Part Number: XC6SLX25T-2CSG324C

Manufacturer: AMD

Description: IC FPGA 296 I/O 484FBGA

Shipped from: Shenzhen/HK Warehouse

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Technical Specifications of XC6SLX25T-2CSG324C

Datasheet  XC6SLX25T-2CSG324C datasheet
Category Integrated Circuits (ICs)
Family Embedded – FPGAs (Field Programmable Gate Array)
Manufacturer Xilinx Inc.
Series Spartan? 6 LXT
Part Status Active
Number of LABs/CLBs 1879
Number of Logic Elements/Cells 24051
Total RAM Bits 958464
Number of I/O 190
Number of Gates
Voltage – Supply 1.14 V ~ 1.26 V
Mounting Type Surface Mount
Operating Temperature 0°C ~ 85°C (TJ)
Package / Case 324-LFBGA, CSPBGA
Supplier Device Package 324-CSPBGA (15×15)


Welcome to the ultimate journey through the XC6SLX25T-2CSG324C FPGA, where endless options and cutting-edge technology meet. Explore the power of re-configurable wonders and use their unmatched performance and freedom to change the way you make digital designs. Let’s go on this thrilling journey together.

Overview of the XC6SLX25T-2CSG324C FPGA

Field Programmable Gate Arrays (FPGAs) have become a game-changer in the fast-paced world of modern electronics. They allow engineers and designers to make digital circuits that can be changed in many ways. Among these cutting-edge FPGAs, the XC6SLX25T-2CSG324C stands out as a great member of the Spartan®-6 LXT line. It was made by Xilinx, which was one of the first companies to make semiconductors.

Significance in Modern Electronics

FPGAs have changed the way electronics are made because they are so flexible and versatile. FPGAs are different from standard Application Specific Integrated Circuits (ASICs) in that they can be programmed and reprogrammed after they have been made. This allows for quick prototyping, customization, and adaptability to changing needs. Because FPGAs can be used in so many different ways, they are essential in many fields, such as telecommunications, automobiles, aircraft, medical devices, artificial intelligence, and more.

Key Features and Specifications of the XC6SLX25T-2CSG324C

The XC6SLX25T-2CSG324C has a lot of cutting-edge features that make it one of the best FPGAs on the market. With 190,000 logic cells, 958,464 bits of block RAM, and 240 DSP slices, this FPGA has a lot of room for complicated designs and high-performance applications. The 324-LFBGA, CSPBGA package makes good use of room and makes it easy to connect to different systems. Also, the way it uses power and how well it works make it a great choice for projects that want to find the best mix between speed and energy use.

Key Features and Specifications of the XC6SLX25T-2CSG324C FPGA

1. Logic Cells:

  • The XC6SLX25T-2CSG324C FPGA offers 190,000 logic cells, providing a substantial canvas for designing complex digital circuits.
  • Logic cells are fundamental building blocks that can implement various logic functions, enabling versatile and customizable designs.

2. DSP Slices:

  • This FPGA contains 240 dedicated Digital Signal Processing (DSP) slices.
  • DSP slices are specialized components optimized for arithmetic operations, making it ideal for applications involving signal processing, filtering, and mathematical calculations.

3. Block RAM:

  • The XC6SLX25T-2CSG324C is equipped with 958,464 bits of block RAM.
  • Block RAM is used for storing data and offers high-speed access, critical for data-intensive applications and efficient memory utilization.

4. I/O Pins:

  • It features a total of 324 I/O pins.
  • I/O pins allow the FPGA to interact with the external world, facilitating data exchange and interfacing with other components in a system.

5. Clock Management:

  • The FPGA incorporates Clock Management Tiles (CMTs) to support clock distribution and advanced clocking capabilities.
  • CMTs offer features such as frequency synthesis, phase shifting, and jitter reduction for precise clock control.

6. High-Speed Transceivers:

  • The XC6SLX25T-2CSG324C FPGA is equipped with multiple high-speed serial transceivers to handle high-speed data communication.
  • These transceivers enable data transmission at high rates, making them suitable for applications such as high-speed networking and communication systems.

7. SelectIO™ Technology:

  • SelectIO™ technology enhances the flexibility of the FPGA by allowing dynamic reconfiguration of I/O standards and voltages.
  • This feature enables seamless adaptation to various interface requirements and voltage levels.

8. Integrated Memory Controllers:

  • The FPGA includes built-in memory controllers, supporting popular memory interfaces like DDR2, DDR3, and LPDDR.
  • Integrated memory controllers simplify the interface with external memory devices, optimizing data access and system performance.

