1SX280HN3F43E1VG

1SX280HN3F43E1VG Product Details

Product Overview

The 1SX280HN3F43E1VG is part of Intel's Stratix 10 FPGA family, offering unmatched performance, flexibility, and scalability for advanced computing solutions. Built on Intel’s HyperFlex™ FPGA architecture and 14nm FinFET process technology, it delivers high logic density, integrated ARM processors, and ultra-fast transceiver bandwidth, making it ideal for high-performance computing, networking, and other complex embedded system applications. This FPGA is well-suited for industries requiring high-speed data processing, power efficiency, and reconfigurability.

Key Features and Advantages

• HyperFlex™ FPGA Architecture: Provides superior performance and power efficiency compared to previous architectures.

• High Logic Density: Up to 280,000 logic elements for handling complex logic operations and parallel processing.

• Integrated Hard Processor System (HPS): Includes ARM Cortex-A53 processors for integrated CPU-FPGA solutions.

• Ultra-fast Transceivers: Supports data rates of up to 28.3 Gbps, ideal for high-bandwidth applications.

• High Bandwidth Memory (HBM): Integrated HBM2 offers fast, efficient data processing, essential for memory-intensive tasks.

• Partial Reconfiguration: Enables dynamic changes to the FPGA logic, allowing optimized performance in evolving applications.

• Energy Efficiency: Designed to minimize power consumption, making it suitable for energy-conscious deployments.

Specifications

Application Areas

• Data Centers: Ideal for accelerating workloads such as AI inference, machine learning, and real-time data analytics. Its high bandwidth memory and FPGA flexibility make it a key component in cloud-based infrastructure.

• Telecommunications: Deployed in 5G networks to handle high-speed data processing and low-latency communication, especially in signal processing units and baseband stations.

• Aerospace and Defense: Used for advanced radar systems, signal intelligence, and satellite communications where high-performance computing and reliability are critical.

• Automotive: Suitable for autonomous driving systems that require real-time image and sensor processing to support decision-making algorithms in ADAS (Advanced Driver Assistance Systems).

• Medical Imaging: In medical devices like MRI and CT scanners, it supports real-time image reconstruction and data analysis.

Usage Scenarios

• Cloud-based Computing: Employed in cloud data centers for real-time analytics and machine learning applications. The FPGA's reconfigurable architecture allows service providers to optimize performance for a variety of workloads.

• 5G Wireless Infrastructure: Powers the signal processing and baseband components in 5G networks, enabling high data throughput and ultra-low latency necessary for high-demand applications.

• High-performance Signal Processing: In defense applications such as radar systems, the 1SX280HN3F43E1VG provides the computational power needed to handle large volumes of signal data in real-time.

Shipping and Transportation Methods

• DHL Express: Provides reliable and fast international shipping within 1-3 business days, with advanced tracking and efficient customs clearance. Best for high-priority shipments.

• FedEx International Priority: Offers fast international delivery (1-3 business days) with comprehensive tracking and high customer support, ideal for urgent shipments.

• UPS Worldwide Express: A reliable solution for international shipping within 1-3 business days, balancing speed and cost, suitable for moderately urgent shipments.

• TNT Economy Express: Typically offers delivery within 3-6 business days, making it a more cost-effective solution for non-urgent deliveries, without sacrificing reliability.

FAQs

Q1: What is the maximum data rate supported by the transceivers?
The 1SX280HN3F43E1VG supports transceiver speeds of up to 28.3 Gbps, suitable for high-speed data applications.

Q2: Can the FPGA be partially reconfigured while in operation?
Yes, it supports partial reconfiguration, enabling dynamic updates to specific regions of the FPGA without disrupting the entire system.

Q3: What are the main advantages of using HBM2 in this FPGA?
HBM2 provides significantly faster data throughput compared to traditional memory solutions, improving the performance of memory-intensive applications such as AI/ML workloads and real-time analytics.