XC6VLX130T-1FF1156C: High-Performance Virtex-6 FPGA for Advanced Applications

Product Specifications

The XC6VLX130T-1FF1156C features robust specifications that meet the requirements of complex digital designs:

Logic Resources:

• 130,800 logic cells providing extensive programmable logic capacity
• 20,400 slices for flexible logic implementation
• 81,600 flip-flops for sequential logic operations
• 326,400 LUTs (Look-Up Tables) for combinational logic

Memory Configuration:

• 264 Block RAM/FIFO blocks totaling 4.9 Mb of embedded memory
• Dual-port RAM capability for simultaneous read/write operations
• Configurable memory depths and widths

DSP Performance:

• 192 DSP48E1 slices optimized for high-performance signal processing
• 25×18 multipliers with accumulator functionality
• Supports complex mathematical operations at high clock frequencies

I/O and Connectivity:

• FF1156 package with 1156 pins in Fine-Pitch Ball Grid Array format
• 600 user I/O pins supporting various voltage standards
• Multiple clock management tiles (CMTs) for precise timing control

Speed Grade:

• Speed grade -1 offering balanced performance and power consumption
• Operating frequencies up to 600 MHz for high-speed applications

Price

The XC6VLX130T-1FF1156C pricing varies based on quantity, supplier, and market conditions. Contact authorized Xilinx distributors for current pricing information and volume discounts. Educational institutions and qualifying organizations may be eligible for special pricing programs.

Documents & Media

Essential documentation for the XC6VLX130T-1FF1156C includes:

Technical Documentation:

• Virtex-6 Family Data Sheet with complete electrical specifications
• XC6VLX130T-1FF1156C device-specific datasheet
• Package and pinout information for FF1156 BGA package
• AC switching characteristics and timing specifications

Design Resources:

• Xilinx ISE Design Suite compatibility information
• Vivado Design Suite migration guidelines
• Reference designs and application notes
• Power estimation and thermal management guides

Development Tools:

• ChipScope Pro analyzer support documentation
• Embedded development kit (EDK) compatibility
• IP core integration guidelines

Related Resources

The XC6VLX130T-1FF1156C integrates seamlessly with Xilinx’s comprehensive ecosystem:

Development Boards:

• Virtex-6 LXT ML605 evaluation platform
• Custom development boards from third-party vendors
• Prototyping solutions for rapid design validation

Software Tools:

• Xilinx ISE Design Suite for synthesis and implementation
• Vivado Design Suite for next-generation design flows
• SDK (Software Development Kit) for embedded processor designs

IP Cores:

• LogiCORE IP portfolio for common functions
• Memory controllers and interface IP
• DSP and communications IP blocks

Support Resources:

• Xilinx technical support and community forums
• Application-specific reference designs
• Training materials and certification programs

Environmental & Export Classifications

The XC6VLX130T-1FF1156C meets stringent environmental and regulatory standards:

Environmental Compliance:

• RoHS (Restriction of Hazardous Substances) compliant
• Lead-free package construction
• REACH regulation compliance for European markets
• Conflict minerals reporting compliance

Operating Conditions:

• Commercial temperature range: 0°C to +85°C junction temperature
• Industrial temperature variants available upon request
• Specified voltage and current requirements for reliable operation

Export Classifications:

• Export Control Classification Number (ECCN) as designated by US regulations
• Suitable for commercial and industrial applications worldwide
• Compliance with international trade regulations and restrictions

Quality Standards:

• Manufactured in ISO-certified facilities
• Automotive-qualified variants available for vehicular applications
• Military and aerospace grade options for critical applications

The XC6VLX130T-1FF1156C represents a proven solution for engineers developing high-performance electronic systems requiring substantial logic resources, integrated transceivers, and reliable operation across diverse environmental conditions. Its combination of processing power, flexibility, and comprehensive development support makes it an excellent choice for advanced FPGA-based designs.