The XC4VLX60-10FF668C is a high-performance field-programmable gate array (FPGA) from Xilinx’s renowned Virtex-4 LX series, designed to deliver exceptional processing power and flexibility for demanding digital signal processing and logic applications. This advanced FPGA combines superior performance with outstanding versatility, making it an ideal choice for telecommunications, aerospace, defense, and industrial automation projects.
Product Specification
The XC4VLX60-10FF668C features a robust architecture built on advanced 90nm CMOS technology, delivering exceptional performance while maintaining power efficiency. This FPGA contains 60,000 logic cells with 4-input look-up tables (LUTs) and dedicated flip-flops, providing substantial computational resources for complex digital designs.
Key technical specifications of the XC4VLX60-10FF668C include 2,560 Kbits of distributed RAM and 2,592 Kbits of block RAM, ensuring ample memory resources for data buffering and storage applications. The device incorporates 64 dedicated multipliers (DSP48 slices) optimized for high-speed arithmetic operations, making it particularly well-suited for digital signal processing tasks.
The XC4VLX60-10FF668C operates across a commercial temperature range of 0ยฐC to +85ยฐC, with a speed grade of -10 indicating excellent timing performance. The FF668 package designation specifies a 668-pin Fine-Pitch Ball Grid Array (FBGA) with 1.0mm ball pitch, providing high pin density while maintaining signal integrity. The device supports multiple I/O standards including LVDS, LVTTL, and LVCMOS, offering flexible interfacing options for various system requirements.
Clock management capabilities include up to 12 Digital Clock Managers (DCMs) and 4 Phase-Locked Loops (PLLs), enabling precise timing control and clock distribution throughout the design. The XC4VLX60-10FF668C also features SelectIO technology with programmable drive strength and slew rate control, ensuring optimal signal quality across different operating conditions.
Price
The XC4VLX60-10FF668C is competitively priced within the high-performance FPGA market segment, reflecting its advanced capabilities and proven reliability. Pricing for the XC4VLX60-10FF668C varies based on quantity, packaging requirements, and specific distributor channels.
Volume pricing for the XC4VLX60-10FF668C typically offers significant cost advantages for production quantities, making it an economical choice for high-volume applications. Educational institutions and qualifying research organizations may be eligible for special academic pricing on the XC4VLX60-10FF668C.
For current pricing information on the XC4VLX60-10FF668C, contact authorized Xilinx distributors or visit official pricing portals. Many distributors offer real-time inventory availability and competitive quotations for the XC4VLX60-10FF668C, ensuring optimal procurement timing for project schedules.
Documents & Media
Comprehensive technical documentation is available for the XC4VLX60-10FF668C, including detailed datasheets, user guides, and application notes. The official Xilinx datasheet for the XC4VLX60-10FF668C provides complete electrical specifications, timing parameters, and package information essential for design implementation.
Design tools and software support for the XC4VLX60-10FF668C include Xilinx ISE Design Suite, which provides integrated synthesis, implementation, and verification capabilities. Development boards and evaluation kits featuring the XC4VLX60-10FF668C are available to accelerate prototyping and design validation processes.
Reference designs and application examples specifically targeting the XC4VLX60-10FF668C demonstrate optimal utilization of device resources and highlight best practices for implementation. Technical training materials and webinars covering the XC4VLX60-10FF668C architecture and programming techniques are accessible through Xilinx educational resources.
Related Resources
The XC4VLX60-10FF668C is part of the broader Virtex-4 LX family, which includes compatible devices with varying logic densities and feature sets. Migration paths between different Virtex-4 LX devices, including the XC4VLX60-10FF668C, are well-documented to facilitate design scalability.
Complementary products that work seamlessly with the XC4VLX60-10FF668C include configuration devices, power management solutions, and high-speed interface components. Third-party IP cores optimized for the XC4VLX60-10FF668C architecture are available from various vendors, providing pre-verified building blocks for common functions.
Development tools ecosystem supporting the XC4VLX60-10FF668C encompasses simulation software, debugging tools, and hardware verification platforms. Professional services including design consultation, training, and technical support are available for XC4VLX60-10FF668C implementations.
Environmental & Export Classifications
The XC4VLX60-10FF668C complies with RoHS (Restriction of Hazardous Substances) directives, ensuring environmental responsibility and regulatory compliance. Lead-free packaging options for the XC4VLX60-10FF668C support green manufacturing initiatives and meet international environmental standards.
Export control classifications for the XC4VLX60-10FF668C are determined by government regulations and may vary by destination country. The device’s ECCN (Export Control Classification Number) should be verified for specific international shipping requirements involving the XC4VLX60-10FF668C.
Reliability specifications for the XC4VLX60-10FF668C include MTBF (Mean Time Between Failures) ratings and qualification test results, demonstrating long-term performance stability. Quality certifications applicable to the XC4VLX60-10FF668C encompass ISO standards and automotive-grade qualifications where applicable.
Environmental operating conditions for the XC4VLX60-10FF668C are thoroughly tested and documented, including humidity tolerance, thermal cycling performance, and vibration resistance specifications. These characteristics make the XC4VLX60-10FF668C suitable for deployment in challenging operational environments while maintaining consistent performance.
