on-chip memory

Programmable Logic

• Technology: 20nm process technology
• Logic Cells: 504,000 cells
• Speed Grade: L1 (low-power variant)
• UltraRAM: High-density on-chip static memory
• DSP Slices: Advanced digital signal processing capabilities

Connectivity

• High-Speed Transceivers: Up to 32 Gbps per channel
• Network Support: Integrated 100GbE capability
• PCIe: PCIe Gen4 support
• Interlaken: 150 Gbps Interlaken support
• Additional Interfaces: CANbus, EBI/EMI, Ethernet, I²C, MMC/SD/SDIO, SPI, UART/USART, USB OTG

Physical Characteristics

• Package: 900-Pin FCBGA (Flip-Chip Ball Grid Array) with 31×31 configuration
• Operating Temperature: Industrial temperature range (-40°C to 100°C TJ)
• Voltage: Operates efficiently at reduced power settings (0.85V or 0.72V) with optimized performance

Price Information

The XCZU7EG-L1FBVB900I is a professional-grade component with pricing that reflects its advanced capabilities. Current market pricing varies based on volume and supplier, with typical lead times of approximately 25 weeks. For most accurate and up-to-date pricing:

• Contact authorized AMD/Xilinx distributors for volume discounts
• Request quotes through electronic component platforms like FPGAkey, Mouser, or Microchip USA
• Consider registered distributors for guaranteed authentic components with manufacturer warranty

Price fluctuations occur based on market demand, with real-time monitoring available through various distribution channels for making informed purchasing decisions.

Documents & Media

The XCZU7EG-L1FBVB900I is supported by comprehensive documentation:

• Technical Datasheet: Complete specifications, electrical characteristics, and performance metrics
• Design Guides: Detailed implementation instructions and best practices
• Reference Manuals: In-depth technical information on architecture and features
• Application Notes: Specialized guidance for common design scenarios

All documentation is available from AMD’s official Technical Information Portal or through authorized distributor platforms. The component is also supported by the Vivado Design Suite, providing an intuitive environment for synthesis and implementation.

Related Resources

Development Tools

• Vivado Design Suite: Comprehensive FPGA development environment
• Vitis Unified Software Platform: Application acceleration development
• PetaLinux Tools: For embedded Linux development

Evaluation & Development Boards

• Compatible with various development platforms, including specialized evaluation kits for Zynq UltraScale+ applications

Support Resources

• Technical forums and knowledge bases available through AMD/Xilinx
• Reference designs and code examples for rapid development
• Specialized engineering support for complex implementations

Environmental & Export Classifications

Environmental Compliance

• RoHS Status: ROHS3 Compliant
• Temperature Rating: Industrial grade temperature range
• Reliability: Enhanced security and reliability features compared to previous generations

Export Controls

• Subject to standard semiconductor export regulations
• Classified under relevant Harmonized System (HS) codes for international shipment
• May require export licenses for certain destinations

The XCZU7EG-L1FBVB900I represents a significant advancement in processing and FPGA technology, delivering exceptional performance with enhanced power efficiency in a compact form factor. Its unique combination of ARM processing cores and programmable logic makes it an optimal solution for applications requiring real-time processing, high connectivity, and flexible I/O capabilities.