The XC5VLX50T-1FF1136I is a high-performance Virtex-5 LXT FPGA from Xilinx. It's part of the Virtex-5 family, known for its advanced features, high logic capacity, and power-efficient architecture. This FPGA is designed to meet the demands of various applications requiring substantial processing capabilities and flexible connectivity.

Applications

• Aerospace and defense systems
• High-performance computing
• Telecommunications infrastructure
• Medical imaging equipment
• Industrial automation

Features

• 52,120 logic cells
• 5.2 million equivalent ASIC gates
• 2,232 Kb of Block RAM
• 360 DSP48E slices
• 16 RocketIO GTP transceivers (3.2 Gbps)
• 1136-pin Fine-Pitch Ball Grid Array (FBGA) package
• -1 Speed Grade (Industrial Temperature Range)
• Integrated Endpoint block for PCI Express designs

Benefits

• High-performance processing capabilities
• Flexible I/O connectivity
• Reduced power consumption compared to previous generations
• Increased system integration
• Accelerated time-to-market
• Design security features
• Optimized for signal processing and embedded applications

Additional Details

The XC5VLX50T-1FF1136I FPGA offers a rich set of features, including a large number of logic cells, Block RAM, and DSP slices, making it suitable for complex algorithms and data-intensive applications. The RocketIO GTP transceivers provide high-speed serial connectivity for communication interfaces. The 1136-pin FBGA package allows for high I/O density. The device supports industrial temperature ranges, ensuring reliable operation in harsh environments. The integrated Endpoint block eases PCI Express design implementation.

The Virtex-5 family incorporates advanced power management techniques to minimize power consumption while maintaining high performance. This FPGA can be configured using Xilinx's Vivado Design Suite. Its architecture allows for both hardware and software co-design, enabling efficient system partitioning. The XC5VLX50T-1FF1136I is a versatile FPGA that offers a combination of high performance, flexibility, and power efficiency.