1SX280LU2F50E1VGAS

1SX280LU2F50E1VGAS Product Details

Product Overview

The 1SX280LU2F50E1VGAS is part of Intel's Stratix® 10 family of FPGAs and SoCs. It offers ultra-high performance and dense programmable logic, making it ideal for complex, compute-intensive applications. Built on Intel’s HyperFlex™ FPGA architecture and using advanced 14 nm FinFET technology, it delivers unparalleled speed and efficiency for a wide range of industries. This FPGA integrates transceivers, DSP blocks, memory blocks, and other critical resources, enabling high-bandwidth processing and scalability for advanced designs in industries such as telecommunications, data centers, aerospace, and defense.

Key Features and Advantages

• HyperFlex™ Architecture: Enables enhanced clocking and increased logic density, resulting in higher performance and lower power consumption.

• Advanced FinFET Technology: Fabricated using 14 nm FinFET process, which reduces power consumption and enhances performance.

• Integrated Transceivers: Provides multi-gigabit transceivers, supporting high-speed communication and signal integrity.

• High DSP Density: Optimized for high-performance digital signal processing tasks, ideal for applications like video processing and machine learning.

• Large Memory Resources: Includes embedded memory blocks for efficient data storage and access, supporting complex algorithms and high-speed processing.

• Configurable I/O: Offers flexible I/O interfaces to support various communication protocols and standards, adaptable to a wide range of system requirements.

Specifications

Application Areas

The 1SX280LU2F50E1VGAS is designed for use in high-performance computing environments across various industries:

• Telecommunications: Used in 5G networks for baseband processing, providing high throughput and low latency, supporting real-time data transmission and signal processing.

• Data Centers: Essential for data center acceleration, handling workloads such as AI/ML inference, networking, and storage in cloud infrastructure.

• Aerospace and Defense: Applied in radar systems, satellite communication, and signal processing in military applications, offering reliability and processing power under extreme conditions.

• Medical Imaging: Ideal for complex image processing tasks in CT scans, MRIs, and ultrasound systems where high-performance computing is necessary for accurate imaging.

Usage Scenarios

• 5G Network Infrastructure: The FPGA can be used in 5G base stations to handle massive amounts of data in real-time, providing the necessary computing power for high-speed data transmission.

• AI/ML Acceleration in Data Centers: In data center environments, the 1SX280LU2F50E1VGAS can be used to accelerate machine learning tasks, enabling faster data processing and real-time decision-making.

• Military Radar Systems: The FPGA is capable of handling large volumes of radar data, processing signals for target detection and tracking in defense systems.

• Medical Image Processing: Integrated into medical imaging equipment, this FPGA enables real-time image processing for high-resolution CT or MRI scans, improving diagnostic accuracy.

Shipping and Logistics

• DHL Express: Known for fast international delivery, DHL offers tracking and secure handling for urgent shipments.

• FedEx International Priority: Provides expedited shipping services with a strong global network, making it a reliable option for time-sensitive deliveries.

• UPS Worldwide Express: Offers secure and reliable shipping with fast delivery times, suitable for critical components requiring timely arrival.

• TNT Express: Commonly used in Europe, providing cost-effective delivery with slightly slower shipping times compared to DHL or FedEx.

• EMS (Express Mail Service): Budget-friendly and widely available, though slower than premium services like DHL or UPS, it is ideal for less urgent shipments.

Frequently Asked Questions (FAQs)

1. What applications is the 1SX280LU2F50E1VGAS best suited for?
   This FPGA is ideal for high-performance, compute-intensive applications such as telecommunications, data centers, aerospace, and medical imaging.

2. What is the maximum clock frequency supported by this FPGA?
   The 1SX280LU2F50E1VGAS supports a maximum clock frequency of up to 1 GHz, enabling high-speed data processing.

3. How does the 14 nm FinFET process improve performance?
   The 14 nm FinFET process reduces power consumption while increasing the performance, enabling the FPGA to handle more complex tasks efficiently.

4. What is the maximum number of logic elements available?
   The FPGA contains 2.8 million logic elements, providing significant computing resources for demanding applications.