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1SG280HU3F50I3VG Specifications
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TypeParameter
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Supplier Device Package2397-FBGA, FC (50x50)
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Package / Case2397-BBGA, FCBGA
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Operating Temperature-40°C ~ 100°C (TJ)
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Mounting TypeSurface Mount
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Voltage - Supply0.77V ~ 0.97V
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Number of I/O704
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Number of Logic Elements/Cells2800000
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Number of LABs/CLBs350000
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DigiKey ProgrammableNot Verified
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PackagingTray
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Product StatusActive
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SeriesStratix® 10 GX
The 1SG280HU3F50I3VG integrated circuit (IC) chips, also known as field-programmable gate arrays (FPGAs), have several advantages and application scenarios:Advantages: 1. High Performance: The 1SG280HU3F50I3VG chips offer high-speed processing capabilities, making them suitable for applications that require real-time data processing and high-performance computing. 2. Flexibility: FPGAs are programmable, allowing users to configure the chip's functionality according to their specific requirements. This flexibility makes them ideal for prototyping and development of custom hardware solutions. 3. Parallel Processing: FPGAs can perform multiple tasks simultaneously, thanks to their parallel processing architecture. This feature is advantageous for applications that involve complex algorithms or require high computational power. 4. Low Power Consumption: Compared to traditional processors, FPGAs consume less power while delivering similar or even better performance. This makes them suitable for applications where power efficiency is crucial, such as portable devices or battery-powered systems. 5. Reconfigurability: FPGAs can be reprogrammed multiple times, allowing for easy updates or modifications to the chip's functionality without the need for hardware changes. This feature is beneficial for applications that require frequent updates or adaptability to changing requirements.Application Scenarios: 1. Digital Signal Processing (DSP): FPGAs are widely used in DSP applications, such as audio and video processing, image recognition, and telecommunications. Their parallel processing capabilities and high-speed data processing make them suitable for real-time signal processing tasks. 2. High-Performance Computing (HPC): FPGAs can be used in HPC applications that require massive computational power, such as scientific simulations, data analytics, and machine learning. Their ability to perform parallel processing and accelerate specific algorithms makes them valuable in these domains. 3. Embedded Systems: FPGAs are commonly used in embedded systems, where they can be customized to meet specific requirements. They find applications in areas like automotive electronics, industrial automation, robotics, and aerospace, providing real-time control, data acquisition, and processing capabilities. 4. Prototyping and Development: FPGAs are often used in the early stages of hardware development to prototype and validate custom designs. Their flexibility and reconfigurability allow engineers to quickly iterate and test different functionalities before committing to a specific hardware implementation. 5. Cryptography and Security: FPGAs can be utilized in cryptographic applications, such as encryption/decryption, secure communication protocols, and hardware security modules. Their parallel processing capabilities and ability to implement complex algorithms make them suitable for these security-sensitive tasks.It's important to note that the specific advantages and application scenarios of the 1SG280HU3F50I3VG chips may vary depending on the requirements and design choices made by the user.
