The XCKU15P-L1FFVE1517I is a premium Field Programmable Gate Array (FPGA) from AMD Xilinx’s Kintex UltraScale+ family, designed for demanding applications requiring exceptional processing power and flexibility. This advanced programmable logic device delivers outstanding performance for applications in aerospace, defense, communications, and high-performance computing.
Product Specifications
The XCKU15P-L1FFVE1517I features robust specifications that make it ideal for complex digital signal processing and acceleration tasks:
Core Architecture:
- Logic Cells: 1,143,240 logic cells providing extensive programmable resources
- CLB Slices: 142,905 configurable logic blocks for maximum design flexibility
- Block RAM: 38.4 Mb of integrated memory for data buffering and storage
- UltraRAM: 22.5 Mb of additional high-density memory blocks
Processing Elements:
- DSP Slices: 1,968 DSP48E2 slices optimized for signal processing applications
- Processing System: ARM Cortex-A53 quad-core processor integration capability
- Clock Management: Multiple clock domains with advanced timing resources
Package Details:
- Package Type: FFVE1517 (Fine-Pitch Ball Grid Array)
- Pin Count: 1,517 pins for comprehensive I/O connectivity
- Speed Grade: -L1 for low-power applications
- Operating Temperature: Industrial temperature range support
Price Information
The XCKU15P-L1FFVE1517I pricing varies based on quantity, distribution channel, and current market conditions. Contact authorized Xilinx distributors for current pricing and availability. Volume discounts are typically available for production quantities, making this FPGA cost-effective for both prototyping and mass production applications.
Documents & Media
Comprehensive technical documentation supports the XCKU15P-L1FFVE1517I development process:
Technical Documentation:
- Product datasheet with complete electrical specifications
- Pin assignment and package drawings for PCB design
- Power consumption analysis and thermal management guidelines
- Programming and configuration user guides
Development Resources:
- Vivado Design Suite compatibility information
- Reference designs and application notes
- IP core integration documentation
- Timing analysis and constraint guidelines
Media Resources:
- High-resolution product images and package photos
- Block diagrams and architectural overviews
- Video tutorials for development workflow
- Webinar recordings covering design best practices
Related Resources
The XCKU15P-L1FFVE1517I ecosystem includes numerous supporting resources:
Development Tools:
- Vivado Design Suite for comprehensive FPGA development
- Vitis unified software platform for acceleration applications
- IP Integrator for rapid system-level design
- Hardware debugger and analyzer tools
Compatible Products:
- Other Kintex UltraScale+ family members for scalable solutions
- Zynq UltraScale+ MPSoCs for processor integration
- Development boards and evaluation kits
- Third-party IP cores and reference designs
Support Services:
- Technical support forums and knowledge base
- Training courses and certification programs
- Design services and consulting support
- Application engineering assistance
Environmental & Export Classifications
The XCKU15P-L1FFVE1517I meets stringent environmental and regulatory standards:
Environmental Compliance:
- RoHS compliant for lead-free manufacturing
- REACH regulation compliance for chemical safety
- Conflict minerals reporting compliance
- ISO 14001 environmental management certification
Export Classifications:
- Export Control Classification Number (ECCN) designation
- International Traffic in Arms Regulations (ITAR) status
- Export licensing requirements for specific destinations
- Trade compliance documentation available
Quality Standards:
- Automotive qualification available for select variants
- Military and aerospace grade options
- Extended temperature range operation
- Long-term supply commitment for critical applications
The XCKU15P-L1FFVE1517I represents cutting-edge FPGA technology, combining high performance, flexibility, and comprehensive development support to accelerate time-to-market for advanced digital systems. Its robust feature set and extensive ecosystem make it an ideal choice for engineers developing next-generation applications requiring programmable logic solutions.
