The XC2VP7-7FF672C is a powerful field-programmable gate array (FPGA) from Xilinx’s Virtex-II Pro family, designed to deliver exceptional performance for demanding applications. This advanced FPGA combines high-speed processing capabilities with flexible programmability, making it an ideal choice for telecommunications, aerospace, defense, and high-performance computing applications.
Product Specification
The XC2VP7-7FF672C features a robust architecture built on advanced silicon technology. This FPGA incorporates 7,000 logic cells with embedded PowerPC processors, providing exceptional computational power and flexibility. The device operates with a -7 speed grade, ensuring fast signal processing and minimal propagation delays for time-critical applications.
Key specifications of the XC2VP7-7FF672C include configurable logic blocks (CLBs), dedicated multipliers, and block RAM resources that enable complex digital signal processing tasks. The FF672 package provides 672 pins in a fine-pitch ball grid array (FBGA) format, offering high I/O density while maintaining signal integrity. The commercial temperature grade (C) ensures reliable operation across standard industrial temperature ranges.
The XC2VP7-7FF672C supports multiple I/O standards including LVTTL, LVCMOS, and differential signaling options, making it compatible with various system architectures. Advanced features include dedicated carry chains, distributed RAM, and shift register capabilities that enhance overall system performance.
Price
Pricing for the XC2VP7-7FF672C varies based on quantity, packaging options, and supplier relationships. Contact authorized Xilinx distributors for current pricing and availability information. Volume discounts may be available for large-scale production requirements.
Documents & Media
Comprehensive documentation for the XC2VP7-7FF672C includes detailed datasheets, user guides, and application notes. The official Xilinx datasheet provides complete electrical specifications, timing parameters, and package information. Development tools such as Xilinx ISE Design Suite offer integrated support for the XC2VP7-7FF672C, including synthesis, implementation, and debugging capabilities.
Additional resources include reference designs, application notes for specific use cases, and technical support documentation. These materials help engineers optimize their designs and accelerate development timelines when working with the XC2VP7-7FF672C.
Related Resources
The XC2VP7-7FF672C is part of the broader Virtex-II Pro family, which includes various device densities and package options. Related products include other Virtex-II Pro devices such as the XC2VP4, XC2VP20, and XC2VP30, each offering different logic capacities and feature sets.
Development boards and evaluation kits are available to support rapid prototyping and system development with the XC2VP7-7FF672C. These platforms provide essential infrastructure including power supplies, clock sources, and I/O interfaces for comprehensive system testing.
Third-party IP cores and reference designs specifically optimized for the XC2VP7-7FF672C are available through Xilinx partners and the IP marketplace. These resources can significantly reduce development time and provide proven solutions for common applications.
Environmental & Export Classifications
The XC2VP7-7FF672C meets strict environmental and quality standards for commercial and industrial applications. The device is RoHS compliant and manufactured using environmentally responsible processes. Operating temperature range specifications ensure reliable performance across varying environmental conditions.
Export classification information for the XC2VP7-7FF672C is available through official Xilinx channels, as semiconductor devices may be subject to various international trade regulations. Users should verify current export control status and compliance requirements based on their specific application and geographic location.
The XC2VP7-7FF672C represents a proven solution for high-performance FPGA applications, combining advanced processing capabilities with flexible programmability to meet demanding system requirements.
