The XC4VLX25-11FFG676C is a powerful field-programmable gate array (FPGA) from Xilinx’s acclaimed Virtex-4 family, designed to deliver exceptional performance for demanding digital signal processing and embedded processing applications. This advanced FPGA combines high logic density with superior speed grades, making it an ideal choice for telecommunications, aerospace, defense, and high-performance computing systems.
Product Specifications
The XC4VLX25-11FFG676C features robust technical specifications that position it as a premium solution for complex digital designs. This FPGA incorporates 24,576 logic cells with advanced 90nm process technology, providing excellent power efficiency and thermal performance. The device operates with a -11 speed grade, indicating superior timing performance for high-frequency applications.
Key specifications include 96 dedicated multipliers for efficient DSP operations, 1,152 Kbits of block RAM for flexible memory implementation, and 320 user I/O pins for extensive connectivity options. The XC4VLX25-11FFG676C utilizes the FFG676 package, a fine-pitch BGA format that maximizes I/O density while maintaining signal integrity. Operating voltage ranges from 1.2V for the core to 3.3V for I/O operations, with industrial temperature ranges supported for harsh environment applications.
The device supports multiple configuration modes including JTAG, SelectMAP, and serial configuration, providing flexibility for various system architectures. Built-in PowerPC processors and high-speed serial transceivers enable advanced system-on-chip implementations, while dedicated clock management blocks ensure precise timing control across complex designs.
Price Information
Pricing for the XC4VLX25-11FFG676C varies based on order quantity, packaging requirements, and supplier relationships. As a mature product in the Virtex-4 lineup, this FPGA typically offers excellent value for established designs requiring proven reliability and performance. Volume pricing is available for production quantities, with significant cost reductions for orders exceeding 1,000 units.
Market pricing reflects the device’s premium positioning within the Virtex-4 family, with costs influenced by current semiconductor market conditions and availability. Extended lifecycle support ensures long-term availability for critical applications, though customers should verify current pricing and lead times with authorized distributors due to market fluctuations.
Documents & Media
Comprehensive technical documentation supports the XC4VLX25-11FFG676C throughout the design cycle. The primary datasheet provides detailed electrical characteristics, timing specifications, and package information essential for system design. Pin-out diagrams and package drawings facilitate PCB layout planning, while AC/DC specifications ensure proper system integration.
Application notes cover specialized implementation topics including high-speed design techniques, power management strategies, and thermal considerations. User guides for Xilinx development tools provide step-by-step guidance for design implementation, from HDL coding through bitstream generation. Configuration guides detail programming options and debugging procedures for various system architectures.
Design examples and reference implementations demonstrate optimal usage patterns for common applications, while characterization reports provide performance benchmarks across different operating conditions. Errata documents highlight any known limitations and recommended workarounds, ensuring robust design implementation.
Related Resources
The XC4VLX25-11FFG676C integrates seamlessly with Xilinx’s comprehensive development ecosystem. ISE Design Suite provides complete design flow support, from synthesis through place-and-route optimization. ChipScope Pro enables real-time debugging and verification capabilities, while timing analysis tools ensure design closure across all operating conditions.
Development boards featuring the XC4VLX25-11FFG676C accelerate prototyping and evaluation activities. These platforms include essential support circuitry, programming interfaces, and expansion connectors for custom application development. IP core libraries provide pre-verified functions for common applications including DSP algorithms, communication protocols, and interface standards.
Training resources include online tutorials, application workshops, and technical webinars covering advanced implementation techniques. Community forums and technical support channels provide ongoing assistance throughout the design process, while migration guides facilitate upgrades to newer device families when appropriate.
Environmental & Export Classifications
The XC4VLX25-11FFG676C meets stringent environmental and regulatory requirements for industrial and commercial applications. RoHS compliance ensures lead-free manufacturing processes, while REACH certification confirms material safety standards. The device operates reliably across extended temperature ranges, with commercial grades supporting 0ยฐC to +85ยฐC ambient conditions.
Reliability testing includes extensive qualification procedures covering thermal cycling, humidity exposure, and mechanical stress conditions. Mean time between failures (MTBF) calculations support system reliability predictions, while quality metrics demonstrate manufacturing consistency across production lots.
Export classification under ECCN 3A001 requires appropriate licensing for international shipments to certain destinations. Trade compliance documentation facilitates customs clearance and regulatory approval processes. Environmental impact assessments support sustainable design practices, with recycling programs available for end-of-life device management.
Quality certifications include ISO 9001 manufacturing standards and automotive-grade qualifications where applicable. Traceability systems ensure complete material provenance and manufacturing history documentation, supporting applications requiring strict quality control and audit trails.
The XC4VLX25-11FFG676C represents proven FPGA technology with comprehensive support resources, making it an excellent choice for performance-critical applications requiring reliable, long-term availability and extensive design ecosystem support.
