Product Specification
The XC4VSX35-10FFG668C is a premium Virtex-4 SX series Field-Programmable Gate Array (FPGA) manufactured by Xilinx, engineered for demanding digital signal processing and high-performance computing applications. This advanced FPGA delivers exceptional processing capabilities with its optimized architecture designed for math-intensive operations.
Key Technical Specifications:
- Device Family: Virtex-4 SX series
- Logic Cells: 35,040 logic cells providing substantial processing power
- Package Type: FFG668 – Fine-pitch Ball Grid Array with 668 pins
- Speed Grade: -10 (fastest speed grade available)
- Operating Temperature: Commercial grade (0ยฐC to +85ยฐC)
- Supply Voltage: 1.2V core, 2.5V/3.3V I/O
- DSP Slices: 192 dedicated DSP48 slices for high-performance arithmetic operations
- Block RAM: 1,728 Kb of distributed memory
- I/O Standards: Support for multiple I/O standards including LVDS, SSTL, HSTL
The XC4VSX35-10FFG668C features advanced 90nm process technology, delivering superior performance per watt while maintaining excellent signal integrity for mission-critical applications.
Price
Pricing for the XC4VSX35-10FFG668C varies based on quantity, distributor, and current market conditions. This premium FPGA typically falls within the mid-to-high range of Virtex-4 pricing due to its advanced capabilities and commercial-grade specifications.
For current pricing information and volume discounts on the XC4VSX35-10FFG668C, contact authorized Xilinx distributors or electronic component suppliers. Educational and development quantities may qualify for special pricing programs.
Documents & Media
Essential Documentation:
- XC4VSX35-10FFG668C Product Brief and Datasheet
- Virtex-4 FPGA User Guide and Configuration Guide
- Package and Pinout Documentation (FFG668)
- Power and Thermal Management Guidelines
- Programming and Configuration Reference Manual
Development Resources:
- Xilinx ISE Design Suite compatibility information
- Reference designs and application notes
- Simulation models and timing specifications
- PCB design guidelines and layout recommendations
Technical Support Materials:
- Errata documentation and silicon revision notes
- Migration guides from previous FPGA generations
- Troubleshooting and debug resources
Related Resources
Development Tools:
- Xilinx ISE Design Suite (compatible versions)
- ChipScope Pro Analyzer for real-time debugging
- EDK (Embedded Development Kit) for embedded processor designs
- ModelSim simulation environment support
Compatible Components:
- Virtex-4 configuration memory devices
- Power management ICs optimized for Virtex-4 FPGAs
- High-speed transceivers and interface components
- Development boards featuring XC4VSX35-10FFG668C
Application Areas:
- Digital signal processing systems
- Communications infrastructure equipment
- Medical imaging and diagnostic equipment
- Aerospace and defense applications
- High-performance computing accelerators
Environmental & Export Classifications
Environmental Compliance:
- RoHS compliant (lead-free manufacturing process)
- REACH regulation compliance
- Conflict minerals reporting compliance
- ISO 14001 environmental management certification
Operating Conditions:
- Commercial temperature range: 0ยฐC to +85ยฐC
- Humidity: 5% to 95% non-condensing
- Altitude: up to 2000 meters above sea level
Export Control Information:
- ECCN (Export Control Classification Number): Classified under US export regulations
- Country of origin: Manufactured in Xilinx-certified facilities
- Export licensing may be required for certain destinations
- Consult current export regulations before international shipment
Quality and Reliability:
- AEC-Q100 automotive qualification available in select variants
- JEDEC standard compliance for package and testing
- Statistical quality control and reliability testing
- Comprehensive failure analysis and quality reporting
The XC4VSX35-10FFG668C represents a pinnacle of FPGA technology, combining high-performance processing capabilities with robust design features essential for today’s most demanding applications. Its advanced architecture and comprehensive development ecosystem make it an ideal choice for engineers developing next-generation digital systems requiring exceptional computational performance and flexibility.
