The XCKU3P-2FFVA676I is a cutting-edge Field Programmable Gate Array (FPGA) from AMD Xilinx’s Kintex UltraScale+ family, engineered to deliver exceptional performance for demanding applications requiring high-speed processing and advanced programmable logic capabilities.
Product Specifications
The XCKU3P-2FFVA676I features robust technical specifications that make it ideal for telecommunications, aerospace, defense, and high-performance computing applications. This FPGA incorporates advanced 16nm FinFET+ technology, providing superior power efficiency and performance optimization.
Key Technical Features:
- Logic Cells: High-density programmable logic architecture
- Package Type: FFVA676 – Fine-pitch Ball Grid Array
- Speed Grade: -2 (Industrial temperature range)
- Operating Temperature: -40ยฐC to +100ยฐC
- I/O Standards: Support for multiple high-speed I/O standards
- Memory: Integrated block RAM and UltraRAM for enhanced data storage
- DSP Slices: Advanced digital signal processing capabilities
- Transceivers: High-speed serial connectivity options
The XCKU3P-2FFVA676I delivers exceptional signal integrity and thermal performance, making it suitable for mission-critical applications where reliability is paramount.
Price Information
Pricing for the XCKU3P-2FFVA676I varies based on quantity, lead time, and supplier. Contact authorized distributors for current pricing and availability. Volume discounts are typically available for larger orders, and pricing may fluctuate based on market conditions and supply chain factors.
For the most competitive pricing on the XCKU3P-2FFVA676I, consider reaching out to multiple authorized distributors and comparing quotes for your specific requirements.
Documents & Media
Technical Documentation:
- Product datasheet with complete electrical specifications
- Reference manual detailing programming and configuration
- Application notes for implementation guidance
- Thermal and power management guidelines
- Pin configuration and package drawings
Development Resources:
- Vivado Design Suite compatibility information
- IP core integration guides
- Timing analysis documentation
- Signal integrity design recommendations
Quality Documentation:
- Reliability reports and qualification data
- Test specifications and procedures
- Quality assurance certifications
Related Resources
Development Tools: The XCKU3P-2FFVA676I is fully supported by AMD Xilinx’s comprehensive development ecosystem, including Vivado Design Suite for design entry, synthesis, and implementation.
Evaluation Platforms: Several evaluation boards and development kits are available to accelerate prototype development and design validation with the XCKU3P-2FFVA676I.
IP Cores: Access to extensive IP core libraries optimized for Kintex UltraScale+ architecture, including communication protocols, memory controllers, and signal processing functions.
Training and Support: Comprehensive training materials, webinars, and technical support resources are available to help engineers maximize the potential of the XCKU3P-2FFVA676I in their designs.
Environmental & Export Classifications
Environmental Compliance: The XCKU3P-2FFVA676I meets stringent environmental standards and regulations:
- RoHS compliant (lead-free)
- REACH regulation compliance
- Conflict minerals reporting compliance
- Halogen-free packaging options available
Export Control Information:
- Export Control Classification Number (ECCN) classification
- Country of origin documentation
- Export licensing requirements may apply depending on end-use application
- Compliance with international trade regulations
Reliability Standards:
- Automotive-grade reliability testing where applicable
- JEDEC standard compliance
- Extended temperature range qualification
- Long-term supply commitment for critical applications
The XCKU3P-2FFVA676I represents a premium solution for engineers seeking high-performance FPGA capabilities with proven reliability and comprehensive development support. Its advanced architecture and extensive feature set make it an excellent choice for next-generation electronic systems requiring programmable logic solutions.
