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10AX115U3F45E2LG

10AX115U3F45E2LG

Manufacturer No:

10AX115U3F45E2LG

Manufacturer:

Intel

Description:

IC FPGA 480 I/O 1932FCBGA

Datasheet:

Datasheet

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10AX115U3F45E2LG Specifications

  • Type
    Parameter
  • Number of LABs/CLBs
    427200
  • Supplier Device Package
    1932-FCBGA (45x45)
  • Package / Case
    1932-BBGA, FCBGA
  • Operating Temperature
    0°C ~ 100°C (TJ)
  • Mounting Type
    Surface Mount
  • Voltage - Supply
    0.87V ~ 0.93V
  • Number of I/O
    480
  • Total RAM Bits
    68857856
  • Number of Logic Elements/Cells
    1150000
  • DigiKey Programmable
    Not Verified
  • Packaging
    Tray
  • Product Status
    Active
  • Series
    Arria 10 GX
The 10AX115U3F45E2LG integrated circuit chips, also known as FPGA (Field-Programmable Gate Array) chips, have several advantages and application scenarios. Here are some of them:Advantages: 1. Programmability: FPGA chips can be reprogrammed or reconfigured to perform different functions, making them highly flexible and adaptable. 2. High-performance: These chips offer high-speed processing capabilities, making them suitable for applications that require real-time data processing or complex computations. 3. Parallel processing: FPGA chips can perform multiple tasks simultaneously, thanks to their parallel processing architecture, which enables efficient execution of algorithms. 4. Customization: FPGA chips can be customized to meet specific application requirements, allowing designers to create unique solutions tailored to their needs. 5. Low power consumption: Compared to traditional processors, FPGA chips can be more power-efficient, making them suitable for battery-powered devices or energy-conscious applications. 6. Scalability: FPGA chips can be easily scaled up or down, allowing for the implementation of complex systems on a single chip or integration with other components.Application scenarios: 1. Digital signal processing: FPGA chips are commonly used in applications such as audio and video processing, image recognition, and compression/decompression algorithms. 2. Communications and networking: These chips are used in routers, switches, and network equipment to handle data packet processing, encryption/decryption, and protocol implementation. 3. Industrial automation: FPGA chips find applications in industrial control systems, robotics, and machine vision, where they can perform real-time control, sensor interfacing, and data acquisition. 4. Aerospace and defense: FPGA chips are used in radar systems, avionics, and military equipment for signal processing, encryption, and secure communication. 5. Internet of Things (IoT): FPGA chips can be integrated into IoT devices to handle sensor data processing, edge computing, and connectivity protocols. 6. High-performance computing: FPGA chips are utilized in scientific research, data centers, and supercomputing applications to accelerate computations, data analytics, and machine learning algorithms.These are just a few examples, and the versatility of FPGA chips allows them to be applied in various other domains where high-performance, flexibility, and customization are required.
10AX115U3F45E2LG Relevant information