9. Configurable Logic Blocks (CLBs):

  • The XC6SLX25T-2CSG324C is comprised of configurable logic blocks (CLBs) that can be customized to implement complex logic functions.
  • CLBs allow users to design specific logic structures tailored to their applications’ unique requirements.

Applications of the XC6SLX25T-2CSG324C FPGA:

Communication Systems

  • Numerous communication devices, including wireless base stations, network switches, and routers, employ the XC6SLX25T-2CSG324C FPGA.
  • High-speed data processing capabilities provided by FPGAs enable real-time data handling, adaptable protocol support, and quick reconfiguration to evolving communication standards.

Digital Signal Processing (DSP)

  • The FPGA’s dedicated DSP slices are useful for DSP applications like audio and video processing, image recognition, and radar systems.
  • FPGA-based DSP implementations outperform general-purpose processors in DSP-intensive workloads thanks to parallel processing, optimized arithmetic operations, and higher throughput.

High-Performance Computing (HPC)

  • The XC6SLX25T-2CSG324C FPGA speeds up computing, data processing, and data encryption in HPC environments.
  • FPGA acceleration improves performance per watt, reduces latency, and allows for hardware customization to fit certain algorithms, improving system performance as a whole.

Embedded Systems

  • FPGAs provide real-time processing and system integration capabilities for embedded applications such as industrial automation, automobile control systems, and robotics.
  • By allowing designers to build hardware accelerators tailored specifically for a given application, FPGAs lessen the need for software-based solutions and improve the performance and responsiveness of the system as a whole.

Medical Devices

  • The XC6SLX25T-2CSG324C FPGA supports real-time data processing, signal filtering, and picture reconstruction in medical imaging and diagnostic equipment.
  • FPGA-based medical devices may process information more quickly, use less energy, and be customized to meet unique medical imaging needs.

Aerospace and Defense

  • The FPGA is a popular option in aerospace applications including avionics systems and satellite communications due to its radiation resistance and dependability.
  • FPGAs fulfill the demanding specifications of aerospace and defense applications with their re-programmability for in-flight upgrades, resilience in challenging conditions, and low power consumption.

Internet of Things (IoT)

  • FPGAs offer real-time data analysis and pre-processing before data transfer to the cloud in IoT devices, smart sensors, and edge computing.
  • By processing critical data locally, FPGA-based edge processing lowers latency, minimizes data transmission, and improves security.

Test and Measurement

  • For signal generation, data acquisition, and protocol emulation in test and measurement equipment, FPGAs called XC6SLX25T-2CSG324C are employed.
  • High-speed data handling, fine-grained control over test signals, and flexibility for various test scenarios are all features of FPGA-based test equipment.

FPGAs have the following benefits over conventional hardware solutions

● Reconfigurability and Flexibility

After being manufactured, FPGAs can be programmed and reprogrammed, enabling quick prototyping, design iteration, and upgrades to meet changing requirements.

● Performance and Parallelism

FPGAs offer massively parallel processing capabilities, enabling higher throughput and better performance for parallelizable algorithms compared to conventional processors.

● Customization and Tailored Hardware

FPGAs can be customized to implement application-specific hardware accelerators, leading to optimized solutions for specific tasks and improving overall system efficiency.

● Low Latency and Real-Time Processing

FPGA-based solutions excel in real-time applications, as they can process data with minimal latency, delivering faster responses and reducing time-critical processing delays.

● Power Efficiency

FPGAs can achieve higher performance per watt compared to general-purpose processors, making them suitable for power-constrained applications or energy-efficient designs.

● Integration and Reduced Components

By integrating multiple functions into a single FPGA, designers can reduce the number of components, board space, and power consumption, simplifying system design and lowering costs.

● Hardware Security

FPGAs offer inherent security advantages, as their configuration can be encrypted and protected, making it harder to reverse engineer or tamper with critical design information.


In conclusion, the XC6SLX25T-2CSG324C FPGA from Xilinx’s Spartan®-6 LXT series emerges as a true powerhouse in the realm of modern electronic systems. With a diverse range of advanced features and exceptional specifications, it stands as an unequivocal testament to innovation and adaptability, solidifying its position at the forefront of programmable logic devices.

Now is the time to take action and unlock the immense potential of this cutting-edge FPGA. Don’t miss the opportunity to experience its remarkable capabilities firsthand. Embrace innovation and propel your electronic designs to new heights by ordering the XC6SLX25T-2CSG324C from ICRFQ, the leading distributor of electronic components in China. Reach out to us without delay and witness the astonishing qualities of this FPGA that will shape the future of electronics. Your journey towards groundbreaking advancements starts here!

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